The molecular landscape of oculocutaneous albinism in India and its therapeutic implications.

Oculocutaneous albinism is an inherited disorder of melanin biosynthesis, characterized by absent or reduced pigmentation of the skin, hair, and eyes. Molecular alterations of genes that cause non-syndromic albinism in Asian Indians are poorly characterized. This information would be useful for developing therapies for this disorder. We analyzed 164 persons with non-syndromic albinism, belonging to unrelated families from all parts of India, for molecular changes in the causative genes. Subjects with white hair, white skin, and red iris had their tyrosinase gene sequenced and were also tested by MLPA for deletions/duplications. Subjects with negative results or with darker skin, golden/brown or darker hair had sequencing of TYR, P, TYRP1, SLC45A2 and GPR143 genes. Pathogenic variants in TYR (OCA1) were observed in 139 (84.7%) patients, in the P gene (OCA2) in 20 (12.2%), in TYRP1 (OCA3) in two (1.2%), in SLC45A2 (OCA 4) in one (0.61%), and in GPR143 (X-linked ocular albinism) in two (1.2%) patients. Of 278 alleles with variants in TYR, 179 (64.3%) alleles had (p.R278*) alteration, suggesting the possibility of therapy with a stop codon readthrough molecule. We report 20 patients with 13 disease associated variants in the P gene and 18 novel pathogenic variants in TYR, P, TYRP1, SLC45A2 and GPR143 genes. The data are compared with those reported from India, Pakistan and rest of the world. The therapeutic options in albinism are briefly described, opening this field for future therapies.

Computational biology insights into genotype-clinical phenotype-protein phenotype relationships between novel SLC26A2 variants identified in inherited skeletal dysplasias.

BACKGROUND: Pathogenic variants in the transmembrane sulfate transporter protein SLC26A2 are associated with different phenotypes of inherited chondrodysplasias. As limited data is published from India, in this study we sought to elucidate the molecular basis of inherited chondrodysplasias in an Indian cohort. METHODS: Molecular screening of 32 fetuses with antenatally diagnosed lethal skeletal dysplasia was performed by next generation sequencing and Sanger sequencing. The genotype-protein phenotype characterization was done using computational biology techniques like homology modelling, stability and pathogenicity predictions. RESULTS: We identified five rare autosomal recessive SLC26A2 [NM_000112.4] variants, including three homozygous c.796dupA(p.Thr266Asnfs*12), c.1724delA(p.Lys575Serfs*10), and c.1375_1377dup(p.Val459dup) and two heterozygous variants (c.532C > T(p.Arg178*)) and (c.1382C > T(p.Ala461Val)) in compound heterozygous form in a total of four foetuses. Genotype-protein phenotype annotations highlighted that the clinically severe achondrogenesis 1B causative c.796dupA(p.Thr266Asnfs*12) and c.1724delA(p.Lys575Serfs*10)variants impact SLC26A2 protein structure by deletion of the protein core and transmembrane STAS domains, respectively. In clinically moderate atelosteogenesis type 2 phenotype, the c.1382C > T(p.Ala461Val) variant is predicted to distort alpha helix conformation and alter the bonding properties and free energy dynamics of transmembrane domains and the c.532C > T(p.Arg178*) variant results in loss of both core transmembrane and STAS domains of the SLC26A2 protein. The c.1375_1377dup(p.Val459dup) variant identified in clinically milder atelosteogenesis type II-diastrophic dysplasia spectrum lethal phenotype is predicted to decrease the Qualitative Model Energy Analysis (QMean), which affects major geometrical aspects of the SLC26A2 protein structure. CONCLUSION: We expand the spectrum of SLC26A2 related lethal chondrodysplasia and report three novel variants correlating clinical severity and protein phenotype within the lethal spectrum of this rare dysplasia. We demonstrate the relevance of structural characterization to aid novel variant reclassification to provide better prenatal management and reproductive options to families with lethal antenatal skeletal disorder.

Clinical and Genetic Profile of Children With Short Stature Presenting to a Genetic Clinic in Northern India.

