View clinical trials related to Acidosis.
Filter by:Purpose: This study investigates the effects of dietary zeolite + dolomite on performance, exercise-induced acidosis, oxidative stress, inflammation and intestinal barrier dysfunction in trained people. Hypotheses (H1): Zeolite + dolomite increase performance in an ergometer step test Zeolite + dolomite reduce exercise-induced acidosis Zeolite + dolomite reduce oxidative stress Zeolite + dolomite reduce inflammation Zeolite + dolomite improve intestinal barrier dysfunction
Expanded access to DCA as continued treatment for congenital lactic acidosis.
This study will compare acid-base changes during hemodialysis treatments with a standard dialysis bath versus a lower bicarbonate dialysis bath, and aims to define the factors that limit equilibration of the bicarbonate concentration in a patient's blood with that in the dialysate.
Hypothesis: STAN monitoring will reduce the number of interventions because of suspected fetal asphyxia and reduce the number of newborns with metabolic acidosis. Primary endpoint: 1) Frequency of metabolic acidosis in the two groups, defined by pH in umbilical cord artery < 7.05 and standard base excess <-10. Secondary endpoints: 1. Number of intervention (VE and caesarean section) in the two groups 2. Number of pH measurements in the two groups 3. Number of neonates admitted to the neonatal department because of suspected asphyxia in the two groups The aim of fetal surveillance is to identify those fetuses at risk for developing damage in newborn to term or long term damage caused by lack of oxygen during birth process. Approximately 1/10 of all cases of paralysis due to brain damage (cerebral palsy) is believed to be caused by lack of oxygen during birth. These can be avoided if the investigators intervene actively in the birth before damage occurs. CardioTocoGraphy (CTG = detection of fetal heart rate pattern and maternal uterine contractions via electrodes on the maternal abdomen and fetal scalp) is a widely used method of fetal surveillance. However, it can be difficult to interpret a CTG, and uncertainty in CTG interpretation may therefore lead to increase in the number of deliveries with vacuum suction and caesarean section. Interpretation of CTG can be improved by analyzing the acidity of a blood sample taken from the skin of the fetal scalp. Such a scalp pH analysis shows indirectly the fetus gets enough oxygen. Scalp pH measurement requires expertise and requires repeated measurements if the abnormal heart rate pattern persists. This method is the normal routine at the maternity ward at Hvidovre Hospital / Roskilde County Hospital. The problem seems to be partially alleviated by using a newly developed method for fetal surveillance called STAN (ST analysis). By STAN continuously recorded both CTG and fetal ECG (electrocardiography = recording of the electrical heart activity). Simultaneously analyzes a portion of the fetal ECG, namely ST-part because hypoxia leads to changes in it. The technique is easy to use, since it only requires one electrode on the fetal scalp that is placed in the same way as in ordinary CTG registration.
Purpose 1. To compare the performance of the two currently employed urinary acidifications tests in stone formers, the furosemide/fludrocortisone and ammonium chloride loading test. 2. To study the impact of polymorphisms in the genes ATP6V1B1, ATP6V0A4 and SLC4A1 on urinary acidification in stone formers.
The study aimed to examine the effects of an alkalinisation of a NaCl (sodium chloride, salt)-rich diet on acid base status, bone metabolism, protein turnover and other influenced physiological systems. Due to increased urinary calcium excretion and bone resorption a high NaCl-intake is considered as a risk factor for osteoporosis. On the contrary an alkaline diet is known to have a beneficial influence on bone metabolism. Therefore the investigators hypothesized that an alkaline diet can reduce NaCl-induced bone resorption. 8 healthy male volunteers took part in a stationary study carried out in the metabolic ward of the German Aerospace Center. The study consisted of 2 campaigns, each lasting 16 days. Both campaigns were divided into 5 days of adaptation, 10 days of intervention and 1.5 days of stationary recovery. During the intervention period the volunteers diet was NaCl-rich (7.7 mmol Na/kg body weight/day) and supplemented in one campaign by 90 mmol potassium bicarbonate (KHCO3) in a randomized cross-over design. The other campaign served as control. Bone metabolism was studied by bone formation markers in the fasting morning blood and 24h-urinary bone resorption markers. Acid base status was assessed by blood gas analyses in the fasted and the postprandial state as well as urinary markers. Protein turnover was studied with stable isotopes. Further physiological systems like energy metabolism and the cardiovascular system are also under investigation.
