View clinical trials related to G6PD Deficiency.
Filter by:The proportion of malaria that is the Plasmodium vivax species is increasing in Indonesia. Reducing vivax malaria will require innovative solutions to cure both the blood and liver stages of the disease. This study will evaluate of the feasibility of implementing point-of-care glucose-6-phosphate dehydrogenase deficiency (G6PD) testing. This will be followed by high dose, short course primaquine treatment regimens for patients with vivax malaria, and combined with patient education, surveillance, and pharmacovigilance. We plan to implement the study at 6 health facilities across Indonesia using a staged before-and-after study, with a mixed method evaluation.
Significant gains have been made in reducing the overall burden of malaria worldwide, however these have been far greater for Plasmodium falciparum than P. vivax. P. vivax remains a major obstacle to malaria control and elimination efforts, largely due to its ability to form dormant liver stages (hypnozoites) that allows it to escape detection and treatment. Importantly, they are susceptible only to 8 aminoquinolines such as primaquine. However, primaquine is associated with risk of haemolysis in individuals with a genetic condition, called glucose-6-phosphate dehydrogenase (G6PD) deficiency. Additionally, the recommended 14-day prolonged treatment regimen is associated with poor treatment adherence, hence ineffective primaquine treatment. Innovative solutions to the radical cure of both the blood and liver stages of P. vivax are urgently required. The PNG National Department of Health has requested a pragmatic study of the feasibility and cost-effectiveness of implementing point-of-care G6PD testing followed by high-dose, short-course primaquine treatment regimens for patients with P. vivax malaria. This revised case management is to be combined with practicable enhancements to patient education, supervision, malariometric surveillance and pharmacovigilance. This will be a before-after longitudinal health facility-based study implemented at Napapar and Mugil health centres and Baro and Wirui clinics. A staged approach for the implementation of the revised case management strategy will be used, including patient education and counselling, community-based clinical review, with mixed methods evaluation.
The purpose of this prospective, observational study is to assess the operational feasibility of appropriate radical cure treatment for P. vivax malaria with tafenoquine or primaquine, in patients 16 year and older, after G6PD testing in Thailand. The study will be implemented in a phased manner, in the provinces of Yala and Mae Hong Son. The first phase will be at higher level health facilities (hospitals). An interim analysis will be conducted after 40 patients are enrolled in the study in order to decide whether the study could be extended to lower level HFs. If approved by the Independent Study Oversight Committee, the study will be implemented in lower level HFs (malaria clinics).Higher level HFs will continue to include patients in the study during this 2nd phase.Written informed consent / assent is required from all patients /guardians in the case of minors.
The purpose of this study is to investigate the effects of alpha-lipoic acid supplementation on redox status, physiological and biochemical parameters in diabetic individuals with G6PD deficiency, after acute exercise.
This is an observational study carried out in Brazil in patients with P. vivax malaria. The study will be carried out in the municipalities of Manaus (state of Amazonas) and Porto Velho (state of Rondônia). G6PD and TQ tests will be provided to health facilities by municipal health authorities using the common route for the provision of drugs and diagnostics. PQ and other antimalarial drugs are already available in Brazil. Designated personnel at the health facilities will be trained to perform the G6PD quantitative test procedure and the radical healing treatment algorithm by the Lead Researcher (RP) team and municipal authorities using teaching materials developed by the sponsors. The study design is based on the secondary use of data routinely collected from all malaria patients in the Epidemiological Surveillance Information System for Malaria (SIVEP-Malaria) by the Ministry of Health (MS). Data from all malaria patients are routinely collected through SIVEP forms by health professionals (HP) and entered into the SIVEP database by the municipality staff. The SIVEP form will be adapted by the MS to collect information about the G6PD test, TQ treatment and signs of hemolysis. The retrospective data from all patients will be entered into a new database by the municipality staff during the study period and the relevant data will be automatically exported weekly to the SIVEP database. The study team will only have access to unidentified data, according to the access levels that will be assigned to each member in the system. Only the municipality's team will have access to the identified patient data. In addition to the data collected on the SIVEP forms, the PR team will ask the two referral hospitals that routinely receive all admissions due to AHA to perform a regular screening of electronic hospital admission records for patients with signs of AHA (renal failure, jaundice, blood transfusion, malaria). All identified cases will be investigated using hospital records and SIVEP forms. Confirmed information about drug-induced AHA will be linked to the patient record recorded in the database. The PR team will also