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![Page 1: Special Circulations Mark T Ziolo, PhD, FAHA Associate Professor, Physiology & Cell Biology 019 Hamilton Hall 614-688-7905 ziolo.1@osu.edu.](https://reader036.fdocuments.in/reader036/viewer/2022062518/56649ea15503460f94ba4c0f/html5/thumbnails/1.jpg)
Special Circulations
Mark T Ziolo, PhD, FAHAAssociate Professor, Physiology & Cell Biology019 Hamilton [email protected]
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Learning Objectives
• Describe the regulation of coronary, cerebral, and skeletal muscle blood flow
• Differentiate flow regulation in cutaneous, splanchnic, renal and pulmonary circuits
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Detailed Objectives
Understand how coronary blood flow is regulated Know why coronary blood flow must be increased and the primary
factor responsible for coronary blood flow Understand extravascular compression in the heart Understand how cerebral blood flow is regulated Know why cerebral blood flow is always maintained Know what is the purpose of Cushing’s Phenomenon Know how skeletal muscle blood flow is regulated Understand why skeletal muscle blood flow switches from neuronal
to local (metabolic) regulation Know the role of the “muscle-pump mechanism” Know the purpose of blood flow to the following organs: cutaneous,
splanchnic, renal, and pulmonary Understand the major mechanisms of blood flow regulation in the
following organs: cutaneous, splanchnic, renal, and pulmonary
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• Mohrman DE, Heller LJ. Cardiovascular Physiology 8th Edition. Lange Medical Books/McGraw-Hill Publishers, 2014.
• Berne RM, Levy MN. Cardiovascular Physiology Sixth Edition. Mosby-Year Book, Inc., 2010.
• MediaPhys 3.0. An Introduction to Human Physiology. The McGraw-Hill Publishers, 2010.
References
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Coronary Blood Flow
Myocardium extracts ~75% of the oxygen Increase in myocardial O2 consumption must be
accompanied by an increase in blood flow 1° factor responsible for perfusion is the aortic pressure Local control (metabolic)
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Flow directly related to O2 consumption
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Extravascular Compression
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MyocardialO2 demand:Myocardial
O2 supply
MyocardialMetabolic rate
Vasodilatormetabolites
Coronaryblood flow
Arterial O2
content
Coronary Blood Flow, cont
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Local Control
Vasodilator metabolites Adenosine
Activates adenosine receptor O2, CO2, H+, K+
Neuronal Control Sympathetic activation
Vasodilation (increase myocardial contractility)
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Lack of Blood Flow
Myocardial Ischemia Arrhythmias
Endocardial layer of left ventricle
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Cerebral Blood Flow
In ALL situations, blood flow to the brain is preserved (55 ml/min/100g)
Whole brain has a nearly constant metabolic rate
Blood flow to discrete regions is not constant Regulated almost entirely by local mechanisms
O2, H+ (PCO2), K+, adenosine
Excellent autoregulation Some sympathetic vasoconstriction
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Hand Reasoning
Problem Solving
Cerebral Blood Flow, cont
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Cerebral Blood Flow, cont
No reserves- very intolerant to ischemia 5 sec: fainting Minutes: death
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Cushing’s Phenomenon
Tumor
Intracranial pressure
CBF
Metabolicvasodilation
Ischemic stimulation of vasomotorregions in medulla
systemic blood pressure
Maintain CBF
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Skeletal Muscle
Rate of blood flow directly related to contractile state of muscle
At rest, large percentage of capillary bed is not perfused Regulation of flow
Neuronal and local influences Physical factor- squeezing effect of contracting muscle
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Skeletal Muscle, cont
Neuronal Influence High basal tone Sympathetic fibers elicits vasoconstriction
Predominates in resting muscle
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Skeletal Muscle, cont
Local Influence Very strong in working muscle
Muscle O2 consumption, adenosine, H+, K+, lactic acid
Neuronal and local influences oppose each other, in working muscle the local (metabolic) influence predominates
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Skeletal Muscle, cont
“muscle-pump mechanism” Contracting muscles push blood in veins towards thorax
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Cutaneous
Very low O2 and nutrient requirements Maintain constant body temperature Arterioles and arteriovenous anastomoses AV anastomoses shunt blood from arterioles to
venules Governed by nervous system in response to
temperature receptors NE and E elicit vasoconstriction Chiefly influenced by environmental temperature
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Splanchnic
GI tract, spleen, pancreas, and liver ~25% of resting cardiac output Neuronal and local influences
Sympathetic causes vasoconstriction Shifts blood to central venous pool (liver important blood reserve)
Gastrointestinal hormones- functional hyperemia Autoregulation not well developed
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Renal Blood Flow
0.5% TBW but 20% of cardiac output Strong autoregulation
Regulate GFR Myogenic mechanism (stretch) Tubuloglomerular feedback
Tubular flow sensed by macula densa sends signal via juxtaglomerular apparatus to afferent arterioles
JGA also releases renin (angiotensin II) Neuronal Influence
Sympathetic decreases RBF, but GFR only slightly
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Pulmonary Blood Flow
Vascular system is low-resistance and highly distensible Capillaries aligned in thin sheets between adjacent
alveoli Gravitational effects (regional distribution) Hypoxia most important influence on tone Low alveolar PO2 leads to shunting of blood from poorly
ventilated regions to better ventilated regions
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Summary
Coronary blood flow is regulated by metabolic influences and the primary factor responsible is arterial pressure
With increased oxygen demand, coronary blood flow must be increased because of the bulk flow principle
Extravascular compression occurs in the heart due to high systolic forces Cerebral blood flow in mostly under metabolic influence Cerebral blood flow is always maintained since it is the least tolerant organ
to ischemia and there are no reserves Cushing’s Phenomenon is elevation of intracranial pressure results in an
increase in systemic blood pressure to maintain cerebral blood flow Skeletal muscle blood flow is regulated by the neuronal influence at rest, and
by the metabolic influence in working muscle The muscle pump mechanism pushes blood back towards the heart
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Summary, cont
Purpose of cutaneous blood flow is temperature regulation and is under neuronal control
Purpose of splanchnic blood flow is nutrient reabsorption and is under neuronal control and functional hyperemia
Purpose of renal blood flow is filtration and has strong autoregulation and is under neuronal control
Purpose of pulmonary blood flow is gas exchange and has hypoxic vasoconstriction
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Special Circulations Quiz
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