Your search keyword '"Abdala, AP"' showing total 3 results

1. Carotid sinus denervation ameliorates renovascular hypertension in adult Wistar rats.

Author

Pijacka W, McBryde FD, Marvar PJ, Lincevicius GS, Abdala AP, Woodward L, Li D, Paterson DJ, and Paton JF

Subjects

Animals, Baroreflex, Blood Pressure, Calcium Signaling, Carotid Sinus surgery, Cells, Cultured, Hypertension, Renovascular surgery, Male, Neurons metabolism, Rats, Rats, Wistar, Sympathectomy, Sympathetic Fibers, Postganglionic physiology, Sympathetic Fibers, Postganglionic surgery, Carotid Sinus innervation, Hypertension, Renovascular physiopathology

Abstract

Key Points: Peripheral chemoreflex sensitization is a feature of renovascular hypertension. Carotid sinus nerve denervation (CSD) has recently been shown to relieve hypertension and reduce sympathetic activity in other rat models of hypertension. We show that CSD in renovascular hypertension halts further increases in blood pressure. Possible mechanisms include improvements in baroreceptor reflex sensitivity and renal function, restoration of cardiac calcium signalling towards control levels, and reduced neural inflammation. Our data suggest that the peripheral chemoreflex may be a viable therapeutic target for renovascular hypertension., Abstract: The peripheral chemoreflex is known to be hyper-responsive in both spontaneously hypertensive (SHR) and Goldblatt hypertensive (two kidney one clip; 2K1C) rats. We have previously shown that carotid sinus nerve denervation (CSD) reduces arterial blood pressure (ABP) in SHR. In the present study, we show that CSD ameliorates 2K1C hypertension and reveal the potential underlying mechanisms. Adult Wistar rats were instrumented to record ABP via telemetry, and then underwent CSD (n = 9) or sham CSD (n = 9) 5 weeks after renal artery clipping, in comparison with normal Wistar rats (n = 5). After 21 days, renal function was assessed, and tissue was collected to assess sympathetic postganglionic intracellular calcium transients ([Ca 2+ ] i ) and immune cell infiltrates. Hypertensive 2K1C rats showed a profound elevation in ABP (Wistar: 98 ± 4 mmHg vs. 2K1C: 147 ± 8 mmHg; P < 0.001), coupled with impairments in renal function and baroreflex sensitivity, increased neuroinflammatory markers and enhanced [Ca 2+ ] I in stellate neurons (P < 0.05). CSD reduced ABP in 2K1C+CSD rats and prevented the further progressive increase in ABP seen in 2K1C+sham CSD rats, with a between-group difference of 14 ± 2 mmHg by week 3 (P < 0.01), which was accompanied by improvements in both baroreflex control and spectral indicators of cardiac sympatho-vagal balance. Furthermore, CSD improved protein and albuminuria, decreased [Ca 2+ ] i evoked responses from stellate neurons, and also reduced indicators of brainstem inflammation. In summary, CSD in 2K1C rats reduces the hypertensive burden and improves renal function. This may be mediated by improvements in autonomic balance, functional remodelling of post-ganglionic neurons and reduced inflammation. Our results suggest that the peripheral chemoreflex may be considered as a potential therapeutic target for controlling renovascular hypertension., (© 2016 The Authors. The Journal of Physiology © 2016 The Physiological Society.)

Published

2016

2. Rebuttal from L. E. K. Ratcliffe, W. Pijacka, F. D. McBryde, A. P. Abdala, D. J. Moraes, P. A. Sobotka, E. C. Hart, K. Narkiewicz, A. K. Nightingale and J. F. R. Paton.

Author

Ratcliffe LE, Pijacka W, McBryde FD, Abdala AP, Moraes DJ, Sobotka PA, Hart EC, Narkiewicz K, Nightingale AK, and Paton JF

Subjects

Animals, Humans, Ablation Techniques methods, Autonomic Nervous System surgery, Carotid Sinus physiology, Denervation methods, Electric Stimulation Therapy, Hypertension surgery, Hypertension therapy, Kidney innervation

Published

2014

3. The carotid body as a putative therapeutic target for the treatment of neurogenic hypertension.

Author

McBryde FD, Abdala AP, Hendy EB, Pijacka W, Marvar P, Moraes DJ, Sobotka PA, and Paton JF

Subjects

Animals, Baroreflex physiology, Carotid Body metabolism, Carotid Body surgery, Cell Movement immunology, Denervation, Heart physiology, Hypertension metabolism, Kidney innervation, Kidney surgery, Male, Rats, Rats, Inbred SHR, Rats, Wistar, Sympathetic Nervous System metabolism, T-Lymphocytes immunology, Arterial Pressure physiology, Carotid Sinus innervation, Carotid Sinus surgery, Hypertension therapy, Sympathetic Nervous System surgery

Abstract

In the spontaneously hypertensive (SH) rat, hyperoxic inactivation of the carotid body (CB) produces a rapid and pronounced fall in both arterial pressure and renal sympathetic nerve activity (RSA). Here we show that CB de-afferentation through carotid sinus nerve denervation (CSD) reduces the overactive sympathetic activity in SH rats, providing an effective antihypertensive treatment. We demonstrate that CSD lowers RSA chronically and that this is accompanied by a depressor response in SH but not normotensive rats. The drop in blood pressure is not dependent on renal nerve integrity but mechanistically accompanied by a resetting of the RSA-baroreflex function curve, sensitization of the cardiac baroreflex, changes in renal excretory function and reduced T-lymphocyte infiltration. We further show that combined with renal denervation, CSD remains effective, producing a summative response indicative of an independent mechanism. Our findings indicate that CB de-afferentation is an effective means for robust and sustained sympathoinhibition, which could translate to patients with neurogenic hypertension.

Published

2013