glycogen and Shock--Cardiogenic

glycogen has been researched along with Shock--Cardiogenic* in 2 studies

Other Studies

2 other study(ies) available for glycogen and Shock--Cardiogenic

Article	Year
Respiratory muscle contribution to lactic acidosis in low cardiac output. The American review of respiratory disease, 1982, Volume: 126, Issue:4 The role of the respiratory muscles in the evolution of experimental low cardiac output and lactic acidosis was studied in 2 groups of dogs. One group (6 dogs) was paralyzed and artificially ventilated, and the other (6 dogs) was breathing spontaneously. Shock was induced by cardiac tamponade; cardiac output during shock amounted to 25 to 35% of control values in both groups. All the spontaneously breathing dogs died from ventilatory failure (mean time, 2 h), whereas the artificially ventilated dogs were still alive 3 h after the onset of cardiogenic shock. At any given time after the onset of shock, arterial pH was significantly lower in the spontaneously breathing dogs than in the artificially ventilated ones. This was due to a greater increase in arterial blood lactate in the spontaneously breathing dogs than in the artificially ventilated ones (9.47 +/- 2.7 versus 4.74 +/- 56 mmoles/L at 2 h, respectively). Greater glycogen depletion associated with higher muscle lactate concentrations were found in the respiratory muscles of the spontaneously breathing dogs when compared with that in the artificially ventilated ones. It is concluded that artificial ventilation in cardiogenic shock decreases substantially the severity of lactic acidosis and prolongs survival. Topics: Abdominal Muscles; Acidosis; Animals; Cardiac Output, Low; Diaphragm; Dogs; Glycogen; Intercostal Muscles; Lactates; Muscles; Respiration; Shock, Cardiogenic	1982
Skeletal muscle metabolites in patients with cardiogenic shock or severe congestive heart failure. Scandinavian journal of clinical and laboratory investigation, 1975, Volume: 35, Issue:1 Skeletal muscle metabolite concentrations were determined in 19 patients in either cardiogenic shock or severe left ventricular failure by obtaining a needle biopsy specimen of lateral thigh muscle. Evidence of anaerobic skeletal muscle metabolism was found in both patient groups with the greatest lactate accumulation and most severe high-energy phosphate depletion present in the patients in cardiogenic shock. The skeletal muscle lactate accumulation was most pronounced in the patients that died. Blood lactate values did not absolutely predict skeletal muscle lactate concentrations in those patients in whom skeletal muscle lactate concentrations were the highest. The patients in cardiogenic shock and severe left ventricular failure who survived demonstrated a reduction in skeletal muscle lactate levels and a restoration of high-energy phosphates over several days which correlated with clinical and hemodynamic improvement. Topics: Adenosine Triphosphate; Adult; Aged; Biopsy, Needle; Carbon Dioxide; Female; Glucose; Glucosephosphates; Glycogen; Heart Failure; Humans; Hydrogen-Ion Concentration; Lactates; Male; Middle Aged; Muscles; Oxygen; Partial Pressure; Phosphocreatine; Shock, Cardiogenic	1975

Article

Year

Respiratory muscle contribution to lactic acidosis in low cardiac output.

The American review of respiratory disease, 1982, Volume: 126, Issue:4

The role of the respiratory muscles in the evolution of experimental low cardiac output and lactic acidosis was studied in 2 groups of dogs. One group (6 dogs) was paralyzed and artificially ventilated, and the other (6 dogs) was breathing spontaneously. Shock was induced by cardiac tamponade; cardiac output during shock amounted to 25 to 35% of control values in both groups. All the spontaneously breathing dogs died from ventilatory failure (mean time, 2 h), whereas the artificially ventilated dogs were still alive 3 h after the onset of cardiogenic shock. At any given time after the onset of shock, arterial pH was significantly lower in the spontaneously breathing dogs than in the artificially ventilated ones. This was due to a greater increase in arterial blood lactate in the spontaneously breathing dogs than in the artificially ventilated ones (9.47 +/- 2.7 versus 4.74 +/- 56 mmoles/L at 2 h, respectively). Greater glycogen depletion associated with higher muscle lactate concentrations were found in the respiratory muscles of the spontaneously breathing dogs when compared with that in the artificially ventilated ones. It is concluded that artificial ventilation in cardiogenic shock decreases substantially the severity of lactic acidosis and prolongs survival.

Topics: Abdominal Muscles; Acidosis; Animals; Cardiac Output, Low; Diaphragm; Dogs; Glycogen; Intercostal Muscles; Lactates; Muscles; Respiration; Shock, Cardiogenic

1982

Skeletal muscle metabolites in patients with cardiogenic shock or severe congestive heart failure.

Scandinavian journal of clinical and laboratory investigation, 1975, Volume: 35, Issue:1

Skeletal muscle metabolite concentrations were determined in 19 patients in either cardiogenic shock or severe left ventricular failure by obtaining a needle biopsy specimen of lateral thigh muscle. Evidence of anaerobic skeletal muscle metabolism was found in both patient groups with the greatest lactate accumulation and most severe high-energy phosphate depletion present in the patients in cardiogenic shock. The skeletal muscle lactate accumulation was most pronounced in the patients that died. Blood lactate values did not absolutely predict skeletal muscle lactate concentrations in those patients in whom skeletal muscle lactate concentrations were the highest. The patients in cardiogenic shock and severe left ventricular failure who survived demonstrated a reduction in skeletal muscle lactate levels and a restoration of high-energy phosphates over several days which correlated with clinical and hemodynamic improvement.

Topics: Adenosine Triphosphate; Adult; Aged; Biopsy, Needle; Carbon Dioxide; Female; Glucose; Glucosephosphates; Glycogen; Heart Failure; Humans; Hydrogen-Ion Concentration; Lactates; Male; Middle Aged; Muscles; Oxygen; Partial Pressure; Phosphocreatine; Shock, Cardiogenic

1975