Harry Asmah scite author profile

Background Campylobacter infections in HIV positive patients often present with substantial mortality and morbidity when compared to HIV negative patients. Aim This study assessed the prevalence of Campylobacter, antibiotic resistance phenotypes and genetic factors, and risk of Campylobacter infection associated with living in close proximity to domestic animals in HIV patients with gastric enteritis at

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High frequency of the Duffy-negative genotype and absence of Plasmodium vivax infections in Ghana

Brown

Pappoe-Ashong

Duah

et al. 2021

Malar J

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Background Recent studies from different malaria-endemic regions including western Africa have now shown that Plasmodium vivax can infect red blood cells (RBCs) and cause clinical disease in Duffy-negative people, though the Duffy-negative phenotype was thought to confer complete refractoriness against blood invasion with P. vivax. The actual prevalence of P. vivax in local populations in Ghana is unknown and little information is available about the distribution of Duffy genotypes. The aim of this study was to assess the prevalence of P. vivax in both asymptomatic and symptomatic outpatients and the distribution of Duffy genotypes in Ghana. Methods DNA was extracted from dried blood spots (DBS) collected from 952 subjects (845 malaria patients and 107 asymptomatic persons) from nine locations in Ghana. Plasmodium species identification was carried out by nested polymerase chain reaction (PCR) amplification of the small-subunit (SSU) rRNA genes. For P. vivax detection, a second PCR of the central region of the Pvcsp gene was carried out. Duffy blood group genotyping was performed by allele-specific PCR to detect the presence of the FYES allele. Results No cases of P. vivax were detected in any of the samples by both PCR methods used. Majority of infections (542, 94.8%) in the malaria patient samples were due to P. falciparum with only 1 infection (0.0017%) due to Plasmodium malariae, and 2 infections (0.0034%) due to Plasmodium ovale. No case of mixed infection was identified. Of the samples tested for the FYES allele from all the sites, 90.5% (862/952) had the FYES allele. All positive samples were genotyped as FY*B-33/FY*B-33 (Duffy-negative homozygous) and therefore classified as Fy(a−b−). Conclusions No cases of P. vivax were detected by both PCRs and majority of the subjects tested carried the FYES allele. The lack of P. vivax infections observed can be attributed to the high frequency of the FYES allele that silences erythroid expression of the Duffy. These results provide insights on the host susceptibility for P. vivax infections that had not been investigated in Ghana before.

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Association between Haptoglobin Genotype Polymorphism and Type Two (2) Diabetes in Accra, Ghana

Brown¹,

Awisi²,

Asmah³

et al. 2013

AJBLS

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Polymorphism of the haptoglobin (Hp) gene, characterized by alleles Hp1 and Hp2, gives rise to structurally and functionally distinct Hp protein phenotypes: Hp1-1, Hp2-1, and Hp2-2. The corresponding proteins have structural and functional differences that have influence on a particular disease. For example, Hp genotype is an independent risk factor for diabetic complications. In urban Ghana, type two diabetes mellitus (T2DM) affects at least 6% of adults. The aim of this study was to assess the association between Hp genotype polymorphism in T2DM patients in Accra. The study was a case control one. A total of 100 participants, 50 T2DM patients attending the Diabetes Clinic (Korle-Bu Teaching Hospital) and 50 healthy non-diabetic controls, were involved. Plasma glucose concentration was measured by the glucose-oxidase method. Fasting blood glucose was performed on all subjects except for the individuals with a history of T2DM. Hp genotype was determined by allele specific polymerase chain reaction (PCR). PCR produced Hp genotype-specific bands for the Hp1F, Hp1S, and Hp2 alleles. Statistical analyses revealed a significant difference in the Hp genotype distribution between diabetics and non-diabetics (χ 2 = 7.84, df = 2, p = 0.0198). Hp1-1 was the most frequent genotype among non-diabetics (58%) whilst Hp2-2 (38%) was most frequent genotype among diabetics. Majority of the diabetics were found in the Hp1S-1F and Hp2-2 genotype groups for diastolic BP (mmHg), systolic BP (mmHg) and FBG (mM). There was a strong association between DM and Hp2-2 genotype, followed by Hp2-1 (Hp1F-2 > Hp1S-2) with the least being Hp1-1 (Hp1F-1F, Hp1S-1F, Hp1S-1S). The risk of developing diabetes among people with Hp2-2 and Hp1F-2 genotypes was high. They can therefore be used as markers for an individual developing DM.

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High frequency of the Duffy-negative genotype and absence of Plasmodium vivax infections in Ghana

Brown

Pappoe-Ashong

Duah

et al. 2020

Preprint

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Background The Duffy-negative phenotype is a condition which is thought to confer complete resistance against blood infection with Plasmodium vivax. However, recent studies from different malaria-endemic regions including western Africa have now shown that P. vivax can infect red blood cells (RBCs) and cause clinical disease in Duffy-negative people. The actual prevalence of P. vivax in local populations in Ghana is unknown. In addition, little information is available about the distribution of Duffy genotypes in Ghana. We determined the prevalence of P. vivax and the distribution of Duffy genotypes in Ghana. Methods DNA was extracted from dried blood spots (DBS) collected from 952 subjects (845 malaria patients and 107 asymptomatic persons) from nine locations in Ghana. Plasmodium species identification was carried out by nested polymerase chain reaction (PCR) amplification of the small-subunit rRNA genes; P. vivax was further characterized by PCR analysis of the central region of the Pvcsp gene. Duffy blood group genotyping was performed by PCR with sequence-specific primers (PCR-SSP) to detect the presence of the FYES allele. Results No cases of P. vivax were detected in any of the samples by both PCR methods used. Majority of infections (542, 94.8%) in the malaria patient samples were due to P. falciparum with only 1 infection (0.0017%) and 2 infections (0.0034%) due to P. malariae and P. ovale, respectively. No case of mixed infection was identified. Of the samples tested for the FYES allele from all the sites, 90.5% (862/952) had the FYES allele. All positive samples were genotyped as FY*B-33/FY*B-33 (Duffy-negative homozygous) and therefore classified as Fy(a-b-). Conclusions No cases of P. vivax were detected by both PCRs and 90.5% of the subjects tested carried the FYES allele. The lack of P. vivax infections observed can be attributed to the high frequency of the FYES allele that silences erythroid expression of the Duffy. These results provide insights on the host susceptibility for P. vivax infections that has before not been investigated in Ghana.

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Harry Asmah

Characterization of Campylobacter associated gastric enteritis among patients with Human Immunodeficiency Virus (HIV) in a hospital in Accra, Ghana

High frequency of the Duffy-negative genotype and absence of Plasmodium vivax infections in Ghana

Association between Haptoglobin Genotype Polymorphism and Type Two (2) Diabetes in Accra, Ghana

High frequency of the Duffy-negative genotype and absence of Plasmodium vivax infections in Ghana

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