Mechanisms of Lactic Acidosis PDF
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Uploaded by RestfulSunflower
Arabian Gulf University
2024
Dr. Sameh Sarray
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Summary
This presentation discusses the mechanisms of lactic acidosis, a condition arising from excessive lactic acid production exceeding clearance. It covers various types, causes, and consequences related to tissue hypoxia and metabolic disorders. The presentation details the role of the liver and kidneys in lactate metabolism and provides an overview of associated diseases and types.
Full Transcript
Mechanisms of Lactic Acidosis Dr. Sameh Sarray, PhD Department of Medical Biochemistry How lactate is produced? ❑ Hydrocarboxylic acid: 2 stereoisomers: L-lactate (predominant) and D-lactate ❑ The main sources of intracellular L-lacta...
Mechanisms of Lactic Acidosis Dr. Sameh Sarray, PhD Department of Medical Biochemistry How lactate is produced? ❑ Hydrocarboxylic acid: 2 stereoisomers: L-lactate (predominant) and D-lactate ❑ The main sources of intracellular L-lactate are glucose and alanine (by transamination reaction catalyzed by ALT). The pyruvate produced will be reduced into lactate: ❑ in anaerobic conditions catalyzed by LDH when pyruvate oxidation in citric cycle is overwhelmed What happens to the lactate? The lactate is metabolized predominantly in the liver and kidney: Liver: Lactate is converted to glucose by gluconeogenesis through Cori cycle. It uses 6 ATP molecules Kidneys: contribute to lactate removal approximately 10 to 20% of the total lactate metabolized. The kidneys dispose of lactate in three ways: excretion, gluconeogenesis, and oxidation Other tissues can use lactate as a substrate and oxidise it to CO2 and water; It is ONLY the liver and kidney have the enzymes that convert lactate to glucose Lactic Acidosis Lactic acidosis occurs when lactic acid production exceeds lactic acid clearance. Lactic acidosis is a pathological state diagnosed when: Serum concentration of lactate above 4 mmol/L (RR 0.5 – 1.5 mmol/L) and Acidemia : serum pH < 7.35 Lactic Acidosis Consequence of inborn errors of metabolism: - glucose-6-phosphatase deficiency (von Gierke disease, GSD-I) - fructose-1,6-bisphosphatase deficiency - pyruvate carboxylase deficiency - pyruvate dehydrogenase deficiency - oxidative phosphorylation deficiency - methylmalonic aciduria - MELAS syndrome (Mitochondrial, Encephalopathy, Lactic acidosis, and Stroke) is a progressive neurodegenerative disorder caused by a point mutation in mitochondrial DNA. In association with an underlying disease: Diabete mellitus, alcoholic ketoacidosis, severe iron-deficiency anemia, liver diseases, renal failure, pancreatitis, short gut syndrome, infections (malaria, cholera), malignancy (e.g., leukaemia, Lymphoma, lung cancer), thiamine deficiency, carbohydrate malabsorption syndromes….. Types of lactic acidosis ❑ Type A ❑ Type B ❑ D-lactic acidosis Type A lactic acidosis Type A lactic acidosis: common; due to: Hypoxia in tissues (tissue hypoperfusion: Inadequate supply of oxygen in tissues) E.g. Myocardial infarction, pulmonary embolism.. Dysoxia: A condition in which tissues cannot make full use of available oxygen Anemia alone is not common cause of lactic acidosis but a contributing factor only rare severe case of anemia will develop a potentially life- threatening lactic acidosis (e.g. PaO2 < 35mmHg; [Hb]
