The crosstalk between the kidney and the central nervous system: the role of renal nerves in blood pressure regulation

Nishi, Érika E.; Bergamaschi, Cássia T.; Campos, Rui

doi:10.1113/expphysiol.2014.079889

Cited by 53 publications

(35 citation statements)

References 31 publications

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“…NTS neurons project to gamma-aminobutyric acid (GABA)-ergic neurons in the caudal ventrolateral medulla, which provides inhibitory inputs to the RVLM, thereby reducing sympathetic outflow to the kidney [7]. Pre-motor neurons in the RVLM project to the intermediolateral column of the spinal cord, which synapse with renal post-ganglionic neurons [8]. Via this neural network, RVLM neurons regulate renal blood flow, sodium and water reabsorption, and excretion, as well as the activity of the renin–angiotensin system [9].…”

Section: Cardiorespiratory Regulation and Cns Activities During Wakefmentioning

confidence: 99%

Autonomic regulation during sleep and wakefulness: a review with implications for defining the pathophysiology of neurological disorders

2018

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Cardiovascular and respiratory parameters change during sleep and wakefulness. This observation underscores an important, albeit incompletely understood, role for the central nervous system in the differential regulation of autonomic functions. Understanding sleep/wake-dependent sympathetic modulations provides insights into diseases involving autonomic dysfunction. The purpose of this review was to define the central nervous system nuclei regulating sleep and cardiovascular function and to identify reciprocal networks that may underlie autonomic symptoms of disorders such as insomnia, sleep apnea, restless leg syndrome, rapid eye movement sleep behavior disorder, and narcolepsy/cataplexy. In this review, we examine the functional and anatomical significance of hypothalamic, pontine, and medullary networks on sleep, cardiovascular function, and breathing.

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Section: Cardiorespiratory Regulation and Cns Activities During Wakefmentioning

confidence: 99%

Autonomic regulation during sleep and wakefulness: a review with implications for defining the pathophysiology of neurological disorders

2018

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“…Anatomical and physiological evidence suggest that neural circuits, including afferent and efferent innervation of the kidney, provide pathways for regulation of kidney function and disease states by the peripheral nervous system, and for feedback within the kidney and likely to the CNS 77,78 (FIG. 2).…”

Section: Neural Circuits In the Kidneymentioning

confidence: 99%

Targeting neural reflex circuits in immunity to treat kidney disease

2017

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Neural pathways regulate immunity and inflammation via the inflammatory reflex and specific molecular targets can be modulated by stimulating neurons. Neuroimmunomodulation by nonpharmacological methods is emerging as a novel therapeutic strategy for inflammatory diseases, including kidney diseases and hypertension. Electrical stimulation of vagus neurons or treatment with pulsed ultrasound activates the cholinergic anti-inflammatory pathway (CAP) and protects mice from acute kidney injury (AKI). Direct innervation of the kidney, by afferent and efferent neurons, might have a role in modulating and responding to inflammation in various diseases, either locally or by providing feedback to regions of the central nervous system that are important in the inflammatory reflex pathway. Increased sympathetic drive to the kidney has a role in the pathogenesis of hypertension, and selective modulation of neuroimmune interactions in the kidney could potentially be more effective for lowering blood pressure and treating inflammatory kidney diseases than renal denervation. Use of optogenetic tools for selective stimulation of specific neurons has enabled the identification of neural circuits in the brain that modulate kidney function via activation of the CAP. In this Review we discuss evidence for a role of neural circuits in the control of renal inflammation as well as the therapeutic potential of targeting these circuits in the settings of AKI, kidney fibrosis and hypertension.

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“…Blood pressure (BP) is a dynamic physiological parameter, influenced by behavioral, emotional, and environmental factors, as well as intrinsic cardiovascular control. Daily variation in BP is the sum of responses to extrinsic pressor stimuli, spontaneous and regulatory fluctuations attributable to influences of the central nervous system, mechanical forces generated by respiration, and effects of humoral and local vasomotor phenomena . Regardless of the causes, arterial and cardiopulmonary reflexes act as modulators of short‐term changes in BP.…”

Section: Introductionmentioning

confidence: 99%

24‐Hour Blood Pressure Variability Assessed by Average Real Variability: A Systematic Review and Meta‐Analysis

Mena¹,

Felix²,

Melgarejo

et al. 2017

JAHA

156

115

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BackgroundAlthough 24‐hour blood pressure (BP) variability (BPV) is predictive of cardiovascular outcomes independent of absolute BP levels, it is not regularly assessed in clinical practice. One possible limitation to routine BPV assessment is the lack of standardized methods for accurately estimating 24‐hour BPV. We conducted a systematic review to assess the predictive power of reported BPV indexes to address appropriate quantification of 24‐hour BPV, including the average real variability (ARV) index.Methods and ResultsStudies chosen for review were those that presented data for 24‐hour BPV in adults from meta‐analysis, longitudinal or cross‐sectional design, and examined BPV in terms of the following issues: (1) methods used to calculate and evaluate ARV; (2) assessment of 24‐hour BPV determined using noninvasive ambulatory BP monitoring; (3) multivariate analysis adjusted for covariates, including some measure of BP; (4) association of 24‐hour BPV with subclinical organ damage; and (5) the predictive value of 24‐hour BPV on target organ damage and rate of cardiovascular events. Of the 19 assessed studies, 17 reported significant associations between high ARV and the presence and progression of subclinical organ damage, as well as the incidence of hard end points, such as cardiovascular events. In all these cases, ARV remained a significant independent predictor (P<0.05) after adjustment for BP and other clinical factors. In addition, increased ARV in systolic BP was associated with risk of all cardiovascular events (hazard ratio, 1.18; 95% confidence interval, 1.09–1.27). Only 2 cross‐sectional studies did not find that high ARV was a significant risk factor.ConclusionsCurrent evidence suggests that ARV index adds significant prognostic information to 24‐hour ambulatory BP monitoring and is a useful approach for studying the clinical value of BPV.

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The crosstalk between the kidney and the central nervous system: the role of renal nerves in blood pressure regulation

Cited by 53 publications

References 31 publications

Autonomic regulation during sleep and wakefulness: a review with implications for defining the pathophysiology of neurological disorders

Autonomic regulation during sleep and wakefulness: a review with implications for defining the pathophysiology of neurological disorders

Targeting neural reflex circuits in immunity to treat kidney disease

24‐Hour Blood Pressure Variability Assessed by Average Real Variability: A Systematic Review and Meta‐Analysis

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