blood pressure regulation - ju medicine · 2018-08-11 · long-term regulation of blood flow...
TRANSCRIPT
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Blood Pressure Regulation 2
Faisal I. Mohammed, MD,PhD
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Objectives
Outline the intermediate term and long term regulators
of ABP.
Describe the role of Epinephrine, Antidiuretic hormone
(ADH), Renin-Angiotensin-Aldosterone and Atrial
Natriuretic Peptide (ANP) in BP regulation
Point out the role of Kidney-body fluid system in long
term regulation of BP
Follow up the responses of the circulatory shock
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Factors affecting Total Peripheral Resistance
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Nervous Control of the Heart
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Factors that affect the Mean Arterial Pressure
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Intermediate / Long term Regulation of BP
1. Epinephrine – Adrenal medulla system
works as intermediate term needs 10 min. to work causes vasoconstriction
2. ADH (vasopressin) system needs 30 min to work causes vasocnstriction
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Long term Regulation of BP…cont
3. Renin-Angiotensin-Aldosterone system 1 hour to be effective
Angiotensinogen (14 a.a peptide) converted into Angiotensin I (10 a.a peptide) by Renin that come from afferent arteriolar cell, the angiotensin I is converted into angiotensin II (8 a.a peptide) by Angiotensin converting enzyme mainly in the lungs.
Angiotensin II (A II) is very potent vasoconstrictor. AII also stimulates aldosterone synthesis and secretion from the adrenal coretx (Zona glomerulosa), aldosterone increases Na+
reabsorption from the renal nephrone and so water.
AII is also a positive inotropic agent
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Long term Regulation of BP …cont
4. Atrail Natriuretic peptide (ANP): An
28 a.a peptide released mainly from the Rt.
Atrium in response to stretch. It causes
increase in GFR so increase Na+ and water.
Its concentration decreases when BP is low
and its concentration increases if BP is
high, mainly due volume overload
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CNS Ischemic Response
CNS Ischemic response is activated in
response to cerebral ischemia.
Reduced cerebral blood flow causes CO2
buildup which stimulates vasomotor center
thereby increasing arterial pressure.
CNS Ischemic response is one of the most
powerful activators of the sympathetic
vasoconstrictor system.
Vasomotor
Center Cerebral
Ischemia
CO2 Arterial
Pressure
Sympathetic
Activity
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CNS Ischemic response is not activated until pressure falls below 60mmHg; greatest activation occurs at pressures of 15-20mmHg.
Cushing reaction is a special type of CNS ischemic response.
Prolonged CNS ischemia has a depressant effect on the vasomotor center.
CNS Ischemic Response
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Atrial and Pulmonary Artery Reflexes
Low pressure receptors in atria and pulmonary
arteries minimize arterial pressure changes in
response to changes in blood volume.
Increases in blood volume activates low pressure receptors which in turn lower arterial pressure.
Activation of low pressure receptors enhances
Na+ and water by:
- Decreasing rate of antidiuretic hormone
- Increasing glomerular filtration rate
- Decreasing Na+ reabsorption
Blood
Volume
Atrial
Stretch
Renal
Sympathetic
Activity
Sodium &
Water Excretion
Atrial
Natriuretic
Peptide
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Bainbridge Reflex
Prevents damming of blood in veins atria and
pulmonary circulation.
Increase in atrial pressure increases heart rate.
Stretch of atria sends signals to VMC via vagal
afferents to increase heart rate and contractility.
Vasomotor
Center
(vasoconstrictor)
Heart rate
Contractility
Atrial
Stretch
Vagal
afferents
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Blood Pressure Regulation
Mean Arterial Pressure (MAP) = 1/3 systolic
pressure + 2/3 diastolic pressure
TPR
MAPCO
TPRCOMAP
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Renal Body Fluid System for Long Term Arterial Pressure Control
Plays a dominant role in long term
pressure control.
As extracellular fluid volume
increases arterial pressure increases.
The increase in arterial pressure
causes the kidneys to lose Na and
water which returns extracellular
fluid volume to normal.
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Pressure Natriuresis and Diuresis
• The effect of pressure to
increase water excretion is
called pressure diuresis.
• The effect of pressure to
increase Na excretion is
called pressure natriuresis.
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Graphical Analysis of Renal Body Fluid Mechanism
The major determinants of long-
term arterial pressure control.
-Based on renal function
curve
-Salt and water intake line
Equilibrium point is where
intake and output curves
intersect.
Renal body fluid feedback
system has an infinite gain.
