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Related Concept Videos

Extracorporeal Removal of Drugs: Hemoperfusion and Hemofiltration01:25

Extracorporeal Removal of Drugs: Hemoperfusion and Hemofiltration

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Hemoperfusion and hemofiltration are critical techniques in medical treatments to eliminate accumulated drugs, metabolites, and electrolytes from the bloodstream. These methods are particularly vital in cases of accidental poisoning and drug overdose.Hemoperfusion involves passing blood through an adsorbent material to remove unwanted substances. The main adsorbents used in hemoperfusion include activated charcoal and Amberlite resins. Activated charcoal can adsorb both polar and nonpolar...
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Patients with end-stage renal disease (ESRD) or those experiencing drug overdose often require extracorporeal methods to eliminate accumulated drugs and metabolites. Hemoperfusion, hemofiltration, and dialysis are the primary techniques to rapidly remove harmful substances without disrupting the patient's fluid and electrolyte balance. For those with compromised renal function, dosage adjustments of concurrent medications may be necessary during extracorporeal drug removal.Dialysis is a process...
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Extracorporeal Removal of Drugs: Continuous Renal Replacement Therapy01:26

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Continuous Renal Replacement Therapy (CRRT) is an essential intervention for patients experiencing severe kidney dysfunction. This therapy offers a continuous mechanism for removing fluids and toxins from the bloodstream, leveraging the patient’s blood pressure to facilitate filtration through a specialized filter. This method contrasts with intermittent dialysis, providing a gentler and more consistent removal of waste products and excess fluid, which is particularly beneficial in...
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Ionization Energy03:12

Ionization Energy

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The amount of energy required to remove the most loosely bound electron from a gaseous atom in its ground state is called its first ionization energy (IE1). The first ionization energy for an element, X, is the energy required to form a cation with 1+ charge:
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Comparative Excretory Systems02:24

Comparative Excretory Systems

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Animals have evolved different strategies for excretion, the removal of waste from the body. Most waste must be dissolved in water to be excreted, so an animal’s excretory strategy directly affects its water balance.
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Le Chatelier's Principle: Changing Temperature02:19

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Consistent with the law of mass action, an equilibrium stressed by a change in concentration will shift to re-establish equilibrium without any change in the value of the equilibrium constant, K. When an equilibrium shifts in response to a temperature change, however, it is re-established with a different relative composition that exhibits a different value for the equilibrium constant.
To understand this phenomenon, consider the elementary reaction:
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Related Experiment Video

Updated: Jan 31, 2026

Generation of Hypoparathyroid Rats via Carbon-Nanoparticle-Assisted Parathyroidectomy
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Removing the problem: parathyroidectomy for calciphylaxis.

Mohamed Hassanein1, Heather Laird-Fick1, Richa Tikaria1

  • 1Department of Internal Medicine, Michigan State University College of Human Medicine, East Lansing, Michigan, USA.

BMJ Case Reports
|December 24, 2018
PubMed
Summary

Calcific uremic arteriolopathy (CUA), a rare disease in dialysis patients, can be effectively treated with parathyroidectomy. This case study highlights successful CUA treatment and discusses managing complications like hungry bone syndrome.

Area of Science:

  • Nephrology
  • Vascular Biology
  • Dermatology

Background:

  • Calcific uremic arteriolopathy (CUA), or calciphylaxis, is a rare, lethal vascular disease.
Keywords:
calcium and bonedialysisendocrine systemrenal medicineskin

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  • It primarily affects patients with end-stage renal disease, causing tissue ischemia and necrosis.
  • Characteristic skin lesions with black eschar are hallmarks of CUA.