A&P Lecture exam #3

Pyramidal cell found where?

(Cerebral cortex

relaxation....Ca2+ -ATPase pump continuously, moves Ca2+ into?

+ into sarcoplasmic reticulum (SR)

Motor function do what?

- Activates effectors (muscles and glands) through cranial and spinal nerves • Helps maintain homeostasis (with the endocrine system) • Responsible for perception, behavior, learning, memory

Peripheral Nervous System (PNS)....Cranial nerves

- Emerge from the brain; 12 pairs

in deep wound healing what happens in the migratory phase?

- blood clot becomes a scab -epithelial cell bridge wound beneath scab -fibroblasts synthesize scar tissue .... collagen fibers and glycoproteins -damaged blood vessels begin to grow -granulation tissue fills the wound

in fibrosis what is a hypertrophic scar?

- elevated above the epidermal surface - within the original wound boundaries

In deep wound healing what happens in the proliferative phase?

- growth of epithelial cells beneath scab -collagen fibers secreted by fibroblasts deposited randomly -growth of blood vessels continues

what makes up and defines osteoprogenitor cells?

- only bone cell that divides - differentiate into osteoblasts -found in inner osteogenic layer of periosteum, in endosteum, & in canals within bone that have blood vessels.

Bone Growth in Thickness:Appositional growth, bone forms where?

1. Bone forms at surface in ridges on either side of periosteal blood vessels • Osteoblasts secrete ECM, become surrounded osteocytes

Muscle Metabolism....3 ways to produce ATP in muscle fibers:

1. Creatine phosphate (unique to muscle fibers) 2. Anaerobic glycolysis 3. Aerobic respiration

Sources of oxygen in muscular tissue:

1. Diffusion from the blood 2. From myoglobin within muscle fibers

contraction cycle....Attachment of Myosin to Action

1. Energized myosin head attaches to myosin‐binding site on actin 2. Phosphate group released from myosin head • Myosin head at this stage = cross-bridge • Only one head binds to actin at a time

what does the periosteum do?

1. Isolates bone from surrounding tissue 2. Provides a route for circulatory and nervous supply 3. Participates in bone growth and repair

what are the four cell types of bone?

1. Osteoprogenitor cells 2. osteoblasts 3.. osteocyte 4. osteoclast

NMJ includes what

1. Synaptic end bulbs 2. Synaptic cleft 3. Motor end plate

3 examples of the epidermal growth factor...

1. abrasions 2. minor burns 3. edges of deeper wounds

Ossification (osteogenesis) what are the 4 main situations?

1. initial forming of bones in embryo and fetus 2. growth of bones during infancy, childhood, and adolescences 3. remodeling of bones 4. repair of fractures

what are the two points of the articular cartilage

1. lacks perichondrium and blood vessels 2.reduces friction and absorbs shock

Microscopic Anatomy of Skeletal Muscle Fiber, diameter?

10 to 100 μm

Histology of Bone (osseous) Tissue: extracellular matrix is made up of?

15% water, 30% collagen, 55% mineral salts ---Calcium phosphate + calculate hydroxide = hydroxyapatite crystals ▪Also calcium carbonate, magnesium, fluoride, potassium, sodium

Bone Growth in Thickness:Appositional growth, what forms tunnels? and what happens with the periosteum?

2. Ridges around blood vessels form tunnels • Periosteum is now endosteum inside bone

Contraction Cycle 3: Power Stroke, 3rd part?at the end??

3. At end, ADP is released from myosin head

Bone Growth in Thickness:Appositional growth,,, osteoblasts do what to form concentric lamellae?

3. Osteoblasts in endosteum secrete ECM, form new rings of concentric lamellae

what are xBone's Role in Calcium Homeostasis

99% of body calcium is stored in bone • Blood level calcium ions (Ca2+) are very closely regulated • Nerve & muscle cells depend on stable Ca2+ level in extracellular fluid • Blood clotting and many enzyme activities require Ca2+ • Osteoblasts and osteoclasts help "buffer" the blood Ca2+ level by bone remodeling

Phosphate group from creatine phosphate to ADP =

= creatine + ATP

Phosphate group from ATP to creatine =

= creatine phosphate + ADP

what is the a band? what does it extend?

A band: Darker middle part of sarcomere ▪ Extends entire length of thick filaments

in sliding filaments the a band does what?

A band: no change in width

A motor unit contains the same type of what?

A motor unit contains the same type of skeletal muscle fiber

Nerve Impulse Generates Muscle Action Potential...4. act binds to what? opens what to flow into cell? cell gains what?

ACh binds to ACh receptors • Opens ion channel in ACh receptor, Na+ and other cations flow into cell ▪ Cell gains positive charge, changes membrane potential

Nerve Impulse Generates Muscle Action Potential...6. what is broken down and by what to be activity terminated.

ACh broken down by acetylcholinesterase (AChE), activity terminated

Nerve Impulse Generates Muscle Action Potential....3 what diffuses across synaptic cleft?

ACh diffuses across synaptic cleft

Acetylcholine (ACh): is what and is found where?

Acetylcholine (ACh): neurotransmitter ▪ Found in synaptic vesicles in cytosol of synaptic end bulbs

Action potentials travel down what?

Action potentials travel down axon toward axon terminals

Active muscle fibers require what?

Active muscle fibers require oxygen, glucose, fatty acids

Fast Oxidative-Glycolytic Fibers....Activities like what???

Activities like walking and sprinting

Unfused (Incomplete) Tetanus.... additional what?? sustained but what???

Additional stimuli while muscle fibers are partially relaxing • Sustained but wavering contraction

Aerobic respiration is slower than anaerobic glycolysis, but produces what? ▪1 glucose →

Aerobic respiration is slower than anaerobic glycolysis, but produces much more ATP ▪1 glucose → 30 or 32 ATPs

Gap Junctions... what are they?

