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  2. Winters's formula - Wikipedia

    en.wikipedia.org/wiki/Winters's_formula

    Winters's formula, [1] named after R. W. Winters, [2] is a formula used to evaluate respiratory compensation when analyzing acid-base disorders in the presence of metabolic acidosis. [ 3 ] [ 4 ] It can be given as:

  3. Respiratory compensation - Wikipedia

    en.wikipedia.org/wiki/Respiratory_compensation

    The amount of respiratory compensation in metabolic acidosis can be estimated using Winters' formula. [2] Hyperventilation due to the compensation for metabolic acidosis persists for 24 to 48 hours after correction of the acidosis, and can lead to respiratory alkalosis. [3] This compensation process can occur within minutes. [4]

  4. Base excess - Wikipedia

    en.wikipedia.org/wiki/Base_excess

    metabolic acidosis, or respiratory alkalosis with renal compensation if too low (less than −2 mEq/L) Blood pH is determined by both a metabolic component, measured by base excess, and a respiratory component, measured by PaCO 2 (partial pressure of carbon dioxide). Often a disturbance in one triggers a partial compensation in the other.

  5. Metabolic acidosis - Wikipedia

    en.wikipedia.org/wiki/Metabolic_acidosis

    Metabolic acidosis is a serious electrolyte disorder characterized by an imbalance in the body's acid-base balance.Metabolic acidosis has three main root causes: increased acid production, loss of bicarbonate, and a reduced ability of the kidneys to excrete excess acids. [5]

  6. File:Symptoms of acidosis.svg - Wikipedia

    en.wikipedia.org/wiki/File:Symptoms_of_acidosis.svg

    Answers.com Medical Encyclopedia: Metabolic Acidosis: Causes and symptoms By Altha Roberts Edgren. Retrieved on April 13, 2009; Symptoms mentioned in both metabolic and respiratory acidosis from the following two references: - Wrongdiagnosis.com > Symptoms of Metabolic Acidosis Retrieved on April 13, 2009]

  7. Respiratory acidosis - Wikipedia

    en.wikipedia.org/wiki/Respiratory_acidosis

    Chronic respiratory acidosis: HCO 3 − rises 3.5 mEq/L for each 10 mm Hg rise in PaCO 2. The expected change in pH with respiratory acidosis can be estimated with the following equations: [citation needed] Acute respiratory acidosis: Change in pH = 0.08 X ((40 − PaCO 2)/10) Chronic respiratory acidosis: Change in pH = 0.03 X ((40 − PaCO 2)/10)

  8. Acid–base disorder - Wikipedia

    en.wikipedia.org/wiki/Acid–base_disorder

    Acid–base imbalance is an abnormality of the human body's normal balance of acids and bases that causes the plasma pH to deviate out of the normal range (7.35 to 7.45). In the fetus, the normal range differs based on which umbilical vessel is sampled (umbilical vein pH is normally 7.25 to 7.45; umbilical artery pH is normally 7.18 to 7.38). [1]

  9. Kussmaul breathing - Wikipedia

    en.wikipedia.org/wiki/Kussmaul_breathing

    Adolf Kussmaul referred to breathing when metabolic acidosis was sufficiently severe for the respiratory rate to be normal or reduced. [2] This definition is also followed by several other sources, [3] [4] including for instance Merriam-Webster, which defines Kussmaul breathing as "abnormally slow deep respiration characteristic of air hunger and occurring especially in acidotic states". [5]

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