Histology Exam 1 (mod. 1-7)

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all of the types of cartilage all look different and have different functions based on the type of --

ECM - in particular, the types of fibers they have

during the contracts, the what happens to the I band, Z band, and A band

I band shortens by a lot Z bands come closer together A bands remain the same length always

what are glycogen rosettes

In liver cells, cytoplasmic granules of glycogen group together to form rosettes, frequently in close proximity to smooth endoplasmic reticulum.

in columnar cells, the cytoplasm is...

MORE abundant usually (b/c tall cells with lots of room above the nucleus) and above the nucleus

appositional growth is only possible for cartilage that have a --

a perichondrium

TEM produces a

a picture in 2D

SEM produces a

a picture in 3D

the haversian canal is lined by

a single layer of cells called the osteogenic layer

in between acini there is

a small amount of CT

what is Periodic acid-Schiff (PAS)?

a specific stain that stains all sugar molecules, but especially mucous

because microtubules are polymerized from basal bodies, basal bodies are present...

at the base of each cilium (singular cilia) but in the cytoplasm

basal part of the cell is located

at the bottom of the cell (for epithelial cells, this is near the basement membrane)

what is the core of a microtubule called

axoneme

why is the I band less dark?

b/c actin filaments are so thin we don't see them individually

why does ground substance often appear clear?

b/c it is removed by the solvents we used in the embedding step of tissue processing

mesenchymal CT is found...

b/t the organs in the embryo

a -- pattern form in -- fibers, but does not form in -- fibers

banding pattern forms in collagen fibers but not in elastic fibers

microtubules are polymerized from --

basal bodies

the basement membrane is made up of

basal lamina and reticular lamina

what is histochemistry based on?

based on chemical affinities between the components of the cells and the dyes used

basement membrane is the term used at -- while basal lamina is the term used at --

basement membrane = term used at light level basal lamina = term used at EM level

we typically use 2 types of dyes in general, which are

basic dyes and acidic dyes

are chondroblasts eosinophilic or basophilic

basophilic

because they have so much RER, osteoblasts are extremely

basophilic

calcified cartilage is --(philicity)?

basophilic

is the nucleus acidophilic or basophilic

basophilic

purple coloring in H&E is

basophilic

serous glands stain --

basophilic

the different GAGs in the cartilage ground substance is -- (philicity)?

basophilic

when something is stained with hematoxylin it is called

basophilic

what is the philicity of territorial ECM? why?

basophilic b/c it has less collagen and more glycosaminoglycans

in a cell, the basophilic elements are --(adj) and in particular they are

basophilic elements are acidic and in particular they are the nucleic acids

basic dyes stain molecules, elements, and structures in the cells that are -- elements, meaning...

basophilic elements, meaning they are attracted to the basic dyes

what shape/appearance do mitochondira typically take on

bean shaped with cristae that are perpendicular to the long axis of mitochondria - but this is not always the case

why would there be fibroblasts among the adipocytes

because each adipocyte is also surrounded by reticular fibers (which fibroblasts synthesize)

why is the BM so thick?

because in some parts of the body, the BMs b/t cells will fuse, making the BM thicker

why do we use osmium tetroxide as a heavy metal?

because it has an affinity for the heads in the phospholipid bilayer of the membrane

why is non-lamellar bone also called primary bone sometimes

because it is newly formed bone - it's the bone that forms before it gets mineralized

why might the cells of brown adipose tissue have lots of mitochondria

because it's involved with heat production

hematoxylin stains nuclei what color

blue according to a lab video we watched (produced by another company)

what is the color of hyaline cartilage

bluish, opalescent color (glass looking ends of bones in chicken)

what is the origin of mast cells

bone marrow stem cells

both the osteons and the neurovascular bundles -- in tunnels that are...

both branch into tunnels that are perpendicular to the long axis of the bones and known as volkmann's canals

canaliculi can be very -- which means the filopodia can be very --> this is how osteocytes connected with different lamellae --

both can be very long; how osteocytes connected with dif. lamellae communicate

the liver is made up of what kind of epithelium

both covering and glandular - the middle is glandular and the outer parts/linings are covering

all of the characteristics I described above for multicellular glands applies to

both endocrine and exocrine glands

there are acini in what types of glands

both serous and mucous

if the secretory portion divides it is called

branched

microvili can also be referred to as the -- --

brush border or striated (brush) border

the nucleus is limited by a -- so it has....

by a nuclear envelope - so it has 2 membranes

how is the stain differentiated ultimately?

by placing the sections in acid-alcohol until the structure you want to see is stained and all other parts of the tissue are colorless

what is a cementing line?

calcified ground substance in between the osteons

normally, elastic cartilage does not --? related to ossification

calcify

removing the inorganic material on the other hand would entail removing the

calcium and phosphorus

the peri space is how the -- and -- circulate

calcium and phosphorus

the inorganic part of the matrix forms when..

calcium and phosphorus deposit hydroxyapatite crystals on the collagen type 1 fibers

in the middle of the nucleus, there is a structure called the -- and its job is to...

called the nucleolus - job is to assemble the ribosomes

in vitro, fibroblasts can act like -- and remain --

can act like stem cells and remain multi-potential

type 1 can be different -- and associate in different --

can be dif. sizes and associate in dif. sized bundles

in terms of elasticity, the ECM in cartilage can be firm to allow for -- or could be elastic or could bear...

can be firm to allow for compression or could be elastic or can bear mechanical stress - each of these 3 functions corresponds to a different type of cartilage

the nucleus can be -- and in the -- of the cell, but we also see that most cells are not....

can be round and in the center of the cell, but most cells are not round and neither is their nucleus nor is it centered

elastic fibers can -- or can form -- (regarding how they are organized)

can branch or can form sheets

healthy hyaline cartilage can -- which is normal during ossification

can calcify

sometimes the chemical fixative can cause -- as an artefact

can cause clumping of proteins

mitochondria can come in different -- and cristae may be...

can come in different shapes and cristae may be tightly packed or tubular

lamellar bone can either be -- or -- but both have a --

can either be cancellous bone or compact bone, but both have a lamellated matrix

epithelial cells can have -- specializations - what are the 3 types?

can have luminal surface specializations - 3 types are microvili, cilia/flagella, and stereocilia

immunocytochemistry can indicate -- and it is called "immuno" because..

can indicate activities called immuno because it's antibody based and we're interested in a specific antigen

elastic fibers can -- and -- so they are found in places that need elasticity like the -- or in the --

can stretch and recoil so they are found in places that need elasticity like the aorta or in the dermis

in a cross-section of epithelium we cannot see the -- which makes the epithelium difficult to ID in cross-sections

can't see a lumen in the epithelium in a cross-section

the endosteum also lines both types of --

canals, which are the haversian canals and the volksmann's canals

there are 2 major types of bone, which are

cancellous bone compact bone

without calcium, actin and myosin...

cannot interact

once the cells become hypertrophic and switch to synthesizing a dif. type of cartilage, they cannot maintain the -- anymore so the cartilage will --

cannot maintain the cartilaginous matrix anymore so the cartilage will calcify

ex. of dense irregular CT

capsule (of what?? lol)

the outer fibrous layer of the periosteum is the layer that

carries the nerves, BVs, and fibers etc

blood vessels carry -- cells and -- as they penetrate the matrix. upon penetration, the -- start...

carry osteogenic cells and osteoclasts as they penetrate the matrix. upon penetration, the osteoclasts start resorbing the calcified matrix

all of the zones we discuss refer to -- rather than bone

cartilage

different types of college fibers are in different types of

cartilage

using hyaline cartilage as a template works really well because... and it's important for the fetus because...

cartilage can grow really fast, both in bulk and length and this allows the fetus to grow - the cartilage is able to grow appositionally or interstitially

appositional growth means that the cart will -- and allow growth in --

cartilage will build up and will allow growth in girth (width)

if the limit of the cells CANNOT be readily seen it means that the cell has formed -- meaning it...

cell has formed interdigitations, meaning it folds and because of that, from far away, we don't see a clear limit between the cells

inside of one fascicle you see many --

cells

what are the components of CT

cells extracellular matrix

because it is CT, bone is made up of -- and --

cells and ECM

because cartilage is CT that means it is made up of

cells and an ECM

how does the nucleus appear in mast cells?

cells show a CENTRAL, spherical nucleus with a conspicuous nucleolus

an acinus is formed by

cells that almost look triangular (like slices of a pizza, where the pizza is the acinus)

when the outer fibrous layer of the periosteum has typical fibroblasts, the inner part of the periosteum has...

cells that can differentiate into the cells that form the osteoid

chondrogenic cells are able to differentiate into

cells that make the matrix for the cartilage

what are the component of cartilage

cells, matrix, and perichondrium

where there is bone attachment, you will often see a

cementing line so learn to associate this with fibrocartilage since fibrocartilage is commonly found there

fibroblasts might differentiate into other types of cells like

chondroblasts

anywhere there's anticipated excessive tensile forces and you think they're fibroblasts, they're probably actually

chondrocytes

in the zone of calcification, cells become-- and they die and when they die they can no longer maintain the -- so it will --.

chondrocytes become hypertrophic and they die and when they die they can no longer maintain the cartilaginous matrix so it will calcify

what kind of tissue is typical with fibroblasts and collagen?

dense irregular CT

each fascicle is limited by

dense irregular CT more or less but it depends on the size - this is known as the perimysium

collagen type 1 fibers are associated with -- tissue

dense irregular tissue

reticular fibers can be described as -- because they stain with silver --

described as argyrophylic bc they stain with silver salts

transitional epithelium can be described as -- since it is only found in the

described as uroepithelial since it's only found in the urinary system

at the EM level, we see anchoring junctions as a

desmosome

SER is involved with (3 functions)?

detoxification synthesis of steroids storing calcium in muscle cells

special stains are absolutely critical for the diagnosis of -- and -- diseases. this is truly the ONLY way to make this diagnosis

diagnosis of bacterial and fungal diseases

as the fetus/cartilage template grows, the cells in the center of the bone begin to -- at some point and that's when they become hypertrophic and start synthesizing a dif. type of cartilage

die

as the fetus/cartilaginous model grows, the cells in the center of the bone will -- at one point

die

in holocrine glands, cells that produce the product...

die and when they die, they discharge the product

with merocrine secretion, the whole cell --

dies

osteoblasts differentiate into -- but these are not -- osteoblasts

diff. into osteocytes but osteocytes are not quiescent osteoblasts

different types of collagen fibers can be stained with

differential stains - really useful in lab

euchromatin

diffused chromatin - transcriptionally active

if CE is not vascularized that means it receives its O2 and nutrients based on

diffusion from underneath since blood vessels do run through CT

each muscle is organized as a bunch of

fascicles

if it is a large muscle, there will be many -- but if it is a small muscle there will be less

fascicles

adipocytes are -- cells

fat cells

collagen is synthesized by

fibroblasts

it is really hard to differentiate chondrogenic cells from --

fibroblasts

it would be easy to confuse the nuclei of unilocular adipose tissue cells with the nuclei of -- among adipocytes

fibroblasts

what is the most abundant cell type in the CT

fibroblasts

when they are active, fibroblasts are referred to as

fibroblasts

what kind of cells synthesize reticular fibers (or type 3 fibers)

fibroblasts - can be called reticular cells but NOT reticulocytes

because the endomysium has reticular fibers it also must have..

fibroblasts and capillaries

the nuclei of all these cells in loose CT are probably mostly nuclei of -- but could also be...

fibroblasts but could also be transient depending on the health status of the individual

elastic fibers are synthesized by?

fibroblasts, but also by smooth muscle cells to some extent like in the case of blood vessels

mesenchyme differentiates into...

