Active clinical trials for "Acidosis"

Investigating lactate metabolism in critically ill patients whom are hypoperfused by preforming metabolomics via liquid chromatography-mass spectrometry.

The goal of this National Registry is to is to collect information from patients with rare kidney diseases, so that it that can be used for research. The purpose of this research is to: Develop Clinical Guidelines for specific rare kidney diseases. These are written recommendations on how to diagnose and treat a medical condition. Audit treatments and outcomes. An audit makes checks to see if what should be done is being done and asks if it could be done better. Further the development of future treatments. Participants will be invited to participate on clinical trials and other studies. The registry has the capacity to feedback relevant information to patients and in conjunction with Patient Knows Best (Home - Patients Know Best), allows patients to provide information themselves, including their own reported quality of life and outcome measures.

The JUMP (Journey to Understand MMA and PA) Study is being conducted by HemoShear Therapeutics and AllStripes, a rare disease online research platform. JUMP is designed to accelerate understanding of the natural course of methylmalonic acidemia (MMA) and propionic acidemia (PA) disease and treatment for families, researchers, clinicians and industry. The study will collect and provide patient medical record information from multiple institutions for families to access in one place at no cost. AllStripes will remove identifying information like name and address from these medical records and aggregate this data for the HemoShear team to better understand the medical experience and progression of MMA and PA over time. In addition, academic researchers, healthcare practitioners and patient advocacy groups can apply to use the collective patient community data to answer specific research questions at no cost. HemoShear is collecting natural history data on MMA and PA because the company needs insight into the real-world experience of many patients to better understand the disease and be able to scientifically demonstrate whether the potential new treatment they are developing is effective in improving outcomes. This natural history study will include retrospective and prospective components. The retrospective component will consist of data abstracted from primarily electronic health records (eHR) and some paper records. The prospective component will include ongoing collection of medical records from enrolled participants, and participants may opt in to complete health-related questionnaires and an optional genetic testing sub-study. After signing informed consent, participants or their legal guardians will grant permission to AllStripes to collect their health records for data abstraction. Participants may opt into an optional no cost genetic testing sub-study. The JUMP (Journey to Understand MMA and PA) sub-study will help assess whether the genetic variant of the affected person may relate to disease severity and treatment response. Getting genetic testing will enable participants to understand the genetic mutation that causes their type of methylmalonic acidemia (MMA) or propionic acidemia (PA). Knowing the genetic mutations (whether from the MMUT, MMAA or MMAB gene or PCCA or PCCB) can help the impacted person, their caregivers and healthcare professionals understand the potential course of disease and select approaches to better manage the disease. The additional information will enable HemoShear and AllStripes to understand whether different genetic variants impact the disease journey and outcomes. A separate informed consent will be obtained for participating in the sub-study.

Objectives: Intravenous (IV) fluid administration is a fundamental component of diabetic ketoacidosis (DKA) treatment. Normal saline (NS), the most common IV fluid used in DKA management, contains more chloride than human blood. Excessive amounts of chloride have been shown to cause a detrimental metabolic acidosis. Other IV fluids have more physiologic chloride levels, such as lactated ringers (LR). This study will compare the rates of hyperchloremic metabolic acidosis in children treated with NS to those treated with LR to determine the effect on overall length of acidosis and length of stay in the hospital or intensive care unit. Design: Single-center, double blinded, randomized controlled trial. Subjects: Children aged 0 to 18 years who present with diabetic ketoacidosis and require pediatric intensive care unit admission. Patients with evidence of shock, multi-organ failure or clinically significant cerebral edema will be excluded. The projected study population will be 104 patients, 52 in each arm. Interventions: Patients will be enrolled within 1 hour of presentation to the emergency room or pediatric intensive care unit if transferred directly from another facility. They will be randomized to receive intravenous fluids containing 0.9% saline or lactated ringers. All patients will be treated using the institutional DKA protocol with the content of the intravenous fluids being the only difference in treatment between arms. Study intervention lasts until the end of the acute management of DKA. Planned measurements and study outcomes: The primary study outcome will be duration of metabolic acidosis. Resolution of metabolic acidosis will be defined in three ways: 1. Normalization of the ketosis; 2. Normalization of the serum pH; 3. Normalization of the serum bicarbonate level. Secondary outcomes will include length of stay in the pediatric intensive care unit and length of stay in the hospital. All outcomes will be correlated with the overall chloride load given via intravenous fluids during DKA management. Regression modelling will control for any baseline differences between the groups in regards to severity of DKA, and if newly diagnosed or poorly controlled diabetes mellitus.

