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Acute Kidney Injury I: Introduction01:22

Acute Kidney Injury I: Introduction

Introduction:Acute Kidney Injury (AKI) describes a swift decrease in kidney function occurring over hours to days, characterized by the kidneys' failure to remove waste products from the bloodstream. This leads to dangerous complications like metabolic acidosis, fluid overload, and electrolyte imbalances, such as hyperkalemia, which can cause life-threatening arrhythmias. AKI is common in both hospital and outpatient settings, often triggered by dehydration, sepsis, or exposure to nephrotoxic...
Acute Kidney Injury III: Clinical Manifestations01:29

Acute Kidney Injury III: Clinical Manifestations

Acute Kidney Injury (AKI) progresses through distinct clinical phases: the oliguric, diuretic, and recovery phases, each marked by unique manifestations and challenges.Oliguric Phase:The oliguric phase is the initial stage of AKI, typically lasting 10 to 14 days. This phase is marked by a significant reduction in urine output, usually less than 400 mL per day, indicating decreased kidney function. Fluid retention is a prominent feature, leading to symptoms such as edema, hypertension, and...
Acute Kidney Injury IV: Diagnostic Studies and Prevention01:30

Acute Kidney Injury IV: Diagnostic Studies and Prevention

Accurate diagnosis and effective prevention are critical in managing Acute Kidney Injury (AKI), which is linked to high mortality rates ranging from 10% to 80%. Timely recognition of at-risk patients and careful monitoring can significantly reduce the likelihood of kidney damage.Diagnostic Assessments:The diagnostic process starts with a comprehensive medical history to identify prerenal, intrarenal, and postrenal causes.Prerenal causes, such as dehydration, hypotension, or blood loss, should...
Acute Kidney Injury V: Interprofessional Care01:20

Acute Kidney Injury V: Interprofessional Care

Acute Kidney Injury (AKI) requires a collaborative healthcare approach to restore renal function and prevent complications. Essential management strategies involve monitoring fluid and electrolyte balance, adjusting medications, initiating dialysis when necessary, and providing nutritional support.Fluid and Electrolyte ManagementFluid Monitoring: Regularly monitoring body weight, central venous pressure, and urine output helps detect fluid imbalances early. Patient intake and output are...
Acute Kidney Injury II: Pathophysiology01:29

Acute Kidney Injury II: Pathophysiology

Acute kidney injury (AKI) causes are categorized into three primary categories based on the location of the injury: prerenal, intrarenal (or intrinsic), and postrenal causes. This classification guides clinical management and illustrates how different pathways can impair kidney function.Etiology and Pathophysiology of Acute Kidney Injury1. Prerenal causesEtiology: Prerenal Acute Kidney Injury, the most common type, occurs when reduced blood flow to the kidneys decreases filtration capacity...
Drug Dosing in Renal Diseases: Measurement of Serum Creatinine Concentration and Clearance01:25

Drug Dosing in Renal Diseases: Measurement of Serum Creatinine Concentration and Clearance

In healthy individuals, serum creatinine levels remain stable due to a balance between its constant production—primarily from muscle metabolism—and renal excretion. Creatinine is freely filtered by the glomeruli, making it a valuable marker for estimating renal function. When the glomerular filtration rate (GFR) decreases, the kidneys can only eliminate less creatinine, causing serum levels to rise.Serum creatinine concentration is widely used to estimate creatinine clearance (Clcr), a...

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Related Experiment Video

Updated: Jul 4, 2026

Ischemia-reperfusion Model of Acute Kidney Injury and Post Injury Fibrosis in Mice
09:09

Ischemia-reperfusion Model of Acute Kidney Injury and Post Injury Fibrosis in Mice

Published on: August 9, 2013

Exercise-Induced Rhabdomyolysis With Markedly Elevated Creatine Kinase and Preserved Renal Function.

Navuddh Oam1, Sophareine Samphon1, Pisey Say1

  • 1Medical Department, Vissar Medical and Nursing Center, Phnom Penh, Cambodia.

Case Reports in Nephrology
|July 3, 2026
PubMed
Summary
This summary is machine-generated.

Severe exercise-induced rhabdomyolysis can occur in novice athletes. High creatine kinase levels do not always predict acute kidney injury, emphasizing context-based assessment after fluid resuscitation.

Keywords:
acute kidney injurycreatine kinaseexercise-induced rhabdomyolysispreserved renal functionrhabdomyolysis

More Related Videos

A Large Animal Model for Acute Kidney Injury by Temporary Bilateral Renal Artery Occlusion
09:02

A Large Animal Model for Acute Kidney Injury by Temporary Bilateral Renal Artery Occlusion

Published on: February 2, 2021

Related Experiment Videos

Last Updated: Jul 4, 2026

Ischemia-reperfusion Model of Acute Kidney Injury and Post Injury Fibrosis in Mice
09:09

Ischemia-reperfusion Model of Acute Kidney Injury and Post Injury Fibrosis in Mice

Published on: August 9, 2013

A Large Animal Model for Acute Kidney Injury by Temporary Bilateral Renal Artery Occlusion
09:02

A Large Animal Model for Acute Kidney Injury by Temporary Bilateral Renal Artery Occlusion

Published on: February 2, 2021

Area of Science:

  • Sports Medicine
  • Nephrology
  • Exercise Physiology

Background:

  • Exercise-induced rhabdomyolysis is skeletal muscle injury from strenuous exertion.
  • Acute kidney injury is a potential complication, but creatine kinase (CK) levels alone are unreliable predictors.

Purpose of the Study:

  • To present a case of severe exertional rhabdomyolysis in a novice athlete.
  • To highlight the importance of interpreting creatine kinase levels and creatinine in clinical context.

Main Methods:

  • Case report of a 24-year-old male novice athlete.
  • Monitoring of clinical presentation, laboratory values (creatine kinase, creatinine, AST, ALT), and urinalysis.
  • Treatment with isotonic intravenous fluids.

Main Results:

  • Patient presented with dark urine and extremely high creatine kinase (79,038 U/L) after high-intensity exercise.
  • Initial creatinine was mildly elevated (1.3 mg/dL) with preserved estimated glomerular filtration rate (eGFR).
  • Renal function normalized rapidly with fluid resuscitation; creatine kinase and aminotransferases significantly improved without acute kidney injury.

Conclusions:

  • The case demonstrates severe exertional rhabdomyolysis with pigmenturia but preserved renal function.
  • Emphasizes avoiding creatine kinase-centric risk assessment for acute kidney injury.
  • Highlights the need for contextual interpretation of creatinine levels, especially following fluid resuscitation.