fibroblasts, chondrocytes, osteocytes, or blood cells

which type of cartilage is the one that can bear mechanical stress?

fibrocartilage

when they are quiescent/inactive, the cells are referred to as

fibrocytes (quiescent fibroblasts)

elastic cartilage has a -- appearance

fibrotic

the outer layer of the perichondrium contains

fibrous tissue with type I collagen fibers

microfilaments

fine strands of the protein actin - very very thin

in hyaline cartilage, the ECM is

firm

what are the steps of preparation of material for histology? (6 steps)

fixation dehydration/clearing embedding (paraffin/resin) sectioning staining mounting

resident cells are -- in CT all of the time and are all derived from...

fixed in CT all of the time and are all derived from undifferentiated mesenchymal cells during development in the embryo (so basically like stem cells)

fibroblasts rarely divide unless the tissue is involved in

fixing damage like scar tissue for example

squamous cells tend to be -- (shape). describe the shape of the nucleus and cytoplasm

flat cells. the nucleus is elongated and very flat. cytoplasm is extremely thin and spread out so the nucleus bulges out like a fried egg

what is the shape of osteoprogenitor cells

flat, spindle-shaped

what's an example of a situation where frozen sectioning would be used

for biopsy diagnosis

sometimes macrophages can fuse and form

foreign-body giant cells that are sometimes multi-nucleated

once the mold with the specimen/paraffin in it cools, it'll form a -- that can be

form a block that can be sectioned using a microtome

bone can be formed via -- ossification, and this is the process that occurs in flat bones like..

formed via intramembranous ossification. happens in flat bones like the skull, shoulder blades, clavicle etc and it happens in the bone collar on long bones

you will find reticular fibers forming the -- of many --

forming the stroma of many glands/lymphoid organs

hyaline forms the -- cartilage in joints at the end of the --

forms the articular cartilage in joints at the end of the ribs/sternum

examples of where you'd find fibrocartilage in the body

found b/t tendons and ligaments (like attaching onto bones) found in pubic symphysis in meniscus of the knee in intervertebral discs

type I collagen fibers are found in -- and are the most -- type

found in CT proper and are the most abundant type

mature CT is found in the -- and is subdivided into 2 categories, which are

found in the adult and is subdivided into connective tissue proper and specialized CTs

brown adipose tissue gets its pigment from -- which are naturally occurring...

from lipochromes - a naturally occurring, fat-soluble pigment

EO occurs from the time we are a -- to the time we are a few years into --. this is how we...

from time we are a fetus to a few years into adulthood. this is how we grow after we're born

parenchyma is the -- material of a gland

functional material

in the zone of calcification, the lacunae..

fuse and the cells die - they are invaded by osteogenic cells

myoblasts -- end to end and that's why they become --

fuse end to end and that's why they become multi-nucleated

shape of fibroblasts

fusiform - cell is pointy on both sides

-- form at the ends to the filopodia

gap junctions

the fibroblasts will give rise to -- according to their levels of activity, while chondrocytes, osteocytes, or blood cells give rise to

give rise to CT proper last 3 cell types give rise to specialized CTs

when you have things that are PAS+ it shows you probably have more -- tissue

glandular

at the EM level, the SER looks much more

globular and irregular than RER

the ground substance allows the cells/fibers to...

glue together to form a connective tissue

the trabeculae go in certain -- depending on the -- placed upon the bone

go in certain directions depending on the mechanical loads placed upon the bone

the max resolution in a TEM is -- so we can see things like

goes up to 1 nm so can see things like the phospholipid bilayer

you can also use gold beads of -- so you can tag different things on...

gold beads of different sizes so you can tag different things on the same structure

what stain is usually used for bacteria? what's an exception to this?

gram stain - H pylori is an exception (other stains than just gram stain can be used on this bacteria)

mast cells produce lots of...

granules that contain heparin, histamines, etc (things we fight when we have allergies)

a goblet cell is a great example of a -- cell because the product droplets push...

great example of a polarized cell because the product droplets push down the nucleus to the base of the cell

basic dyes are usually what color

green/blue/ purple

you are able to se the canaliculi really well in

ground bone

when staining CT with H&E, the ground substance appears -- while the fibers appear --

ground substance = clear fibers = eosinophilic (so pinkish red)

the extracellular matrix in CT is made up of

ground substance and fibers

glycosaminoglycans (GAGs)

groups of sugar molecules

in the zone of maturation/hypertrophic chondrocytes, the lacunae and cell --

grow

interstitial growth allows for growth in --

growth in length (horizontal growth - grows side to side, spreading in either direction)

What is a hemidesmosome?

half of a desmosome that occurs at the base of epithelial cells that attach the epithelium to the underlying connective tissue

at the light level, college has -- aspects and is very -- (philicity) material

has wavy aspects at light level and is very eosinophilic

fibroblasts have -- stages. one where they are -- and one where they are --

have 2 stages. one where they're actively synthesizing ECM and one where they are quiescent

all epithelia have a -- membrane, except it's actually...

have a basement membrane except it's actually NOT a membrane

the cells of brown adipose tissue have lots of --, meaning the nucleus...

have lots of small droplets of lipids within a single cell, meaning the nucleus won't be pushed against the membrane so it will be readily visible

volkmann's canals are perpendicular to --

haversian canals

in the dense parts of the bones (so where compact bone is located) lamellae are organized as

haversian systems, also called osteons

what do we use instead of dyes when doing TEM

heavy metals - particularly osmium tetroxide

cartilage helps form the -- skeleton because it serves as the...

helps form the embryonic skeleton because it serves as the template for endochondral ossification (how the skeleton becomes ossified)

bone marrow is a -- organ

hematopoietic organ (i think that just means it makes blood cells)

in terms of mix, elastic ECM is --

heterogeneous

is the perichondrium vascularized? innervated?

highly vascularized and also innervated

3 different types of exocrine glands utilize 3 different mechanisms of secretion - the 3 types of exocrine glands are?

holocrine merocrine apocrine

since bone stores calcium and phosphorus, it must have a function in

homeostasis

the cells of skeletal muscle are very -- they are long bands of cells

homogeneous

in some sections of hyaline cartilage, we see that the matrix does not stain --

homogeneously

EO explains how the cartilaginous skeleton becomes ossified, but doesn't explain..

how long bones grow - how we go from fetus to adult

the classification of the 2 types of adipose tissue depends on

how many droplets of lipids there are in each adipocyte

masson's trichrome is critical for determining how much -- tissue is present, which indicates...

how much fibrous tissue is present, which indicates the relative degree of cirrhosis

in elastic cartilage, when it is stained with eosin, it is difficult to differentiate it from

hyaline

one type of cartilage where water is included in the ground substance is

hyaline

what is the most widespread cartilage in the body

hyaline

which type of cartilage is the cartilage that can withstand compression

hyaline

there are 3 types of cartilage, which are

hyaline elastic fibrocartilage

type 2 collagen fibers are found in

hyaline, elastic cartilage, and cornea

the only way cartilage without a perichondrium can grow is via

interstitial growth

transverse tubules (T-tubules)

invaginations (dips down into the inside of the cell and forms a little tube and continues on to form another invagination) of the sarcolemma (PM) - like long, thin pits

the results of staining can vary depending on.... (8 things)

quality of solutions type of tissue protocols of prior steps quality pH salinity of water used in the lab reagents used time of exposition in every solution

epithelium lines the -- (not a big body cavity or organ) and it is always -- epithelium

lines the BVs - always simple squamous epithelium

Kupffer cells

liver macrophages - always there since they're resident cells

special staining is critical in the diagnosis of most -- specimens

liver specimens

bone is a --tissue that is -- remodeled

living tissue that is constantly remodeled

once the CT separates the organ into major lobes, it continues to invade the organ, separating even the major lobes into

lobules

describe the nuclei of skeletal muscle cells

located at the periphery of the cells - it is NOT centralized

stereocilia are -- in the body. they are found...

rare in the body - found in the epididymis in males and in the inner ear

satellite cells do not help regenerate muscle in --

really big injuries

the periosteum is very close to the -- of the bone and so once in a while it will...

really close to the matrix of the bone so once in a while it will insert into the bone matrix and form what are known as sharpey's fibers

mesenchymal cells are -- after birth

really depleted after birth

in particular, what do anchoring junctions really stabilize?

really stabilize the epithelium

the cells involved in pseudostratified columnar epithelium are typically what type of cells? (not shape or something we've mentioned in the last 327 cards lol)

regenerative cells

size of chondrocytes?

relatively large

remember that both types of canals are also lined by the endosteum (and thus have osteoprogenitor cells) and that's important for

remodeling

in holocrine glands, the cells will constantly be

renewed

uni adipose tissue progressively replaces -- and -- as we age

replaces bone marrow and thymus and glands as we age

fibrocartilage is the type of cartilage that -- other cartilage when --

replaces other cartilage when injured

EO progressively replaces the --, but it will remain at the -- or in between the -- and -- of the bone

replaces the cartilage, but it remains at the end of in between the epiphysis and diaphysis of the bone and maybe even the metaphysis depending on the case

the smooth ER in skeletal muscle cells serves as a

reservoir for calcium

what kind of cell is fixed in CT all the time?

resident cells

there are two main populations of cells in CT, which are

resident cells and transient cells

the thickness of the PM is way smaller than the power of... thus we must use a -- to visualize the membrane

resolution of the compound microscope - must use an electron microscope to visualize the PM

in IO, you may also see osteoclasts that come and..

resorb old bones -- remodeling and then new bones reform via IO

the endomysium contains what kind of fibers

reticular

reticular fibers and PAS staining?

reticular fibers are PAS+

type 3 fibers are also known as -- fibers that form --

reticular fibers that form reticular tissue

when you don't recover your -- well you can also create foldings

ribbon

with paraffin, you obtain a --

ribbon - idek what this means, I just wrote it down

SER does not have

ribosomes

hematoxylin also stains -- because they have a lot of nucleic acids as well

ribosomes

the rough ER looks rough due to the presence of

ribosomes on its surface

in between staining sessions, you do what to the slides

rinse them in tap water

acinar shape is

round

shape of chondrocytes?

round

animal cells can come in various shapes they can be...

round, elongated, or can be an extension of the plasma membrane - can be large or small

cilia and flagella have the same -- they are anchored into the...

same structure - anchored into the cytoplasm

the PM of skeletal muscle cells is called the

sarcolemma

the cytoplasm of skeletal muscle cells is called the

sarcoplasm

ER in the skeletal muscle cell is called the

sarcoplasmic reticulum

the stroma of multicellular glands is like the

scaffolding of the functional unit - surrounds acini and i think it contains the CT

skeletal muscle looks like

long tubes

in what kind of section do you see the striations characteristic of skeletal muscle cells

longitudinal

what is a haversian canal?

longitudinal channel to the long axis of the bones - see them in cross-section as the center of each osteon

there are -- types of electron microscopes

scanning electron microscope (SEM) transmission electron microscope (TEM)

stereocilia look like -- but they're actually much more like

look like cilia but behave much more like microvili - they are NOT cilia

macula occludens has a -- appearance

scattered

if your knife/razor blade isn't perfect, we can get

scratch marks or sometimes stripes in the tissue = knife mark errors

ex. of a holocrine gland

sebaceous glands on skin that're involved in acne (secrete sebum in this case)

what is the function of osteoblasts

secrete osteoid

glands only have one job and that is to

secrete things

what is the specific function of glandular epithelium

secretion

the endomysium is made up of what kind of tissue - why is it important?

