An insight into the suspected HbA2' cases detected by high performance liquid chromatography in Pakistan

Background:Hemoglobin A2\u27 (delta 16 Gly Arg) is globally the commonest delta chain variant of HbA2. It is clinically and hematologically silent but its sole importance lies in the underestimation of HbA2 quantity during the workup of beta-thalassaemia trait. High performance liquid chromatography (HPLC) identifies it as a small S-window peak with a mean retention time of 4.59 0.03 minutes. This study aims at describing the frequency of detection of HbA2\u27 by HPLC in Pakistan and its confirmation at a molecular level. Potential HbA2\u27 cases were identified by a retrospective review of 10186 HPLC chromatograms in year 2006. Prospective samples were collected for polymerase chain reaction (PCR) amplification, restriction digestion and nucleotide sequencing. Findings: One hundred and ninety two potential cases (1.89%) of HbA2\u27 were detected on HPLC, having mean retention time of 4.59 0.05 minutes. Sixty four (0.6%) new cases were suspected of having co-existing beta-thalassaemia trait when the quantity of S-window peaks was taken into account. Thirteen samples with presumed HbA2\u27 on HPLC were subjected to molecular analysis and the said mutation (delta 16 GGC CGC) was not detected in any sample. Conclusion: It is concluded that diagnosis of HbA2\u27 on HPLC alone is not justified, as evidence of the presence of this delta chain variant in Pakistani population is yet to be proven. Such small S-window peaks should be either disregarded or confirmed at molecular level, and only then should influence the diagnosis of beta-thalassaemia trait. Further studies are required to determine the true nature of these peaks

Hemoglobin E syndromes in Pakistani population

<p>Abstract</p> <p>Background</p> <p>Hemoglobin E is an important hemoglobin variant with a worldwide distribution. A number of hemoglobinopathies have been reported from Pakistan. However a comprehensive description of hemoglobin E syndromes for the country was never made. This study aimed to describe various hemoglobin E disorders based on hematological parameters and chromatography. The sub-aim was to characterize hemoglobin E at molecular level.</p> <p>Methods</p> <p>This was a hospital based study conducted prospectively for a period of one year extending from January 1 to December 31, 2008. EDTA blood samples were analyzed for completed blood counts and hemoglobin variants through automated hematology analyzer and Bio-Rad beta thalassaemia short program respectively. Six samples were randomly selected to characterize HbE at molecular level through RFLP-PCR utilizing <it>Mnl</it>I restriction enzyme.</p> <p>Results</p> <p>During the study period, 11403 chromatograms were analyzed and Hb E was detected in 41 (or 0.36%) samples. Different hemoglobin E syndromes identified were HbEA (n = 20 or 49%), HbE/β-thalassemia (n = 14 or 34%), HbEE (n = 6 or 15%) and HbE/HbS (n = 1 or 2%). Compound heterozygosity for HbE and beta thalassaemia was found to be the most severely affected phenotype. RFLP-PCR utilizing <it>Mnl</it>I successfully characterized HbE at molecular level in six randomly selected samples.</p> <p>Conclusions</p> <p>Various HbE phenotypes are prevalent in Pakistan with HbEA and HbE/β thalassaemia representing the most common syndromes. Chromatography cannot only successfully identify hemoglobin E but also assist in further characterization into its phenotype including compound heterozygosity. Definitive diagnosis of HbE can easily be achieved through RFLP-PCR.</p

Performance evaluation of ion exchange and affinity chromatography for HbA(1c) estimation in diabetic patients with HbD: A study of 129 samples

Objectives: To compare ion exchange and boronate affinity chromatography for HbA(1c) estimation in Patients with type I and II diabetes having hemoglobin D. Design And Methods: Systems based on ion exchange and boronate affinity chromatography were evaluated and compared for their performance forHbA(1c) estimation in Patients with homozygous and heterozygous D disease. Results: Boronate affinity chromatography shows least interference by HbD in heterozygous as well as homozygous diabetic Patients for HbA(1c) estimation. Conclusion: The use of boronate affinity chromatography was found to be helpful in evaluating glycemic control in diabetic subjects with HbD

Chromatographic analysis of Hb S for the diagnosis of various sickle cell disorders in Pakistan

Sickle cell disease remains a relatively obscure theme in research on haemoglobinopathies in Pakistan. Limited data is available regarding its prevalence in the country. The objective of our study was not only to estimate the frequency of different sickle cell diseases but also to provide quantitative estimation of haemoglobin S and other haemoglobin variants using an automated high-performance liquid chromatography (HPLC) system. For this Purpose, we retrospectively evaluated the results of HPLC performed on all Patients with suspected haemoglobinopathies during the years 2005 and 2006. Information derived from various sources was used to identify a particular genotype by analysing each sample containing Hb S with respect to haemoglobin, red cell indices and levels of various associated haemoglobin variants. Analysis of 15,699 samples identified 302 Patients with Hb S (1.92%). The genotypes identified included S beta(0)(46.7%), SS (19.2%), SA (11.6%), S beta(+) (8.6%) and SD (2.3%). Thirty-five cases could not be categorised and were labelled \u27unclassified\u27. Majority of the Patients (62.3%) were below the age of 18 years. Balochistan, which is the largest province based on the area, yielded the highest number of Patients (n=140). In the S beta(0) group, the mean haemoglobin and Hb S were lower in children compared to adults (p value of 0.001 and 0.016, respectively). We conclude that sickle cell disorders are prevalent in Pakistan to a significant extent, being concentrated in certain areas of the country. We present the first report of various haemoglobin S genotypes from our population. It is hoped that it will act as a database to characterise the same for our population

Identification of hemoglobin Q india (alpha 1-64 Asp-His) through ARMS-PCR. First report from Pakistan

Various hemoglobinopathies have been reported from Pakistan excepting the rare ones like hemoglobin Q India. Our Purpose of study was to identify the mutation (alpha 1 64 aspartate to histidine) through amplification restriction mutation system-polymerase chain reaction (ARMS-PCR) in Patients where hemoglobin Q has been detected via high performance liquid chromatography (HPLC) and also to evaluate the cost effectiveness of the two technologies. All Patients irrespective of age and gender who underwent HPLC for identification of their hemoglobin variant during January 1, 2006 to January 30, 2007 were studied. The blood samples with unknown peak at a retention time of 4.7 min were evaluated at the molecular level. Analysis of HPLC tracings of 11,008 subjects over a thirteen-month period identified ten individuals with hemoglobin Q. Male to female ratio was 1:1.5 and their age was variable ranging from 1 to 49 (mean 22.8) years. The mean hemoglobin level was 11.3 g/dl while MCV (fl) and MCH (pg) were 73.0 and 20.8 respectively. HPLC showed an unknown peak of 17.7% which was detected as Hb Q. ARMS based PCR showed Hb Q specific product of 370 bp and also an amplified product of 766 bp as the control fragment in these samples. This is the first ever report that documents the presence of Hb Q India (alpha 64 Asp to His) in Pakistani population. We recommend that HPLC be used as a useful screening tool especially in developing countries where PCR facilities may not be accessible