The objective of this study is to obtain short- and long-term clinical safety data in pediatric and adult patients with PA and MMA treated with Carbaglu, including pregnancy and fetal outcomes. This is an observational/non-interventional study. Patients will be treated per the prescribing information and routine medical practice. Only available data will be collected as part of the study.

This is a phase 3, prospective, multicenter, randomized, double-blinded, placebo-controlled withdrawal study comparing the efficacy of ADV7103 versus placebo in preventing the development of metabolic acidosis defined by serum bicarbonate levels in pediatric (6 months to < 18 years of age) and adult (18 to 65 years of age) subjects with primary Distal Renal Tubular Acidosis (dRTA).

The EuroSIDA study is a prospective observational cohort study of 23,000+ patients followed in 100+ clinics in 35 European countries, Israel and Argentina. The study is the largest pan-European cohort study and few studies of a comparable design are available on a global scale. The EuroSIDA study is an ongoing collaboration and patients have been enrolled into the study through 11 cohorts since 1994. The main objective of the study remains the same as in 1994: to prospectively study, clinical, therapeutic, demographic, virological and laboratory data from HIV-1 positive persons across Europe in order to determine their long-term virological, immunological and clinical outcomes. Historically, EuroSIDA has been crucial in reporting key changes in the HIV epidemic, such as the dramatic changes in morbidity and mortality when combination anti-retroviral therapy (cART) was first introduced. As new anti-HCV treatment is introduced to HIV/HCV co-infected patients, it is important for EuroSIDA to remain in the forefront of investigating the treatment benefits and adverse effects. All study documents, study status, newsletters, scientific publications and presentations are available online and are updated continuously at project website. In general terms, the objective of the EuroSIDA study is to continue a long-term, prospective collection of clinical, laboratory and therapeutic data as well as plasma on a large cohort of consecutive HIV infected patients from across Europe in order to (1) assess the factors associated with the clinical, immunological and virological course of HIV infection and HIV-related co-infections and co-morbidities, and (2) continue to provide and develop a surveillance system to describe temporal changes and regional differences in the clinical course of HIV and HIV-related co-infections and co-morbidities in Europe.

Benign hypertrophy of the prostate (BPH) is a disease seen in 20% of men over the age of 50 and in 40% of those over the age of 70. The gold standard in the treatment of BPH is transurethral resection of the prostate using high-frequency diathermy. Today, this process is done with the bipolar technique, in which isotonic saline (isotonic sodium chloride %0.9) is used as the irrigation fluid. This irrigation fluid, which is used after long operation and deep tissue resection, can enter the systemic circulation through the opened venous sinuses. It has been shown in clinical studies that postoperative acute hyperchloremia (serum Cl level > 110 mmol/L) develops after the use of intravenous normal saline solution in large amounts in the perioperative period. Our aim is to detect hyperchloremia and associated metabolic acidosis without anion gap in the follow-up of these patients. Our primary hypothesis in this study is that hyperchloremic metabolic acidosis will develop due to the high amount of normal saline used in TUR-P. .