loose CT - that's diff from the epimysium or the perimysium that are made up of dense irregular CT

two types of CT proper

loose CT and dense CT

sometimes adipose tissue is considered it's own tissue or sometimes it and its two types are considered as subdivisions of

loose CT proper

mucous is very PAS+ because it has

lots of carbs (sugars)

abundance of fibers in dense CT?

lots of fibers

when golgi are present, the consequences of staining include the formation of a white area surrounding the nucleus like a halo and that indicates the presence of...

lots of membrane because membranes don't pick up the stain

in certain low -- concentrations, osteoprogenitor cells may even become --

low O2 conditions = could become chondroblasts

apical part of the cell is also known as the -- side of the cell and it's located...

luminal side of the cell - located at the top of the cell

where is the reticular tissue located?

lymphoid tissues and many glands

under an EM microscope, lipids appear as .. so in this case when we're identifying ORGANELLES don't get them mixed up with --. easy way to tell the difference is...

lysosomes - lysosomes will have a membrane, lipids will not

what are the two types of anchoring junctions

macula and zonula adherens

rosettes are made of -- and typically look like little --

made of glycogen, typically look like little asterisks

elastic fibers are made up of -- while collagen fibers are made up of

made up of the protein elastin, while collagen fibers are made up of the protein collagen - these two proteins are very different

osteoclasts first make contact with the -- matrix and create a -- environment that will..

make contact with the calcified matrix and create an acidic env. that will degrade the matrix = osteoclasts form a concavity in the matrix

ex. of apocrine gland

mammary glands

dense CT has many many more -- arranged in --

many many more fibers arranged in bundles

there are many types of -- which are bigger than -- but smaller than --

many types of intermediate filaments - bigger than microfilaments, but smaller than microtubules

type 1 collagen fibers stain differentially with what stain specifically

masson's trichrome

which staining technique in particular takes a long time to complete

masson's trichrome

2 examples of resident cells

mast cells macrophages

zonula occludens and macula occludens prevent and discriminate...

material that goes through

other than the collagen type 1 fibers, there is almost no other -- in fibrocartilage

matrix in fibrocartilage - there is almost NO matrix

osteocytes are the -- bone cells

mature

lamellar bone can also be called

mature bone or secondary bone

in LM, the max level of resolution is -- so we only see..

max resolution is .2 micrometers so we'll only see large structures like the nucleus probably

the type of CT that makes up the periosteum, may be -- or -- depending on the -- of the bone

may be dense irregular or loose CT depending on the size of the bone. large = dense irregular, small bone = could be loose CT

uni adipose may form large -- but it is also found in....

may form large aggregates, but it is also found in small clusters b/t other tissues

osteocytes in the peri space are consisdered to be....

mechanosensory cells that will regulate the composition of the bone matrix

the cytoplasm contains inclusions that are not

membrane bound

at the EM level we can see the RER as a network of...

membrane dotted by ribosomes all over with a lumen inside

how are microvili formed

membrane folding

PAS works really well when trying to visualize ... on kidneys. it specifically shows if the membranes are...

membranes with detail on kidneys - shows if the membranes are continuous? thick? thin? have spikes?

what is the most common type of exocrine gland

merocrine glands

at the start of intramembranous ossification, -- cells will be present

mesenchymal

wharton's jelly contains lots of

mesenchymal cells that are true stem cells

although there are 2 subdivisions of mature CT, all CT has a common embryonic origin, which is the

mesenchyme

the granules produced by mast cells, when stained, show that they are

metachromatic

example of a random stain also used in LM

methyl green

both -- and -- have something to do with motion, but not -- filaments

microfilaments and microtubules have to do with motion, but not intermediate filaments

what are the 3 types of filaments

microfilaments, intermediate filaments, microtubules

on the surface of goblet cells there are very few

microvili

because of the way a knife sections tissue, it appears that not all -- are connected to the cytoplasm but they are

microvilli

the primary ossification center ALWAYS occurs in the

middle of the diaphysis

in IO, the matrix gets -- after it surrounds the osteoblasts and they differentiate into osteocytes

mineralized

in between myofibrils there are things like..

mitochondra, cytoplasm, glycogen etc

cells of brown adipose tissue have lots of

mitochondria

there are lots of what kind of organelle in skeletal muscle cells

mitochondria

an example of how epi cells are polarized is with what organelle in particular and why?

mitochondria - because sometimes mitochondria are more abundant closer to where cilia are anchored

cardiac muscle cells are --nucleated

mono-nucleated

precursor of macrophages

monocytes

a macrophage is a -- -- system

mononuclear phagocyte system - remember they only have one nucleus when trying to ID them

like macrophages, osteoclasts work as a -- -- system

mononuclear-phagocyte system

in compact bone, the osteoclasts are more --like where -- will enter the bone and carry more cells to..

more tunnel-like, where BVs will enter the bone and carry more cells to make more bones = process of remodeling

what does mounting entail and when does it occur?

mounting is just putting the coverslip over the section; you mount after you stain

skeletal muscle is the type of muscle that allows us to

move

cartilage helps facilitate bone...

movement like the joint

abundance of ground substance in dense CT?

much less ground substance - there is almost none in dense regular CT)

length of cilia compared to microvili

much much longer than microvili - they're long in general

what is the product a goblet cell produces?

mucinogen - product is in droplets

there are two main types of secretions exocrine glands produce - those are...

mucous (Adjective) serous

mucous glands stain -- while serous glands stain -- in H&E

mucous = stains very light serous = stains very dark

bone matrix is partially -- and partially --

partially organic and partially inorganic

although healthy hyaline cartilage can calcify, calcification can also be a

pathological status as we age --> joint pain as you age (Reduced mobility)

hyaline cartilage is surrounded by a -- except in the case of the growth plate and the articular joint

perichondrium

the epimysium invests into the -- and that's how it's made

perimysium

what is the job of macrophages?

phagocytosis - pathogens or debris thus macrophages are found in abundance where there's a lot of junk in the body

what is the PM made up of?

phospholipid bilayer several other molecules integrated into that membrane

what are some examples of inclusions

pigment rosettes lipid droplets

osteoclasts are very -- cells because the -- part of the cell is not the same as the other parts of the cell such as..

polarized b/c the apical part of the cell isn't the same as the other parts of the cell such as the clear area where there's more actin

whether they're squamous, cuboidal, or columnar all of these epithelial cells will be

polyhedral

how does interstitial growth work?

pre-existing chondrocytes in the matrix divide mitotically to produce daughter cells that secrete matrix. as they secrete matrix, they push one another away and the cartilage grows in the directions they are pushed

chondrogenic cells are the precursors to -- which are cells that...

precursors to chondroblasts, which are the cells that synthesize the matrix

most of the time when you see lumen, it indicates the presence of -- since it...

presence of covering epithelium since it separates the inside env. from the outside env. or the tissues (separates tissues that is)

when monocytes receive a signal that they are needed, they do a process of -- in between the endothelial cells that is known as

process of crawling in between the endothelial cells that is known as diapedesis

the bone can form in 2 ways - the process of ossification is -- but the environment is --

process of ossification is the same, but the environment is different

histochemistry is used to visualize certain products that are in cells and tissues. it can be described as both -- and --.

products that are in cells and tissues - can be both qualitative and quantitative

ossification describes the process in which the fetal skeleton is

progressively ossified

what are the functions of bone?

protection support locomotion holds the bone marrow storage for Ca/P

why are cells producing serous secretions so dark?

proteins are made by ribosomes in the RER most of the time, which is very basophilic, so cells actively producing polypeptides are very basophilic

when GAGs attach onto a core protein they form

proteoglycans

the ground substance of cartilage is made up of

proteoglycans different GAGs glycoproteins water

with masson's trichrome, each color stains a different part of the cells --> what are these respective parts

purple = nucleic (material?) pink = cytoplasm blue or green = collagen type I

with H and E - the most classic combination of an acidic and a basic dye - the colors are...

purple and pink

the lipid droplet in unilocular adipose tissue is so big that it does what to the cell?

pushed the nucleus towards the membrane of the cell such that the nucleus becomes very flattened

mast cells are -- cells, which are part of the body's first..

sentinel cells, which are part of the body's first line of defense

in mixed glands, there can be demi-lunes, which are

serous cells that form a crescent shape and cap mucous acini

why do you think serous glands are basophilic

serous glands produce proteins like enzymes

the --, --, and -- of the nucleus are important characteristics in different tissues/organs

shape size position

the perichondrium is a CT -- , which is a -- CT layer that...

sheath, which is a dense irregular CT layer that surrounds some of the cartilage

the brush border's is fairly (length)

short - microvili are very short

elastic cartilage supports -- like the outer ear

supports soft tissue like the outer ear - you can pinch it and move it around and it'll go back to it's original position/formation

origin of glandular epithelium (GE)

surface epithelium

both types of glands originate from

surface epithelium - both exocrine and endocrine glands

what is an example of surface epithelial tissue being the origin of glandular epithelial tissue?

surface is the upper part of the skin and the gland it grows in to is the sweat glands OR the surface is the lining of the gut and the exocrine glands are the liver/pancreas --> product goes to the lumen of the gut

covering epithelium lines...

surfaces - top layer of skin, lining of any cavities in the body

the perimysium further invests into the fascicle and surrounds each -- and it is now called the --

surrounds each muscle cell (fibers) and it is now called the endomysium

what is the largest component of proteins

the cytoskeleton

A band

the dark band b/c it has BOTH actin and myosin

it is not really possible to tell -- apart in a lab

the dif types of exocrine glands in a lab like in real life

what factors define the cartilage and its function?

the different types of fibers, the abundance of water/ground substance in cartilage

multicellular glands are classified based on the

the division (or lack thereof) of their duct, division (or lack thereof) of their secretory portion, and the shape of the secretory portion

what is the effect of using electrons as the energy source on producing the image in the microscope?

the energy goes through the specimen and the microscope has a larger column (than the compound microscope) that inverts the image - the source of energy is at the top now and the bottom is where you see the image (inverted in comparison to the compound microscope)

when the cell is actively assembling polypeptides its chromatin will be -- so...

very diffused to the cell will be much larger - this is what tells us that this cell and a different, smaller cell do not have the same job/level of activity

bone is a very -- tissue that is remodeled --

very dynamic tissue that is remodeled all of the time

size of osteoclasts

very large cells

size of macrophages (with diameter)?

very large cells - 20 to 30 micrometers (yes it's the same as mast cells)

cardiac muscle is very --. it is onyl found in the

very localized - only found in the heart forming the myocardium and at the beginning of the pulmonary vein where it meets the heart

the cells of skeletal muscle tissue are very -- and can stretch from one side of the attachment to the next

very long

all of the fibers in loose CT are arranged

very loosely

there are different types of glycoproteins that will be floating around in the ground substance depending on

the type of CT

CT can be fluid-like (like blood) or hard (like bone) - it depends on...

the types/abundance of cells, type/degree of fluidity/abundance of matrix, and fibers

in cells with gap junctions, the membranes fuse and there are also -- that allow....

there are also pores that allow communication between the cells

what is the relative distribution of fibrocartilage

very restricted

as chondroblasts form the matrix, they become -- in a space called --

trapped in a space called the lacunae

osmium tetroxide allows us to see the membrane and it is called the

trilaminar appearance

non-lamellar bone

type of bone where the collagen fibers inside are not organized. they are randomly ordered - interlacing collagen bundles

where are nucleic acids typically located in the cell? what does that mean for basophilic staining?

typically located in the nucleus, ribosomes, and RER - means that when you are staining tissues with basic dyes/hematoxylin, you stain the nucleus

if the secretory portion does not divide it is called

unbranched technically, but usually we just don't call it anything just leave off the unbranched

we see anchoring junctions a lot between cells that undergo lots of -- so for example..

