Kenya is one of the high endemic zones for hepatitis B virus (HBV) infection. The consensuses on prevalence of the HBV genotypes and the existence of their variants have not been fully established in Kenya. Hence, there is a need to further monitor the diversity of HBV. This study aimed to extend the current molecular and epidemiological information about the geographical distribution of HBV genotypes and subgenotypes, as well as to describe the hepatitis B surface antigen (HBsAg) variants circulating in different Regional Blood Transfusion Centres of Kenya. A total of 32 HBsAg positive blood units from five different blood transfusion centers in Kenya were used in the study. The HBV DNA preS/S-gene was amplified and sequenced. Alignments of S gene were applied using reference sequence from GeneBank. Phylogenetic analysis was performed using the MEGAv4.0 software with the neighbor-joining and maximum composite likelihood methods. Twenty-one plasma samples (65.6%) were DNA positive and were successfully sequenced. Eighteen out of the twenty-one isolates (85.7%) belonged to subgenotype A1 Afro-Asian: six were from Nairobi, four from Kisumu, two from Embu, and three each from Eldoret and Mombasa. The other three strains (14.3%, 3/21) belonged to subgenotype D4 from Mombasa. The HBsAg mutations were detected in nine isolates (42.9%, 9/21). The HBV/A1 and HBV/D4 are dominant among blood donors in Kenya. This demonstrates that continuous monitoring of the HBV diversity would help reveal circulating genotypes and subgenotypes as well as mutants of clinical significance in Kenya.
1534 Background: FPs, including 5-fluorouracil and capecitabine, are widely used to treat solid tumor malignancies like gastrointestinal (GI) cancers. One-third of patients (pts) develop severe toxicities which may lead to treatment delays or hospitalization. Toxicities can be partly due to genetic variations in DPYD. Herein, we describe the implementation of an in-house DPYD test and its impact on FP dosing at a multisite cancer hospital. Methods: This is an observational study of pts starting or continuing FP-based chemotherapy who received DPYD testing as part of routine care. Buccal swabs were collected in clinic and sent to an in-house lab for genotyping using a polymerase chain reaction-based Drug Metabolizing Enzyme assay that interrogates all 5 variants with moderate-to-strong evidence according to the Clinical Pharmacogenetics Implementation Consortium (CPIC) (c.1905+1G>A, c.2846A>T, c.1679T>G, c.1236G>A and c.557A>G). Phenotype translations and dosing were based on CPIC guidelines. Test results and dose recommendations were uploaded to the electronic medical record (EMR) and emailed to the care team. In April 2022, pre- and post-test EMR alerts were built to prompt test ordering and dose modifications. The primary objective was to evaluate the proportion of DPYD variant carriers in tested pts receiving FP. Secondarily, we evaluated turnaround time and impact on FP dosing. Results: From March 2020-December 2022, 491 pts across 14 clinics received DPYD genotyping (54% male, 74% White, 20% Black, median age 53 years). GI cancers (~50% colorectal) represented 90% of the diagnoses. The median lab turnaround time was 3 (IQR 2-6) days. Pretreatment testing was ordered in 389 (79%) pts, of which 360 (93%) had results before cycle 1. Overall, 30 pts (6.1%) were heterozygous carriers (4.9% in pretreatment and 10.8% in reactive testing groups). Variants observed were c.1236G>A (n=13), c.2846A>T (n=8), c.1905+1G>A (*2A) (n=4), c.557A>G (n=4), and c.1679T>G (*13) (n=1). FP dose was modified in 27 (90%) pts (reduced in 25, avoided in 1, discontinued in 1). Of 19 carriers with pretreatment testing, 17 (90%) received an upfront dose reduction (mean reduction 42%; 3 had subsequent dose escalations); 1 avoided FP and 1 declined chemotherapy. Of 11 carriers with reactive testing, 9 had dose reductions (mean reduction 39%) and 2 discontinued FP due to toxicity. The mean FP dose intensity at cycle 1 was 56% in pretreatment carriers, 97% in reactive carriers, and 94% in wild type pts. Conclusions: DPYD genotype-guided FP dosing is feasible at a multisite cancer hospital. In-house rapid turnaround DPYD testing identified variant carriers and resulted in treatment/dose modifications for most carriers, potentially avoiding or mitigating severe toxicities and/or hospitalization, particularly with pretreatment testing. Toxicity evaluation is ongoing.
The high sputum conversion rates in the two groups indicated good control and management of TB. Findings in this study indicated that delayed use of HAART during TB treatment leads to better outcome in TB treatment. The study recommends more concerted efforts to provide TB treatment to HIV positive TB patients in Kenya.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.