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Title: Local control of blood vessels
Description: 2nd Year Biomedical Science Degree Notes on local control of blood vessels in response to hypoxia, muscle contraction and exercise.
Description: 2nd Year Biomedical Science Degree Notes on local control of blood vessels in response to hypoxia, muscle contraction and exercise.
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L10 Humoral and Local Control of Blood Vessels
Humoral – anything not due to sympathetic or parasympathetic
Effects of sympathetic nerve activity varies between tissues
Strong sympathetic activity
Skin
In skeletal muscle, can be blunted by local dilator influences – changes in tissue metabolism
In kidney, in competition with pressure autoregulation
In cerebral, in competition with pressure autoregulation and local influences
Coronary usually overcome by local metabolic influences
Pulmonary usually overcome by pressure-dependent effects of local PO2
Weak sympathetic activity
Influences on blood vessels in vivo
Myogenic tone (ABP)/intravascular pressure –
pushing outwards on wall (more stretch
vasoconstriction)
Sympathetic noradrenaline – tone =
constantly slightly constricted
Endothelium-derived substances
Hormones, O2, CO2, etc in blood
Substances released from tissue cells that
accumulate in the interstitial space
o i
...
mixture of vasodilators and vasoconstrictor influences that interact with one another and that are
changed in different conditions
Hormonal Influences
Generalised effects on blood vessels in all tissues
Catecholamines: Ad & NAd – released from adrenal medulla in response to environmental stressors, strenuous
exercise, cold etc
o NAd – weak constriction of all arterioles excepts cerebral (α1 receptors on VSM)
V
...
g
...
But large scope for regional increases in blood flow within brain tissue where neuronal activity is
increased
...
Fall in PaO2 affects endothelial cells
a
...
Stimulates COX PGI2
2
...
Release ATP when O” is unloaded from Hb (change shape lose ATP_
b
...
ATP is also metabolism by ecto-nucleotidases to ADP, AMP and adenosine – acts on endothelial P1 recs
4
...
Dilator influences blunt vasoconstrictor effector sympathetic transmitter NAd/ATP – hypoxic sympatholysis
(prevent vasoconstriction from smyp nerves)
Wen RBCs offload oxygen from Hb, ATP, is released from the RBC – ATP acts on P2Y receptors on endothelial cells to
induce local dilation and dilation is conducted up the arterial tree via VSM
Local regulation of Skeletal muscle circulation in exercise
During, exercise muscle VO2
increases in proportion to work
load until VO2 max
Muscle O2 extraction from blood
increases to ~80% of O2 delivered
to it
Consequently, there is a large
gradient for O2 from blood to
muscle
o Therefore, muscle PO2
falls from ~27mmHg to at rest to 2-3mmHg makes a large gradient between blood and muscle
o Whereas PaO2 remain constant maintained by increased VE
o Arteriolar dilation occurs which is proportional to work load and helps to increase blood flow and O2
delivery
Muscle contraction causes
1
...
ATP released from skeletal muscle fibres – metabolised by ecto-nucleotidases to adenosine (adenosine
acting VSM P1 receptors)
3
...
NB
4
Title: Local control of blood vessels
Description: 2nd Year Biomedical Science Degree Notes on local control of blood vessels in response to hypoxia, muscle contraction and exercise.
Description: 2nd Year Biomedical Science Degree Notes on local control of blood vessels in response to hypoxia, muscle contraction and exercise.