undergo lots of stress so like in your skin but also between muscle cells

which type of exocrine gland is the most common

unicellular

there are two types of exocrine glands, which are

unicellular glands multicellular glands

2 types of adipose tissue - which are?

unilocular and multilocular adipose tissues

because results of staining can vary based on a number of factors, there is no

universal protocol

what is one way to stain lipids (it's not a specific stain name, just a general process/idea)

use oil since like mixes with like - first freeze the lipids then stain them with oil that will turn them dark/red - indicates the presence of lipids

sectioning frozen specimen must occur using a -- that's within the

using a rotary microtome within the freezer cabinet

what would you use to remove the inorganic material?

using an acidic solution like EDTA or vinegar

EO involves using -- as a template so that the embryo will have a -- skeleton

using hyaline cartilage as a template so that the embryo will have a cartilaginous skeleton

mitochondrial abundance varies between cells and -- cells based on

varies between cells and within a single cell based on activity

in the embryo, there are 2 types of CTs that are very -- and those are...

very similar: mucous CT mesenchymal CT

what differential stain could be used to visualize the elastic fibers more easily?

ver hoeff's - differential stains make it MUCH easier to ID elastic fibers/cartilage

what is the size of osteocytes

very small cells

type 3 collagen fibers are also very -- but very (thickness)

very abundant also but very thin

abundance of cells in loose CT?

very cellular (many cells)- see many many nuclei

filopodia must run in tunnels that are very -- and known as

very small tunnels known as canaliculi

what is the thickness (in a general sense) of the basement membrane (BM)?

very thick

the projections of the osteocyte that form the stellate shape are very -- so they're called --

very thin, so they're called filopodia

collagen fibers are overall very (strength) and (flexibility)??

very tough and inelastic - cannot stretch them

skeletal muscle is VERY --, each individual muscle fiber is --

very vascularized

how do merocrine glands secrete their product?

via exocytosis - the product is carried in secretory vesicles that fuse with the PM where the product is discharged into the lumen of the gland and carried outside of the lumen via the duct

how do osteocytes communicate?

via their filopodia that will make contact with one another

what is ground substance made up of

water, glycosaminoglycans, proteoglycans, and adhesive glycoproteins

because we use -- all TEM micrographs are in --(colors)?

we use heavy metals and that explains why all TEM micrographs are black and white

we see that once the template cartilage has fully disappeared, it means that

we're done growing

osteoclasts are very -- from osteoblasts or osteoprogenitor cells because they are more associated with the --

very different from these other 2 types of cells - more associated with the macrophage family

where can hyaline be found (just 3 examples)

- at the end of the joint - forms rings in trachea - in the tip of your nose

approximate thickness of elastic fibers? like numbers

0.2-2 micrometers

how thick are reticular fibers approx.?

0.5-2 micrometers

1 muscle fiber is -- muscle -- 1 muscle fiber is -- myofiber(s)

1 muscle cell 1 myofiber

how long are type I collagen fibers

1-20 micrometers long

there are 2 ways to section bone to view it as a histological slide (since it's so hard) - these 2 ways are...

1. after you cut the bone, grind it very very thinly so light can pass through 2. remove the inorganic material

what are the functions of fibrocartilage?

1. help with resistance to compression and shear 2. replaces injured cartilage

diameter range of skeletal muscle fibers

10 to 100 micrometers since there's dif kinds of muscle fibers

how thick are intermediate filaments

10-15 nm

osteoclasts can be up to -- micrometers

150

elastic fibers can stretch up to

150% of their length

how many membranes do T tubules have

2 - can see tri-laminar appearance

the periosteum is made of -- layers and there is no clear...

2 layers - no clear limit b/t them

stratified cuboidal epithelium will never have more than

2 or 3 layers

EO involves -- processes that work in --

2 processes that work in parallel

muscle cells can be up to --cm long - what does this mean for their composition?

20cm long, means they have to have many many nuclei b/c otherwise they wouldn't be able to sustain their activity

how thick are microtubules? are they thicker than the PM?

24 nm - thicker than the PM

in the endosteum, we find -- different types of cells

3

what does a desmosome look like

3

the cytoskeleton is a network of

3 different types of filaments

a rotary microtome should be used to cut tissues into sections that are how thick?

3-10 microns thick

in mature bone, the matrix has --% inorganic material, --% organic material, and --% water

65% inorganic 25% organic (collagen) 10% water

how thick is the PM

8-10 nm thick

water in the ground substance can be ~--% of the weight

80%

the axoneme is formed of..

9 double and one central pair of microtubules

although there are 15 types of collagen, --% are of -- types

90% are of 3 types

mitochondria are involved in what central part of metabolism (in general, don't think of steps)

ATP synthesis

in diapedesis, monocytes slow down in the....

BV and crawl in between the endothelial cells to reach the CT

loose CT often surrounds

BVs i think

the CT that further invades the organ to divide the lobes into lobules carries..

BVs often and nerves (known as septa or trabeculae)

when i say 'now we're talking about actual bone in the periosteum' that means we have

BVs that invade/go through/penetrate the calcified matrix

smooth endoplasmic reticulum histology

C - don't pay attention to the rest of the picture

pericytes belong to the

CT

the periosteum is made up of what kind of tissue?

CT

sharpey's fibers are just -- insertions in bone

CT insertions in bone

different types of CT are determined by type of....

GAG/proteoglycan/type of protein/fibers/type of cells

example of a bacterial disease that can be found with a -- stain?

H pylori can be found with an IC (maybe IHC? but i feel like she meant immunocytochemistry) stain

what is an example of a basic dye

Hematoxylin

the cavity that osteoclasts form as they degrade the matrix is called

Howship's lacuna or resorption bay

are the membranes of the golgi able to communicate? is this similar to or in contrast to the RER?

NO - in contrast to the RER (RER membranes communicate)

do microvili beat? does that make sense given their actin core?

NO they do NOT beat - doesn't make all that much sense b/c actin in general is involved a great deal with motion so while microvili might move a little, they certainly do not beat

describe the vascularization of the ECM in cartilage

NOT vascularized

I band

ONLY has actin filaments involved in muscle contraction

what kinds of stains are useful in diagnosing a fungal infection?

PAS and Grocott's methenamine silver stain (GMS) - used to ID fungal organisms

when stained with PAS, the basement membrane is

PAS+

mucous glands stain --

PAS+ (just like the goblet cell)

metachromasia

Property of exhibiting a variety of colors when stained with a simple stain - a term used to describe tissues that are metachromatic, meaning that the stain dyes the tissues a different color than the color of the stain itself. for ex. if you start with a blue dye and it turns green/yellow/purple in the tissues or something

RERs -- (action) and are very (organization)?

RERs communicate and are very ordered - regularly oriented

the lacunae is like a niche in which the cell will

REST

in a TEM the energy source is located -- while it is located at the -- in a compound microscope

TEM = electrons are at the top and look at image at bottom compound = light energy is at the bottom and look at image at top

an important distinction between TEMs and compound microscopes is that

TEM inverts the column

out of the two types of EMs, which one is more comparable to light microscopes?

TEM since it's also 2D

in the sarcomere, actin filaments attach on to the

Z band

all mature cells have common characteristics which include

a cell membrane that limits the cell, a nucleus (sometimes several) and cytoplasm that contains various organelles like mitochondria

what 2 things do the satellite cells start dividing to produce

a cell that will become a myoblast and a separate cell that will just become another satellite cell

junctional complex

a complex of various junctions that occur on top of epithelial cells

the entire muscle itself is limited by...

a dense irregular CT shetah called the epimysium

exocrine glands all have a -- that allows...

a duct that allows secreted product to reach the outside environment

the golgi looks like -- (informal answer)

a flat stack of pancakes

what's an example of a unicellular exocrine gland

a goblet cell

chondrocytes often have a -- droplet

a lipid droplet

instead of being just a serous gland or just a mucous gland, they can be

a mixed gland - some cells produce mucous and some cells produce enzymes in the gland

what is the terminal web?

a network of actin filaments located at the base of the microvilli in certain specialized epithelial cells (such as intestinal epithelial cells) that anchor the terminal web to the apical cell membrane (the actin filaments anchor the web to the apical mem)

in loose CT, the ground substance is very

abundant

loose CT is never super

abundant

the ECM is cartilage is very

abundant

what is the unit membrane

according to my notes, just another term we use for the PM - but from quizlet: a lipoprotein membrane that encloses many cells and cell organelles and is composed of two electron-dense layers enclosing a less dense layer (less dense layer = core of PM) - relates to TEM and the trilaminar appearance

pink coloring in H&E is

acidophilic

what are the 3 shapes the secretory portion can take on

acinar (aka alveolar) tubular tubulo-acinar

what are microvili made up of?

actin (their core) made of microfilaments

the core of stereocilia is made up of

actin NOT microtubules

muscle contraction occurs due to the interaction between -- and --

actin and myosin

there may be many golgi in a cell if the cell is particularly

active

chondrocytes remain -- and mitotic so they --

active and mitotic so they divide

the presence of euchromatin indicates that the cell is... and often associated with..

actively synthesizing proteins and often associated with the presence of a nucleolus or nucleoli

the abundance of RER depends on the

activity of the cells

hematoxylin acts like a -- and it is attracted to the -- parts of cells in tissues

acts like a base, attracted to the acidic parts of cells in tissues - that's why it stains the nucleus

the cells that make up adipose tissue are called

adipocytes

resident cells are able to differentiate into many different things including .... (7) depending on the signal they receive

adipocytes fibroblasts chondroblasts chondrocytes osteoblasts osteocytes pericytes

adipocytes form

adipose tissue, which is a type of CT

tight junctions are the type of junctions in between...

adjacent cells that form BARRIERS

gap junctions allow -- cells to work together as if...

adjacent cells to work together as if they were one cell

lamellar bone is only found in the --

adult

lamellar bone is secondary bone b/c it comes...

after the osteoid/primary bone - it's bone that is mineralized

loose CT is also known as the -- CT b/c it looks very...

aka the areolar CT b/c it looks very aerated (there's lots of ground substance)

in the adult, both types of bone are found in

all bones

all the epithelia in the perotineal cavity are..

all different from each other - each one that lines a dif. cavity is dif. from the other

each type of tissues is made of cells that typically all look -- and even when they do not, they work...

all look alike - even when they don't, they work together to provide a specialized function since that's the definition of tissue

microfilaments are involved in muscle contraction in..

all types of muscle tissue, no matter the type

how does bone aid in locomotion

allows muscle to attach

in reticular tissue, there are almost no -- fibers and -- is very loaded with --

almost no collagen type I fibers and the stroma is very loaded with reticular fibers

mucous CT is also called -- and it is in the --

also called wharton's jelly and it is in the umbilical cord

unilocular adipose tissue is also called -- and is by far the most --

also called white adipose tissue by far the most common (visible in the meat we eat)

ossification can also happen for people with a --, this is the basis for -- printing of

also can happen for ppl with prosthesis - basis for 3D printing of bone

the template cartilage in EO also forms the -- which allows the bones to

also forms the epiphyseal growth plate, which allows the bones to grow in length after birth

because elastic cartilage always has a -- it grows mostly --

always has a perichondrium so it grows mostly appositionally

the mineralized bone matrix always originates from -- and this structure itself is made up of ---

always originates from the organic matrix --> called the osteoid and the osteoid is really made up of collagen bundles

so a desmosome is a type of

anchoring junction

Masson's trichrome

another specific stain that involves 3 colors - purple, pink, and blue or green

microvili are found on the -- part of the cell

apical

what is the more rare type of exocrine gland?

