The Changing Trends in Prenatal Diagnosis of Hemoglobinopathies in India: The Quest of a Single Center to Reduce the Burden of Disease over Three Decades.

The ß-thalassemias and sickle cell disorders pose a considerable health burden in India. Of the more than 10,000 annual births of children with a severe hemoglobinopathy, only around 10.0% are managed optimally. Thus, genetic counseling and prenatal diagnosis (PND) is a valid option for a large and diverse country. Our center was one of the first to initiate PND and we present our experience over 30 years to evaluate the impact of awareness in changing the trends of PND of hemoglobinopathies. Both second and first-trimester diagnoses were undertaken by fetoscopy/cordocentesis and globin biosynthesis/high-performance liquid chromatography (HPLC) analysis of fetal blood and chorionic villus sampling (CVS) and DNA analysis. Over 30 years, 3478 couples (first trimester: 2475; second trimester: 1003) from all over India were offered PND. The number of couples coming in the first trimester increased significantly over each decade and couples coming prospectively increased from 2.5 to 18.4%. A cost-effective stepwise approach was used for molecular analysis. Eight hundred and one fetuses (23.0%) were affected and all except three couples opted for termination of these pregnancies. Genetic counseling and PND is the only way to reduce the burden of disease. With awareness, there was a shift from second trimester to first trimester PND over each decade, with an increasing number of couples coming during the first pregnancy. There are only 15 to 20 centers in India offering PND. We have compared our study with other reports on PND from different regions in India.

The phenotypic and molecular diversity of hemoglobinopathies in India: A review of 15 years at a referral center.

INTRODUCTION: The hemoglobinopathies pose a significant health burden in India. Apart from the ß thalassemias and sickle cell disorders, α thalassemias and structural hemoglobin variants are also common. Here we have reviewed the phenotypic and molecular diversity of hemoglobinopathies encountered at a referral center in western India over a period of 15 years. MATERIALS AND METHODS: Screening for hemoglobinopathies was done using HPLC and cellulose acetate electrophoresis. Molecular characterization was done using Covalent Reverse Dot Blot Hybridization (CRDB), Amplification Refractory Mutation System (ARMS), GAP PCR and direct DNA sequencing. RESULTS: The study includes 31 075 individuals who were referred for diagnosis of hemoglobinopathies and prenatal diagnosis. Of these 14 423 individuals showed various hemoglobin abnormalities. Beta genotyping in 5615 individuals showed the presence of 49 ß thalassemia mutations. 143 ß thalassemia heterozygotes had normal or borderline HbA2 levels. We identified three δ gene mutations (HbA2 Pellendri, HbA2 St.George, HbA2 Saurashtra) in ß thalassemia heterozygotes leading to normal HbA2 levels. The commonest defects among the raised Hb F determinants were Gγ(Αγδß)0 Indian inversion and the HPFH-3 Indian deletion. A total of 312 individuals showed the presence of α thalassemia, of which 12.0% had a single α gene deletion (-α/αα). HbH disease was identified in 29 cases with 10 different genotypes. Alpha globin gene triplication was seen in 2.1% of ß thalassemia heterozygotes with a thalassemia intermedia phenotype. Seven unusual α chain variants and eight uncommon ß chain variants were identified. CONCLUSION: The repertoire of molecular defects seen in the different globin genes will be valuable for management and control of these disorders both in India as well as in other countries where there is a huge influx of migrant populations from India.

Rare ß- and δ-Globin Gene Mutations in the Pathare Prabhus: Original Inhabitants of Mumbai, India.