Allow diffusion of ions & small molecules between cells • Fast spread of nerve and muscle impulses

Motor Unit Recruitment....Allows contraction for what?

Allows contraction for longer periods

Transverse tubules (T tubules): allow for what?

Allows fast spread of action potential along sarcolemma

bone remodeling allows for what?

Allows for extraction of bone minerals to maintain calcium levels in blood

Appositional growth: what is it?

Appositional growth: growth at outer surface of tissue

Endochondral Ossification,Development of secondary ossification centers, what stimulates formation?

Arteries entering the epiphyses stimulate formation

Endochondral Ossification:Development of primary ossification center artery penetrates what?

Artery penetrates the perichondrium and cartilage model ▪ Stimulates osteoprogenitor cells in perichondrium to osteoblasts ▪ Perichondrium to periosteum

nerogolia in Central nervous system

Astrocytes • Oligodendrocytes • Microglia • Ependymal cells

Athletes have what?

Athletes have thicker and stronger bones

Autorhythmicity: is what?

Autorhythmicity: involuntary alternating contraction and relaxation

Axon terminal: found where? divides into what?

Axon terminal: end of motor neuron, divides into synaptic end bulbs

Initiation of Contraction Cycle fourth?Binding sites are free and???

Binding sites are free and contraction cycle begins

What is bone remodeling?

Bone continuously renews itself throughout life

what is bone deposition?

Bone deposition: Osteoblasts add minerals & collagen fibers

what can bone mass do in response to strain

Bone mass can be increased in response to heavy loads or strain

what is bone resorption?

Bone resorption: Osteoclasts remove bone minerals & collagen fibers

what happens in Enlargement of the Medullary Cavity?

Bone tissue lining medullary cavity is destroyed by osteoclasts in the endosteum

Central Nervous System (CNS)

Brain and Spinal cord

cardiac muscle only has one what and what doe sit look like?

Branched, striated fibers • Usually only one nucleus in center of cell

muscle fatigue Contributing factors:Buildup of what?

Buildup of lactic acid and ADP

Bundles of Axons CNS --- ??? PNS --- ???

Bundles of Axons CNS --- Tract PNS --- Nerve

Clusters of Neuronal Cell Bodies CNS --- what??? PNS --- Ganglion (pl. Ganglia)

CNS --- Nucleus (pl. Nuclei) PNS --- Ganglion (pl. Ganglia)

Nerve Impulse Generates Muscle Action Potential...2. what flows through open channels and what is stimulated to release each into synaptic cleft

Ca2+ flows through open channels • Stimulates synaptic vesicles to release acetylcholine (ACh) into synaptic cleft

contraction...Voltage-gated Ca2+ channels move, then what?

Ca2+ release channels open

Calcitonin (CT): does what?

Calcitonin (CT): decreases blood Ca2+ level

Endochondral Ossification, what part of the cartilage begins to calcify

Cartilage in middle begins to calcify

Anaerobic Glycolysis.... catabolism of glucose to...? produces enough tap for how long of exercise?

Catabolism of glucose to generate ATP when creatine phosphate depleted ▪ Produces enough ATP for about 2 minutes' exercise

factors of appositional growth

Cells in inner cellular layer of the perichondrium differentiate into chondroblasts, chondroblasts surrounded with extracellular matrix & become chondrocytes • Matrix accumulates beneath the perichondrium on outer surface of cartilage • Continues through adolescence

Nerve Impulse Generates Muscle Action Potential..5. what triggers muscle action potential? what propagates?

Change in membrane potential triggers muscle action potential • Action potential propagates along sarcolemma (membrane) to T tubules ▪ Causes Ca2+ release from SR into sarcoplasm and CONTRACTION

Interstitial growth: happens when?

Childhood and adolescence

Endochondral Ossification: Chondroblasts to what

Chondroblasts chondrocytes

Endochondral Ossification: what happens during the growth of the cartilage model? what type of growth?

Chondrocytes divide and secrete cartilage ECM ▪ Interstitial growth (growth in length)

Endochondral Ossification, growth of cartilage model what begins dying?

Chondrocytes within calcified ECM begin dying

Closed (Simple) fracture: does what?

Closed (Simple) fracture: does not break the skin

Ganglia (sg. Ganglion) clusters of what?

Clusters of neuronal cell bodies in the PNS

what is a colles?

Colles: fracture of radius where the distal fragment is displaced posteriorly

Comminuted fracture: does what?

Comminuted fracture: bone is splintered, crushed, or broken in pieces at the site of impact

Myofibrils do and are what?

Contractile organelles in skeletal muscle fibers • Appear as thread-like structures within sarcoplasm ▪ Diameter: about 2 µm • Extend the entire length of a muscle fiber • Striation in myofibrils is source of muscle fiber striation

what is contractibility

Contractility: ability to contract when stimulated by nerve impulse

Muscle fiber also varies in: 3 things....?

Contraction and relaxation speed • Metabolic reactions to generate ATP • Speed of fatigue

twitch contraction

Contraction of muscle fibers in motor unit in response to a single nerve action potential

Contraction: is what???

Contraction: sliding of filaments

Creatine is synthesized where? & transported to what?

Creatine is synthesized in liver, kidneys, and pancreas & transported to muscles

Contraction Cycle, Cycle repeats as long as???

Cycle repeats as long as ATP and Ca2+ is available

what happens in the Bone remodeling phase

Dead portions of fracture resorbed by osteoclasts • Compact bone replaces spongy bone where needed • Osteoclasts remodel bone to original shape

Motor Unit Recruitment....Delays what?

Delays fatigue

unipolar neuron

Dendrites and one axon are fused together to form a continuous process that emerges from the cell body

muscle fatigue Contributing factors:Depletion of what?

