The population of India is extremely diverse comprising of more than 3,000 ethnic groups who still follow endogamy. Haemoglobinopathies are the commonest hereditary disorders in India and pose a major health problem. The data on the prevalence of β-thalassemias and other haemoglobinopathies in different caste/ethnic groups of India is scarce. Therefore the present multicentre study was undertaken in six cities of six states of India (Maharashtra, Gujarat, West Bengal, Assam, Karnataka and Punjab) to determine the prevalence of haemoglobinopathies in different caste/ethnic groups using uniform methodology. Fifty-six thousand seven hundred eighty individuals (college students and pregnant women) from different caste/ethnic groups were screened. RBC indices were measured on an automated haematology counter while the percentage of HbA(2), HbF and other abnormal Hb variants were estimated by HPLC on the Variant Hemoglobin Testing System. The overall prevalence of β-thalassemia trait was 2.78 % and varied from 1.48 to 3.64 % in different states, while the prevalence of β-thalassemia trait in 59 ethnic groups varied from 0 to 9.3 %. HbE trait was mainly seen in Dibrugarh in Assam (23.9 %) and Kolkata in West Bengal (3.92 %). In six ethnic groups from Assam, the prevalence of HbE trait varied from 41.1 to 66.7 %. Few subjects with δβ-thalassemia, HPFH, HbS trait, HbD trait, HbE homozygous and HbE β-thalassemia as well as HbS homozygous and HbS-β-thalassemia (<1 %) were also identified. This is the first large multicentre study covering cities from different regions of the country for screening for β-thalassemia carriers and other haemoglobinopathies where uniform protocols and methodology was followed and quality control ensured by the co-ordinating centre. This study also shows that establishment of centres for screening for β-thalassemia and other haemoglobinopathies is possible in medical colleges. Creating awareness, screening and counselling can be done at these centres. This experience will help to formulate a national thalassemia control programme in India.
Two hundred patients (112 males and 88 females) with cutaneous drug eruption were studied. The aim was to recognize the offending drug, to evaluate mortality and morbidity, educate the patient and avoid self-administration and readministration of drugs. Fixed drug eruption was the commonest reaction, seen in 61 patients; other reactions being urticaria and angioedema,morbilliform rash in 37, pruritus in 25, Stevens Johnson Syndrome (SJS) in 6, purpura in 6, exfoliative dermatitis in 5,photosensitivity in 5, toxic epidermal necrolysis in 2, acneiform eruption in 3, erythema multiforme in 2. Maximum patients belonged to the age group 41-50, followed by 21-30 and 31-40 years. The youngest was 1 year old and the oldest was 80 years old. Period of development of lesion after intake of drug varied from 1 day to 45 days. Cotrimoxazole was the commonest drug, in 26 cases; followed by Ibuprofen in 20 cases.
Summary Although the average frequency of β‐thalassaemia carriers in India is 3–4% and the prevalent mutations have been studied, no micromapping has been done. This is the first attempt to provide an accurate estimate of the frequencies of β‐thalassaemia and the expected annual births of homozygous children in different districts of Maharashtra and Gujarat in Western India as well as to determine the molecular heterogeneity in different sub‐regions in these states. A total of 18 651 individuals were screened for haemo‐globinopathies and mutations were characterized in 1334 β‐thalassaemia heterozygotes. There was an uneven distribution of the frequencies of β‐thalassaemia, varying from 1·0% to 6·0% and 0% to 9·5% in different districts of Maharasthra and Gujarat. The rate of homozygosity per 1000 births annually was 0·28 in Maharashtra and 0·39 in Gujarat. The three most prevalent β‐thalassaemia mutations in Maharashtra were IVS 1‐5(G→C), Codon 15(G→A) and Codon 30(G→C) (87·9%) while in Gujarat they were IVS 1‐5(G→C), 619 bp deletion and Codon 5(‐CT) (68·5%). These data will help to develop adequate programmes for control and care where they are most needed. They also emphasize the importance of subgroup micromapping for determining the health burden of a common genetic disease.
Background:This is the first study on phenotype frequencies of various blood group systems in blood donors of south Gujarat, India using conventional tube technique.Material and Methods:A total of 115 “O” blood group donors from three different blood banks of south Gujarat were typed for D, C, c, E, e, K, Jka, Lea, Leb, P1, M, and N antigens using monoclonal antisera and k, Kpa, Kpb, Fya,Fyb, Jkb, S,s, Lua, and Lub antigens were typed using polyclonal antisera employing Indirect Antiglobulin Test. Antigens and phenotype frequencies were expressed as percentages.Results:From the 115 blood donor samples used for extended antigen typing in the Rh system, e antigen was found in 100% donors, followed by D [84.35%], C [81.74%], c [56.32%], and E [21.74%] with DCe/DCe (R1 R1, 40.87%) as the most common phenotype. k was found to be positive in 100% of donors and no K+k- phenotype was found in Kell system. For Kidd and Duffy blood group system, Jk(a+b+) and Fy(a-b-) were the most common phenotypes with frequency of 52.17% and 48.69%, respectively. In the MNS system, 39.13% donors were typed as M+N+, 37.39% as M+N-, and 23.48% as M-N+. S+s+ was found in 24.35% of donors, S+s- in 8.69%, and S-s+ as the commonest amongst donors with 66.96%. No Lu(a+b+) or Lu(a+b-) phenotypes were detected in 115 donors typed for Lutheran antigens. A rare Lu(a-b-) phenotype was found in 2.61% donors.Conclusion:Data base for antigen frequency of various blood group systems in local donors help provide antigen negative compatible blood units to patients with multiple antibodies in order to formulate in-house red cells for antibody detection and identification and for preparing donor registry for rare blood groups.
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