Search results for "Base excess"
showing 10 items of 22 documents
Die korrekte Bestimmung des Base Excess (BE, mmol/l) im Blut
1995
Deklarierung von Infusionslösungen mit Base Excess (BE) und potentiellem Base Excess (BEpot)
1995
The Interdependence of Respiratory Gas Values and pH as a Function of Base Excess in Human Blood at 37°C
1973
The accurate estimation of the transport function of human blood for respiratory gases as well as the respiratory gas exchange in human body requires detailed knowledge of the respiratory gas partial pressures and the acid-base status in the blood. Because there is an interdependence between the different respiratory gas parameters described as Bohr and Haldane effect (3,4), it is possible to obtain a general picture of the whole transport system, if these interrelations are known.
Plastic foil technique attenuates inflammation in mesenteric intravital microscopy.
2000
Abstract Background. Interpretation of intravital microscopic observations is complicated by the “inflammatory”-type response to the trauma inflicted on the tissue by the surgical preparation. The present study evaluates different experimental conditions for prolonged observations of the mesenteric microcirculation in the rat. Methods. The mesentery was exteriorized through a median laparotomy and subjected to an organ bath or a modified plastic foil technique. Hemodynamic, metabolic, respiratory, and microcirculatory data were analyzed. Results. In contrast to the plastic foil technique, which yielded stable baseline values over a 5-h observation period, venular velocity and wall shear rat…
Topiramate and Metabolic Acidosis in Infants and Toddlers
2002
Summary: Purpose: Topiramate (TPM) inhibits carbonic anhydrase, with metabolic acidosis as a possible side effect, although this has been reported in only two adult cases. We investigated the acid–base metabolism in infants and toddlers treated with TPM. Methods: Nine infants and toddlers aged 5 months to 2.3 years (median, 6 months) were treated with TPM at maximal doses of 8.2–26 mg/kg/day (median, 11 mg/kg/day). The maximal TPM dose was achieved after 8–35 days (median, 17 days). TPM was given in addition to other antiepileptic drugs (AEDs) in five cases and as a sole AED in four patients with refractory epilepsy resistant to multiple AEDs. The diagnoses were infantile spasms (n = 5), e…
Physiologische Erythrozyten-Protektionslösung (PEP)
2001
Base Excess and Lactate Concentration in Infusion Solutions and Blood Products
2002
Experiences of a poison center with metformin-associated lactic acidosis.
2004
Metformin is widely used in the treatment of type 2 diabetes, though it is recognized to be associated with the risk of lactic acidosis. A case of pronounced lactic acidosis with cardiac arrest (pH 6.60, lactate 17.5 mmol/l, base excess - 30, standard bicarbonate 2.5 mmol/l, core body temperature 27.8 degrees C) is presented in a 61-year-old woman under metformin therapy. The key laboratory abnormalities observed during the intensive care treatment including repeated hemodialysis are described. The patient showed a complete recovery with residually reduced mental capabilities. Furthermore, an explorative data analysis of our poison center database from 1995 until 2003 concerning metformin w…
The accuracy of calculated base excess in blood.
2002
Most equations used for calculation of the base excess (BE, mmol/l) in human blood are based on the fundamental equation derived by Siggaard-Andersen and called the Van Slyke equation: BE = Z x [[cHCO3-(P) - C7.4 HCO3-(P)] + beta x (pH -7.4)]. In simple approximation, where Z is a constant which depends only on total hemoglobin concentration (cHb, g/dl) in blood, three equations were tested: the ones proposed by Siggaard-Andersen (SA), the National Committee for Clinical Laboratory Standards (NCCLS) or Zander (ZA). They differ only slightly in the solubility factor for carbon dioxide (alphaCO2, mmol/l x mmHg) and in the apparent pK(pK'), but more significantly in the plasma bicarbonate conc…