Cardiovascular adjustments and pain sensation usually occur when an organism encounters a """"""""painful stimulus"""""""" associated with ischemia and infarction of the heart, but sometimes the insult does not produce pain (i.e. the """"""""silent infarct""""""""). The intermediate and long term objectives are to record activity of cells of origin of the spinoreticular tract (SRT) and the medial and lateral spinothalamic tract (STT) system, of the thalamus, and of the somatosensory cortex and examine the complex interactions that occur between the cardiovascular system, particularly the heart, and the pain system. The working hypothesis of this proposal is that activation of vagal afferent fibers stimulates brainstem structures whose projections descend to modulate the activity of SRT and STT neurons in the T1-T5 segments of the spinal cord. The upper thoracic spinal cord of cats (SRT cells) and monkey (STT cells) will be explored with carbon filament or tungsten microelectrodes to record single extracellular action potentials of cells antidromically activated from the thalamus or the medullary reticular formation.
The specific aims are to: 1) determine effects of electrically, mechanically or chemically stimulating vagal afferent fibers on activity of SRT and STT cells responding to visceral and somatic inputs; 2) determine nuclei and descending pathways activated during vagal stimulation by applying focal electrical and chemical stimulation and by making lesions; 3) simultaneously record activity of raphe-spinal and STT and SRT cells during vagal stimulation; and 4) examine the effects of independently occluding branches of the left coronary artery and the right coronary artery on the activity of STT or SRT cells before and after vagal cooling or vagal stimulation. This study will contribute to understanding the interactions of neural mechanisms that underlie cardiac pain, the associated angina pectoris and possibly the """"""""silent infarction"""""""".

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL022732-13
Application #
3337042
Study Section
Cardiovascular and Pulmonary Research A Study Section (CVA)
Project Start
1977-12-01
Project End
1991-11-30
Budget Start
1989-12-01
Budget End
1991-11-30
Support Year
13
Fiscal Year
1990
Total Cost
Indirect Cost
Name
University of Oklahoma Health Sciences Center
Department
Type
Schools of Dentistry
DUNS #
937727907
City
Oklahoma City
State
OK
Country
United States
Zip Code
73117
Zhang, Jianhua; Chandler, Margaret J; Foreman, Robert D (2003) Cardiopulmonary sympathetic and vagal afferents excite C1-C2 propriospinal cells in rats. Brain Res 969:53-8
Chandler, Margaret J; Zhang, Jianhua; Qin, Chao et al. (2002) Spinal inhibitory effects of cardiopulmonary afferent inputs in monkeys: neuronal processing in high cervical segments. J Neurophysiol 87:1290-302
Chandler, Margaret J; Qin, Chao; Zhang, Jianhua et al. (2002) Differential effects of urinary bladder distension on high cervical projection neurons in primates. Brain Res 949:97-104
Foreman, R D (2000) Integration of viscerosomatic sensory input at the spinal level. Prog Brain Res 122:209-21
Chandler, M J; Zhang, J; Qin, C et al. (2000) Intrapericardiac injections of algogenic chemicals excite primate C1-C2 spinothalamic tract neurons. Am J Physiol Regul Integr Comp Physiol 279:R560-8
Barron, K W; Croom, J E; Ray, C A et al. (1999) Spinal integration of antidromic mediated cutaneous vasodilation during dorsal spinal cord stimulation in the rat. Neurosci Lett 260:173-6
Foreman, R D (1999) Mechanisms of cardiac pain. Annu Rev Physiol 61:143-67
Chandler, M J; Qin, C; Yuan, Y et al. (1999) Convergence of trigeminal input with visceral and phrenic inputs on primate C1-C2 spinothalamic tract neurons. Brain Res 829:204-8
Miller, K E; Douglas, V D; Richards, A B et al. (1998) Propriospinal neurons in the C1-C2 spinal segments project to the L5-S1 segments of the rat spinal cord. Brain Res Bull 47:43-7
Chandler, M J; Zhang, J; Foreman, R D (1998) Cardiopulmonary sympathetic input excites primate cuneothalamic neurons: comparison with spinothalamic tract neurons. J Neurophysiol 80:628-37

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