Depletion of glycogen and other nutrients

Sensory function do what?

Detects internal and external stimuli and carries them into the central nervous system through cranial and spinal nerves

the Endochondral Ossification is the development of what?

Development of cartilage model

Each muscle fiber is close to what?

Each muscle fiber is close to 1+ blood capillaries

Each skeletal muscle penetrated by what?

Each skeletal muscle penetrated by a nerve, an artery, & 1 - 2 veins

Elasticity: what is it?

Elasticity: ability to return to original length and shape after contraction or extension

what is electrical excitability?

Electrical excitability: ability to produce muscle action potentials (impulses) in response to specific stimuli: • Chemical stimuli (neurotransmitters, hormones, pH) • Autorhythmic response to electrical signals

Peripheral Nervous System (PNS)....• Spinal nerves

Emerge from the spinal cord; 31 pairs

the epimysium encircles what? and is what type of connective tissue?

Encircles entire muscle • Dense irregular connective tissue

what is the endomysium

Endomysium: inner layer •

Where is spongy bone located?

Ends of long bone such as thighs & upper arm, with an outer layer of compact bone.

Aerobic Respiration.....Enough ATP for what?

Enough ATP for rest or light exercise

where is the epimysium

Epimysium: outer layer

Endochondral Ossification,,Formation of articular cartilage and epiphyseal growth plate,,,, what happens in the epiphyseal growth plate?

Epiphyseal (growth) plate: Hyaline cartilage remaining between diaphysis and epiphysis until maturity

what happens in Bone Growth in Length?

Epiphyseal chondrocytes stop dividing • Growth plate cartilage is completely replaced by bone • Bone growth ends

Excitation: is what???

Excitation: muscle action potential

Extensibility: what is it?

Extensibility: ability to stretch, within limits, without being damaged

muscle fatigue Contributing factors:Failure of motor neuron to release enough what?

Failure of motor neuron to release enough acetylcholine

what is the fascia

Fascia: dense sheet of irregular connective tissue

Fast Glycolytic Fibers...Fatigue

Fatigue quickly

Transverse tubules (T tubules): are filled with what?

Filled with interstitial fluid

What is the sarcoplasmic reticulum?

Fluid-filled membranous sacs surrounding each myofibril

Oligodendrocytes (CNS) form what?

Form the myelin sheath around CNS axons - Myelinated axons

what happens in the Reactive phase

Formation of fracture hematoma • Swelling and inflammation • Blood supply is cut off, nearby bone cells die • Phagocytes and osteoclasts remove the dead bone tissue

Frequency of stimulation: depends on what?

Frequency of stimulation: # of impulses per second

Microglia (CNS) function as what?

Function as phagocytes

what is the sarcomere?

Functional unit of a myofibril

Nodes of Ranvier - are what?

Gaps in the myelin sheath

Fast Oxidative-Glycolytic Fibers...Generate ATP by???

Generate ATP by aerobic respiration & anaerobic glycolysis, high glycogen levels

Slow Oxidative Fibers.... generate app by what?? has many what?

Generate ATP by aerobic respiration, many mitochondria

Fast Glycolytic Fibers...Generate ATP by anaerobic glycolysis,

Generate ATP by anaerobic glycolysis, high glycogen level

Glycolysis forms pyruvic acid from

Glycolysis forms pyruvic acid from glucose (like anaerobic respiration)

What is a greenstick fracture?

Greenstick fracture: one side of bone is fractured, other side bends ▪ Generally only occurs in children

Endochondral Ossification: Growth of what model?

Growth of cartilage model

what is the h band?

H band: area within A band with only thick filaments

Neurons (Nerve cells).. Have what??? • Convert stimuli into what??? and conduct them to other what???

Have electrical excitability • Convert stimuli into electrical signals (nerve action potentials or nerve impulses) and conduct them to other neurons, muscles, or glands

what does skeletal muscle do?

Heat production • Protection

High blood Ca2+ levels do what?

High blood Ca2+ levels trigger CT secretion ▪ Inhibits activity of osteoclasts ▪ Speeds uptake and deposition into bone

Endochondral Ossification,,Formation of articular cartilage and epiphyseal growth plate,,,, hyaline cartilages role with articular cartilage?

Hyaline cartilage covering epiphyses becomes articular cartilage

Fast Glycolytic Fibers...Hydrolyze ATP quickly,

Hydrolyze ATP quickly, strong and quick contractions

in sliding filaments what happens in the I band and h zone?

I band and H zone: narrow and eventually disappear during contraction

what is the I band?

I band: remaining thin filaments, no thick filaments

what is an impacted fracture

Impacted fracture: one end of bone firmly driven into interior of other end

what is contact inhibition?

In normal tissues cells stop dividing when they came into contact with the other cell

Muscle fatigue is caused by

Inability of a muscle to maintain force of contraction after prolonged activity

Factors Affecting Bone Growth and Remodeling, in hormones, include what?

Include Insulin-like growth factor (IGF), Thyroid hormones (T3, T4), insulin

Factors Affecting Bone Growth and Remodeling in hormones increase what?

Increase of sex hormones (estrogen, androgens) at puberty trigger growth and skeletal changes

due to Low blood Ca2+ triggers PTH secretion what happens and what increases etc...

Increases the number and activity of osteoclasts ▪ Increases Ca2+ reabsorption in the kidney ▪ Stimulates formation of calcitriol (active form of Vitamin D), promoting Ca2+ absorption from gastrointestinal tract

what happens in the peristeal capillaries in the development of the primary ossification center

Induces growth of primary ossification center in center of bone ▪ Trabeculae form in the calcified cartilage

Initial segment - the first part of what?

Initial segment - the first part of axon

muscle fatigue Contributing factors:Insufficient what?

