histology quiz 6

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parietal cell

"Acidophilic, polyhedral cytoplasm, with a central spherical nucleus. Usually located between the basal membrane and the cells surrounding the lumen of secretory units. The cell synthesizes carbonic anhydrase." This description of a fundic gland cell belongs to:

chief cell

"Basophilic, columnar or pyramidal in shape, with a basal spherical nucleus. Apical border makes contact with the lumen. The cytoplasm contains secretory granules filled with pepsinogen" This description of a fundic gland cell belongs to

enterochromaffin cells

"Cells are rare, neither basophilic nor acidophilic, but they can be identified with bichromate salt- based dyes. Produce histamine."This description of a fundic gland cell belongs to

intercalated ducts

"total diameter is smaller than that of an acinus, lined by simple cuboideal epithelium" is a discription of what salivary gland duct

submucosa contains serous glands

All of the following are rumen features, EXCEPT: (mark one) A. Tunica muscularis consists of two layers of smooth muscle. B. Surface epithelium is squamous stratified and keratinized. Mucosa folds into papillae. C. Submucosa contains serous glands. D. Active absorption of acetic, propionic, and butyric acids.

enteroendocrine cells

G cells and enterochromaffin cells are examples of

parietal cells

ID cells 6

chief cells

ID cells 7

funcidc region stomach

ID organ & region

small intestine - jejunum

ID organ & region

small intestine - jejunum

ID organ and region

vallate papillae

ID structure 1

taste buds

ID structure 2

Myenteric plexus (Auerbach's plexus)

ID structure 5

skeletal muscle

ID tissue 3

tunica muscularis

Id layer 3

dense connective tissue

Id tissue 4

dense connective tissue

Id tissue 5

alveolar macrophage

antigen presenting cell

yes

are meissner's plexus present in duodenum?

yes

are meissner's plexus present in the stomach

yes

are their glands in the submucosa of duodenum

yes

are there glands in the lamina propia of the duodenum

simple (straight)

arrangement of duct system in intestinal glands

compound

arrangement of duct system of pancreas

presence of tubular glands in the mucosa

avian proventriculum & gizzard share what common feature

carbonic anhydrase

both parietal cells in the stomach and osteoclasts in the bones secrete HCL. what basic mechanism leading to HCl secretion do these cells share

submucosa & tunica msucularis

cell bodies belonging to the enteric division of the autonomic nervous system are found in what layers

terminal bronchiole

ciliated simple columnar epithelium propria / submucosa surrounded by a thin layer of smooth mscle cells lacks goblet cells glands and cartilage are lacking

simple columnar mucosa epithelium

classify surface epithelium of stomach

1. simple columnar with microvilli 2. goblet cells

classify surface epithelium of the duodenum

simple columnar epithelium

classify tissue 4

1. simple tubular glands 2. predominance of goblet cells

composition of L propria of large intestine

1. single longitudinal smooth muscle layer 2. discontinuous cranial end 3. continuous caudal end

composition of L. muscularis in the esophagus

two fragmented layers

composition of L. muscularis in the small intestine

three complete layers

composition of L. muscularis of stomach mucosa

2 fragmented layers

composition of L. muscularis of the large intestine

1. simple tubular glands (lieberkuhns) 2. peyers patches in ileum

composition of L. propia of the small intestine

dense connective tissue

composition of L. propria in esophagus

1. simple branched glands 2. three glandular regions

composition of L. propria of mucosa in the stomach

1. simple columnar w/ micovilli 2. goblet cells

composition of mucosa epithelium in the small intestine

1. no glands 2. isolated lymphatic nodules 3. meissner's plexus

composition of submucosa in large intestine

1. loose connective tissue 2. meissner's plexus (glands in dogs & pigs)