apocrine glands

what are the 2 ways cartilage can grow

appositional growth and interstitial growth

mitochondria within a single cell are not -- so in other words they are not --

are not evenly distributed so not homogenized

the stem peri- means

around

areas of the tissue that appear to be abnormally dark/pigmented may just in fact be

artefact since sometimes these dark areas can just be areas of folded over tissue = called fold artefacts

at each step errors or -- might be created

artefacts

what are the 3 exceptions where these types of cartilage do not have a perichondrium?

articular cartilage (joint) epiphyseal plates (growth plates) fibrocartilage

what kind of cartilage is involved in the joint (it's a sub-type)

articular cartilage which is hyaline cartilage

where are the only areas of the outer surface of the bone where there is no periosteum

articular surfaces and where the tendons and ligaments insert - everywhere else on the outer surface of the bones is covered in periosteum

beacuse there job is to assemble the ribosomes, when we see nucleoli that means the cell is actively...

assembling polypeptides

the stem chondro means

associated with cartilage

why is it important that PAS works really well when trying to visualize details in the membranes of the kidneys?

because most medical diseases in the kidney are evident in the renal membrane so since PAS allows us to observe details on their membranes really well, it tells us a lot about the pathology of the kidneys if there is any

why must we coat the specimen in antibodies in immunocytochemistry?

because on their own, the antigens are too small (even with EM) to see so tagging them with antibodies allows us to see them via fluorescent dyes

why is the skeletal muscle able to regenerate to some extent?

because satellite cells are non-differentiated cells that are stuck to the side of some of the skeletal muscle fibers so when there's an injury to the muscle, satellite cells are activated and they start dividing to produce two things

what is one reason why when cartilage is damaged, it doesn't regenerate well

because the ECM is not vascularized and relies on diffusion for access to nutrients

why is it called unilocular adipose tissue?

because the cells contain only one very large lipid droplet

why is it important that the cartilaginous template for the skeleton is made up of cells with ECMs that are not innervated or vascularized?

because the cells will depend on diffusion for receiving nutrients and oxygen so the cells in the middle of the bone will begin to die and the cells will become hypertrophic where they switch to synthesizing a different type of cartilage

why does euchromatin not appear as dark spots as well

because the chromatin is so diffused it doesn't pick up the stain well

why is it important that the largest component of proteins is the cytoskeleton

because the cytoskeleton contains proteins like microtubules, microfilaments, and intermediate filaments all throughout the cytoplasm

why is it necessary for us to block tissues in either paraffin or resin for light microscopy/TEM?

because the tissue needs to be super thin to use these kinds of microscopes, but the tissue is often too delicate to be able to cut it that thin- so to keep it from tearing while cutting it super thin, we embed it in paraffin or resin - makes it easier to cut it in thin sections without damaging the tissue or leaving behind artefacts

why is H&E so much harder to read than special stains?

because there is so much info on the slide when you stain it with H&E. with a special stain, though, you're generally only asking on question and the particular color you're looking for helps a lot

why are the cardiac muscle cells eosinophilic

because there's an accumulation of mitochondria, cytoplasm, myofibrils, and myofilaments

why are tight junctions occluding?

because there's no space between the membranes of the adjacent cells

why does hematoxylin stain ribosomes

because they are the main area where RNA is concentrated

why are chondroblasts basophilic?

because they have lots of RER that secretes many many proteins that will be found in the matrix - remembering that the matrix is mainly proteoglycans and other proteins, including collagen

why do we see a well-defined nucleolus in fibroblasts?

because they're actively synthesizing the ECM which is made up of a lot of fibers, which are made of proteins

why does the nucleus look very basophilic when fibroblasts are inactive?

because they're not making proteins while inactive so the chromatin is really condensed (it's heterochromatin) and that stains very dark

why do we need to stain tissue in the first place

because very thin tissue does not have any innate color so we can't see anything if we don't stain it

why must we first dehydrate/remove the water from the tissues?

because water doesn't mix with paraffin or resin, which the tissue will eventually be embedded in

why is it called the trilaminar appearance

because you see one thick black line which is the extracellular side of the PM, a gray/lighter space between (NOT WHTE), and then another thick black line, which is the cytoplasmic side of the PM - this is ONE membrane

as chondroblasts become -- by the matrix, they change and become..

become surrounded by the matrix, they change and become chondrocytes

when the bone is placed in an acidic solution it becomes very -- since...

becomes very rubbery since what initially made them hard (the Ca and P) has been removed

eosin behaves like a -- and is attracted to...

behaves like an acid - attracted to the proteins

zonula adherens has a -- appearance

belt-like

zonula occludens has a -- appearance

belt-like

When the ECM is interterritorial it is located...

between the chondrocytes

epiphyseal growth plates are between the -- and the -- at the level of the --

between the epiphysis and diaphysis at the level of the metaphysis

with EO, the cartilage is the intermediate between the -- and the --

between the mesenchyme and the formation of the bone

loose CT is found

between tissues

once the chondroblasts have differentiated from the chondrogenic cells, their relative size is

bigger than the chondrogenic cells

M band

bisects H band

when the silver deposits onto the reticular fibers, they look

black

tight junctions are the basis for the --

blood brain barrier

mast cells are close to the

blood vessels

specialized CTs include things like

blood, bone, or cartilage

chondrocytes form -- when they divide because when mitotic division happens they begin with -- daughter cells that then divide to give -- that form a --

chondrocytes form isogenous groups when they divide because when mitotic division happens they begin with 2 daughter cells that then divide to give 4 that form a group and these are the isogenous groups

how are we able to differentiate elastic cartilage from hyaline cartilage other than looking at the fiber composition of the ECM?

chondrocytes in elastic cartilage are typically larger than they are in hyaline cartilage. there is also much less matrix in elastic cartilage so you'll see many more cells than you would in hyaline cartilage

are chondrogenic cells flattened? what about chondroblasts?

chondrogenic cells are flattened, but chondroblasts are not

what is the specific glycoprotein in the ECM of cartilage?

chondronectin

an example of how mitochondria are not evenly distributed would possibly be that there'd be more mitochondria where..

cilia are anchored

in cross-section, osteons look

circular with a hole in the middle

when the ECM is territorial it is

close to the chondrocytes

sterocilia are more closely related to which of the 2 remaining luminal surface specializations?

closer to microvili even though cilia is in the name because they don't beat

all epithelia have -- cells that participate in...

cohesive polyhedral cells that participate in junctions like tight junctions, gap junctions, or desmosomes

there are many different types of

collagen

there are 2 types of CT fibers which are

collagen and elastic fibers

in dense CT, the most abundant fiber is...

collagen fiber type I arranged in bundles

what type of fibers are in loose CT?

collagen type 1 and 3 and elastic fibers

ECM of fibrocartilage is made up of what kind of fibers

collagen type 1 fibers

what kind of fibers does the ECM contain in hyaline cartilage?

collagen type 2 fibers

what are 4 things you'll find in the perichondrium

collagen type I fibers fibroblasts lots of BVs lots of nerves (the BVs allow nutrients to diffuse)

organic part of the ECM in bone is very rich in -- but it also has

collagen type I fibers but it also has GAGs/proteoglycans/and other proteins special to bones

what kind of fibers are in the elastic ECM?

collagen type II fibers, but also a **** ton of elastic fibers

columnar cells shape? nucleus?

columnar cells are tall and skinny. nucleus is elongated/tall in the long axis of the cell

cells in decalcified bone --

communicate

osteocytes in the compact bone are able to

communicate

gap junctions are -- junctions

communicating junctions

how are osteocytes organized in compact bone vs cancellous bone?

compact = osteocytes follow the collagen lamellae in the osteons cancellous = osteocytes are randomly organized

in cortical bone cross-sections, we see that it is very

compact/dense

RER is composed of very -- with a bunch of ...

composed of very flat membranes with a bunch of ribosomes

if the duct does divide, it is called a

compound gland

whenever you see a TEM in color, know that is is

computerized for helpful distinction, but it's also entirely artificial - there is no pigment in the original TEM

in the center of the osteon, there is the hole known as the haversian canal and there are -- layers that surround the hole. what are these layers?

concentric layers surrounding haversian canal - these are the layers/lamellae of the collagen fibers

heterochromatin

condensed chromatin that cannot be transcribed b/c so tightly wound the machinery cannot reach the promoter to initiate transcription

see epithelial tissue think --

connective tissue below it often

the reticular lamina is synthesized by

connective tissue cells lying beneath

the neurovascular bundles in the haversian canals are

contained

all secretory cells are contained together by a large -- but also by -- all throughout the organ

contained together by a large capsule but also by CT invading the organ

the inside of a multicellular gland contains -- which is made of..

contains parenchyma which is made up of secretory units and ducts

the RER and SER have different functions even though they are a --

continuum

the osteoid is progressively converted to a -- that will form the..

converted to a mineralized osteoid that will form the inorganic part of the matrix

endocrine glands are not organized in the same way as exocrine glands, their cells are organized in

cords/clumps or in follicles

cilia are made up of

core = microtubules

compact bone can also be called

cortical bone or dense bone

covering epithelium is also called -- while glandular epithelium is also referred to as --

covering = just epithelium glandular = glands

there are 2 main types of epithelia which are

covering and glandular

mitochondria have structures called -- that..

cristae that are really just the foldings

the bottom layer of transitional epithelial cells are fairly --(shape)?

cuboidal

what shape are osteoblasts

cuboidal

for some reason (she didn't say), interdigitation occurs a lot with

cuboidal cells

cuboidal cells take on what shape? nucleus?

cuboidal cells are more square and less flat than squamous cells. nucleus is round and large.

the cells on the very bottom of the epithelium are always going to be what?

cuboidal or columnar

cells of skeletal muscle --> shape?

cylindrical

eosin can be used to stain these 3 random things? these are just examples - it's not only these 3

cytoplasm collagen muscle fibers

in general, what is an example of a cell structure that is acidophilic? it will stain what color?

cytoplasm of cells (molecules that like the acidic dyes) - cytoplasm stains pink

what does the cytoplasm contain?

cytosol inclusions organelles fibers that form the cytoskeleton

at the EM level, basal bodies appear as a

dark line at the base of the cilia

you would use the ground bone technique if the tissue were

dead

cells in the transient population are cells typically involved in the

defense system

elastic cartilage can be -- without damage

deformed

in cancellous bone, osteoclasts -- the lamellae

degrade/resorb

after the sections have been exposed to the stain, we then have to -- once more

dehydrate the sections with ascending grades of alcohol and use a clearing agent that removes all traces of the alcohol and raises the refractive index to make the tissue more transparent

fibrocartilage is usually associated with other tissues - in particular with -- tissue

dense irregular CT

if the bundles are disorganized and not regularly oriented, it is -- tissue

dense irregular CT

what kind of tissue is the perichondrium made up of

dense irregular CT

there are two methods of immunocytochemistry, which are?? which one is preferred over the other and why?

direct - expensive indirect - preferred because less expensive

the calcified cartilage is the cartilage that little by little -- and gets -- by bone

disappears and gets replaced by bone

CT is very -- which makes it important

diverse

almost all compound ducts --

divide

in mammals, myoblasts do or do not divide?

do not

length of collagen fibers?

do not have a determined length

how does SER stain at the light level? how does it look?

doesn't stain well, looks white

the top layer of transitional epithelial cells have a -- shape

dome shape - fairly large and roundish

when the zone of reserve is finally depleted, we are..

done growing

mitochondria have a -- membrane

double

appositional growth grows in what direction

downward

why are the cells so strongly attached to one another?