Insufficient O2

intercalated discs attach what together and what do they contain

Intercalated discs (thick areas of membrane) attach cells together ▪ contain gap junctions and desmosomes

Interstitial growth what is it

Interstitial growth: growth within the tissue

Endochondral Ossification: Development of primary ossification center, happens where from the surface?

Inward from surface

Smooth Muscle found where?

Iris • Walls of internal hollow structures (blood vessels, airways to lungs, stomach, intestines, gallbladder, urinary bladder, uterus) • Attached to hair follicles in skin

Isometric contraction: • Used for what?

Isometric contraction: muscular contraction in which the length of the muscle does not change • Used for maintaining posture and holding objects in a fixed position

Junctional folds: is what?

Junctional folds: deep groves in motor end plate provide surface area

Krebs cycle and electron transport chain ???? ▪ Yields what? in aerobic respiration

Krebs cycle and electron transport chain reactions ▪ Yields ATP, CO2 , H2O and heat

Slow Oxidative Fibers...Large amount of what?

Large amount of myoglobin and many capillaries

Fast Oxidative-Glycolytic Fibers....Large amounts ???

Large amounts of myoglobin and many blood capillaries

Fast Oxidative-Glycolytic Fibers....Largest what

Largest fibers

What is the epiphyseal plate?

Layer of hyaline cartilage that allow the bone to grow lengthwise in the diaphysis.

in sliding filaments Lengths of individual thick and thin filaments does what?

Lengths of individual thick and thin filaments does NOT change

Ligand: is what?

Ligand: molecule that binds to receptor

what does the fascia do?

Lines body wall and limbs • Supports and surrounds muscles and organs • Holds muscles with similar functions together • Carries nerves, blood vessels, and lymphatic vessels

what does skeletal muscle look like?

Long, cylindrical fibers with striation (stripes) • Multinucleated with nuclei at periphery of cell

demineralization causes what?

Loss of bone mass from demineralization Especially significant to aging in women

what triggers PTH to secrete

Low blood Ca2+ triggers PTH secretion

white muscle fibers..?

Low myoglobin content

Fast Glycolytic Fibers...Low what???, fewer ????, few???

Low myoglobin, fewer blood capillaries, few mitochondria

what is the m line?

M line: Supporting proteins hold thick filaments together at the center of the H band

myosin does what and is what?

Main component of thick filaments • Motor protein in all three types of muscle tissue • Converts ATP chemical energy into mechanical energy

what is the main stain on bone?

Main strain on bone is pull of skeletal muscles and gravity

Astrocytes (CNS) maintain what?

Maintain chemical environment around neurons • Maintain blood brain barrier

Slow Oxidative Fibers....Maintaining what???, what type of activities?

Maintaining posture and aerobic, endurance activities

Dendrites -

Major input portion - May be highly branched - Usually short

Microscopic Anatomy of Skeletal Muscle Fiber, Mature muscle fibers (myocytes) do not undergo what?

Mature muscle fibers (myocytes) do not undergo cell division Number of muscle fibers is set before birth!

3 layers are continuous with the connective tissue that attaches skeletal muscle to other structures, the may do what?

May extend to form tendons to attach muscle to bone • May extend as flat sheets (aponeuroses)

Mechanical strain causes what?

Mechanical strain causes increase deposition of minerals and collagen fibers

Smooth Muscle, what does it look like?

Non-striated spindle-shaped cells with single, central nucleus ▪ Gap junctions common

Nuclei are located next to what?

Nuclei are located next to sarcolemma

Anaerobic Glycolysis.... occurs where? in heavy exercise what happens?

Occurs in cytoplasm (sarcoplasm of muscle) ▪ Anaerobic: does not require oxygen In heavy exercise, not enough oxygen reaches muscle fibers

bipolar neurons have what?

One main dendrite and one axon, in retina

Open (Compound) fracture: does what?

Open (Compound) fracture: broken ends of the bone protrude through skin

Endochondral Ossification:Development of medullary cavity, what do the osteoclasts do?

Osteoclasts break down some trabeculae, creating medullary cavity

what happens in the Reparative phase: bony callus formation

Osteoprogenitor cells develop into osteoblasts. • Osteoblasts produce trabeculae • Fibrous cartilage callus is converted into spongy bone bony callus

Endochondral Ossification,Development of secondary ossification centers, outward from where?

Outward from center to surface

what happens during the aging and bone tissue?

Over time, resorption by osteoclasts outpaces deposition by osteoblasts

Parathyroid hormone (PTH): does what?

Parathyroid hormone (PTH): increases blood Ca2+ level

in Endochondral Ossification what surrounds the cartilage model

Perichondrium surrounds the cartilage model

Endochondral Ossification:Development of primary ossification center what grows into calcified cartilage?

Periosteal capillaries grow into the calcified cartilage

Muscular Tissue Function, posture???

Posture: stabilize body positions

what is a Pott?

Pott: fracture of distal end of fibula

Endochondral Ossification; Development of medullary cavity, what grow towards the ends?

Primary ossification center grows toward the ends

Integrative function.. do what?

Processes sensory information by analyzing it and making decisions for appropriate responses (Integration)

Ependymal cells (CNS) produce what?

Produce and assist in the circulation of the cerebrospinal fluid

Motor Unit Recruitment....Produces

Produces smooth movements

Purkinje cell in the where?

Purkinje cell in the cerebellum

Rapid reaction: is what? ▪ Enough ATP for about how many seconds

Rapid reaction: first energy source for contraction ▪ Enough ATP for about 15 seconds

Myoglobin content... what type of muscle fiber? with what characteristics?

Red muscle fibers: • High myoglobin content • More mitochondria • More blood capillaries

Initiation of Contraction Cycle...second?Released Ca2+ bind

Released Ca2+ bind to troponin

Slow Oxidative Fibers...Resistant to what???, sustained contractions for how long???

