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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. The ventilatory response to severe metabolic acidosis was studied by measuring arterial blood carbon dioxide tension and pH in sixty-seven patients with blood pH less than 7-10, none of whom had
hypercapnia
, pulmonary oedema, or chronic pulmonary insufficiency. The results were compared with those previously found in patients with uncomplicated
diabetic ketoacidosis
. 2. By that comparison, fifty-two of the sixty-seven patients with blood pH less than 7-10 were judged to have "appropriate hypocapnia", and fifteen had "submaximal hypocapnia". Thirteen of the latter fifteen had circulatory failture and/or acute hypoxia, and seven of nine in whom it was measured had plasma lactate greater than 9 mmol/1. 3. Hyperventilation was therefore usually well sustained in these patients with severe metabolic acidosis, except in most of those with acute tissue hypoxia. The latter may have had insufficient time to achieve maximum hyperventilation in response to their acidosis, or perhaps their submaximal
hypercapnia
presaged imminent failure of the hyperventilatory response.
...
PMID:The ventilatory response in severe metabolic acidosis. 0 84
Hypokalemia has been previously reported as a cause for respiratory impairment complicating therapy for
diabetic ketoacidosis
. A case is presented with a short interval of hypoventilation documented by
hypercapnia
. A reversal from
hypercapnia
to hypocapnia occurred when the serum potassium level became normal after potassium replacement. Causes of muscular weakness other than hypokalemia were considered unlikely on the basis of clinical and laboratory data. The present report records the occurrence of hypoventilation associated with hypokalemia in
diabetic ketoacidosis
and serves to underscore the need for adequate potassium replacement during the treatment of this disorder.
...
PMID:Hypokalemic hypoventilation complicating severe diabetic ketoacidosis. 676 71
Insulin-dependent diabetes mellitus (IDDM) can lead to ventilatory depression and decreased sensitivity to
hypercapnia
. We examined relationships between ventilation, plasma insulin, leptin, ketones, and blood glucose levels in two mouse models of IDDM: (1) streptozotocin-induced diabetes in C57BL/6J mice on a regular diet or with induced obesity from a high fat diet; and (2) spontaneous diabetes mellitus in NOD-Ltj mice. In both mouse models, IDDM resulted in depression of the hypercapnic ventilatory response (HCVR). This ventilatory depression was not associated with decreases in plasma insulin or leptin levels. There was, however, a strong association between the duration of hyperglycemia, the decline in HCVR, and increased glycosylation of the diaphragm. Hyperventilation was observed in only six of 14 C57BL/6J obese wild-type mice, despite a significant degree of
diabetic ketoacidosis
(
DKA
) in all 14 animals. In mice with
DKA
, there was a significant correlation between the increase in baseline minute ventilation (V E) and hyperleptinemia (r = 0.77, p < 0.01). In leptin-deficient C57BL/6J-Lep(ob) mice, low levels of both V E and ketones were observed. These results suggest that: (1) depression of the HCVR in IDDM is associated with hyperglycemia and glycosylation of the diaphragm; and (2) the hyperventilation of
DKA
is leptin dependent.
...
PMID:The impact of insulin-dependent diabetes on ventilatory control in the mouse. 1125 15
Acute Respiratory Failure (ARF) results in an inability to maintain gas exchange at a rate commensurate with the demands of the body and results in hypoxemia and/or
hypercarbia
, the mechanisms of which may be different. Hypoxemia commonly occurs due to Ventilation Perfusion (V/Q) mismatching, intrapulmonary shunt, diffusion defect or hypoventilation. Hypercarpnic respiratory failure may also be multifactorial but is usually due to inhibited central respiratory drive or inefficient respiratory muscle pump.