due to a lot of tight anchoring junctions

on a histo section using the ground bone technique, you will see entirely black areas that represent where

dust of the bone deposited as it was ground up such that the light cannot go through the dust so it just shows up as black

bone is constantly being resorbed and reformed = remodeled so the osteons and cementing lines are quite

dynamic - not perfect

interstitial growth has a more active --

early phase

when transitional epithelium is stretched, it can be easily confused with -- but remember that the main difference is that in TRANSITIONAL epithelium...

easily confused with stratified squamous, but remember that the cells will remain LARGE in transitional epithelium as they build up toward the apical part of the cell (if it were strat squamous, the cells would start to shrink and get flat toward the top)

all -- cartilage has a perichondrium

elastic

elastic cartilage is the type of cartilage that is

elastic - can stretch

elastic fibers are in -- cartilage

elastic cartilage

in a transmission electron microscope, it is not light energy that is used, but rather...

electrons

under an SEM, the specimen is bombarded with -- and the image is...

electrons and the image is reflected because the specimen is coated with heavy metals like gold or palladium, which produces a 3D image

shape of chondroblasts

elongated

after the specimen has been dehydrated/cleared, it then gets

embedded in hot liquid paraffin in a mold

as osteoblasts secrete the osteoid, they become...

embedded in the matrix that surrounds them and at this point they differentiate into osteocytes

embryonic CT is mostly found in the

embryo lol

what are the 2 main types of CT?

embryonic CTs mature CT

large glands are encapsulated by -- that sometimes invades the insides of the gland and separates the organs into --

encapsulated by CT that invades sometimes and separates the organs into major lobes

the way that most bones form is -- ossification. it occurs in all of the bones that are NOT flat

endochondral ossification

-- ossification happens for all the other bones and it uses -- as a substrate

endochondral ossification for all the other bones and it uses hyaline cartilage as a substrate

once the cart matrix calcified, we enter the the last zone which is the zone of --, where the lacunae in which the now dead chondrocytes were once in get...

enter the zone of ossification, where the lacunae (empty since the chondrocytes it was holding died of hypertrophy) get invaded by BVs that carry osteogenic cells/osteoclasts

in skeletal muscle, the muscle fiber IS the

entire cell - 1 muscle fiber = 1 skeletal muscle cell

acidic dyes such as -- typically stain any acidophilic element what colors?

eosin or acid fuschin - typically stain acidophilic elements red or pink

Is collagen acidophilic or basophilic?

eosinophilic

in non-lamellar bone, the collagen fibers are --(philicity) when stained with H&E

eosinophilic

philicity of cardiac muscle cells

eosinophilic

philicity of skeletal muscle

eosinophilic

what is the philicty of bone

eosinophilic

when something is stained with eosin it is called

eosinophilic

until the hypertrophic chondrocytes move in to the zone of reserve, there is an

epiphyseal plate

what allows bones to grow long? what type of cartilage are these structures made up of?

epiphyseal plates - made up of hyaline cartilage

the basal lamina is synthesized by

epithelial cells

epithelial cells tend to be -- meaning the distribution of....

epithelial cells tend to be polarized cells, meaning the organelles and membrane composition are not evenly spread out/distributed

see lumen, think --

epithelial tissue

what are the 4 types of tissues

epithelial, connective, muscle, nervous

what are artefacts in histology?

errors introduced in the processing of tissues for microscopy

at the light level, euchromatin appears -- while heterochromatin appears --

euchromatin is more pale, while heterochromatin looks like dark spots

what is the major difference between exocrine and endocrine glands?

exocrine glands keep connection with the surface (usually via a duct)

all of the glands we talk about from here on out are

exocrine, NOT endocrine glands

osteocytes have cytoplasmic -- that osteoblasts do not have

extensions

branching in reticular fibers?

extensive branching

the area between the limit of the tunnel and the filopodia is filled with

extraceullar fluid of the peri space

in terms of a PAS stain, territorial ECM would stain

extremely PAS+ (PAS++)

osteoblasts are extremely -- because the distribution of their organelles such as -- is really uneven and due to the formation of the -- on the apical part of the osteoblast

extremely polarized cells due to an abundance of RER and also the fact that they deposit the osteoid on their apical part

on an EM micrograph, tight junctions look

fairly dark since there's no space in between (PM looks like a dark line under low mag)

how does the nucleus appear in fibroblasts?

fairly large ovoid see a well-defined nucleolus

in the same area where the perichondrium is, -- cells fill up this zone, sending a signal telling the cells to --

hypertrophic cells fill up this zone and this causes them to receive a signal to differentiate (could be telling them to diff. into chondroblasts or osteoblasts, but in this case it's osteoblasts)

an artefact may be produced if an error such as ... in the sectioning step

if the razor is not perfect, you may cut your section perpendicularly or could create foldings

an artefact may be produced if an error such as ... in the dehydration step that affects other steps

if you don't dehydrate well, the embedding will be off and it will not section well

an artefact may be produced if an error such as ... in the fixation step occurs

if you don't fix the tissue well enough, the center of the specimen might rot

an artefact may be produced if an error such as ... in the staining step

if you stain too much or too little you may get poor staining

why is it important that a lot of labs have automation systems now to complete the preparation steps of tissue staining like fixation and dehydration?

important for consistency since we want it to work every time, for technician safety since many of the reagents are toxic, for efficiency/speed since they can take a lot of time, for tracking since it helps keep track of patient samples in a busy lab, and finally because it gives the pathologist a lot more confidence that the procedure was conducted correctly and that the results are viable

where might you find fibrocartilage in a general sense

in areas where you need to resist extension/tension forces

microvili are typically found in cells that --- because they...

in cells that absorb things because they increase surface area

haversian canal

in compact bone, it contains blood vessels and nerves/neurovascular bundles since bone is vascularized and innervated

lamellar bone

in lamellar bone, as the name suggests, the collagen fibers are organized into lamellae (means layers)

where is glycogen predominantly found?

in liver and muscle cells so watch out for that

what is the biggest difference between stratified squamous epithelium and transitional epithelium?

in stratified squamous, the cells flatten little by little (the cells change as they grow) but in transitional, the cells remain large with a fairly round nucleus - they do NOT flatten

where are junctions typically located in the cell?

in the PM

it's an important distinction that covering epithelial tissue is classified based partially on the shape of the cells of the SURFACE layer because

in the basal layer (the layer in contact with the basement membrane) is ALWAYS cuboidal or columnar in all stratified epithelia so it's important we only look at the top layer in stratified when trying to classify

monocytes are only found..

in the bloodstream

how do we freeze the specimens for frozen sectioning

in the cryostat

what is one example of where cilia are found in an epithelium and why

in the epithelial lining of the trachea because debris we breathe in is picked up by the cilia and pushed back toward the outside environment so it is unable to make its way into our lungs

where can elastic cartilage be found

in the external ears, in the epiglottis, and in the inner ear

where can osteoprogenitor cells be found?

in the inner layer of the periosteum above the matrix of the bone, the endosteum (including the haversian/volkmann's canals)

where are chondrogenic cells found

in the perichondrium

stains indicate the -- composition of a cell, but also the...

indicate the chemical composition of a cell, but also the level or type of activity a cell may have

the matrix is not -- by nerves in cartilage

innervated

fibrocartilage is often found where ligaments and tendons..

insert into bone

smooth muscle is -- and controls -- movement

is NOT striated and controls involuntary movement as well

inner layer of the periosteum is -- to the bone matrix and has -- that will become....

is close to the bone matrix and has cells that will become the cells that make the osteoid

interstitial growth is the type of growth that relates to -- groups

isogenous

what is an advantage of frozen sectioning

it allows for rapid diagnosis of fresh tissue

if the bundles are organized and all run in one direction, it is -- tissue

it is dense regular CT

bone is specialized CT because it is -- meaning it's --. despite this, it is still very dynamic

it is mineralized, meaning it's hard. despite this, it is still very dynamic

what does the nucleus look like in fibrocytes?

it is much small and very basophilic

pseudostratified columnar often has what apical specialization

it is often ciliated - makes sense why it's found in the respiratory tract

what is the theca in a goblet cell?

it is the part of the cytoplasm loaded with mucinogen droplets and it is separate from the cytoplasm

although we cannot see lipid droplets at the light level, we can tell they were once present because

it looks foamy where the lipid droplets were

because the matrix is not innervated by nerves in cartilage, you can get stabbed in some places and

it won't hurt

of the components of cartilage, what's different about the perichondrium?

it's not in all types of cartilage

the inner layer of the perichondrium is located -- and it has more than just ---(cell type). it also has --.

it's the layer located directly next to the matrix and it has more than just fibroblasts. it also has chondrogenic cells

can you see gap junctions at the EM level? why or why not?

it's very difficult because the membranes basically fuse to allow the cells to communicate

what is the cytosol

jelly-like material that contains membrane bound organelles and fills up the cytoplasm

2 examples of intermediate filaments

keratin lamin

in order to section specimens, you must first...

kill/fix the tissue/organ (usually with formalin)

there are 2 types of macrophages, which are....

kupffer cells - resident cells transient ones found in the CT

black holes on decalcified bone slides are the...

lacunae

chondroblasts are trapped in

lacunae

osteocytes are contained in

lacunae

osteocytes rest in

lacunae

in cancellous bone, -- are present but they are not organized with that -- forming osteons

lamellae are present, but they are not organized with that circular pattern forming the osteons

the basal lamina itself is made up of what two layers

lamina lucida (lucida means it's clear) lamina densa (densa means you see it)

size of mast cells

large cells (20-30 micrometers in diameter, which is 2-3x bigger than a RBC)

describe the nucleus of chondrocytes

large nucleus with a nucleolus

once the bone marrow cavity forms, the osteoblasts lay down -- on cartilage remnants and -- cells carried by blood become -- that also make it. this is how the bone forms/how the ossification of cartilage occurs

lay down osteoid on cartilage remnants and OPG cells carried by blood become osteoblasts that also make osteoid

philicity of interterritorial ECM? why?

less basophilic b/c there's more collagen and less glycosaminoglycans

how does the cytoplasm stain in osteoprogenitor cells

lightly stains

because gap junctions allow cells to function as a whole, you'll find gap junctions between..

muscle heart cells so that each will contract individually but in sync with each other so that the heart contracts as a whole unit at once

what's an example of a tissue where all the cells don't look alike but work together to provide a specialized function

muscle tissue

the striations are perpendicular to the long axis of the cells to allow the

muscle to contract

when we stain the tissues we must then remove the -- and -- the sections by

must remove the wax and rehydrate the sections using descending alcohols and tap water

each muscle fiber (each muscle cell) contains many --

myofibrils

myofibrils are made up of

myofilaments

is actin or myosin bigger

myosin

volkman's canals contain the

neurovascular bundle

you can never base an identification on a -- only ever on ---

never base it on an absence, ALWAYS base it on presence

you will never see osteoblasts -- up, they will always be in a --

never see them stacked up, they'll always be in a single layer

fibrocartilage is never very -- but it is also never by --

never very abundant, but also never by itself

osteoprogenitor cells are the cells that are elicited if there is a need for..

new bone formation -- they would turn into osteoblasts

Does fibrocartilage have a perichondrium?

no

are inclusions membrane bound

no

are we able to see basal bodies at the light level

no

do type 3 fibers associate in large bundles ?

no

does cartilage ECM contain blood or lymphatic vessels?

no

does the specimen need to be sectioned when using an SEM

no

if the RER were to lose its ribosomes, would it then be the same as the SER?

no

is the ECM of cartilage vascularized?

no

are microfilaments thicker than the cell membrane? how thick are they exactly?

no - 7 nm thick

are we able to see type 2 fibers using LM

no - at least not nearly as well as we could see type I due to the way the light is defracted in microscopy

do we see the lacunae in good sections?