Genetic structure of the Indian population is influenced by waves of several immigrants from West Eurasia. Therefore, genetic information of various ethnic groups is valuable to understand their origins, the pattern of migration as well as the genetic relationship between them. No genetic data is available on Pathare Prabhu, which is a small indigenous Hindu community from Mumbai, Maharashtra State, India. The aim of this study was to screen the Pathare Prabhus for hemoglobinopathies, which is a major public health problem in India. Two hundred and fifty-seven unrelated Pathare Prabhus subjects were screened for various hemoglobinopathies. Complete blood counts (CBC) were done on an automated hematology counter. High performance liquid chromatography (HPLC) was used to identify ß-thalassemia (ß-thal) carriers. Molecular characterization of the ß gene defects was done by reverse dot-blot hybridization, amplification refractory mutation system (ARMS) and DNA sequencing. Deletional α-thalassemia (α-thal) was detected by multiplex polymerase chain reaction (PCR). Hb A2-Saurashtra (HBD: c.301C>T) was identified by DNA sequencing; its modeling was also done. The prevalence of ß-thal was 3.89%, while deletional α-thal was 5.4%. The initiation codon (ATG>ACG) (HBB: c.2T>C) was seen in eight individuals (80.0%), Hb D-Punjab (HBB: c.364G>C) and Hb A2-Saurashtra, was found in two and one individual, respectively. A community-specific ß-thal mutation was found in Pathare Prabhus in significant proportions. This information is useful in developing an algorithm for a prenatal diagnosis (PND) program.

Diverse phenotypes and transfusion requirements due to interaction of ß-thalassemias with triplicated α-globin genes.

Co-inheritance of triplicated α-genes can alter the clinical and hematological phenotypes of ß-thalassemias. We evaluated the phenotypic diversity and transfusion requirements in ß-thalassemia heterozygotes, homozygotes, and normal individuals with associated α-gene triplication. Clinical and hematological evaluation was done and the ß-thalassemia mutations characterized by a covalent reverse dot blot hybridization/amplification refractory mutation system. Alpha-globin gene triplication was assessed by multiplex PCR. During the last 2.5 years, 181 ß-thalassemia patients and ß-thalassemia carriers with an unusual clinical presentation were referred to us for screening for the presence of associated α-globin gene triplication. Twenty-nine of them had associated α-gene triplication (3 ß-thalassemia homozygotes or compound heterozygotes and 26 ß-thalassemia heterozygotes). One ß-thalassemia compound heterozygote [IVS 1-5 (G → C) + CD 41/42 (-CTTT)] was anemic at birth and required blood transfusions unusually early by 6 weeks of age. The second patient (4.5 years) was also clinically severe and became transfusion dependent in spite of having one mild ß-thalassemia mutation [Capsite +1 (A → C)]. The third case (3.5 years) who was homozygous for a mild ß-gene mutation [-88 (C → T)] with α gene triplication was untransfused. The 26 ß-thalassemia heterozygotes with associated triplicated α-genes presented variably, with a ß-thalassemia intermedia-like presentation. While screening the family members of all these cases, we found another 10 ß-thalassemia heterozygotes and 9 normal individuals with α-globin gene triplication; however, all of them were asymptomatic. Beta-thalassemia carriers, homozygotes, and compound heterozygotes with an unusual presentation should be screened for the possible presence of associated α-globin gene triplication which could influence the clinical and hematological presentation.

Is the poly A (T>C) mutation a causative factor for misdiagnosis in second trimester prenatal diagnosis of ß-thalassemia by fetal blood analysis on high performance liquid chromatography?

We report the problems in diagnosis faced by two families referred for prenatal diagnosis of thalassemia where cordocentesis and fetal blood analysis by high performance liquid chromatography (HPLC) had to be done. The Hb A levels of the fetal blood measured by HPLC on the VARIANT™ Hemoglobin Testing System were 1.2 and 6.7%, respectively, suggestive of a heterozygous ß-thalassemia (ß-thal) fetus in the first case and a normal fetus in the second case. In one family, one of the parents had a borderline Hb A(2) level and in the other, one parent had normal RBC indices. However, DNA sequencing, done later, showed that in the first case the fetus was a compound heterozygote for the IVS-I-5 (G>C) and the polyadenylation signal site [poly A (T>C)] mutation, while in the second case, the fetus was homozygous for the poly A mutation. This emphasizes that characterization of ß-thal mutations must be done whenever one of the parents has a borderline Hb A(2) level or normal RBC indices, and one should not rely on fetal blood analysis by HPLC for prenatal diagnosis of ß-thal so as to avoid misdiagnosis.

Effect of hydroxyurea on the transfusion requirements in patients with severe HbE-beta-thalassaemia: a genotypic and phenotypic study.