Resistant to fatigue, sustained contractions for many hours

Smaller compartments of myofilaments is what?

Smaller compartments of myofilaments: sarcomeres

Motor (efferent) division what are the tw types?

Somatic nervous system and Autonomic nervous system

Muscular Tissue Function, storage and movement???

Sphincters: rings of smooth muscles at exit of hollow organs • Cardiac muscle contractions • Smooth muscles contract & relax in walls of blood vessels, gastrointestinal tract, gall bladder, reproductive system, & urinary system

Endochondral Ossification,Development of secondary ossification centers, what's in the center of the epiphyses and what isn't?

Spongy bone in center of epiphyses ▪ No medullary cavity in epiphyses

Desmosomes... what are they?

Stability for cells and tissues • Prevents separation under tension • Common in epidermis and cardiac muscle cells

Synapse - Site of communication between neurons or between what?

Synapse - Site of communication between neurons or between a neuron and an effector cell

Synapse: is what?

Synapse: region of communication between two neurons or a neuron and target cell

Synaptic cleft: is what?

Synaptic cleft: gap between cells in synapse

what is fibrosis?

tissue repairing which involves repair by dense connective tissue by the formation of scar tissue

Dystrophin: links thin filaments to

to integral membrane proteins of sarcolemma

Anaerobic Glycolysis...If no oxygen, pyruvic acid converts to

to lactic acid

intramembranous ossification and the formation of what?

trabeculae, connective tissue differentiates into red bone marrow

Ca2+ is released to bind with what in the contraction cycle

troponin in the contraction cycle

All of the muscle fibers in one motor unit contract in

unison

in deep wound healing in the inflammatory phase, what is the inflammation due from?

vascular and cellular response

Anaerobic Glycolysis..Glucose enters muscle fibers via what?

via facilitated diffusion or breakdown of glycogen

Periosteal arteries and veins

with nerves enter diaphysis through perforating cannals

Motor Unit Recruitment...The weakest motor units are recruited first, with progressively what?

with progressively stronger motor units added if needed

Unmyelinated axons -- without what

without myelin sheath

Myelin sheath • A greatly extended and modified WHAT wrapped around the WHAT - Multilayered what??? Acts as an electrical insulator - Increases the what?

• A greatly extended and modified plasma membrane wrapped around the axon - Multilayered lipid and protein covering Increases the speed of nerve impulse conduction

brittleness is caused by what from age?

• Brittleness from decreased protein synthesis with age

in Endochondral Ossification chondroblasts do what?

• Chondroblasts secrete hyaline cartilage

Schwann cells (PNS), form what and participate in what?

• Form the myelin sheath around PNS axons • Participate in axon regeneration

bone remodeling what percent of bone mass at a time?

• Includes about 5% of the total bone mass at a time

Fast Glycolytic Fibers...• Intense anaerobic movements of what?

• Intense anaerobic movements of short duration

• Motor end plate: is what?

• Motor end plate: part of muscle opposite synaptic end bulbs

Excitation-Contraction Coupling, occurs where?

• Occurs at triads triad = T tubule of sarcolemma + 2 terminal cisterns of sarcoplasmic reticulum

Factors Affecting Bone Growth and Remodeling, in hormones promote what?

• Promote cell division, stimulate osteoblasts, enhances bone protein synthesis

what is contained in the sarcoplasmic reticulum?

Terminal cisterns: Dilated end sacs found on both sides of a T tubule

Frequency of Stimulation

The total force (tension) a single muscle fiber can produce depends on frequency of stimulation

Muscular Tissue Function Thermogenesis:is what?

Thermogenesis: generation of heat

What are thick filaments called?

Thick filaments: myosin protein ▪ 16 nm in diameter, 1-2 µm long

thin axon étend from where to get to a group of muscle fibers

Thin axon extends from brain or spinal cord to group of muscle fibers

Contraction Cycle 3: Power Stroke, 2nd part, thin filaments?

Thin filament is pulled along thick filament toward center of sarcomere • Generates muscle tension (force) • Energy required for action is from the energy stored in myosin head from ATP hydrolysis

What are thin filaments called?

Thin filaments: actin protein ▪ 8 nm in diameter, 1-2 µm long

titan and dystrophin link to what?

Those proteins link to extracellular connective tissue matrix proteins

Titan: is what?

Titan: huge, elastic protein stabilizes thick filament from Z disc to M line

What is the periosteum?

a dense layer of vascular connective tissue enveloping the bones except at the surfaces of the joints. -connective tissue sheath & associated blood supply

Action potentials always have the same size in a ???

a given neuron or muscle fiber

in the development of the periosteum in intramembranous ossification what replaces the spongy bone at the surface

a thin layer of compact bone

Excitation of muscle fiber causes what?

action potential to travel along T tubule

Wave Summation....Second stimulus triggers release of more Ca2+, activating additional what?

activating additional sarcomeres while muscle is still contracting

Most of ATP the body uses comes from

aerobic respiration

Pyruvic acid enters the mitochondria and undergoes what?

aerobic respiration

Refractory period:

after a muscle fiber has been stimulated and a contraction has occurred, the muscle fiber loses excitability and cannot respond to additional stimulation

Most skeletal muscles are a mixture of all what?

all three types of skeletal muscle fibers

Microscopic Anatomy of Skeletal Muscle Fiber, length?

average 10 cm (4 inches)

what happens in epidermal wound healing?

basal cells divide and migrate to fill spaces created by the wound....