OBJECTIVE: To define the spectrum of genetic disorders in patients with short stature visiting the genetic out-patient department in a tertiary care hospital. METHODS: A chart review was done for 455 individuals (10 months-16 yrs) with short stature, who were evaluated at the genetic clinic from 1 January, 2017 upto 31 October, 2018. 226 patients who needed detailed evaluation, the spectrum of genetic diagnosis is presented. RESULTS: Proportionate short stature was identified in 63% individuals (n=142) of which 93 (65%) were recognizable syndromes such as Turner syndrome, and William syndrome, and RASopathies. In clinically undefined syndromes (39, 27%), a diagnosis could be made by karyotype (n=3/10), chromosomal microarray (6/12) and exome sequencing (1/6). In the 84 children in the disproportionate short stature group (37%), lysosomal storage disorders (LSDs) (45%, n=38) were identified by enzyme analysis in 86.8% and skeletal dysplasias (44%, n=37) identified by skeletal survey in 89% cases. CONCLUSIONS: In undefined syndromic short stature, chromosomal microarray may be the first investigation of choice if phenotyping is not suggestive of a specific genetic syndrome. Exome sequencing can be useful in identifying newer genes among idiopathic and familial short stature cohorts.

NGS-based expanded carrier screening for genetic disorders in North Indian population reveals unexpected results - a pilot study.

BACKGROUND: To determine the carrier frequency and pathogenic variants of common genetic disorders in the north Indian population by using next generation sequencing (NGS). METHODS: After pre-test counselling, 200 unrelated individuals (including 88 couples) were screened for pathogenic variants in 88 genes by NGS technology. The variants were classified as per American College of Medical Genetics criteria. Pathogenic and likely pathogenic variants were subjected to thorough literature-based curation in addition to the regular filters. Variants of unknown significance were not reported. Individuals were counselled explaining the implications of the results, and cascade screening was advised when necessary. RESULTS: Of the 200 participants, 52 (26%) were found to be carrier of one or more disorders. Twelve individuals were identified to be carriers for congenital deafness, giving a carrier frequency of one in 17 for one of the four genes tested (SLC26A4, GJB2, TMPRSS3 and TMC1 in decreasing order). Nine individuals were observed to be carriers for cystic fibrosis, with a frequency of one in 22. Three individuals were detected to be carriers for Pompe disease (frequency one in 67). None of the 88 couples screened were found to be carriers for the same disorder. The pathogenic variants observed in many disorders (such as deafness, cystic fibrosis, Pompe disease, Canavan disease, primary hyperoxaluria, junctional epidermolysis bullosa, galactosemia, medium chain acyl CoA deficiency etc.) were different from those commonly observed in the West. CONCLUSION: A higher carrier frequency for genetic deafness, cystic fibrosis and Pompe disease was unexpected, and contrary to the generally held view about their prevalence in Asian Indians. In spite of the small sample size, this study would suggest that population-based carrier screening panels for India would differ from those in the West, and need to be selected with due care. Testing should comprise the study of all the coding exons with its boundaries in the genes through NGS, as all the variants are not well characterized. Only study of entire coding regions in the genes will detect carriers with adequate efficiency, in order to reduce the burden of genetic disorders in India and other resource poor countries.

Mutation Spectrum of Dystrophinopathies in India: Implications for Therapy.

