Microcirculation And Lymphatics

Question 1

Small arterioles characteristics

Answer 1

. Highly innervated by ANS
. Contain vascular smooth muscle
. Site of resistance to blood flow by altering diameter of lumen

Question 2

Terminal arterioles

Answer 2

. Less innervation by ANS than small arterioles
. Greater control by local mediators
. Contain vascular smooth muscle
. Site of resistance to blood flow by altering diameter of lumen
. Divide to give rise to capillaries

Question 3

Metarterioles

Answer 3

. Act as thoroughfare vessels form small arterioles to venules
. Capillaries branch from metartioles
. Precapillary sphincters at origin
. Blood flow can bypass capillaries by going through metarterioles

Question 4

Capillaries

Answer 4

. Major site for metabolic exchange bc of slowest flow and largest surface area
. Flow trough capillaries regulated by autonomic neural and local metabolic mechanisms

Question 5

Postcapillary venules

Answer 5

. Some gas exchange may occur

Question 6

General characteristics of capillary blood flow

Answer 6

. Low velocity 
. Intermittent (vasomotion) 
. Direction given by pressure gradients 
. Non uniform 
. Rouleaux formation

Question 7

non-nutritive flow

Answer 7

. Most flow through metarterioles
. Bypasses capillaries
. Little metabolic exchange

Question 8

Nutritive flow

Answer 8

. Active tissue requires greater nutritive flow
. Arterioles and precapillary sphincters dilate
. Inc. blood flow through capillaries to promote optimal exchange of nutrients and waste
. Arteriolar radius determines overall blood flow flow to particular vascular bed
. Precapillary sphincters determines which capillaries are perfused

Question 9

Continuous capillaries

Answer 9

. Present in muscle, skin, lung, fat, CT, and neural tissue
. Contain intercellular clefts btw adjacent endothelial cells
. Hydrophilic molecules must pass through these clefts or small pores
. Clefts are absent in BBB as well as fenestrae so exchange of hydrophilic substances takes place by transporters or pinocytosis

Question 10

Fenestrated capillaries

Answer 10

. Surround epithelia
. Present in kidneys, intestines, and endocrine glands
. Contain fenestrae
. Enhances permeability to small hydrophilic molecules

Question 11

Discontinuous capillaries

Answer 11

. Present in sinusoids
. Wide gaps btw adjacent endothelial cells
. Permeable to large and small, hydrophilic molecules
. Gaps include basement membrane

Question 12

Starling forces

Answer 12

. Influence transmembrane fluid exchange

. Osmotic and hydrostatic pressure

Question 13

Diffusion

Answer 13

. Occurs through capillary wall and through pores
. Lipophilic substances pass directly through capillary cells
. Diffusion of hydrophilic substances is limited to pores
. Small molecules (Na, glucose) diffuse easily due to their small radius to pore size
. Large molecules diffuse poorly since they are larger than the pore size
. surface area for diffusion of lipophilic substance is greater than the SA for hydrophilic substances
. Blood remains in capillary from 0.5-1.0s which is enough time for molecules to equilibrate

Question 14

Ways to regulate diffusion

Answer 14

. Capillary recruitment: inc. SA and reduces difffusion difference
. Inc. in conc. Gradient: metabolically active tissue uses substance to conc. Gradient btw plasma and cell inc.
. Inc. in blood flow: greater delivery of substance maintains the conc. Gradient down capillary

Question 15

Hydrostatic pressure

Answer 15

. Pressure exerted by liquid as result of potential energy
. Equal in all directions
. Pressure at points lying in same horizontal plane are equal
. Inc. w/ depth under the free surface

Question 16

Capillary hydrostatic pressure (Pc)

Answer 16

. Depends on ratio of pre and post-capillary resistances
. Favors filtration
. Average value is +30-+40 mmHg

Question 17

Determinants of capillary hydrostatic pressure

Answer 17

. Arterial pressure: smaller effect bc of significant pre-capillary resistance
. Venous pressure: larger effect
. Ratio of post/pre-capillary resistance vessels (dec. post/pre ration dec. pressure, opposite if inc. post/pre ratio)

Question 18

Osmotic pressure

Answer 18

. Hydrostatic pressure that results from water movement
. Due to plasma proteins that can’t ;eave capillary lumen due to their low permeability (oncotic pressure)
. Proteins exert +25-+30 mmHg of osmotic pressure
. Factors absorption