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Failure of Total Peripheral Resistance to
Elevate Long-term Arterial Pressure
Changes in TPR does not affect
long-term arterial pressure level.
One must alter the renal function
curve in order to have long-term
changes in arterial pressure.
Changing renal vascular
resistance does lead to long-term
changes in arterial pressure .
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Sodium is a Major Determinant of ECFV
As Na+ intake is increased; Na+
stimulates drinking, increased Na+
concentration stimulates thirst and
ADH secretion.
Changes in Na+ intake leads to
changes in extracellular fluid
volume (ECFV).
ECFV is determined by the balance
of Na+ intake and output.
Intracellular
compartment
Na & K
Extracellular Compartment
Na &K
Na Intake
Na Output
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Volume Loading Hypertension
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Effect of ECFV on Arterial Pressure
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Renin-Angiotensin System
Renin is synthesized and stored in
modified smooth muscle cells in
afferent arterioles of the kidney.
Renin is released in response to a fall
in pressure.
Renin acts on a substance called
angiotensinogen to form a peptide
called angiotensin I.
AI is converted to AII by a converting
enzyme located in the endothelial cells
in the pulmonary circulation.
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Actions of the Renin Angiotensin System
Causes vasoconstriction
Causes Na+ retention by
direct and indirect acts
on the kidney
Causes shift in renal
function curve to right
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Renin Angiotensin System: Effect of Na+ Intake
RAS is important in
maintaining a normal AP
during changes in Na+ intake.
As Na+ intake is increased
renin levels fall to near 0.
As Na+ intake is decreased
renin levels increase
significantly.
RAS causes the Na+ loading
renal function curve to be
steep.
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Adrenal Gland as the source of Aldosterone
(cortex) and Epinephrine (medulla)
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Juxtaglomerular Apparatus
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Factors Which Decrease Renal Excretory Function and Increase Blood Pressure
Angiotensin II
Aldosterone
Sympathetic nervous activity
Endothelin
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Factors Which Increase Renal Excretory Function and Reduce Blood Pressure
Atrial natriuretic peptide
Nitric oxide
Dopamine
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Determinants of Mean Arterial BP
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Negative Feedback Cycle of Elevated BP
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Consequences and Compensations of Hemorrhage
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Thank You
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Control of blood tissue blood flow
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Objectives
• List factors that affect tissue blood flow.
• Describe the vasodilator and oxygen demand
theories.
• Point out the mechanisms of autoregulation.
• Describe how angiogenesis occurs.
• Inter-relat how various humoral factors affect
blood flow.
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Local Control of Blood Flow
Each tissue controls its own blood flow in proportion
to its needs.
Tissue needs include:
1) delivery of oxygen to tissues
2) delivery of nutrients such as glucose, amino acids, etc.
3) removal of carbon dioxide hydrogen and other metabolites from the tissues
4) transport various hormones and other substances to different tissues
Flow is closely related to metabolic rate of tissues.
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0 200 400 600 800 1000 1200 1400 1600
35
30
25
20
15
10
5
0
5
4
3
2
1
0
CA
RD
IAC
OU
TP
UT
(L
/min
/m)
OX
YG
EN
CO
NS
UM
PT
ION
(L
/min
)
WORK OUTPUT DURING EXERCISE (kg*m/min)
OLYMPIC ATHLETE
COUCH POTATO
Copyright © 2006 by Elsevier, Inc.
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Magnitude & Distribution of CO at Rest
& During Moderate Exercise
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Variations in Tissue Blood Flow
Brain 14 700 50 Heart 4 200 70 Bronchi 2 100 25 Kidneys 22 1100 360 Liver 27 1350 95 Portal (21) (1050) Arterial (6) (300) Muscle (inactive state) 15 750 4 Bone 5 250 3 Skin (cool weather) 6 300 3 Thyroid gland 1 50 160 Adrenal glands 0.5 25 300 Other tissues 3.5 175 1.3 Total 100.0 5000 ---
Per cent ml/min
ml/min/
100 gm
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Acute Control of Local Blood Flow
Increases in tissue metabolism lead to increases
in blood flow.
Decreases in oxygen availability to tissues
increases tissue blood flow.
