Esha R. Kadakia scite author profile

Background Malaria incidence has reached staggering numbers in Venezuela. Commonly, Bolívar State accounted for approximately 70% of the country cases every year. Most cases cluster in the Sifontes municipality, a region characterized by an extractive economy, including gold mining. An increase in migration to Sifontes, driven by gold mining, fueled a malaria spillover to the rest of the country and the region. Here samples collected in 2018 were compared with a previous study of 2003/2004 to describe changes in the parasites population structures and the frequency of point mutations linked to anti-malarial drugs. Methods A total of 88 Plasmodium falciparum and 94 Plasmodium vivax isolates were collected in 2018 and compared with samples from 2003/2004 (106 P. falciparum and 104 P. vivax). For P. falciparum, mutations linked to drug resistance (Pfdhfr, Pfdhps, and Pfcrt) and the Pfk13 gene associated with artemisinin delayed parasite clearance, were analysed. To estimate the multiplicity of infection (MOI), and perform P. falciparum and P. vivax population genetic analyses, the parasites were genotyped by using eight standardized microsatellite loci. Results The P. falciparum parasites are still harbouring drug-resistant mutations in Pfdhfr, Pfdhps, and Pfcrt. However, there was a decrease in the frequency of highly resistant Pfdhps alleles. Mutations associated with artemisinin delayed parasite clearance in the Pfk13 gene were not found. Consistent with the increase in transmission, polyclonal infections raised from 1.9% in 2003/2004 to 39% in 2018 in P. falciparum and from 16.3 to 68% in P. vivax. There is also a decrease in linkage disequilibrium. Bayesian clustering yields two populations linked to the time of sampling, showing that the parasite populations temporarily changed. However, the samples from 2003/2004 and 2018 have several alleles per locus in common without sharing multi-locus genotypes. Conclusions The frequency of mutations linked with drug resistance in P. falciparum shows only changes in Pfdhps. Observations presented here are consistent with an increase in transmission from the previously circulating parasites. Following populations longitudinally, using molecular surveillance, provides valuable information in cases such as Venezuela with a fluid malaria situation that is affecting the regional goals toward elimination.

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Evolution and Genetic Diversity of thek13Gene Associated with Artemisinin Delayed Parasite Clearance in Plasmodium falciparum

Pacheco

Kadakia

Chaudhary

et al. 2019

Antimicrob Agents Chemother

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Mutations in the Plasmodium falciparum k13 (Pfk13) gene are linked to delayed parasite clearance in response to artemisinin-based combination therapies (ACTs) in Southeast Asia. To explore the evolutionary rate and constraints acting on this gene, k13 orthologs from species sharing a recent common ancestor with P. falciparum and Plasmodium vivax were analyzed. These comparative studies were followed by genetic polymorphism analyses within P. falciparum using 982 complete Pfk13 sequences from public databases and new data obtained by next-generation sequencing from African and Haitian isolates. Although k13 orthologs evolve at heterogeneous rates, the gene was conserved across the genus, with only synonymous substitutions being found at residues where mutations linked to the delayed parasite clearance phenotype have been reported. This suggests that those residues were under constraint from undergoing nonsynonymous changes during evolution of the genus. No fixed nonsynonymous differences were found between Pfk13 and its orthologs in closely related species found in African apes. This indicates that all nonsynonymous substitutions currently found in Pfk13 are younger than the time of divergence between P. falciparum and its closely related species. At the population level, no mutations linked to delayed parasite clearance were found in our samples from Africa and Haiti. However, there is a high number of single Pfk13 mutations segregating in P. falciparum populations, and two predominant alleles are distributed worldwide. This pattern is discussed in terms of how changes in the efficacy of natural selection, affected by population expansion, may have allowed for the emergence of mutations tolerant to ACTs.

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Correlation of native knee joint septic arthritis and bacteremia: A retrospective study

Soderquist

Ren

Kadakia

et al. 2023

JMSR

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Objectives: Septic arthritis is an orthopedic emergency, delayed treatment results in rapid, and irreversible joint destruction with significant morbidity and mortality. The correlation between the infectious organism(s) isolated from blood and synovial fluid remains unclear. Native joint septic arthritis (NJSA) is often secondary to bacteremia and other contiguous sources of infection. This investigation examined the correlation in infectious organisms between blood and synovial fluid in patients with NJSA and concurrent bacteremia. Methods: A retrospective chart review was performed on 712 NJSA cases at an urban, level-one trauma center. Patients diagnosed with septic knee arthritis through synovial fluid analysis with white blood cell count >50,000 and/or positive culture from the knee joint on aspiration were included in the study. The organism identified on blood culture in the bacteremic patient was then correlated to the organism found on synovial fluid analysis. Results: We identified 104 patients at our institution with septic knees; 48 with bacteremia and 56 that did not have bacteremia. Of these patients with bacteremia, 34 patients (70.8%) had the same organism isolated in the knee and the blood. This correlation was statistically significant, with P = 0.003. Furthermore, patients with bacteremia underwent a mean of 1.85 ± 0.76 debridement procedures versus 1.21 ± 0.80 procedures in those without (P = 0.001). Conclusion: This study shows a correlation between the organism isolated from the knee and the blood in patients with NJSA in conjunction with bacteremia as well as a correlation between the bacteremic patient and the number of surgical interventions required per patient.

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Esha R. Kadakia

Malaria in Venezuela: changes in the complexity of infection reflects the increment in transmission intensity

Evolution and Genetic Diversity of thek13Gene Associated with Artemisinin Delayed Parasite Clearance in Plasmodium falciparum

Correlation of native knee joint septic arthritis and bacteremia: A retrospective study

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