Venoarteriolar Reflex Clinical Trial
Veno-arteriolar and veno- arteriolar-myogenic reflexes (VAR and VMR, respectively) are of
the most important contributors to local vasoregulation.
In a recent research we showed that VAR is affected in the affected lower limbs of CRPS
(chronic regional pain syndrome) patients. {Dayan, 2008 1 /id} That is, local venous
congestion (40 mmHg) results in a decreased blood flow in the affected, sick limb compared
with its contralateral. The myogenic reflex, however, that is induced by lowering the leg 40
cm below heart level, which causes both venous and arteriolar congestion, was intact in the
sick leg. We concluded that the pathophysiology of CRPS might involve a defect in the neural
reflex between venous and arteriolar vessels. Arteriolar smooth muscle action, on the other
hand, is intact and might compensate for the overwhelmed VAR.
Trying to explain the fact that VAR, but not VMR, was different between the affected and
unaffected limbs, we raise the hypothesis that since VMR is a local vasoregulatory reflex
composed of two components: the venous and myogenic, opposed to the VAR, the myogenoic
component of the reflex might compensate for the inappropriate VAR. Many mechanisms that
might affect vascular muscles may occur, one of them is related to adenosine.
Adenosine is considered a retaliatory autacoid, whose main function is to protect tissues
against ischemia. It is a very potent vasodilator. Adenosine is also considered an important
mediator of ischemic preconditioning, a phenomenon by which an initial brief period of
ischemia protects the tissue from the damage produced by a subsequent more intense ischemic
episode.
Adenosine has a pivotal role in local vasoregulation. In many researches it was shown that
adenosine contributes to exercise hyperaemia in skeletal muscle. The 'adenosine hypothesis'
states that blood flow is regulated by interstitial adenosine, released from cardiac or
skeletal muscle fibers when there is a mismatch between O2 supply and O2 demand. When there
is insufficient O2 to regenerate ATP, ADP and AMP accumulate leading to adenosine
generation. By causing vasodilatation, adenosine helps to restore the O2 delivery, reversing
the mismatch and allowing ATP to be regenerated.
Adenosine is a naturally occurring ligand of 4 subtypes of G-protein-coupled cell membrane
receptors (A1, A2A, A2B, and A3) involved in cellular signaling. Dipyridamole produces
coronary hyperemia by indirectly activating adenosine A2A receptors by inhibiting tissue
uptake of adenosine and thereby increasing levels of endogenous adenosine.
Taking all these considerations into account we hypothesize that local vascular reflexes
like VAR, and eventually VMR are mediated by adenosine. That is, adenosine produced at a
constant rate in vascular bed contributing to constant blood flow under a wide range of
local circumstances. A local increase in venous blood flow (as in lower limbs veins during
prolonged standing) causes adenosine "wash out", which leads to local arterial
vasoconstriction to reduce blood flow to the limb, which is, in fact, the purpose of VAR. if
our hypothesis turns to be true, then when we will see exaggeration of the reflexes with
adenosine blockade and vice versa, a decrease its abolishment with adenosine reuptake
inhibition.
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Primary Purpose: Basic Science