Two major theories for local blood flow are:
1) The vasodilator theory
2) Oxygen demand theory
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Tissue Metabolism Blood Flow
Effect of Tissue Metabolic Rate on Tissue Blood Flow
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Effect of Tissue Oxygen concentration on Blood Flow
Tissue Oxygen Concentration Blood Flow
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Relationship between Pressure, Flow, and Resistance
F=ΔP/R
Flow (F) through a blood vessel is
determined by:
1) The pressure difference (Δ P) between
the two ends of the vessel
2) Resistance (R) of the vessel
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Vasodilator Theory for Blood Flow Control
Local Vasodilators: Adenosine, CO2, Lactic acid, ADP compounds, Histamine, K+ ions, H+ ions,
Prostacyclin, Bradykinin, and Nitrous oxid (NO)
TISSUE METABOLISM
BLOOD FLOW
ARTERIOLE RESISTANCE
RELEASE OF
VASODILATORS
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TISSUE METABOLISM OR
OXYGEN DELIVERY TO TISSUES
ARTERIOLE RESISTANCE
TISSUE OXYGEN
CONCENTRATION
BLOOD FLOW
Oxygen Demand Theory for Blood Flow Control
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Autoregulation of Blood Flow
Autoregulation - ability of a tissue to maintain blood flow
relatively constant over a wide range of arterial pressures.
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Blood Flow Autoregulation Theories
Metabolic theory suggests that as arterial pressure is
decreased, oxygen or nutrient delivery is decreased
resulting in release of a vasodilator.
Myogenic theory proposes that as arterial pressure falls
the arterioles have an intrinsic property to dilate in
response to decreases in wall tension.
Certain tissues have other mechanisms for blood flow
control the kidneys have a feedback system between the
tubules and arterioles and the brain blood flow is
controlled by carbon dioxide and hydrogen ion conc.
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Laplace’s Law: Myogenic mechanism
TENSION = PRESSURE X RADIUS
(dynes/cm) (dynes/cm2) (cm)
PRESSURE TENSION RADIUS
PRESSURE TENSION RADIUS
(to maintain tension constant)
(to maintain tension constant)
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Arterial
Pressure
Blood Flow Vascular
Resistance Intracell. Ca++
Cell Ca++
Entry
Stretch of
Blood Vessel
47
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Arterial
Pressure
Blood Flow Vascular
Resistance Intracell. Ca++
Cell Ca++
Entry
Stretch of
Blood Vessel
48
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Long-term Regulation of Blood Flow
Long-term regulatory mechanisms which
control blood flow are more effective than
acute mechanism.
Long-term local blood flow regulation occurs
by changing the degree of vascularity of
tissues (size and number of vessels).
Oxygen is an important stimulus for regulating
tissue vascularity.
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Long-term Regulation of Blood Flow
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Angiogenesis
Angiogenesis is the growth of new blood vessels.
Angiogenesis occurs in response to angiogenic
factors released from:
1) ischemic tissue
2) rapidly growing tissue
3) tissue with high metabolic rates
Most angiogenic factors are small peptides such as
vascular endothelial cell growth factors (VEGF),
fibroblast growth factor (FGF), and angiogen.
Example of angiogenesis is Retrolental Hyperplasis
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Humoral Regulation of Blood Flow
Vasoconstrictors
Norepinephrine and epinephrine
Angiotensin
Vasopressin
Endothelin
Vasodilator agents
Bradykinin
Serotonin
Histamine
Prostaglandins
Nitric oxide
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Blood Flow: Skeletal Muscle Regulation
Muscle blood flow can increase tenfold or more during physical activity as vasodilation occurs
Low levels of epinephrine bind to receptors
Cholinergic receptors are occupied
Intense exercise or sympathetic nervous system activation result in high levels of epinephrine
High levels of epinephrine bind to receptors and cause vasoconstriction
This is a protective response to prevent muscle oxygen demands from exceeding cardiac pumping ability
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Exercise and Muscle Blood Flow
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Can 20 fold during exercise.
Muscle makes up a large portion of
body mass Þ great effect on Cardiac output.
Resting blood flow = 3 to 4 ml/min/100 gm
muscle.
Oxygen delivery can be increased by increasing
the extraction ratio from 25% up t0 75%
Capillary density ’s markedly.
Most blood flow occurs between contractions.
Muscle Blood Flow During Exercise
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2 during exercise affects vascular
smooth muscle directly vasodilation.
Vasodilators (which ones?)
1. K+
2. Adenosine
3. Osmolality
4. EDRF (nitric oxide)
Local Regulation of Muscle Blood Flow during Exercise
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Sympathetic release of
norepinephrine (mainly ).
Adrenals release epinephrine (
and ) norepinephrine ( + a little ).
receptors vasodilation mainly in
muscle and the liver.
receptors vasoconstriction in
kidney and gut.
