Unit 3
Unit 3
Unit 4
Unit 4
Random
100

What are the three types of muscles and describe their function?

  • The three types of muscles include: skeletal, smooth and cardiac. 

  • Skeletal muscle attach to the bones to control movement, smooth muscle control muscle contraction, cardiac muscle is responsible for pumping blood around the body

100

Which type of muscle has the highest rate of Ca2+ removal from the cytosol?

Fast-twitch muscle, allowing for quick recovery between contractions helping them perform short, powerful bursts of activity. 

100

 What are the three components of the cardiovascular system?

Heart, blood vessels, blood plasma

100

What are the 4 major components of blood?

Plasma, red blood cells, white blood cell, platelets

100

What are two components that make up the motor unit 

A group of muscle fibres (# of fibres varies) and the somatic motor neuron that controls the fibres 

200

When and how does skeletal muscle relaxation occur?

Skeletal muscle relaxation occurs when Ca2+ is pumped back into the sarcoplasmic reticulum by Ca2+ ATPase, this causes myosin heads to be unable to bind to actin allowing elastic elements to pull filaments back into a relaxed state

200

What is muscle atrophy?

  • Muscles degenerate due to prolonged inactivity

  • Blood supply decreases → 

  • If it lasts longer than 1 year, could result in permanent changes to muscle

  • Direct electrical stimulation to muscle for therapy

200

Name and explain an abnormal condition associated with the heart valves

  • Valvular prolapse

  • Endocarditis

200

List the 2 main heart sounds and why they make that sound?

  • Lub - due to the close of AV valve

  • Dub - due to closing of semilunar valve

200

What is the difference between incomplete and complete tetanus

Incomplete tetanus has a slow stimulation rate allowing fibers to relax slightly between stimuli. Complete tetanus has a fast stimulation rate meaning fibre doesn’t have time to relax

300

What is the Sliding Filament Theory

At rest the ends of thick and thin actin filaments slightly overlap in each sarcomere allowing the filaments to slide past each other without changing their length of filament, towards the M line of the sarcomere. This brings the z disk closer together causing muscle contraction

300

A direct connection between nerve and individual muscle cells is not required for which muscle type(s)?

  • Smooth (hormones, stretching), coordination via gap junctions

  • and cardiac muscle, connected by intercalated discs containing gap junctions

  • Gap junctions allow electrical impulses to pass between cells for synchronized contraction

300

Describe erythropoiesis and the role of erythropoietin

  • Formation of RBC

  • Regulated by by erythropoietin (EPO) → it is a cytokine

  • EPO is a glycoprotien made primarily in the kidneys

  • EPO synthesis and release is regulated by hypoxi

300
  • How many steps are there in Haemostasis and what are they?

  • 3 steps:

    • 1. Vascular spasm to constrict damaged vessels

    • 2. Platelet plug to temporarily block break

    • 3. Blood clot to seal the break (result of the coagulation cascade)

300

How do cardiac muscles differ from skeletal muscle?

  • Cardiac muscle cells are smaller with single nuclei (⅓ of cell is the mitochondria)

  • T-tubules are larger and branched while the sarcoplasmic reticulum SR is smaller

  • Adjacent cells are joined by intercalated discs with desmosomes

400

Explain how the length of contraction varies between fibers

Fast-twitch fibers contract quickly and generate more tension but fatigue faster leading to shorter contraction lengths. Slow-twitch fibers have a more prolonged contraction and more resistance to fatigue with longer contraction lengths.

400

What is the role of MLCK in smooth muscle contraction?