composition of submucosa in the esophagus

1. loose connective tissue 2. meissner's plexus

composition of submucosa in the stomach

1. brunner's glands in duodenum 2. peyer's patches in ilium 3. meissner's plexus

composition of submucosa of small intestine

1. two layers of smooth muscle 2. taenia in cecum & colon 3. meissner's plexus

composition of tunica muscularis in the large intestine

1. three layers of smooth muscle 2. auerbach's plexus

composition of tunica muscularis in the stomach

1. two layers of smooth muscle 2. auerbach's plexus

composition of tunica muscularis of small intestine

1. two layers of striated muscle 2. smooth muscle at caudal end 3. Auebach's plexus

composition of tunica muscularis of the esophagus

neuroendocrine cells

contain electrodence secretory granules in the basal compartment, contain bioactive amines & peptides (serotonin & calcitonin)

neumocyte type II

cuboideal cell

neumocyte type II

cytoplasm contains lamellar bodies

1. lined by simple squamous instead of simple cuboidal 2. interrupted by atria insted of alveolus 3. few smooth muscle cells present

differences seen in avian parabronchi compared to mammalian alveolar ducts

yes

does the duodenum have a lamina mucularis layer

serosa

does the large intestine have adventitia pr serosa

serosa

does the small intestine have adventitia pr serosa

serosa

does the stomach have adventitia or serosa

yes

does the stomach have glands in lamina propria

no

does the stomach have glands in the submucosa

simple branched

duct system arrangement in gastric glands

compound

duct system arrangement of salivary gland

Lieberkuhn glands

enteroendocrine cells are found where in the duodenum

Fundic glands

enteroendocrine cells are found where in the stomach

squamous stratified keratinized (except in carnivores)

epithelium of the mucosa in the esophagus

1. short tubular glands in mucosa / submucosa 2. respiratory surface epithelium 3. hayline cartilage

features of the trachea

1. Volatile fatty acids (VFA)

forestomach epithelium is specialized for the absorption of ______ which are used for energy conversion

contribute energy to transmembrane proteins involved in active transport of bile constituents

function of mitochondria in hepatocytes

supple energy demands to membrane transport processes where HCl is formed

function of mitochondria in parietal cells

supply ATP for protein transporters involved in fluid exchanged

function of mitochondria in salivary glands

1. cardiac gland cells 2. surface epithelium cells 3. cells lining the gastric pits 4. pyloric gland cells

gastric epithelium that produce mucus

esophagus

given the table, what segment of the AT fits the description

alveolar duct

hallway like spaces derived from respiratory bronchioli where alveoli open

brush cells

have long thick microvilli

true

hepatic sinusoids are fenestrated

Mucosa

id layer 1

submucosa

id layer 2

large intestine

id organ

intestinal crypts

id structure 4

heaptocytes within acinus receive blood from same interlobular blood vessel

importance of hepatic acinus

represents the secretory unit of the liver where all hepatocytes within the triangle drain bile into the interlobular bile duct

importance of portal lobules

brunner's glands

in contrast to the duodenum, the jejunum & ileum lack

villi

in contrast to the small intestine, the large intestine lacks

canaliculi

in the forestomach, a morphological manifestation of its absorptive capabilities are the _______ observed between epithelial cells with TEM

1. lack goblet cells 2. lack cartilage 3. lack glands in mucosa / submucosa

in what ways are bronchioli different from bronchi

yes

is a lamina muscularis present in the stomach

macrophages intercalated in hepatic sinusoids

kupffer's cells are

rumen & reticulum

lacks lamina muscularis

Mucosa

layer 1

mucosa & submucosa

layer 1

tunica mucosa

layer 1

lamina propria

layer 2

tunica muscularis

layer 2

tunica submucosa

layer 2

lamina muscularis

layer 3

tunica muscularis

layer 3

1. surfacant layer 2. neumocyte 1 3. neumocyte 1 basal lamina 4. septa space 5. capillary basal lamina 6. endothelial cell 7. erythrocyte membrane