Nervous Regulation
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Arteriole Resistance: Control of Local Blood Flow
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Thank You
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Special circulations, Coronary, Pulmonary…
Faisal I. Mohammed, MD,PhD
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Objectives
Describe the control of blood flow to
different circulations (Skeletal muscles,
pulmonary and coronary)
Point out special hemodynamic
characteristic pertinent to each circulation
discussed
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Blood Flow: Skeletal Muscle Regulation
Muscle blood flow can increase tenfold or more during physical activity as vasodilation occurs
Low levels of epinephrine bind to receptors
Cholinergic receptors are occupied
Intense exercise or sympathetic nervous system activation result in high levels of epinephrine
High levels of epinephrine bind to receptors and cause vasoconstriction
This is a protective response to prevent muscle oxygen demands from exceeding cardiac pumping ability
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Exercise and Muscle Blood Flow
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Can 20 fold during exercise.
Muscle makes up a large portion of
body mass Þ great effect on Cardiac output.
Resting blood flow = 3 to 4 ml/min/100 gm
muscle.
Oxygen delivery can be increased by increasing
the extraction ratio from 25% up t0 75%
Capillary density ’s markedly.
Most blood flow occurs between contractions.
Muscle Blood Flow During Exercise
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2 during exercise affects vascular
smooth muscle directly vasodilation.
Vasodilators (which ones?)
1. K+
2. Adenosine
3. Osmolality
4. EDRF (nitric oxide)
Local Regulation of Muscle Blood Flow during Exercise
![Page 66: Blood Pressure Regulation - JU Medicine · 2018-08-11 · Long-term Regulation of Blood Flow Long-term regulatory mechanisms which control blood flow are more effective than acute](https://reader033.vdocuments.net/reader033/viewer/2022050314/5f765059aa29201287345713/html5/thumbnails/66.jpg)
Sympathetic release of
norepinephrine (mainly ).
Adrenals release epinephrine (
and ) norepinephrine ( + a little ).
receptors vasodilation mainly in
muscle and the liver.
receptors vasoconstriction in
kidney and gut.
Nervous Regulation
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67
Arteriole Resistance: Control of Local Blood Flow
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Blood Flow: Heart
Small vessel coronary circulation is influenced by:
Aortic pressure
The pumping activity of the ventricles
During ventricular systole:
Coronary vessels compress
Myocardial blood flow ceases
Stored myoglobin supplies sufficient oxygen
During ventricular diastole, oxygen and nutrients are carried to the heart
Extraction ratio is maximum (75%) during rest so an increase demand for oxygen means an increase blood flow
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69 CORONARY CIRCULATION
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Epicardial and Subendocardial Vasculature
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Coronary bypass operation
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Angioplasty
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Blood Flow: Brain
Blood flow to the brain is constant, as neurons are
intolerant of ischemia
Metabolic controls – brain tissue is extremely sensitive
to declines in pH, and increased carbon dioxide causes
marked vasodilation
Myogenic controls protect the brain from damaging
changes in blood pressure
Decreases in MAP cause cerebral vessels to dilate to
insure adequate perfusion
Increases in MAP cause cerebral vessels to constrict
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Blood Flow: Brain
The brain can regulate is own blood flow in certain
circumstances, such as ischemia caused by a tumor
The brain is vulnerable under extreme systemic
pressure changes
MAP below 60mm Hg can cause syncope (fainting)
MAP above 160 can result in cerebral edema
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Blood Flow: Skin
Blood flow through the skin:
Supplies nutrients to cells in response to oxygen need
Aids in body temperature regulation and provides a blood reservoir
Blood flow to venous plexuses below the skin surface:
Varies from 50 ml/min to 2500 ml/min, depending upon body temperature
Is controlled by sympathetic nervous system reflexes initiated by temperature receptors and the central nervous system
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Characteristics of the Pulmonary Circulation
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Blood Flow: Lungs
Blood flow in the pulmonary circulation is unusual in that:
The pathway is short
Arteries/arterioles are more like veins/venules (thin-walled, with large lumens)
They have a much lower arterial pressure (24/8 mm Hg versus 120/80 mm Hg)
The autoregulatory mechanism is exactly opposite of that in most tissues
Low oxygen levels cause vasoconstriction; high levels promote vasodilation
This allows for proper oxygen loading in the lungs
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Effect of Po2 on Blood Flow B
lood F
low
% C
ontr
ol
Alveolar PO2
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Distribution of Blood Flow
Bottom Top
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Hydrostatic Effects on Blood Flow
Distance
Flow
Ppc = capillary pressure
PALV = alveolar pressure
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86
Thank You