Differential Characteristics of Neural Circulatory Control

Borne, Philippe van de; Neubauer, Jolanta; Rahnama, Mohsen; Jansens, Jean-Luc; Montano, Nicola; Porta, Alberto; Somers, Virend K.; Degaute, Jean Paul

doi:10.1161/hc4101.097248

Cited by 29 publications

(31 citation statements)

References 38 publications

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“…These studies revealed that cyclosporine and time from heart transplantation contribute to MSNA increase in HTRs. 2,3 Our study confirms previous observations of increased MSNA in long-term HTRs. It provides a new insight into sympathetic regulation after heart transplantation.…”

Section: Discussionsupporting

confidence: 91%

“…Heart transplantation initially decreases the MSNA related to the heart failure state, because it returns to normal values within 1 year after the surgical procedure, 16 although this normalization does not seem to be permanent. 2,3 Only a few studies have used direct recording of nerve traffic to unravel sympathetic activation after heart transplantation. These studies revealed that cyclosporine and time from heart transplantation contribute to MSNA increase in HTRs.…”

Section: Discussionmentioning

confidence: 99%

“…1 Heart transplantation restores a close to normal cardiac function but does not always normalize MSNA. [2][3][4][5] Elevated MSNA after heart transplantation is associated with cyclosporine therapy 3 and increases as a function of time after transplantation. 2 Increased peripheral chemoreflex sensitivity has been demonstrated in humans and experimental animals with congestive heart failure.…”

mentioning

confidence: 99%

“…[2][3][4][5] Elevated MSNA after heart transplantation is associated with cyclosporine therapy 3 and increases as a function of time after transplantation. 2 Increased peripheral chemoreflex sensitivity has been demonstrated in humans and experimental animals with congestive heart failure. 6 -9 Whether this alteration in chemoreflex function is reversible when cardiac function is restored by heart transplantation is unknown.…”

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confidence: 99%

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Effects of Peripheral Chemoreceptors Deactivation on Sympathetic Activity in Heart Transplant Recipients

et al. 2005

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Abstract-Heart transplantation initially normalizes sympathetic hyperactivity directed at the muscle circulation. However, sympathetic activity increases with time after transplantation and the exact mechanisms responsible for sympathetic control in heart transplant recipients remain unclear. We examined the effects of peripheral chemoreflex deactivation caused by breathing 100% oxygen on muscle sympathetic nerve activity (expressed as number of burst per minute and mean burst amplitude), heart rate, and mean blood pressure in 13 heart transplant recipients, 13 patients with essential hypertension, and 10 controls. Heart transplant recipients disclosed the highest sympathetic activity, whereas it did not differ between controls and patients with essential hypertension (51Ϯ16 versus 37Ϯ14 versus 39Ϯ12 burst/min, respectively; PϽ0.05). Breathing 100% oxygen, in comparison with 21% oxygen, reduced sympathetic activity (Ϫ4Ϯ4 versus Ϫ1Ϯ2 burst/min, PϽ0.01; 85Ϯ9 versus101Ϯ8% of amplitude at baseline, PϽ0.001) and mean blood pressure (Ϫ4Ϯ5 versus ϩ3Ϯ6 mm Hg; PϽ0.05) in heart transplant recipients, decreased sympathetic activity (Ϫ4Ϯ4 versus 0Ϯ3 burst/min, PϽ0.05; 90Ϯ16 versus101Ϯ9% of amplitude at baseline, PϽ0.05) in patients with essential hypertension, but did not reduce sympathetic activity (2Ϯ4 versus 3Ϯ3 burst/min, PϭNS; 95Ϯ11 versus 95Ϯ13% of amplitude at baseline, PϭNS) in control subjects. The sympathetic response to hyperoxia was more marked in heart transplant recipients than in controls (85Ϯ9 versus 95Ϯ11% of baseline amplitude; PϽ0.05). The decrease in sympathetic activity was most evident in patients with the longest time after heart transplantation (rϭϪ0.75, PϽ0.01).In conclusion, tonic chemoreflex activation increases resting muscle sympathetic nerve activity and favors blood pressure elevation after heart transplantation. Key Words: chemoreceptors Ⅲ sympathetic nervous system Ⅲ transplantation C ongestive heart failure is associated with remarkably elevated muscle sympathetic nerve activity (MSNA). 1 Heart transplantation restores a close to normal cardiac function but does not always normalize MSNA. 2-5 Elevated MSNA after heart transplantation is associated with cyclosporine therapy 3 and increases as a function of time after transplantation. 2 Increased peripheral chemoreflex sensitivity has been demonstrated in humans and experimental animals with congestive heart failure. 6 -9 Whether this alteration in chemoreflex function is reversible when cardiac function is restored by heart transplantation is unknown. We hypothesized that increased peripheral chemoreceptor activation, possibly a lingering effect of heart failure, contributes to elevated MSNA in heart transplant recipients (HTRs). Accordingly, we studied the effects of hyperoxia, an intervention that acutely reduces afferent nerve traffic from the peripheral chemoreceptors, on MSNA in HTRs. Because the majority of HTRs are hypertensive 10 and enhanced peripheral chemoreflex sensitivity has been observed in hypertensive humans and in animal m...

