Cintia Cruz

and 8 more

AIM: Chagas disease (ChD) is a neglected disease affecting approximately 7 million individuals in Latin America. Benznidazole (BZ) is the most commonly used treatment. Therefore, understanding the adverse effects of BZ is crucial for devising targeted monitoring and interventions to enhance patient management. METHODS: A retrospective cohort study of patients with ChD treated with BZ to identify and characterize BZ adverse drug reactions (ADRs). RESULTS: 518 patients were enrolled: 449 children (median age: 4yrs, range 1mo-17.75yrs) and 69 adults (median age: 25yrs, range 18-59). A 75% of pediatric patients received a median dose of BZ of 6.6 mg/kg/day (IQR25–75 = 5.7-7.3) for at least 60 days. Adult patients received a median BZ dose of 5.6 mg/kg/day (IQR25–75 = 5.2-6.1) for a median duration of 31 days (IQR25–75 = 30-60). Overall, 152/518 (29.34%) patients developed BZ-related ADRs, with an incidence of 116/449 (25.83%) in children and 36/69 (52.17%) in adults (OR = 0.32, CI95 = 0.19 to 0.54, p < 0.001). The study identified 240 ADRs, primarily mild to moderate, but severe ADRs occurred in 1.11% of children and 1.45% of adults. The skin was the most affected system in both groups. A 10.23% of patients abandoned treatment (53/518). Adults discontinued treatment more frequently than children (OR = 3.36 CI95 = 1.7 to 6.4, p < 0.001). CONCLUSION: Our study supports the safety of BZ for ChD in children and adults. Avoiding BZ treatment due to safety concerns does not seem to be supported by the evidence.

yanina Hiriart

and 12 more

Shiga toxin-producing Escherichia coli-associated hemolytic uremic syndrome (STEC-HUS) is considered a toxemic disorder in which early intervention with neutralizing antibodies may have therapeutic benefits. INM004, composed of F(ab’)2 fragments from equine immunoglobulins, neutralizes Stx1/Stx2, potentially preventing the onset of HUS. A single-center, randomized, Phase 1, single-blind, placebo-controlled clinical trial to evaluate INM004 safety, tolerance, and pharmacokinetics (PK) in healthy adult volunteers, was conducted; In Stage I, eight subjects were divided in two cohorts (n=4) to receive a single INM004 dose of 2 or 4 mg.kg-1, or placebo (INM004:placebo rate 3:1). In Stage II six subjects received either three INM004 doses of 4 mg.kg-1 repeated every 24 h, or placebo (INM004:placebo rate of 5:1). Hospital discharged was 24 hours after the last infusion. INM004 was quantified by ELISA in serum samples obtained at predefined times. Safety and tolerability were assessed in both Stages by monitoring adverse events (AEs), laboratory test values, and vital signs. Eight subjects (57.1%) experienced treatment-emergent AEs (TEAEs), that resolved within 24 hours without requiring changes in treatment or additional intervention. No serious AEs were reported. Most TEAEs were of mild or moderate intensity, and four were possibly drug-related. Peak concentrations (Cmax) of INM004 were 45.1 µg.mL-1 and 77.7 µg.mL-1 for different doses, within two hours after infusion. The serum concentration declined in a biphasic manner (t1/2 range 30.7-52.9 hours). Systemic exposures showed accumulation in the repeated dose regimen (Cmax Day1 85.7 vs.149 µg.mL-1 Day3). These results supporting progression into the phase 2 trial in children with HUS

Natalie Zitoun

and 3 more

Introduction: Prazosin is an antihypertensive medication which can be used to help with post-traumatic stress disorder (PTSD) symptoms. Little data is currently available on its safety in pregnancy. Objective: To assess the fetal and pregnancy safety associated with Prazosin exposures in early Pregnancy. Methods: Subjects were 11 patients who took Prazosin during pregnancy and were counselled at the FRAME clinic in London Health Sciences Centre (Ontario, Canada) between January 1, 2000 to December 31, 2021. Data on their other exposures and pregnancy outcomes were collected from medical records and through telephone questionnaires. Results: It was found that 6 /11 (54.5%) subjects did not report any adverse outcomes and were uneventful pregnancies. There were 2 miscarriages. Birthweights were within the normal range for the remaining 9 pregnancies. Adverse events reported were consistent with background population expectation, including: 1 postpartum hemorrhage, 1 case of preeclampsia, 1 preterm birth, 2 NICU admissions, and 2 caesarean sections. Discussion / Conclusion: For these 11 subjects, pregnancy outcomes after exposure to Prazosin were consistent with typical outcomes from unexposed pregnancies. More data are needed to conclude that Prazosin is safe for use in pregnant subjects. However, the lack of adverse effects above baseline is reassuring to future patients who may be unintentionally exposed to Prazosin while pregnant. Therefore, this study contributes valuable data toward monitoring safety of Prazosin in Pregnancy.

Fernanda Lascano

and 2 more

Alejandro Teper

and 8 more

Background: Benefits of early Cystic Fibrosis (CF) detection using newborn screening (NBS) lead to widespread use in NBS programs. Since 2002, a two-stage immunoreactive trypsinogen (IRT/IRT) screening strategy has been used as CFNBS method in all public maternities in the City of Buenos Aires, Argentina. However, novel screening strategies may be more efficient. The aim of the study is to prospectively compare two CFNBS strategies, IRT/IRT and IRT/PAP (pancreatitis-associated protein). Methods: A two-year prospective study was performed. IRT was measured in dried blood samples collected 48–72 hours after birth. When IRT value was abnormal, PAP was determined, and a second visit was scheduled to obtain another sample for IRT before 25 days of life. Newborns with a positive CFNBS were referred for confirmatory sweat test. Results: There were 69,827 births in the City of Buenos Aires during the period studied; 918 (1.31%) had an abnormal IRT. A total of 207 children (22.5%) failed to return for the second IRT, but only two PAP (0.2%) were not performed. IRT/IRT was more likely to lead to a referral for sweat testing than IRT/PAP (OR 2.3 [95% CI 1.8;2.9], p<0.001). Sensitivity, specificity, positive predictive value, and negative predictive value were: 80% and 100%, 86.5% and 82.6%, 4.04% and 4.2%, 99.84% and 100% for IRT/IRT and IRT/PAP strategies, respectively. Conclusion: The IRT/PAP strategy is more sensitive than IRT/IRT; it avoids a second appointment and the need of unnecessary sweat testing, and decreases loss to follow up in our population.