Muscle Tone....When motor neurons are damaged, muscle becomes what??

becomes flaccid (loss of tone)

Where is the metaphysis?

between diaphysis and epiphysis

myoglobin does what? found where? and releases what?

binds O2 that diffuses into muscle fiber ▪ Found only in muscle ▪ Releases O2 when needed

relaxation....Voltage-gated Ca2+ channels blocking...?

blocking Ca2+ release channels

what do osteoclasts do?

break down bone

Anaerobic Glycolysis...Glycolysis: series of chemical reactions that break down what?

break down glucose into pyruvic acid

Latent period: Muscle action potential passes over sarcolemma, and what happens?

brief delay between stimulus and beginning of contraction Ca2+ released from sarcoplasmic reticulum (SR)

what do osteoblasts do?

build bone

Axon hillock (part what?

cell body

What is the inner osteogenic layer of the periosteum do?

cell layer enables bone growth

compact bone: concentric lamellae

concentric rings in the osteon

Compact bone: interosteonic canals

connect blood vessels/ nerves in medullary cavity, periosteum, & osteonic canals

compact bone: bone lacunae

contain osteocytes

Excess ATP is used to synthesize

creatine phosphate

muscle fatigue Contributing factors:Depletion of what?

creatine phosphate

Histology of Bone (osseous) Tissue: calcification

crystallization of mineral salts hardens bone ▪Initiated by osteoblasts

Sarcoplasm: is what?

cytoplasm of muscle fibers

muscle fatigue Contributing factors: Inadequate Ca2+ released from sarcoplasmic reticulum and decline of what

decline of Ca2+ in sarcoplasm

What is the outer fibrous layer of the periosteum?

dense irregular connective tissue

in Endochondral Ossification mesenchymal cells gather and do what?

differentiate into chondroblasts

Muscle Tone....Degree of muscle tension/tautness/resistance during what? ▪ Due to weak, involuntary contractions of what???

during rest or in response to stretching ▪ Due to weak, involuntary contractions of motor units

Where is the epiphysis?

ends of bone

Nutrient artery and vein

enter diaphysis of long bones through nutrient foramen ---supply inner compact bone, spongy bone, and bone marrow

skin- wound healing, what are the 2 types?

epidermal and deep wound healing

in fibrosis what is a keloid scar?

extends beyond wound boundaries.

osteoblasts secrete what?

extracellular matrix...which is the ossification center

Fast Oxidative-Glycolytic Fibers....Moderately high resistance to ???

fatigue

Histology of Bone (osseous) Tissue: connective tissue?

few cells, much extracellular matrix

Compact Bone: Interstitial Lamellae

fills spaces between osteons

what happens in deep wound healing?

force of fluids and specialized cells into damaged area and fibroblasts suture the edges together with collagen fibers

Axon of a somatic motor neuron branches out, forms what? ▪ Each skeletal muscle fiber has only one what?

forms NMJ with many separate muscle fibers ▪ one NMJ

Acetylcholine receptors: ligand-gated ion channels found where

found in motor end plate

spongy bone contains

have lamellae, bone lacunae, osteocytes, bone canaliculi, spaces filled with red and yellow marrow, blood vessels

Actin molecules twist together to form

helix-shaped filament

endochondral ossification

hyaline cartilage is produced from mesenchyme and then replaced by bone

Fast Glycolytic Fibers....Strength training can increase size of fibers:

hypertrophy

Ligand-gated channel opens/closed in response to what?

in response to ligand binding

cardiac muscle is only found where

in the heart

in deep wound healing other than vasodilation what happens?

increased permeability of blood vessels

Motor Unit Recruitment...Process in which the number of active motor units

increases

What are trabeculae?

interconnecting rods or plates of bone, lined with endosteum

Anaerobic Glycolysis...Most lactic acid diffuses where

into blood

Wave Summation....If muscle fibers are stimulated while previous twitch is still occurring, second contraction is

is stronger

Anaerobic Glycolysis....Liver cells take up lactic acid and convert it to what

it back to glucose

relaxation...High Ca2+ in SR, low..?

low Ca2+ in sarcoplasm

lots of glycogen....means what?

macromolecule made of glucose....Glucose is used in ATP synthesis

Relaxed muscle fibers produce more what?

more ATP than needed

Shoulders and arms:

more fast glycolytic fibers

Postural muscles of the neck, back, and legs:

more slow oxidative fibers

contraction....Ca2+ -ATPase pump continuously, moves what?

moves Ca2+ into sarcoplasmic reticulum (SR)

In contraction, Ca2+ binding to troponin changes its shape, moving... what?

moving tropomyosin out of the way

Eccentric isotonic contraction:

muscle lengthens during contraction

Concentric isotonic contraction:

muscle shortens during contraction

myelin sheath,,,Axons surrounded by myelin sheath are called what?

myelinated axons

muscle fiers =

myocyte cells

what are Even smaller filaments within myofibrils?

myofilaments

Myosin binding sites to bind

myosin heads

relaxation...Ca2+ released from troponin, myosin-binding do what?

myosin-binding sites on actin blocked

Force or tension that a single muscle fiber produces depends on rate of impulses arriving at

neuromuscular junction (NMJ)

Cells communicate across synapse with chemical ???

neurotransmitters

Total tension that a whole muscle can produce depends on number of what?

number of muscle fibers that are contracting together

Creatine kinase (CK) catalyzes transfer of what?

of high‐energy phosphate groups:

myelin sheath,,, Formed by oligodendrocytes (in the CNS) or what?

or Schwann cells (in the PNS)

What is the medullary cavity? and what does it contain?

or marrow cavity is the hollow space within diaphysis. ---- contains fatty yellow bone marrow and blood vessels

each skeletal muscle is a separate what?

organ

what is the classification of intramembranous ossification?

osteoblasts to osteocytes -osteocytes deposit calcium and other minerals into ECM

spongy bone does not have what?

osteons

Somatic nervous system output to what?

output to skeletal muscles (voluntary)

Autonomic nervous system...output to what?

output to smooth and cardiac muscles and glands (involuntary)

Contraction period: Ca2+ binds to troponin, myosin-binding sites on actin are exposed, and ???

peak tension in muscle fiber cross-bridges form

intramembranous ossification and the development of what?

periosteum, mesenchyme at edge of bone develops into periosteum

epidermal wound healing pictures...

pictures...