no - if you do, it's likely an artefact

is hyaline restricted to only one mechanism of growth?

no - it can grow appositionally or interstitially (does not apply to the exceptions mentioned in the growth plate/articular joint --> they must grow interstitially since they have no perichondrium)

is elastic cartilage widespread throughout the body?

no - it has a far more restricted distribution than hyaline cartilage

does the ECM of cartilage have sensory receptors or nerves?

no - it is not innervated

can we see the collagen type 2 fibers in the hyaline ECM at the light level?

no - matter of light refraction

do both types of CT fibers look and function the same?

no - they each function and look differently

do adipocytes divide?

no - they're non-mitotic

when fibroblasts are quiescent are they mitotic?

no - they're non-mitotic except for in the case of repair

do stereocilia move?

no - they're non-motile

are we able to use fluorescence/dyes with EM? if yes, which ones? if no, what do we use instead?

no - we can use gold beads to tag them instead

can the separation between the inner and outer layers of the perichondrium be physically observed?

no - you don't see where they separate

because the ECM is not vascularized, there are no -- so all of the nutrients and oxygen the cells need will have to...

no BVs - all nutrients and oxygen will have to diffuse from the neighboring CT

are osteoclasts found in the periosteum as well?

no NEVER

are there cells in ground bone?

no because it's not really living - there are only spaces where the cells or living material was

do we see lipid droplets at the light level? why or why not?

no because they're taken out with the process of making sections

when the zone of reserve is depleted such that no more -- can --, the epiphyseal plate it done and the epiphysis and diaphysis of the bone become..

no more chondrocytes can divide = we are done. the epiphysis and the diaphysis of the bone become confluent and we are done growing --> reached maximal growth (no more proliferation)

at the light level do we see golgi?

no we don't see the golgi themselves, but you do see a lack of staining that indicates their presence - it forms a halo around the nucleus

do we stain our speciments when using TEMs?

no we don't use dyes

is connective tissue localized in the body?

no, it is very large and complicated and all throughout the body

water is in the ground substance in some types of cartilage, but

not all of them

mitochondria are not always -- shaped so don't see one that isn't shaped that way and mistake it for

not always bean shaped - don't mistake a differently shaped one for pathology

the concentric layers are not as easy to see in -- as it is in --

not as easy to see in decalcified bone as it is in ground bone

does cartilage regenerate well?

not at all

where can pseduostratified columnar epithelium be found? is it common?

not common to find it, but it's in the respiratory tract

abundance of cells in dense CT?

not many cells

in LM would you expect to see organelles

not really

is there brush border readily visible at the light level

not really

covering epithelia (CE) is not -- so we do not see any -- among these cells

not vascularized so we don't see any BVs in these cells

multilocular adipose tissue is not very --. we used to think it only occurred in -- but now we see that it....

not very abundant used to think it only occurred in neonates but now we see that it starts to come back as we age

how does mucous stain in H and E

not well - it's very pale

how does the basement membrane stain with H&E?

not well - you can barely see it (most of the time you can't actually even see it, you just know it's there b/c you see the limit b/t the epithelium and the connective tissue - to get it to stain well you need a special stain that turns it blue

osteoclasts have nothing to do with -- cells. they actually do the opposite, which is

nothing to do with bone forming cells - they do the opposite, which is resorb bone

compound acinar gland pic

notice that it looks just like compound tubular except the ends are more bulbous

once the cells receive the signal to differentiate, the CT that made up the perichondrium now carries -- and becomes the -- so now we're talking about actual --

now carries osteoblasts and becomes the periosteum so now we're talking about actual bone in the periosteum

whenever you see a dark spot in a big circle, it is probably the

nucleolus

golgi are often located near a

nucleus

classification of covering epithelium is based on 2 things, which are

number of cell layers shape of the cells of the SURFACE layer

after you cut the bone and grind it very thinly, you obtain ---. it is not exactly --

obtain ground bone - it is not exactly sectioned

once the bones become rubbery, you have obtained -- and it can be..

obtained decalcified bone and it can be processed like all other soft tissues

tight junctions are -- junctions that form -- or --

occluding junctions that form zonula occludens or macula occludens

the same process of ossification can occur in the --, which are the -- and referred to as -- centers

occur in the epiphysis, which are the 2 ends of the bone and referred to as secondary ossification centers

woven bone is often found in the -- where the bone is just starting to --. but can also be found where another bone has been...

often found in the fetus where the bone is just starting to form, but can also be found where another bone has been injured/broken - woven bone will develop first and then become mineralized as the bone heals

acini are often -- cells because their nuclei are

often polarized cells because their nuclei get pushed against the PM so they flatten and then there's a lot of cytoplasm above the nuclei

old bone is -- and new bone is --

old bone is resorbed and new bone is formed

rough endoplasmic reticulum slide

on left of M (but not M obvi)

ex. of where microvili are located in a major organ

on top of the epithelial lining of the intestine

endosteum is always -- thick

one cell

in the bone, there are two populations of cells. one that -- the bone and one that -- the bone

one that makes the bone and one that destroys/resorbs the bone (osteoclasts are the only member of this population)

staining with either a basic dye or an acidic dye isn't sufficient since either one only allows... so they are often...

only allows you to see certain parts of the cell so they are often used in combination - most common combo is H&E

H band

only has myosin

can mitochondria be seen at the light level?

only if they're very very large

the basement membrane is only in contact with what layer

only in contact with the base of the bottom layer (basal lamina) - it is NOT in between all of the layers

in cross-section at the light level, you can only see myofilaments if they are -- because they're

only see them if they're artegact b/c they're really tightly packed

of the lobules that form, only some are -- the rest can be --

only some are fully completed, but the rest can be incomplete

another differential stain, elastic fibers can be stained with is

orcein - that's all i know

the big difference between cancellous and compact is the difference in

organization of their lamellae - compact bone has osteons and cancellous does not

in epithelial tissue, the cells are typically -- and all the same

organized

these growth plates are extremely

organized

in iO, collagen gets organized as -- and as -- in the dense bone that sandwich the trabeculae in flat bone

organized as lamellae and as osteons in the dense bone that sandwich the trabeculae in flat bone

the brown adipose tissue is organized into -- and this is not always true for --

organized into lobules, not always true for white adipose tissue

mesenchymal CT is between

organs in the embryo

cilia microtubules are very regularly ---

oriented/organized

histogenesis means the same thing as

ossification

in the inner layer of the periosteum, osteoprogenitor cells can differentiate into -- that...

osteoblasts that synthesize the osteoid

osteoclasts are the cells that -- in contrast to osteoblasts that --

osteoclasts = resorb bone osteoblasts = form bone

how is the bone marrow cavity formed

osteoclasts that arrive in the bone via BVs penetrating the periosteum resorb the calcified matrix = forms bone marrow cavity

non-lamellar bone has abundant (cell type)?

osteocytes

once osteoblasts are surrounded by matrix, they become

osteocytes

osteoblasts derive from --

osteoprogenitor (OPG) cells

what are the 3 types of cells found in the endosteum?

osteoprogenitor cells osteoblasts osteoclasts

which cell types are contained in the inner layer of the periosteum

osteoprogenitor cells and osteoblasts

cells contained in the inner layer of the periosteum and are the precursors to the cells that form the osteoid are called

osteoprogenitor cells or osteogenic cells (mean the same thing)

the outer surface of the bones is lined with the -- and what lines all of the inner surfaces is the

outer surfaces = periosteum inner surfaces = endosteum

proteins transported to the golgi get..

packaged and modified in the golgi before they're transported to the membrane where they'll be exocytosed

the cytoplasm of fibroblasts is -- and hard to..

pale and hard to see histologically - hard to differentiate the cytoplasm

interterritorial ECM stains much --

paler - more collagen, less glycosaminoglycans

what are shrinkage artefacts and how do they result?

shrinkage artefacts appear as space (appear to be lumens, but they aren't). really they are just where the tissue has separated as a result of shrinking upon dehydration - it appears as a white space, but they were connected before dehydration and that's why it's an artefact

there is one growth plate on each

side of the diaphysis

if there is only one cell layer it is called

simple

what kind of epithelium typically lines ducts of glands?

simple cuboidal

if the duct does not divide, it is called a

simple gland

what are the 4 basic types of simple CE?

simple squamous simple cuboidal simple columnar pseudostratified columnar

the length of tissue processing is dependent on

size and density of the tissue - could be anywhere from several hours to overnight

cartilage is part of the -- system

skeletal

what are the 3 types of muscle tissue

skeletal, cardiac, and smooth

in the beginning of EO, the skeleton is -- meaning that the ECM is not -- or -- and this means..

skeleton is cartilaginous, meaning that the ECM is NOT innervated or vascularized and we know this indicates that the tissue relies on diffusion of the nutrients

how quick is EO

slow

as muscle is developing in the embryo, the precursor cells are --(size) and called --

small and called myoblasts

shape of satellite cells

small and flat

fibrocytes are much (size)

smaller than fibroblasts

special stains give you so much -- in comparison to the -- spent

so much information for the time spent

what kinds of things might pass through the pores in gap junctions?

so small molecules/ions/low resistance signals will pass

skeletal muscle regenerates to..

some extent

-- is really important for homeostasis

space

what are the lacunae in bone?

spaces where the cells rest and then the cells will send extensions of their cytoplasm and communicate

what kind of tissue is bone

specialized CT

what kind of tissue is cartilage

specialized CT

we dehydrate specimens by immersing them in ....then we clear them by

specimen immersed in ascending grades of alcohol to remove water and formalin (start with 70%, go up to 100%). clear them by putting them in an organic solvent such as xylene

shape of chondrogenic cells

spindle shaped

cancellous bone can also be called

spongy bone or trabecular bone

macula adherens has a -- appearance

spot-like

what are the 3 shapes epithelial cells can take on

squamous cuboidal columnar

territorial and interterritorial ECM -- differently

stain

when the cell is stained with eosin, the cytoskeleton filaments stain what color? what does that indicate about their acidity/basicity?

stain pink/orange since they're proteins and that's what eosin does to basic parts of the cell - thus the cytoskeleton is eosinophilic/acidophilic (if it were purple it'd be called basophilic - purple is hematoxylin)

elastic fibers stain with -- stains. in particular, elastic fibers stain a deep -- when stained with --

stain with differential stains. elastic fibers stain a deep purple when stained with verhoeff's hematoxylin in particular

Intramembranous ossification (IO) starts initially from a patch of -- that get the signals to...

starts from a patch of mesenchymal cells that get the signals to become bone (to differentiate into osteoblasts)

what is the shape of osteocytes

stellate (star-shaped, they send out projections all around)

another process working in parallel with the hypertrophic part is around that same bone (that is still made of --) there is a -- made up of

still made up of cartilage. there is a perichondrium surrounding the bone since it's still cartilage

if the limit of the cells can be seen it means that in between the cells, the membranes are

straight

if there are 2 or more layers it is called

stratified

what are the 3 types of stratified epithelium we went over in class?

stratified squamous stratified cuboidal transitional epithelium

what are the kind of cells you'd expect to find in skin

stratified squamous epithelial cells

what kind of epithelium is typical of the esophagus

stratified squamous non-keratinized epithelium

transitional epithelium can be difficult to ID because it's structure can differ depending on if it's

stretched or relaxed

cardiac muscle is -- and controls -- movement

striated and controls involuntary movement

skeletal muscle is -- and controls -- movement

striated and controls voluntary movement

striations in skeletal muscle are oriented how with relation to the cell in longitudinal sections

striation are perpendicular to the long axis of the cell

the accumulation of mitochondria, cytoplasm, myofibrils, and myofilaments is what produces the -- in cardiac muscle

striations

where are type 3 fibers abundant?

