Afferent neurons contained within cardiac sympathetic nerves may have important influences on the circulation when activated during myocardial ischemia. Although such activation is known to reflexly excite upper thoracic sympathetic efferent neurons, effects on other components of sympathetic outflow are unknown. Therefore, cardiac sympathetic afferent nerves were stimulated by occlusion of coronary arteries to investigate their reflex influences on renal sympathetic nerve activity and systemic arterial blood pressure. Responses were observed in anesthetized cats in which sympathetic and/or vagal cardiac afferent nerves remained intact and arterial baroreceptors remained intact or had been denervated. Stimulating sympathetic afferent neurons caused excitation of renal nerve activity, which was accompanied by variable changes in arterial pressure. Stimulation of vagal afferents by coronary occlusion consistently produced inhibition of renal nerve activity and marked depressor responses. When both components of cardiac innervation remained intact, increases or decreases in renal nerve activity and blood pressure were elicited by coronary artery occlusion in the presence or absence of arterial baroreceptors. These results illustrate that cardiac sympathetic afferent nerves can contribute significantly to cardiovascular control during myocardial ischemia.
Activation of cardiac sympathetic afferent nerves can initiate excitatory cardiocardiac reflexes through pathways that are exclusively spinal. In addition, stimulation of the same nerves also causes lower thoracic and lumbar sympathetic excitation, but the contribution of spinal pathways to these reflexes is unknown. Therefore experiments were performed to compare cardiac, splenic, and renal sympathetic responses to cardiac sympathetic afferent stimulation before and after cervical spinal cord transection in anesthetized, vagotomized, sinoaortic-denervated cats. Electrical stimulation of afferent cardiac sympathetic nerves produced excitatory responses in cardiac and renal nerves before transection but only cardiac nerve responses after transection. In contrast, afferent stimulation by epicardially applied bradykinin excited cardiac, renal, and splenic nerves before and after cord transection. Splenic nerve responses were greater than renal nerve responses in intact and spinal cats. These results demonstrate that spinal reflexes initiated by activation of cardiac sympathetic afferent nerves are not limited to cardiocardiac pathways. The similarity of patterns of responses in intact and spinal cats suggests that spinal pathways contribute significantly to the reflex excitation observed in intact animals.
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