Muscle Tone....Important for maintaining what?

posture and balance, functioning of the digestive organs, maintaining blood pressure

intramembranous ossification

process by which bone forms directly from mesenchymal tissue ---flat bones of skull, facial bones, mandible, medial part of clavicle mesenchymal cells to osteoprogenitor cells to osteoblasts

Mitochondria: does what?

produce ATP to provide energy for muscle fibers

Action potential: electrical signal that propagates ???

propagates along membrane of neuron or muscle fiber

In sliding filaments,,, Myosin heads attach to and "walk" along thin filaments, pulling...?

pulling thin filaments toward M line

contraction....Ca2+ flows into sarcoplasm faster than what?

pumped into SR

What is the epiphyseal line?

remnant of the epiphyseal plate, seen in adult bones, no more growth in the bone

Compact Bone: Osteon

repeating unit within bone

compact bone: osteonic canal

runs through the center of osteon ---contians blood vessels, lymphatic vessels, and nerves

Voltage-gated Ca2+ channels in T tubule membrane... do what?

sense voltage

Aerobic Respiration....Duration of energy:

several minutes to hours

Where is the diaphysis?

shaft of bone (middle)

in sliding filaments, Total length of sarcomere

shortens

contraction....Ca2+ binds troponin, myosin-binding sites are what?

sites on actin freed

Triggers opening of Ca2+ release channels in terminal cisternal membranes when what?

skeletal muscle fiber is excited

Muscle contraction occurs as filaments do what?

slide past each other

speciaal senses what are they?

smell, tastes, vision, hearing, equilibrium

Sensory (afferent) division... what are the the two senses?

somatic senses and special senses

Increased Ca2+ concentration in sarcoplasm does what?

start muscle contraction

what does the epidermal growth factor do?

stimulates division and replacement of basal stem cells

Decreased Ca2+ concentration in sarcoplasm: does what?

stops muscle contraction

mineral homeostasis?

store and release minerals

metaphyseal arteries and veins/ epiphyseal arteries and veins

supply metaphyses and epiphyses.

Functions of bones

support, protection, movement, mineral storage, blood cell formation....

Somatic senses.. what are they?

tactile, thermal, pain, and proprioceptive sensations

Relaxation period: Ca2+ transported back into SR, myosin-binding sites are covered by tropomyosin,

tension in muscle fiber decreases myosin heads detach from actin

Isotonic contraction: • Used for what?

tension remains constant while muscle changes length • Used for body movements and moving objects

Creatine phosphate is 3 - 6 x more plentiful than what?

than ATP in sarcoplasm of resting muscle fibers

Hemopoiesis

the production of blood cells and platelets, which occurs in the red bone marrow.

in the periosteum what do the perforating fibers do?

thick bundles of collagen extend from periosteum into bone extracellular matrix. - attach collagen to bone

Actin is a _____ filament

thin

Compact Bone: bone canaliculi

thin channels connect bone lacunae ▪ allow nutrients to diffuse to osteocytes ▪ osteocytes extend processes through canaliculi & communicate with each other via gap junctions

Regulatory Muscle Proteins are part of what?

thin filaments

What is articular cartilage in a bone?

thin layer of hyaline cartilage covering the articulation part of epiphysis.

What is edosteum?

thin membrane lining medullary cavity ---contains bone-forming osteoprogenitor cells and connective tissue.

in deep wound healing what happens in the maturation phase?

-epidermis restored to normal thickness - scab sloughs off - collagen fibers organized - fibroblasts presence decreases -blood vessels reverse to normal

what is the perimysium?

. Perimysium: middle layer •

Anaerobic Glycolysis.... 1 glucose molecule → blank??? ▪ Not much ATP but fast and without??? ▪ Anaerobic glycolysis produces fewer ATPs than what but faster?

1 glucose molecule → 2 ATP and 2 lactic acid ▪ Not much ATP but fast and without oxygen ▪ Anaerobic glycolysis produces fewer ATPs than aerobic respiration, but faster

Recruitment order:

1) Slow oxidative 2) Fast oxidative-glycolytic 3) Fast glycolytic

Anaerobic Glycolysis....Muscle soreness from accumulation of lactic acid in what?

Muscle soreness from accumulation of lactic acid in muscle fibers and blood stream

Fast Oxidative-Glycolytic Fibers....Myosin head ??? what type of contraction cycle

Myosin head ATPase hydrolyzes ATP quickly, faster contraction cycle

Slow Oxidative Fibers... what happens with myosin heads??? what type of contraction cycle?

Myosin head ATPase hydrolyzes ATP slowly, slow contraction cycle

contraction cycle...ATP Hydrolysis... what happens?

Myosin head binds ATP 2. ATP hydrolyzed into ADP, energy to myosin 3. Energized myosin head moves perpendicular to filaments ADP and phosphate group still attached to myosin head

Contraction Cycle 4: Detachment of Myosin from Actin

Myosin head detaches from actin when ATP binds to myosin

Contraction Cycle 3: Power Stroke, first part?

Myosin head pivots

myosin heads do what? and hydrolyzes what?

Myosin head: binds ATP and actin ▪ ATP binding site hydrolyzes ATP to generate energy

myosin tails do what?

Myosin tail: Points toward the M line in center of sarcomere

Muscle action potentials arise where?

NMJ

NMJ: does what?

NMJ: synapse between somatic motor neuron and skeletal muscle fiber

what happens in the negative feedback system....

Negative feedback system with parathyroid cells acting as receptors

Nerve Impulse Generates Muscle Action Potential...1. nerve impulses arrive where? stimulates what?