layers of blood air barrier of lungs

1. Basale 2. Spinosum 3. Granulosum 4. Corneum

like the epidermis the forestomach epithelium consists of four strata called

rumen, reticulum, omasum

lined by keratinized or parakeratinized stratified epithelium

surfacant

lipid rich product of alveolar type II cells that prevents alveoli collapse

neumocyte type I

main role in gas exchange

exocrine

mechanism of secretion from pancreas

Merocrine

mechanism of secretion in gastric glands

merocrine

mechanism of secretion in intestinal glands

merocrine

mechanism of secretion in salivary glands

simple columnar with microvilli & goblet cells

mucosa epithelium composition in large intestine

simple columnar mucous epithelium

mucosa epithelium in the stomach

Reticulum

mucosa projects as crests defining cells

omasum

mucosa projects as leaves of different sizes

rumen

mucosa projects as papillae

basal cell

name cell 2

Columnar ciliated cells

name cell 3

brush cell

name cell 5

Ondontoblasts

name cells 1

goblet cell

name cells 1

Ameloblasts

name cells 2

neuroendocrine cell

name cells 4

enamel

name layer 3

dentin

name layer 4

Omasum

name organ

esophagus

name organ

liver

name organ

lung

name organ

pancreas

name organ

salivary gland

name organ

tongue

name organ

gastric pits

name structures 5

1. mucous folds 2. villi 3. microvilli

name the 3 structural devices by which the duodenum increases the amount of surface area available for absorption from the lumen

duodenum

name the single AT segment containing glands in layer 4 (submucosa)

1. chief cells (pepsinogen) 2. parietal cells (HCl)

name the two most important cells contributing to the gastric juice

dental pulp

name tissue 5

alveolar macrophage

not supported by basal membrane

gastric pits

number 1

intrapulmonary bronchus

number 1

mucosa

number 2

secondary bronchi

number 2

paleopulmonic parabronchi

number 3

submucosa

number 3

air sacs / atria

number 4

muscularis

number 4

serosa

number 5

muscularis mucosae

number 6

gastric glands

number 7

two layers of smooth muscle

number of layers in the tunica musucalris of the duodenum

three layers of smooth muscle

number of layers in tunica muscularis of the stomach

1. bile canaliculi 2. bile ductuli (herring's) 3. intrahepatic ducts 4. hepatic ducts 5. bile ducts

order of ducts followed by the bile from hepatocytes to duodenum

alveolar macrophage

pleomorphic cell

1. branch of portal vein 2. branch of hepatic artery 3. interlobular bile duct

portal areas contain what elements

surface invaginations / gastric pits

presence of villi/ pits/ etc. in stomach

neumocyte type I

represents > 90% of alveolar cells

bronchus

respiratory epithelium tubuloacinar glands complete layer of smooth muscle separates mucosa from cartilage cartilage arranged in irregular plates

trachea

respiratory surface epithelium propria / submuocosa contains tubuloacinar glands the ends of c-shaped cartilage rings are bridges by smooth muscle

neumocyte type II

secretion reduces alveolar surface tension

tubular

secretory unit in gastric glands

tubular

secretory unit in intestinal glands

acinar or tubuloacinar (serous & mucous)

secretory unit in salivary glands

tubular acinar

secretory unit in the pancreas

portal lobules

secretory unit of the liver

BOTH 1. Adventitia in cervical segment 2. serossa in thoracic segment

serosa or adventitia in esophagus?

respiratory bronchiole

simple columnar epithelium with abundant clara cells, few smooth muscle cells in the lamina propria wall interrupted by the openings of alveoli

basal cells

small polarized cells extending from the lumen to the basal membrane - cell to cell junctions

