Steve Holt scite author profile

Rhabdomyolysis is a major cause of acute renal failure, and recent experimental data have provided a better understanding of the pathophysiology of the renal dysfunction. Renal failure is due to renal vasoconstriction, tubular damage caused by oxidant injury, and possibly tubular obstruction. Recent studies have provided greater insight into the rationale behind current therapy and potential treatment strategies. This review thus aims to summarise current understanding of the causes, pathogenesis and treatment of renal failure caused by rhabdomyolysis.

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Establishing Core Outcome Domains in Hemodialysis: Report of the Standardized Outcomes in Nephrology–Hemodialysis (SONG-HD) Consensus Workshop

Tong¹,

Manns²,

Hemmelgarn³

et al. 2017

American Journal of Kidney Diseases

169

150

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Evidence-informed decision-making in clinical care and policy in nephrology is undermined by trials that selectively report a large number of heterogeneous outcomes, many of which are not patient-centered. The Standardized Outcomes in Nephrology−Hemodialysis (SONG-HD) Initiative convened an international consensus workshop on November 7, 2015, to discuss the identification and implementation of a potential core outcome set for all trials in hemodialysis. The purpose of this article is to report qualitative analyses of the workshop discussions, describing the key aspects to consider when establishing core outcomes in trials involving patients on hemodialysis. Key stakeholders including eight patients/caregivers and 47 health professionals (nephrologists, policy makers, industry, researchers) attended the workshop. Attendees suggested that identifying core outcomes required equitable stakeholder engagement to ensure relevance across patient populations; flexibility to consider evolving priorities over time; deconstruction of language and meaning for conceptual consistency and clarity; understanding of potential overlap and associations between outcomes; and an assessment of applicability to the range of interventions in hemodialysis. For implementation, they proposed that core outcomes must have simple, inexpensive and validated outcome measures that could be used in clinical care (quality ndicators) and trials (including pragmatic trials), and endorsement by regulatory agencies. Integrating these recommendations may foster acceptance and optimize the uptake and translation of core outcomes in hemodialysis, leading to more informative research, for better treatment, and improved patient outcomes.

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Pathogenesis of Renal Failure in Rhabdomyolysis: The Role of Myoglobin

Holt

Moore²

2000

Nephron Exp Nephrol

163

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Rhabdomyolysis causes renal dysfunction associated with renal vasoconstriction, tubular toxicity and luminal obstruction. There is now accumulating evidence that renal injury, caused by lipid peroxidation, is important in the pathogenesis of renal failure. The proposed central role of free iron in this process is examined. Current data have shown that the heme center of myoglobin can initiate lipid peroxidation and renal injury without invoking release of free iron, and this process is due to redox cycling of the heme group from ferrous to ferric and to ferryl oxidation states. Alkaline conditions prevent myoglobin-induced lipid peroxidation by stabilizing the reactive ferryl myoglobin complex. This review explores the evidence for each of these mechanisms.

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Increased lipid peroxidation in patients with rhabdomyolysis

et al. 1999

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N -acetylcysteine prevents development of the hyperdynamic circulation in the portal hypertensive rat

Fernando

Marley

Holt

et al. 1998

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Partial portal vein ligation (PPVL) leads to the development of a hyperdynamic circulation. It is associated with elevated levels of tumor necrosis factor (TNF-␣) and nitric oxide (NO) production, both of which can result in oxidant injury. In this study, we have investigated whether PPVL is associated with the development of oxidative stress, by measuring urinary F 2 -isoprostanes. In addition, we have examined whether N-acetylcysteine (NAC) can ameliorate oxidant injury and prevent the development of the hyperdynamic circulation. Urinary excretion of F 2 -isoprostanes increased sixfold following PPVL together with a significant increase in plasma nitrite and nitrate. Treatment with NAC inhibited the formation of F 2 -isoprostanes as well as the increase in plasma nitrite and nitrate. Hemodynamic studies in anesthetized rats showed that following PPVL, cardiac output and portal pressure increased, and systemic vascular resistance decreased, consistent with the development of a hyperdynamic circulation. These changes were prevented by chronic administration of NAC. We conclude that NAC prevents the development of the hyperdynamic circulation and that the formation of reactive oxygen species may be important in the pathogenesis of these hemodynamic changes. (HEPATOLOGY 1998;28:689-694.)

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Steve Holt

Pathogenesis and treatment of renal dysfunction in rhabdomyolysis

Establishing Core Outcome Domains in Hemodialysis: Report of the Standardized Outcomes in Nephrology–Hemodialysis (SONG-HD) Consensus Workshop

Pathogenesis of Renal Failure in Rhabdomyolysis: The Role of Myoglobin

Increased lipid peroxidation in patients with rhabdomyolysis

N -acetylcysteine prevents development of the hyperdynamic circulation in the portal hypertensive rat

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