Question 19

Van’t Hoff’s Law

Answer 19

. Actual osmotic pressure generated by charged solute differs significantly from that predicted by the conc. And number of ions formed by dissoc. Of a solute in solution
. Due to electrostatic interaction w/ ions like Na

Question 20

T/F based on concentration, albumin contributed disproportionately large percentage of plasma oncotic pressure

Answer 20

T

Question 21

Gibbs’Donnan equilibrium

Answer 21

. Inc. osmotic effects of albumin

. Presence of impermeable and neg. charged protein like albumin in intravascular space creates conditions for this

Question 22

Transcapillary fluid exchange

Answer 22

. Movement of fluid, exchange of nutrients, out of and back into capillary
.

Question 23

Net filtration pressure (NFP)

Answer 23

. NFP = (Pc-Pi) - (pi c - pi i)
. Represents balance of hydrostatic and osmotic forces
. Sign determines direction of fluid movement
. Net pos. Filtration pressure indicated filtration
. Net neg. filtration pressure indicates absorption
. Absolute value influences rate of fluid movement

Question 24

Rate of fluid movement

Answer 24

. FM = Kf[(Pc-Pi) - (pi c - pi i)]
. Kf: filtration coefficient reflecting permeability of the capillaries int that organ bed
. Some capillary beds leaky (kidney, liveR)
. Some tight (brain)

Question 25

Capillary permeability is influenced by ____

Answer 25

. Number and size of pores in endothelium
. Number of transporters in endothelium
. Number of perfused capillaries in organ bed
. Density of capillaries in organ bed
. Tightness of tight junctions

Question 26

What occurs to capillary fluid movement when arterioles dilate?

Answer 26

Histamine release dilates arterioles -> inc. Pc -> inc. NFP -> favors filtration

Question 27

What occurs to capillary fluid movement in vasoconstriction?

Answer 27

. SNS activates constriction -> dec. Pc -> dec. NFP -> favors absorption

Question 28

What occurs in capillary fluid movement when plasma protein conc. Dec.

Answer 28

. Occurs form liver disease, burns

. Dec. oncotic pressure -> inc. NFP -> favors filtration

Question 29

What occurs w. Capilllary fluid movement w/ administration of IV colloids?

Answer 29

. Occurs when treating anaphylactic shock

. Inc. oncotic pressure -> dec. NFP, favors absorption

Question 30

What occurs to capillary fluid movement when Pv inc. from CHF?

Answer 30

. Inc Pc -> inc. NFP -> favors filtration

Question 31

What occurs to capillary fluid movement in hypovolemia?

Answer 31

. Dec. Pa -> dec. Pc -> dec. NFP -> favors absorption

Question 32

Lymphatic system

Answer 32

. Provides alternate route for fluids and proteins to flow from interstitial space back to cardiovascular system
. Preserves fluid balance by returning capillary ultraffiltrate and plasma proteins to venous system
. Approx. 8L/day returned back to blood
. Endothelial cell of lymph capillaries overlap forming valves to allow for entry but not exit of interstitial proteins

Question 33

Major determinants of lymph flow

Answer 33

. Interstitial hydrostatic pressure (Pi)
. As Pi inc. from -6 to 0, flow of fluid into lymph capillaries inc.
. When Pi is over 0 the Max lymph flow is observed bc the high flow of fluid into lymph capillaries is opposed by external. Compression of larger lymph vessels by high Pi

Question 34

Lymphatic pump

Answer 34

. Fluid fills terminal lympahwetic capillaries
. Smooth muscle in wall of lymph vessels contracts in response to stretch
. Contraction of fluid-filled segments forces lymph through valve into subsequent segment
. Very large lymph vessels (thoracic duct) the pump can generate pressure btw 50-100 mmHg

Question 35

Precipitation factors of peripheral edema

Answer 35

. Reduction in plasma protein conc.
. Inc. in capillary hydrostatic pressure
. Inc. permeability of capillary membrane
. Lymphatic obstruction

Question 36

Causes of edema

Answer 36

. CHF
. Mechanical obstruction of venous return
. Renal disease- loss of protein
. Liver disease: lack of protein synthesis
. Burn/anaphylaxis: inc. capillary permeability
. Obstruction of lymphatic due to filariasis