stroma and specific organs

cohesive polyhedral cells means that cells are...

strongly attached to each other

because masson's trichrome stains collagen type 1 fibers blue or green, this stain is important in

studying connective tissue

the bone can be formed when there is a suitable -- that is --

suitable substrate that is pre-existing

type 3 fibers are involved in organ --

support

reticular tissue is -- tissue composed mostly of -- and --

supporting tissue composed mostly of reticular fibers and ground substance

most of the time, low magnification tells us .. we only use high mag to

tells us a lot of information already, we only use high mag to verify our hypotheses obtained from low mag

ex. of regular dense CT

tendon

because the ECM does not contain BVs or lymphatic vessels, it tends to be -- and not -- well

tends to be thin and does not regenerate well

collagen fibers have high --

tensile strength

the ECM of cartilage can be described as -- or -- depending on its location

territorial or interterritorial

how do we continue to grow from a fetus to an adult?

thanks to epiphyseal growth plates

special stains can answer questions that cannot .... and can be used for diagnosis of...

that cannot be answered in any other way and special stains can be used for diagnosis of cancer or other medical diseases - mostly the latter, not used super often for cancer

polarization of the epithelial cell reflects...

that functions on the basal part of the cell are not the same as functions on the apical part of the cell

hematoxylin is attracted to the ribosomes, the --, -- and --

the RER the nucleus the nucleolus

myofibrils and myofilaments are not..

the SAME

what are myofilaments

the actin and myosin filaments that are packed together nad organized into myofibrils

what part of the proteins is eosin attracted to

the basic parts of proteins that exist within cells - some amino acid side chains have positive charge

how can we use gold beads to tag the antibodies in EM?

the beads are dense so they will not allow electrons to pass through them so they appear dark on the section

uni adipose tissue is found throughout

the body

multilocular adipose tissue is also know as the -- because it is...

the brown adipose tissue because it is highly vascularized (many BVs running among the adipocytes)

how do apocrine glands secrete product?

the cell product gets released into the lumen of glands when portions of the cytoplasm are pinched off at the apical part of the cell and released into the lumen

sometimes the top layer of transitional epithelia doesn't take on the dome shape, in this case, you can still differentiate it from stratified squamous because

the cells are all fairly large and similar (unlike in stratified squamous where the nuclei are flatter)

how does appositional growth work?

the cells differentiate and become chondroblasts, but as the matrix grows around the cells, they do not move - they stay where they are and that's where the growth comes from

how is one able to differentiate the cells in fibrocartilage and fibroblasts?

the cells in fibrocartilage are chondrocytes and you can recognize that it's fibrocartilage because the chondrocytes are arranged in rows and there's not much matrix around

how is the surface epithelium the origin of GE

the cells in the surface epithelium multiply and grow deeper into the connective tissue

what occurs in the zone of proliferation

the chondrocytes will divide and form a latter type structure b/c they divide mitotically - make more matrix so you see how the bone will grow

CT proper is described according to how densely...

the collagen fibers are packed

gap junctions may be present in an epithelium but it depends on

the function of that epithelium

sarcomere

the functional unit of contraction

a lumen can be described as

the inside of the intestine/vessels/sacs of membrane

in a compound microscope, the -- allows us to see the image of the specimen on the stage down below and your eye is placed on...

the light energy allows us to see the image; place eye on the top

what is the big difference between light microscopes (LM) and SEMs?

the magnification

chondroblasts are cells that form

the matrix of cartilage

the invading CT that divides organs into lobes and lobules can be seen with

the naked eye

under a compound microscope, with squamous cells you can only see...

the nucleus - can't even see the cytoplasm

what is the largest organelle? can it be seen at the light level?

the nucleus - it can be seen at the light level

the -- of nucleoli or if they're -- or not is important in histology

the number of nuclei or if you even see any at all is important

why does the tissue need to be cleared?

the organic solvent removes alcohol to allow infiltration with paraffin wax

with IO, the osteoblasts form the -- that gets organized into tiny -- that aggregate to form the --

the osteoblasts form the osteoid that gets organized into tiny spicules that aggregate to form the trabeculae

what is the organic part of the ECM called

the osteoid or prebone or preosseous tissue - all of these names mean the same thing

what are the 2 layers of the periosteum

the outer fibrous layer inner layer

the perichondrium has 2 layers, which are

the outer fibrous layer and the inner chondrogenic layer

in bone, where is the entry point of nerves and blood vessels

the outer fibrous layer of the periosteum

once osmium tetroxide attaches onto the heads of the phospholipids, we can see

the phospholipid bilayer up close

the cell membrane is sometimes also called

the plasma membrane or plasmalemma

why are goblet cells PAS+?

the product of goblet cells has sugar molecules so wherever mucinogen is, it will turn red

when proteoglycans bunch together they form ... which is the basis for the ...

the proteoglycan aggregate, which is the basis for the gel-like material that forms the ground substance

in decalcified bone, the cells run in...

the same direction as the lamellae = concentric organization

what gives the skeletal muscle striations

the sarcomeres

how does bone provide support

the skeleton

how does bone provide protection

the skull

under low magnification, if you see two thick black lines and you think it's the trilaminar appearance, first look at

the space in between the 2 black lines - if it is irregular aka super white, it means you're actually looking at the membranes of two different cells adjacent to one another - this is TWO membranes, not one/not the trilaminar appearance

what is histology

the study of healthy tissues

RER is involved in

the synthesis of polypeptides

what is a disadvantage of frozen sectioning

the tissue morphology may be compromised, but the process is super quick

in endocrine glands there is a -- connection with the surface and the gland is separated from...

there is a loose connection with the surface, but the gland is separated from the surface and the product is secreted into the blood and carried to target organs

because skeletal muscle cells have many nuclei, they act as -- cells, display a degree of --

they act as syncytial cells, display a degree of syncytium

why are special (really specific) stains clinically valuable?

they answer specific questions in pathology, whereas H&E answers a general question about what types of cells/tissues are present

osteoprogenitor cells are -- cells that are -- but will differentiate into -- if triggered

they are mesenchymal cells that are non-differentiated, but will differentiate into osteoblasts if triggered

the transient population of cells in CT are elicited when

they are needed

what are the holes in the nucleus called?what do they do?

they are pore called nuclear pore complexes that only allow certain things to enter

pseudostratified columnar epithelium is a special epithelium that scientists used to believe was stratified because

they could see nuclei at different heights at the light level

with EM, scientists eventually saw that in pseudostratified, all of the cells...

they could see were touching the basement membrane (despite having their nuclei at different heights), but not all of the cells could reach the lumen (or the top) - not all of them span the entire layer, but all of them do touch the bottom

why are osteocytes not considered quiescent osteoblasts

they keep working and maintain the matrix of bone, they just look different

what is the function of anchoring junctions

they resist mechanical stress

what do the osteoclasts do once they invade the lacunae? what about the osteoblasts?

they resorb the calcified matrix. the osteoblasts will deposit osteoid onto the cartilage

what is the function of chondroblasts

they secrete matrix

what do pericytes do

they surround some blood vessels

what is the function of fibroblasts

they synthesize the extracellular matrix (ECM)

what is the function of cilia

they use their ability to beat to carry out many different functions all over the body

shape of mast cells themselves? (not the nucleus)

they're large and ovoid (but nucleus is spherical)

elastic cartilage never really becomes (thickness)?

thick

because they have to rely on diffusion to receive O2 and nutrients, CE cells are never very -- and if they are, then...

thick and if they are, then the top cells die

because the ECM relies on diffusion, the tissue can never be too

thick b/c the thicker it gets, the slower diffusion occurs and the cells in the middle could die

at low magnification, the PM appears a

thick black line

blood vessels have a very -- wall

thin

elastic fibers are very (thickness)?

thin - just look like lines

to view a specimen under a microscope (BOTH a TEM and a compound microscope), it must be -- enough for the energy to...

thin enough for the light or electrons to go through, thus we must section

what does laminar mean

thin layers

organs are made of

tissues

what is the job of mast cells?

to be involved in allergic reactions (hypersensitivity and anaphylactic reaction); host defense

what is the function of the PM

to keep the integrity of the cell (without it the cytoplasm would spill out and the cell would die), proteins in it allow transduction of signals, and it acts as a barrier for the cell (keeps things in and out)

function of adipocytes

to synthesize and store triglycerides

what's an example of metachromasia?

toluidine blue stains cartilage purple so we say that cartilage is a metachromatic tissue

the internal surface is the surface of the

trabeculae

cancellous bone is sometimes called spongy or trabecular bone because it is formed by a bunch of

trabeculae (little walls of bones)

what are T tubules used for

transmitting information (depolarization of the membrane) when a nerve is sending information --> this is what allows the release of calcium from the sarcoplasmic reticulum

why is it important to note that cuboidal cells tend to have a round nucleus and that that is one of their defining features?

when we can't see the limits of cells, and thus the outline of their shapes, due to interdigitation of the cell membrane, we can still see rows of round nuclei and conclude they're cuboidal cells - can also be done with columnar cells (but looking for a differently shaped nucleus to conclude it's columnar obviously)

the nucleus is the site where -- is contained and it has 2 forms which are..

where DNA is contained - chromatin has 2 forms, which are heterochromatin and euchromatin

simple tubular gland pic

where one of the black arrows is pointing

what is the ruffled border

where the osteclast makes contact with the matrix and it creates foldings that function basically the same as the microvili (inc. SA to help with absorption)

in the space where the osteocytes are contained - the lacunae- there is some leftover space represented as a -- ring. this is known as the -- and it contains the --

white ring- known as periosteocytic space and it contains the extracellular fluid

cartilage will always have -- fibers, they will just be different in different types of cartilage

will always have collagen fibers

fibrocartilage will never be ... it will always be associated with...

will never be by itself - it will always be associated with other tissues

fibrocartilage pretty much always associated with -- tissue and -- cartilage

with dense irregular CT and hyaline cartilage

you will not find -- in all cells and their abundance depends on

won't find SER in all cells - abundance depends on the function of the cell

it doesn't really matter what you call the skeletal muscle cell as long as you include the word -- since it is the...

word fiber since it is what differentiates skeletal from cardiac and smooth muscle cells

non-lamellar bone can also be called

woven bone or primary bone

osteocytes can live for --

years or even decades

elastic cartilage has what color

yellowish

are both types of CT fibers found in the ECM

yes

are osteoprogenitor cells mitotic

yes

can osteoclasts be multi-nucleated?

yes

can other types of cells do diapedesis other than macrophages?

yes

does cardiac muscle have sarcomeres as the functional unit of contraction?

yes

does cardiac muscle have striations

yes

is cartilage metachromatic?

yes

is lamellar bone mineralized?

yes

is the endomysium vascularized

yes

is bone vascularized? innervated?

yes to both

is the unilocular adipose tissue also vascularized?

yes, but not as much as the brown tissue

do macrophages divide?

yes, they are mitotic

how does immunocytochemistry begin?

you cover the specimen with antibodies that will attach to the antigens

at the light level, do we see RER? if yes, why? if no, what can be done about that?

you don't see individual networks of RER, no but there is a special stain that stains it very dark/purple and its an indication of the activity of the cell

how is the indirect method of immunocytochemistry different than direct?

you raise your primary antibody that's attached to the antigen of interest to a secondary antibody called an anti-antibody that can be bought and THAT antibody is the one that gets tagged with a fluorescent dye to visualize them

you will find lamellar bones in -- but the lamellae...

you'll find lamellar bones in both compact and cancellous bone, but the lamellae will not be set the exact same way

toward the top of the epiphysis, you have the zone of --, which is just...

zone of reserve - which is just resting chondrocytes


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