contribute to pharmacovigilance training. Physicians at tertiary-level health units will report side effects through the VigiMed system, from the National Health Surveillance Agency (ANVISA).Finally, the additional costs of implementing the G6PD and TQ tests will be collected along with the study at the health facilities. Since the study is based on retrospective data collection, and the adoption of TQ and G6PD testing will be done by the municipality, the G6PD testing and the treatment of patients with TQ or PQ will be carried out in accordance with the treatment policy , that is, regardless of the study. The study will be carried out in phases: - 1st phase (approximately 3 months): Training and provision of G6PD and TQ tests will initially be limited to 10 high-complexity and intermediate-complexity units (referral hospitals, hospitals, emergency care units, polyclinics). Data will be collected from patients with P. vivax treated at these health facilities. An interim analysis will be performed after collecting data from 600 patients with P. vivax ≥ 16 years, who have not been treated for vivax malaria in the past 60 days, in the study database in order to decide whether the study can be extended to less complex health units. The decision will be made by an Independent Study Oversight Committee (ISOC). If the interim results of Phase 1 are found to be unsatisfactory, ISOC may decide not to extend the study to primary care units until improvements in the educational program are implemented and/or additional support is provided to health professionals. Additional interim analyzes will be performed as appropriate. - 2nd phase (approximately 9 months) [CURRENT PHASE]: if approved by ISOC, the study will be extended to less complex health units (basic health units, family health units and other primary care services) and other high and medium complexity of health in the selected municipalities. After staff training, G6PD and TQ testing will be provided to these health facilities by municipal health authorities. During this 2nd phase, data will continue to be collected from patients with P. vivax treated by the 1st phase tertiary care units. - An additional interim analysis will be performed after data from 600 patients with P. vivax ≥16 years old, who have not been treated for P. vivax malaria in the past 60 days, from primary care units are collected in the study database ( approximately 3 months after the start of the 2nd phase). The study will continue while the interim analyzes are being carried out. Final results will be analyzed and validated by ISOC. The study is expected to take approximately 15 months.
Cerebral infarction brings heavy burden to patients and families with high morbidity, mortality, disability and recurrence rate. Anti-platelet aggregation therapy plays important role for secondary prevention of cerebral infarction. G6PD deficiency is a rare genetic disorder, patients with this disorder could suffer hemolysis after eating broad beans. Professor Zeng Jinsheng et al found that the hemolysis risk of G6PD deficiency patients was significantly increased when aspirin was applied in Guangdong Province. However, the prevalence of G6PD deficiency in northern China remains unknown, as well as the safety of antiplatelet therapy. To this end, 1000 patients with acute cerebral infarction will be continuously included in 30 second-level and above hospitals in 10 prefectures and cities of Shaanxi Province for observation and follow-up for 12 months, to explore the prevalence of G6PD deficiency in cerebral infarction patients in Shaanxi Province, and to analyze the relationship between G6PD deficiency and the clinical characteristics and prognosis of cerebral infarction. To clarify the efficacy and safety of antiplatelet therapy for G6PD patients with cerebral infarction is of great significance for guiding the individualized treatment of cerebral infarction.
A prospective clinical study to compare the clinical performance of the FINDER™ Instrument and the G6PD assay to an FDA cleared instrument/reagent combination in adult and neonate populations.
Aspirin was reported to induce hemolysis in patients with glucose-6-phosphate dehydrogenase (G6PD) deficiency on some occasions, while still widely uesd for stroke prevention. The SAST trial is designed to evaluate the safety and efficacy of aspirin in patients this enzyme disorder.The primary purpose of the trial is to evaluate the hemolytic effects of a 3-month regimen of aspirin 100mg/d versus a 3-month regimen of clopidogrel 75mg/d.
The proposed study will determine whether G6PD-deficient RBCs store differently than normal RBCs under standard blood banking conditions. The investigators plan to screen a large number of healthy male volunteers for G6PD deficiency in order to identify 10 G6PD deficient and 30 matched normal individuals using a blood sample obtained from a finger-stick. The identified individuals will then be asked to donate a unit of blood that will be stored for up to 42 days and various tests will be performed on these units during storage. At 6 weeks of storage a portion of the unit will be radioactively labeled and re-infused into the volunteer. Blood samples will be drawn before, during, and after the infusion to measure how well or poorly the red blood cells survive after transfusion.
This study is a single center, prospective, cross-over phase 1 trial. Eighteen subjects will be enrolled in the study evaluating the metabolism, pharmacokinetic behavior and tolerability of primaquine enantiomers and placebo over the course of 5 days.