Nerve impulse arrives at synaptic end bulbs • Stimulates voltage-gated channels to open

Nerves are what motor neuron?

Nerves are somatic motor neurons

Gray matter - are what?

Neuronal cell bodies, dendrites, unmyelinated axons, axon terminals, and neuroglia

Neurons show great diversity in what?

Neurons show great diversity in size and shape

new bone is what?

New bone is more fracture resistant than old bone

Cell body (Perikaryon, Soma)

Nissl body - rough endoplasmic reticulum (rER) and free ribosomes

Fused (Complete) Tetanus... no muscle what? sustained what??

No muscle relaxation between stimuli • Sustained contraction

Transverse tubules (T tubules): are what?

Tunnels of sarcolemma toward center of muscle fibers

Endochondral Ossification, Development of secondary ossification centers, happens around what time?

Usually around time of birth

where is skeletal muscle located?

Usually attached to bones with tendons, some attached to skin

what is a vertebral compression fracture?

Vertebral compression fracture: vertebral body compressed into wedge shape

Muscle Metabolism... very high amounts od what are needed?

Very high amounts of ATP needed during muscle contraction

Is skeletal muscle voluntary or involuntary?

Voluntary movement controlled by neurons of somatic nervous system • Some unconscious control (diaphragm in breathing, posture)

Endochondral Ossification:Development of medullary cavity, compact bone has what part?

Wall of cavity eventually replaced by compact bone

White matter - Primarily what?

White matter - Primarily myelinated axons -- Tracts (White color due to whitish color of myelin)

Triglyceride storage

Yellow bone marrow Triglycerides stored in adipose cells Serves as a potential chemical energy reserve

Z disc passes through what?

Z disc passes through center of I band

Z discs: are what?

Z discs: dense protein separating sarcomeres

in sliding filaments distance between 2 discs what?

Z discs: distance between Z discs shortens

Interstitial growth, Zone of calcified cartilage

Zone of calcified cartilage: replacement by bone in progress • Osteoclasts dissolve cartilage, osteoblasts build bone

Interstitial growth, what happens in the Zone of hypertrophic cartilage:

Zone of hypertrophic cartilage: large maturing chondrocytes

what is the zone of overlap?

Zone of overlap: thick and thin filaments next to each other

Interstitial growth what is the Zone of proliferating cartilage

Zone of proliferating cartilage: chondrocytes divide and secrete ECM

Interstitial growth, what is the Zone of resting cartilage?

Zone of resting cartilage: anchors epiphyseal plate to epiphysis

Blood removes what?

Blood removes heat and metabolic waste products

what happens in the Reparative phase: fibrous cartilage callus formation

Blood vessels grow into fracture hematoma • Fibroblasts from periosteum enter the fracture site, produce collagen fibers • Cells from periosteum develop into chondroblasts and produce fibrous cartilage • Formation of fibrous cartilage (collagen fibers & cartilage)

deep wound healing: inflammatory phase?

Blood clot forms in wound, seals the edges, White blood cells (neutrophils, macrophages) and mesenchymal cells (become fibroblasts) arrive

cardiac muscle is blood pumping to....

Blood pumping to body adjusted by hormones & autonomic (involuntary) nervous system

Interstitial growth: does what?

Division of existing chondrocytes & deposition of increasing amounts of extracellular matrix

myofilaments do not do what?

Do not extend length of myofibril

Factors Affecting Bone Growth and Remodeling.. what are they?

Minerals: large amounts needed, especially calcium and phosphorus • Vitamin A: stimulates osteoblasts • Vitamin C: collagen synthesis • Vitamin D: calcium absorption in the intestines • Vitamins K, B12: synthesis of bone proteins as well as hormones

Leg muscles:

More slow oxidative and fast oxidative-glycolytic fibers

Smooth Muscle, motion?

Motion (usually involuntary), some autorhythmicity to cells of digestive tract

Motor unit: is what?

Motor unit: A somatic motor neuron and all skeletal muscle fibers it stimulates

Muscular Tissue Function, movement???

Movement: through interaction of skeletal muscles, bones, & joints

Microscopic Anatomy of Skeletal Muscle Fiber,,,Multinucleated due to what?

Multinucleated due to fusion of myoblasts during development

Sarcolemma: is what?

Sarcolemma: plasma membrane of muscle fibers (cells)

Initiation of Contraction Cycle... first? Sarcoplasmic reticulum releases....

Sarcoplasmic reticulum releases calcium ions (Ca2+) into sarcoplasm

Neroglia in Peripheral nervous system

Schwann cells • Satellite cells

the endomysium separates what and is mostly what?

Separates individual muscle fibers • Mostly reticular fibers

multipolar neurons... have what?

Several dendrites and one axon • Most abundant type in the central nervous system

Axon -

Single output process

What does the sarcoplasmic reticulum do?

Stores Ca2+ in a resting muscle fiber • Release of Ca2+ triggers muscle contraction

Neuroglia (Glia)... Supportive what? • Do not generate or conduct what???

Supportive functions • Do not generate or conduct nerve impulses

Satellite cells (PNS) surround hat and regulate what?

Surround the cell bodies of neurons in ganglia • Regulate the exchanges of materials between neuronal cell bodies and interstitial fluid

the perimysium is surrounded by what? and is what type of connective tissue?

Surrounds muscle fascicles (bundles of 10 - 100+ muscle fibers) • Dense irregular connective tissue

what is the triad?

Triad: formation of T tubules on either side of terminal cistern

Tropomyosin....does what?

Tropomyosin: in relaxed muscle, blocks myosin from binding to actin

Initiation of Contraction Cycle...third?Troponin moves tropomyosi.....

Troponin moves tropomyosin away from myosin‐binding sites on actin

Troponin: does what

Troponin: holds tropomyosin in place