Hypercapnia
may occur in upper and lower airways obstruction, respiratory muscle fatigue and occasionally due to excess CO2 production (burns and excessive glucose administration). Issues in management centre around assessment of severity, determining the need for intervention, establishing diagnosis and etiology and institution of specific treatment. Diagnosis of respiratory failure may be made clinically and confirmed by blood gas analysis. Calculation of oxygenation indices will delineate extent of hypoxemia. When evaluating a child with respiratory failure, one should be aware that a child with prominent respiratory symptoms may have non-respiratory disease (i.e. metabolic acidosis,
DKA
) and conversely, advanced respiratory failure may be present in a child with no respiratory distress (central hypoventilation secondary to drugs, infection) careful assessment of history, complete physical examination and evaluation of lab parameters may clarify the diagnosis. Serial assessment of sensorium, respiratory symptoms, ABG and response to treatment will provide valuable clues to determine the need for intervention. Oxygen, like any drug, must be administered in a prescribed dose, only when indicated with the potential risks borne in mind. A variety of oxygen delivery devices are available; which ever device is used, the resulting FiO2 and devisable end points must be clearly determined. Hazards of oxygen therapy range from retinal damage in premature infants, damage to the alveolar capillary membrane with resultant hypoxemia) atelectasis and decreased mucociliary activity.
...
PMID:Acute respiratory failure and oxygen therapy. 1133 23
Metabolic acidosis occurs when a relative accumulation of plasma anions in excess of cations reduces plasma pH. Replacement of sodium bicarbonate to patients with sodium bicarbonate loss due to diarrhea or renal proximal tubular acidosis is useful, but there is no definite evidence that sodium bicarbonate administration to patients with acute metabolic acidosis, including
diabetic ketoacidosis
, lactic acidosis, septic shock, intraoperative metabolic acidosis, or cardiac arrest, is beneficial regarding clinical outcomes or mortality rate. Patients with advanced chronic kidney disease usually show metabolic acidosis due to increased unmeasured anions and hyperchloremia. It has been suggested that metabolic acidosis might have a negative impact on progression of kidney dysfunction and that sodium bicarbonate administration might attenuate this effect, but further evaluation is required to validate such a renoprotective strategy. Sodium bicarbonate is the predominant buffer used in dialysis fluids and patients on maintenance dialysis are subjected to a load of sodium bicarbonate during the sessions, suffering a transient metabolic alkalosis of variable severity. Side effects associated with sodium bicarbonate therapy include
hypercapnia
, hypokalemia, ionized hypocalcemia, and QTc interval prolongation. The potential impact of regular sodium bicarbonate therapy on worsening vascular calcifications in patients with chronic kidney disease has been insufficiently investigated.
...
PMID:Sodium bicarbonate therapy in patients with metabolic acidosis. 2613 94
The first of this two-part series on critical illness in pregnancy dealt with obstetric disorders. In Part II, medical conditions that commonly affect pregnant women or worsen during pregnancy are discussed. ARDS occurs more frequently in pregnancy. Strategies commonly used in nonpregnant patients, including permissive
hypercapnia
, limits for plateau pressure, and prone positioning, may not be acceptable, especially in late pregnancy. Genital tract infections unique to pregnancy include chorioamnionitis, group A streptococcal infection causing toxic shock syndrome, and polymicrobial infection with streptococci, staphylococci, and Clostridium perfringens causing necrotizing vulvitis or fasciitis. Pregnancy predisposes to VTE; D-dimer levels have low specificity in pregnancy. A ventilation-perfusion scan is preferred over CT pulmonary angiography in some situations to reduce radiation to the mother's breasts. Low-molecular-weight or unfractionated heparins form the mainstay of treatment; vitamin K antagonists, oral factor Xa inhibitors, and direct thrombin inhibitors are not recommended in pregnancy. The physiologic hyperdynamic circulation in pregnancy worsens many cardiovascular disorders. It increases risk of pulmonary edema or arrhythmias in mitral stenosis, heart failure in pulmonary hypertension or aortic stenosis, aortic dissection in Marfan syndrome, or valve thrombosis in mechanical heart valves. Common neurologic problems in pregnancy include seizures, altered mental status, visual symptoms, and strokes. Other common conditions discussed are aspiration of gastric contents, OSA, thyroid disorders,
diabetic ketoacidosis
, and cardiopulmonary arrest in pregnancy. Studies confined to pregnant women are available for only a few of these conditions. We have, therefore, reviewed pregnancy-specific adjustments in the management of these disorders.
...
PMID:Critical Illness in Pregnancy: Part II: Common Medical Conditions Complicating Pregnancy and Puerperium. 2602 Jul 27