1. no villi 2. no plicae 3. no pits

special features of mucosa in large intestine

1. plicae circulares 2. villi

special features of mucosa in the small intestine

surface invaginations / gastric pits

specific feature of mucosa in the stomach

longitudinal folds

specific features of esophagus mucosa

neumocyte type I

squamous cell

colon

squamous stratified surface epithelium is found in all of the following AT parts except; Lips Hard palate Tongue Colon. Esophagus Forestomach

bronchus

structure 1

central vein

structure 1

mucosa cell

structure 1

secretory unit (exocrine glands)

structure 1

terminal bronchiole

structure 1

Langerhans islets

structure 2

branch of portal vein

structure 2

respiratory bronchiole

structure 2

secondary bronchi

structure 2

serous cell

structure 2

alveolar sac

structure 3

branch of hepatic artery

structure 3

extralobular duct

structure 3

intercalated duct

structure 3

alveolar duct

structure 4

intralobular duct

structure 4

papilla ?

structure 4

striated duct

structure 4

portal area

structure 5

hepatocytes

structure 6

Canaliculi

structure 7

1. generate action potential 2. express GPCR 3. share epithelium with supporting & basal cells

taste buds & olfactory epithelium sensory cells share what characteristics

striated

the composition of the saliva differs from that of the primary secretion produced by individual acini because _______ ducts selectively alter the saliva ionic composition

hepatic acinus

the green lines indicate what feature of the liver

compound

the liver is an exocrine gland is it compound or simple?

portal lobules

the pink lines indicate what feature of the liver

goblet cells

thin expanded cytoplasm depending on the amount of mucin granules present

catilage

tissue 2

smooth muscle

tissue 3

MALT

tissue 4

respiratory epithelium

tissue 5

true

true or false the limits of hepatic lobules are more evident in pigs compared to other species

false (lined by cell membranes of hepatocytes)

true or false bile canaliculi are lined by simple squamous epithelium

true

true or false both the small & large intestine contain collection of lymphatic tissue

true

true or false brunner's glands are unique to the duodenum

true

true or false cells lining the small intestine villi are called enterocytes

false (center to periphery)

true or false inside the hepatic lobule, bile circulates from the periphery to the center

false

true or false intestinal (lieberkuhn) glands are unique to the small intestine

true

true or false kupffer cells are intercalated between endothelial cells of sinusoids

false (ito cells)

true or false kupffer cells are sites of vitamin a storage

false (kupffer cells)

true or false removal of old/altered RBCs from circulation by the liver is mediated by hepatocytes

false

true or false small and large intestine differ in that the former lacks villi

true ??

true or false the AT nerve plexuses control contraction of the tunica muscularis and secretion of glands

false (sinusoid)

true or false the blood of the hepatic artery and portal vein mix for the dirst time in the central vein

false (microvilli)

true or false the collection of villi in the small intestine is referred to as striated border

false (75% from portal vein 25% from hepatic artery)

true or false the hepatic artery delivers most of the blood circulating inside the liver

false

true or false the lacteal is a blood capillary that transports fats absorbed from the lumen in the large intestine

false

true or false the number of goblet cells in the intestine decreases caudally

false (contains fenstrations)

true or false tight junctions link endothelial cells of sinusoids to each other

omasum

tunica muscularis projects into longest mucosa folds

bronchioli

typical respiratory epithelium is not found in what section of respiratory tract

villi & microvilli

villi? pits? etc in the duodenum?

serosa contains mesothelium layer that is lacking in adventitia

what distinguishes a serosa from an adventitia layer

lamina propria

what layer of AT wall usually contains glands

surface epithelium & lamina propria

what two layers of the tunica mucosa extend into small intestinal villi

Merocrine

what type of secretion mechanism does the liver have

surrounding canaliculi

where are mitochondria found in hepatocytes

surround canaliculi

where are mitochondria found in parietal cells

cell membrane in the basal side of striated ducts

where are mitochondria found in salivary glands

1. bile canaliculi 2. bile ductuli 3. intrahepatic ducts

which ducts leading away from hepatocytes are found within hepatic lobules


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