  • Activated by calcium-bound calmodiulin

  • Activates myosin by phosphorylating the light chain of the myosin molecule in the head using energy and terminal P from ATP

  • When myosin is phosphorylated, ATPase activity is blocked

  • When myosin is phosphorylated, ATPase is active

    • Additional ATP required for contraction

  • Myosin can now interact with actin and go through crossbridge cycling

400

 Explain how the two pumps of the heart work in series

  • When pump 1 contracts → decrease V → increase P

    • Pumps blood into the lungs to pick up oxygen

    • Blood is oxygenated and has very low pressure in the lungs

  • When pump 2 contracts → decrease V → increase

    • Blood flows to the rest of the body

    • Blood is deoxygneated and has very low pressure, returns back the heart

400

Distinguish between Haematopoiesis and Haemostasis

  • Haematopoiesis (blood formation):

    • All blood cells are produced in the bone marrow

    • Arise from a single precursor → pluripotent haematopoietic stem

    • Haemostasis (blood stoppage):

      • Prevents blood loss from damaged vessels

      • Vital to maintaining the integrity of the blood vessels

400

Since 1% of cardiac muscle cells aren’t involved in contraction, what do they do?

  • Involved in electrical excitation of the heart (electrical conducting system of the heart) 

  • Initiate heartbeat & allow the electrical excitation to spread through the heart 

  • Connected to other cardiac cells through gap junctions 

500

Give a brief rundown of the muscle contraction process

Muscle contraction starts with a neural signal causing the release of acetylcholine, which deploarizes the muscle fiber and triggers calcium release. Calcium binds to troponin, exposing active sites on actin, allowing myosin heads to from crossbridges and pull  the filaments inward. This continues until stimulation causes resulting in calcium reabsorption and muscle relaxation

500

List three differences between smooth muscle myosin and skeletal muscle myosin

  • Less myosin per unit actin in smooth than skeletal

  • Longer myosin filaments and overlap more in smooth than skeletal

  • Myosin ATPase activity is slower in smooth than skeletal

  • Mysoin heads are located along the entire length of the filament in smooth vs skeletal

500

How do norepinephrine and acetylcholine differ in how they modulate the rate of pacemaker potentials?

  • Norepinephrine increases heart rate

    • Bind to beta1-adrenergic receptors

    • Release cAMP → alters transport properties of ion channels

    • Opens If and Ca2+ channels → increased influx of ions

    • Depolarization rate increased → increases rate of AP

  • Acetylcholine decreases heart rate

    • Bind to muscarinic receptors

    • Increase K+ permeability → hyperpolarize cell

    • Pacemaker potential starts at more negative value, takes longer to reach threshold potential

500
  • Pick one of the following:

    • Describe the baroreceptor reflex when:

    • (1) there is an increase in blood pressure

    • (2) there is a decrease in blood pressure

  • (1):

    • Membrane of baroreceptor stretches

    • Increases firing rate of receptor

    • Action potential travel to cardiovascular control centre in CNS 

    • Control centre integrates the sensory input

    • Efferent output carried by autonomic neurons

    • increase in sympathetic output

    • Vasodilation

    • Decrease in force of cardiac contraction and heart rate

    • Decrease in peripheral resistance and cardiac output

    • Decrease in blood pressure

  • (2):

    • Membrane of baroreceptor stretches

    • decrease firing rate of receptor

    • Fewer action potential travel to cardiovascular control centre 

    • Control centre integrates the sensory input

    • Efferent output carried by autonomic neurons

    • Decrease in sympathetic output

    • vasoconstriction

    • increase in force of cardiac contraction and heart rate

    • increased peripheral resistance and cardiac output

    • increase in blood pressure

500

What are the two factors that influence cardiac muscle contraction force and explain its impact

  • Changes in Ca2+: regulated by epinephrine & norepinephrine, binds/activates beta 1 - adrenergic receptors which activates cAMP second messenger signaling pathway to phosphorylation of voltage gated Ca2+ channels and phospholamban

  • Sarcomere Length: Tension generated is proportional to muscle fibre length, overlap of actin and myosin


    • Stretching a myocardial muscle cell allows more Ca2+ to enter through cell membrane Ca2+ channels causing a forceful contraction

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