Methylmalonic acidemia (MMA), one of the most common inborn errors of organic acid metabolism, is heterogeneous in etiology and clinical manifestations. Affected patients with cblA, cblB and mut classes of MMA are medically fragile and can suffer from complications such as metabolic stroke or infarction of the basal ganglia, pancreatitis, end stage renal failure, growth impairment, osteoporosis, and developmental delay. The frequency of these complications and their precipitants remain undefined. Furthermore, current treatment protocol outcomes have continued to demonstrate substantial morbidity and mortality in the patient population. Increasingly, solid organ transplantation (liver, and/or kidney) has been used to treat patients. Disordered transport and intracellular metabolism of vitamin B12 produces a distinct group of disorders that feature methylmalonic acidemia as well as (hyper)homocysteinemia. These conditions are named after the corresponding cellular complementation class (cblC, cblD, cblF, cblJ and cblX) and are also heterogenous, clinically and biochemically. The genetic disorders underlying cblE and cblG feature an isolated impairment of the activity of methionine synthase, a critical enzyme involved in the conversion of homocysteine to methionine and these disorders feature (hyper)homocysteinemia. Lastly, a group of patients can have increased methylmalonic acid and/or homocysteine in the blood or urine caused by variant(s)in recently identified (ACSF3) and unknown genes. In this protocol, we will clinically evaluate patients with methylmalonic acidemia and cobalamin metabolic defects. Routine inpatient admissions will last up to 4-5 days and involve urine collection, blood drawing, ophthalmological examination, radiological procedures, MRI/MRS, skin biopsies in some, and developmental testing. In a subset of patients who have or will receive renal, hepato- or hepato-renal transplants or have an unusual variant or clinical course and have MMA, a lumbar puncture to examine CSF metabolites will be performed. In this small group of patients, CSF metabolite monitoring may be used to adjust therapy. The study objectives will be to further delineate the spectrum of phenotypes and characterize the natural history of these enzymopathies, query for genotype/enzymatic/phenotype correlations, search for new genetic causes of methylmalonic acidemia and/or homocysteinemia, identify new disease biomarkers and define clinical outcome parameters for future clinical trials. The population will consist of participants previously evaluated at NIH, physician referrals, and families directed to the study from clinicaltrials.gov as well as the Organic Acidemia Association, Homocystinuria Network America and other national and international support groups. Most participants will be evaluated only at the NIH Clinical Center. However, if the NIH team decides that a patient under the age of 2 years is a candidate subject for this research protocol, that patient may enroll at the Children s National Medical Center (CNMC) site, pending approval by Dr Chapman, the Principal Investigator of the CNMC location Individuals may also enroll in the tissue collection only part of the study at the UPMC Children s Hospital of Pittsburgh or share medical history and clinical data via telemedicine visits remotely. Outcome measures will largely be descriptive and encompass correlations between clinical, biochemical and molecular parameters.

Background: People s bodies need to break down food into the chemicals. These chemicals are used for energy and growth. Some people cannot process all chemicals very well. Too much of some chemicals can cause diseases. One of these diseases is called propionic acidemia (PA). People with PA can have problems with growth, learning heart, abdomen, and other organs. Researchers want to better understand how these problems happen. Objective: To learn more about propionic acidemia and the genes that might contribute to it. Eligibility: People at least 2 years old with PA who can travel to the clinic Some unaffected family members Design: Participants will have a 3 to 5-day hospital visit every year or every few years. Family members may have just 1 visit. During the family member visit, they may have: Medical history Physical exam Samples of blood and urine Questions about diet and a food diary Doctors and nurses may do additional studies: Samples of saliva, skin and stool Fluid from a gastronomy tube, if participants have one Dental and eye evaluations A kidney test - a small amount of dye will be injected and blood will be collected. Consultations with specialists A test of calories needed at rest. A clear plastic tent is placed over the participant to measure breathing. Stable isotope study. Participants will take a nonradioactive substance then blow into a bag. Photos taken of the face and body with underwear on Ultrasound of the abdomen Heart tests Hand x-ray Brain scan Participants may have other tests if study doctors recommend them. They will get the results of standard medical tests and genetic tests.