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Diagnosing Acidosis and Alkalosis01:24

Diagnosing Acidosis and Alkalosis

Diagnosing acid-base imbalances involves systematically analyzing arterial blood samples, focusing on three key measurements: pH, bicarbonate (HCO3−) concentration, and carbon dioxide partial pressure (PCO2). This analysis follows a four-step process that helps identify the imbalance's underlying cause and nature.
First, the pH level is assessed to determine whether the blood pH is normal (7.35–7.45), low (acidosis), or high (alkalosis).
Next, the PCO2  and HCO3−  values are examined to...
Disorders of Acid-Base Balance01:29

Disorders of Acid-Base Balance

The human body maintains a precise pH range of arterial blood between 7.35 and 7.45. Deviations result in either acidosis (pH < 7.35) or alkalosis (pH > 7.45). These conditions are further classified as respiratory or metabolic disorders based on their underlying cause.
Respiratory Acidosis and Alkalosis
Respiratory acidosis occurs due to an increase in the partial pressure of carbon dioxide PCO2 in the blood. It often arises from shallow breathing or impaired gas exchange caused by...
Acids, Bases and Neutralization Reactions01:27

Acids, Bases and Neutralization Reactions

Acids and bases play several important roles in biology. The pH of a biological system can significantly impact the function of biological molecules, including enzymes, proteins, and nucleic acids. For example, enzymes have optimal pH ranges for their activity, and changes in pH can denature or alter their structure, affecting their function. Acids and bases also play a crucial role in cellular signaling and communication. The pH of the extracellular fluid around cells can influence the...
Acids, Bases and Neutralization Reactions03:26

Acids, Bases and Neutralization Reactions

An acid-base reaction is one in which a hydrogen ion, H+, is transferred from one chemical species to another. Such reactions are of central importance to numerous natural and technological processes, ranging from the chemical transformations within cells or lakes and oceans to the industrial-scale production of fertilizers, pharmaceuticals, and other substances essential to the society.
Diabetic Ketoacidosis l: Introduction01:25

Diabetic Ketoacidosis l: Introduction

DefinitionDiabetic ketoacidosis (DKA) is an acute, life-threatening complication of diabetes mellitus, characterized by a triad of hyperglycemia (blood glucose >250 mg/dL), ketonemia or ketonuria, and metabolic acidosis (arterial pH <7.30 and serum bicarbonate <18 mEq/L). It results from insulin deficiency combined with elevated levels of counterregulatory hormones—glucagon, catecholamines, cortisol, and growth hormone—leading to increased lipolysis, hepatic ketone production, and...
Inborn Errors of Metabolism01:20

Inborn Errors of Metabolism

Phenylketonuria (PKU) is a protein metabolism disorder characterized by high blood levels of the amino acid phenylalanine. This results from a mutation in the gene responsible for phenylalanine hydroxylase, an enzyme that converts phenylalanine into tyrosine. When this enzyme is deficient, phenylalanine builds up in the blood, leading to symptoms such as vomiting, rashes, seizures, growth deficiency, and severe mental retardation. An early diagnosis and a diet restricting phenylalanine intake...

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Related Experiment Video

Updated: Jun 25, 2026

Measuring Lactase Enzymatic Activity in the Teaching Lab
04:41

Measuring Lactase Enzymatic Activity in the Teaching Lab

Published on: August 6, 2018

Milk-alkali syndrome.

Boris I Medarov1

  • 1Division of Pulmonary and Critical Care Medicine, Keck School of Medicine, University of Southern California, 1200 N State St, GNH-11900, Los Angeles, CA 90033, USA. medarov@usc.edu

Mayo Clinic Proceedings
|March 3, 2009
PubMed
Summary
This summary is machine-generated.

Milk-alkali syndrome (MAS) is a serious condition caused by excessive calcium and alkali intake, leading to hypercalcemia and kidney problems. Awareness of its resurgence due to calcium supplements is crucial for prevention.

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Last Updated: Jun 25, 2026

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Area of Science:

  • Nephrology
  • Endocrinology
  • Gastroenterology

Background:

  • Milk-alkali syndrome (MAS) historically arose from peptic ulcer treatments.
  • Its incidence declined with H2 blockers and PPIs.
  • MAS has resurged due to widespread calcium carbonate use, particularly for osteoporosis.

Observation:

  • This review examines MAS incidence, pathogenesis, histology, diagnosis, and clinical course.
  • A MEDLINE search using "milk-alkali syndrome" identified relevant English articles.
  • The exact pathomechanism involves a self-reinforcing kidney cycle of hypercalcemia and alkalosis.

Findings:

  • MAS presents with hypercalcemia, renal failure, and metabolic alkalosis.
  • The syndrome's pathogenesis is not fully understood but involves kidney dysfunction.
  • Supportive treatment includes hydration and discontinuing causative agents.

Implications:

  • Physicians and the public must recognize the risks of excessive calcium carbonate intake.
  • Increased awareness can prevent MAS, especially in individuals using calcium supplements.
  • Understanding MAS pathogenesis is key to developing targeted prevention and treatment strategies.