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Effects of Peripheral Chemoreceptors Deactivation on Sympathetic Activity in Heart Transplant Recipients

et al. 2005

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“…Afferent reinnervation is supported by reports of angina accompanied by objective evidence of cardiac ischemia. 9,10 Evidence for sympathetic reinnervation derives from the emergence of a low-frequency heart rate (HR) variability in some transplants, [11][12][13] and the appearance of appropriate, albeit diminished, reflex changes in HR. 11,[14][15][16] In addition, experiments suggest catecholamine uptake, storage or release from presumed cardiac sympathetic postganglionic neurons in the transplanted heart.…”

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confidence: 99%

Decreased heart rate and blood pressure in a recent cardiac transplant patient after spinal anesthesia

Allard

Hatzakorzian

Deschamps

et al. 2004

Can J Anesth/J Can Anesth

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P Pu ur rp po os se e: : To describe the cardiovascular effects of neuraxial blockade in a heart transplant patient.C Cl li in ni ic ca al l f fe ea at tu ur re es s: : A 69-yr-old 70-kg male underwent orthotopic heart transplant (bicaval anastomosis technique) for ischemic cardiomyopathy. Five months after transplantation, the patient underwent a transurethral bladder tumour resection under spinal anesthesia. Two millilitres of bupivacaine 0.75% (15 mg) were injected intrathecally at L 3-4 and the patient remained seated for approximately 20 sec prior to assuming the lithotomy position. Subsequently, both blood pressure (BP) and heart rate (HR) diminished gradually (BP and HR immediately pre-spinal: 113 mmHg (mean arterial pressure) and 92 beats·min -1 , respectively; nadir BP and HR: 94 mmHg (16.8% decrease) 30 min postspinal and 73 beats·min -1 (20.7% decrease) 40 min postspinal, respectively). HR and mean BP were highly correlated (r = 0.9410, P < 0.0001, R 2 = 0.8854). The dermatome level of neuraxial anesthesia, determined by sensitivity to pin prick, was T 8 (five minutes) and T 6 (ten minutes) postinjection of spinal anesthetic. Control patients (n = 10) undergoing elective urological procedures with identical anesthesia management demonstrated very similar cardiovascular responses.

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Cough Reflex in Lung Transplant Recipients

Duarte

Myers

2011

Lung

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Lung transplantation has become the standard of care for particular individuals with advanced lung disease. However, this surgical procedure involves interruption of the lower vagal nerve fibers which leads to loss of the protective cough reflex. Injury of the neural pathways involved with the sensory limb of the cough reflex is associated with an increased risk of complications involving the allograft. While loss of the cough reflex was once considered permanent, recent evidence indicates functional and structural restoration is a time-dependent process that occurs 6-12 months after lung transplantation. The implication that the cough reflex may be reestablished in lung transplant recipients provides insight into the dynamic response to airway neural injury that may lead to improvements in allograft tissue repair.

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Differential Characteristics of Neural Circulatory Control

Cited by 29 publications

References 38 publications

Effects of Peripheral Chemoreceptors Deactivation on Sympathetic Activity in Heart Transplant Recipients

Effects of Peripheral Chemoreceptors Deactivation on Sympathetic Activity in Heart Transplant Recipients

Decreased heart rate and blood pressure in a recent cardiac transplant patient after spinal anesthesia

Cough Reflex in Lung Transplant Recipients

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