Yonis Abukar scite author profile

Yonis Abukar

3Publications

64Citation Statements Received

71Citation Statements Given

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170

Affiliations

University of Auckland, Florey Institute of Neuroscience and Mental Health, University of Melbourne

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Increased cardiac sympathetic nerve activity in ovine heart failure is reduced by lesion of the area postrema, but not lamina terminalis

et al. 2018

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Increased cardiac sympathetic nerve activity (CSNA) is a key feature of heart failure (HF) and is associated with poor outcome. There is evidence that central angiotensinergic mechanisms contribute to the increased CSNA in HF, but the central sites involved are unknown. In an ovine, rapid pacing model of HF, we investigated the contribution of the lamina terminalis and area postrema to the increased CSNA and also the responses to fourth ventricular infusion of the angiotensin type 1 receptor antagonist losartan. Ablation of the area postrema or sham lesion (n = 6/group), placement of lamina terminalis lesion electrodes (n = 5), and insertion of a cannula into the fourth ventricle (n = 6) were performed when ejection fraction was ~ 50%. When ejection fraction was < 40%, recording electrodes were implanted, and after 3 days, resting CSNA and baroreflex control of CSNA were measured before and following lesion of the lamina terminalis, in groups with lesion or sham lesion of the area postrema and before and following infusion of losartan (1.0 mg/h for 5 h) into the fourth ventricle. In conscious sheep with HF, lesion of the lamina terminalis did not significantly change CSNA (91 ± 2 vs. 86 ± 3 bursts/100 heart beats), whereas CSNA was reduced in the group with lesion of the area postrema (89 ± 3 to 45 ± 10 bursts/100 heart beats, P < 0.01) and following fourth ventricular infusion of losartan (89 ± 3 to 48 ± 8 bursts/100 heartbeats, P < 0.01). These findings indicate that the area postrema and brainstem angiotensinergic mechanisms may play an important role in determining the increased CSNA in HF.

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Reverse re-modelling chronic heart failure by reinstating heart rate variability

et al. 2022

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Heart rate variability (HRV) is a crucial indicator of cardiovascular health. Low HRV is correlated with disease severity and mortality in heart failure. Heart rate increases and decreases with each breath in normal physiology termed respiratory sinus arrhythmia (RSA). RSA is highly evolutionarily conserved, most prominent in the young and athletic and is lost in cardiovascular disease. Despite this, current pacemakers either pace the heart in a metronomic fashion or sense activity in the sinus node. If RSA has been lost in cardiovascular disease current pacemakers cannot restore it. We hypothesized that restoration of RSA in heart failure would improve cardiac function. Restoration of RSA in heart failure was assessed in an ovine model of heart failure with reduced ejection fraction. Conscious 24 h recordings were made from three groups, RSA paced (n = 6), monotonically paced (n = 6) and heart failure time control (n = 5). Real-time blood pressure, cardiac output, heart rate and diaphragmatic EMG were recorded in all animals. Respiratory modulated pacing was generated by a proprietary device (Ceryx Medical) to pace the heart with real-time respiratory modulation. RSA pacing substantially increased cardiac output by 1.4 L/min (20%) compared to contemporary (monotonic) pacing. This increase in cardiac output led to a significant decrease in apnoeas associated with heart failure, reversed cardiomyocyte hypertrophy, and restored the T-tubule structure that is essential for force generation. Re-instating RSA in heart failure improves cardiac function through mechanisms of reverse re-modelling; the improvement observed is far greater than that seen with current contemporary therapies. These findings support the concept of re-instating RSA as a regime for patients who require a pacemaker.

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Activation of the carotid body increases directly recorded cardiac sympathetic nerve activity and coronary blood flow in conscious sheep

Pachen

Abukar

Shanks

et al. 2021

American Journal of Physiology-Regulatory, Integrative and Comp

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Activation of the carotid body (CB) using intracarotid potassium cyanide (KCN) injection increases coronary blood flow (CoBF). This increase in CoBF is considered to be mediated by co-activation of both the sympathetic and parasympathetic nerves to the heart. However, whether cardiac sympathetic nerve activity (cardiac SNA) actually increases during CB activation has not been determined previously. We hypothesized that activation of the CB would increase directly recorded cardiac SNA, which would cause coronary vasodilatation. Experiments were conducted in conscious sheep implanted with electrodes to record cardiac SNA and diaphragmatic electromyography (dEMG), flow probes to record CoBF and cardiac output and a catheter to record arterial pressure. Intracarotid KCN injection was used to activate the CB. To eliminate the contribution of metabolic demand on coronary flow, the heart was paced at a constant rate during CB chemoreflex stimulation. Intra-carotid KCN injection resulted in a significant increase in directly recorded cardiac SNA frequency (from 24±2 to 40±4 bursts/minute; p<0.05) as well as a dose-dependent increase in mean arterial pressure (79±15 to 88±14 mmHg; p<0.01) and CoBF (75±37 Vs 86±42 mL/min; p<0.05). The increase in CoBF and coronary vascular conductance to intracarotid KCN injection was abolished after propranolol infusion, suggesting that the increased cardiac SNA mediates coronary vasodilatation. The pressor response to activation of the CB was abolished by pre-treatment with intravenous atropine but there was no change in the coronary flow response. Our results indicate that CB activation increases directly recorded cardiac SNA which mediates vasodilatation of the coronary vasculature.

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Yonis Abukar

Increased cardiac sympathetic nerve activity in ovine heart failure is reduced by lesion of the area postrema, but not lamina terminalis

Reverse re-modelling chronic heart failure by reinstating heart rate variability

Activation of the carotid body increases directly recorded cardiac sympathetic nerve activity and coronary blood flow in conscious sheep

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