BACKGROUND: Haemoglobin E (HbE)-beta-thalassaemia has a very variable clinical presentation. The management of severe cases that are often transfusion dependent is similar to that of cases of beta-thalassaemia major; however, this is often not possible in India because of its high cost and the lack of availability of safe blood at many places. Thus there was a need for a drug such as hydroxyurea, which is known to reduce the transfusion requirements of patients with thalassaemia intermedia. This study was undertaken to evaluate the response of Indian patients with HbE-beta-thalassaemia to hydroxyurea. MATERIALS AND METHODS: 11 patients with HbE-beta-thalassaemia receiving regular transfusion plus two less frequently transfused patients were selected for hydroxyurea therapy. Clinical and haematological evaluation was performed before and after treatment for 2 years. Molecular studies included beta-globin genotype, beta-globin gene haplotype, Xmn I polymorphism and alpha-genotyping. RESULTS: Four clinically severe patients became transfusion independent (responders) after hydroxyurea therapy, four patients showed a reduction in their transfusion requirements (partial responders), and three patients were non-responders. Responders showed a statistically significant increase in Hb, mean corpuscular volume, mean cell Hb, fetal Hb and F cells with a reduction in their transfusion requirements. A reduction in serum ferritin concentration was also seen in responders and non-responders. CONCLUSIONS: Genetic markers such as Xmn I polymorphism and alpha-gene deletions were not always beneficial for the response to hydroxyurea therapy. Thus many more markers and a larger cohort need to be studied to predict the response in these patients.

Response to hydroxyurea in beta thalassemia major and intermedia: experience in western India.

BACKGROUND: The clinical and hematological response to hydroxyurea was evaluated in beta thalassemia patients in western India with variable clinical severity and correlated with genetic factors. MATERIALS AND METHODS: Seventy-nine patients-[38-beta thalassemia intermedia-(group I), 41-beta thalassemia major-(group II)] on hydroxyurea therapy were followed-up for 20-24months. RESULTS: Among the frequently transfused patients in group I, 58% became transfusion independent and 16% showed a 50% reduction in transfusions after therapy which correlated with a higher mean fold increase in HbF and gamma mRNA expression levels. Forty-one percent of patients in group I had associated alpha-thalassemia and 72.7% were XmnI (+/+). beta thalassemia chromosomes among the responders of group I (41%) were linked to haplotype (- + + - + + - - +) as against haplotype (+ - - - - - - - +) being more common among the non-responders. Response was not linked to the beta thalassemia mutations. Thirty-two percent of group II patients showed a 50% reduction in their transfusion requirements after therapy which also correlated with a higher mean fold increase in HbF and gamma mRNA expression levels. A significant decrease in serum ferritin was seen in both groups. 19% of patients could not tolerate the drug. CONCLUSIONS: In group I, clinical response to hydroxyurea was better in patients with alpha-thalassemia, XmnI (+/+) and a higher mean fold increase in gamma mRNA expression. In group II, only one-third of patients showed a partial response.

Evaluation of the use of monoclonal antibodies and nested PCR for noninvasive prenatal diagnosis of hemoglobinopathies in India.

Our purpose was to develop and evaluate isolation and enrichment of fetal erythroblasts and a nested polymerase chain reaction (PCR) approach using fetal erythroblasts for detecting the beta-globin gene mutations for a noninvasive prenatal diagnosis of hemoglobinopathies. Maternal blood at different periods of gestation was layered on a Percoll density gradient for enrichment of fetal nucleated RBCs (NRBCs). A combination of 3 monoclonal antibodies (CD45-peridinin chlorophyll protein, glycophorin A-phycoerythrin, and anti-hemoglobin F-fluorescein isothiocyanate) was used for flow cytometric sorting of fetal NRBCs from enriched cells. Different nested PCR-based approaches were used for identification of fetal mutations. Owing to heterogeneity of beta-thalassemia mutations in the population of India, we had to screen for 12 mutations and were able to give an accurate diagnosis in 84 (84.0%) of 100 cases when compared with chorionic villus sampling or cordocentesis and DNA analysis.This nested PCR approach enabled amplification of small quantities of DNA from fetal erythroblasts, providing a cost-effective method for noninvasive diagnosis.