The investigators want to evaluate whether an original action based on the administration of alkali (mainly sodium bicarbonate) is able to significantly modify renal death and to reduce mortality due to cardiovascular events. Methods: This is a proposal of Multicentric, prospective, cohort, randomized, open-label and controlled study. The investigators will Randomize 728 patients with Chronic Kidney Disease(CKD) stage 3b (CKD-3b) and CKD stage 4: 364 of these patients will be included in the study group called Bicarbonate Group (Bic), in which levels of bicarbonate should be kept > 24 mEq/l; the other 364 patients will included in the Usual Treatment Group (no-Bic). Results: The aim of the Research Protocol is to demonstrate if that the optimal correction of uremic acidosis (with administration of sodium bicarbonate or of any other alkalinizing agent, e.g. sodium citrate) reduces renal and cardiovascular mortality. Conclusions. In conclusion the Work Group of the Conservative Therapy for Chronic Renal Insufficiency proposes this cohort, randomized, controlled, prospective, multicentric study to evaluate the effects of correction of acidosis on the progression of the kidney disease considered as renal death in End-Stage Renal Disease (ESRD) patients.
The overall objective of this drug trial is to determine whether the treatment of acute hyperammonemia with N-carbamyl-L-glutamate (NCG, Carglumic acid) in propionic acidemia (PA), methylmalonic acidemia (MMA), late-onset CPS1 deficiency (CPSD) and late-onset Ornithine transcarbamylase deficiency (OTCD) accelerates the resolution of hyperammonemia efficiently and safely. The primary goal is to determine if the study drug (NCG) efficiently reduces ammonia levels following a hyperammonemia episode(s). Secondly, the investigators want to know if treatment with this study drug (NCG) efficiently improves neurologic function, reduces plasma glutamine levels and lessens the duration of hospitalization after each episode of hyperammonemia.
Background: Very few drugs exist that treat hyperammonemia, specifically PA and MMA. Diet restrictions and alternate pathway agents are the current primary treatments, but they frequently fail to prohibit brain damage. Orthotopic liver transplantation cures the hyperammonemia of urea cycle disorders, but organ availability is limited and the procedure is highly invasive and requires life-long immunosuppression. A drug that could repair or stimulate a dysfunctional urea cycle such as this would have several advantages over current therapy. A drug called N-carbamyl-L-glutamate, Carglumic acid (NCG or Carbaglu)has recently been found to be virtually curative of another urea cycle defect called NAGS deficiency. In this disorder, treatment with NCG alone normalizes ureagenesis, blood ammonia and glutamine levels, allows normal protein tolerance and restores health. Knowledge from this study is being applied to acquired hyperammonemia, specifically in patients with propionic PA and MMA, to try and improve neurodevelopmental outcomes by improving the hyperammonemia. Aims: The overall objective of this project is to determine whether treatment of acute hyperammonemia with Carglumic acid in propionic acidemia (PA), methylmalonic acidemia (MMA) changes the long-term outcome of disease and to determine if it is effective in restoring urine ammonia levels to normal levels.
The objective of this study is to compare the effect on mean maternal and neonatal pH, and 24-hour postoperative morbidity, following intraoperative infusion of Ringer's Lactated versus normal saline in caesarean section at Mulago Hospital. The null hypothesis is that intraoperative infusion of Ringer's Lactate in caesarean section at Mulago Hospital will not result in 30% less mean maternal and neonatal pH change than intraoperative infusion of normal saline.