BACKGROUND: Dystrophinopathies are common X-linked recessive neuromuscular disorders caused by pathogenic variants in the dystrophin gene (DMD). Analysis of the mutational spectrum in the Indian patients would be useful for confirming the diagnosis, provide genetic counseling, offer reproductive options, and importantly to determine the eligibility for the mutation-specific therapies currently approved/or undergoing trials, such as skipping of specific exons or read-through of stop codon. METHODS: In 1660 patients diagnosed as Duchenne muscular dystrophy (DMD) /Becker muscular dystrophy (BMD) deletion- duplication analysis of all 79 exons was carried out using Multiplex ligation-dependent probe amplification (MLPA) technology. In 63 patients where no mutations were detected by MLPA, the nucleotide sequence of the DMD gene was determined by next gene sequencing. In seven cases where MLPA showed deletion of a single exon, and amplification of the specific exon was successful by polymerase chain reaction (PCR), Sanger sequencing of the concerned region was carried out to detect changes in the sequence. RESULTS: The mutation spectrum of 1660 patients with DMD/BMD was determined and 1188 (71.6%) patients were identified to have deletions or duplications of one or more exons. Of these, 1090 (65.7%) had true deletions of exons and 98 (5.9%) had duplications of exons. The most frequent change was the deletion of exon 45 (66/1090, 6.1%) and duplication of exon 2 (1/98, 11.2%). Sequencing of dystrophin gene was performed in 70 cases, and variants were identified in 68 patients (97.1% of those analyzed). Stop codon variants were observed in 34 (50%) patients, missense variants in 4 (5.9%), small deletions in 19 (27.9%), small insertions in 6 (8.8%) and slice site variants in 5 (7.4%) patients. Thirty one of 68 variants (45.5%) were novel. CONCLUSIONS: The authors highlight the importance of identifying the type of mutation in patients with DMD. Based on the results, it is estimated that 681 (54.2%) of 1256 patients in this cohort would benefit from the currently ongoing mutation-specific therapies.

Identification of PKD1 and PKD2 gene variants in a cohort of 125 Asian Indian patients of ADPKD.

Autosomal Dominant Polycystic Kidney Disease (ADPKD) accounts for 2.6% of the patients with chronic kidney disease in India. ADPKD is caused by pathogenic variants in either PKD1 or PKD2 gene. There is no comprehensive genetic data from Indian subcontinent. We aimed to identify the pathogenic variants in the heterogeneous Indian population. PKD1 and PKD2 variants were identified by direct gene sequencing and/or multiplex ligation-dependent probe amplification (MLPA) in 125 unrelated patients of ADPKD. The pathogenic potential of the variants was evaluated computationally and were classified according to ACMG guidelines. Overall 300 variants were observed in PKD1 and PKD2 genes, of which 141 (47%) have been reported previously as benign. The remaining 159 variants were categorized into different classes based on their pathogenicity. Pathogenic variants were observed in 105 (84%) of 125 patients, of which 99 (94.3%) were linked to PKD1 gene and 6 (6.1%) to PKD2 gene. Of 159 variants, 97 were novel variants, of which 43 (44.33%) were pathogenic, and 10 (10.31%) were of uncertain significance. Our data demonstrate the diverse genotypic makeup of single gene disorders in India as compared to the West. These data would be valuable in counseling and further identification of probable donors among the relatives of patients with ADPKD.

Urea cycle disorders in India: clinical course, biochemical and genetic investigations, and prenatal testing.

BACKGROUND: Urea cycle disorders (UCDs) are inherited metabolic disorders that present with hyperammonemia, and cause significant mortality and morbidity in infants and children. These disorders are not well reported in the Indian population, due to lack of a thorough study of the clinical and molecular profile. RESULTS: We present data from two major metabolic centres in India, including 123 cases of various UCDs. The majority of them (72/123, 58%) presented in the neonatal period (before 30 days of age) with 88% on or before day 7 of life (classical presentation), and had a high mortality (64/72, 88%). Citrullinemia type 1 was the most common UCD, observed in 61/123 patients. Ornithine transcarbamylase (OTC) deficiency was the next most common, seen in 24 cases. Argininosuccinic aciduria was diagnosed in 20 cases. Deficiencies of arginase, N-acetylglutamate synthase, carbamoyl phosphate synthetase, citrin, and lysinuric protein intolerance were also observed. Molecular genetic analysis revealed two common ASS1 mutations: c.470G > A (p.Arg157His) and c.1168G > A (p.Gly390Arg) (36 of 55 tested patients). In addition, few recurrent point mutations in ASL gene, and a deletion of the whole OTC gene were also noted. A total of 24 novel mutations were observed in the various genes studied. We observed a poor clinical outcome with an overall all time mortality of 63% (70/110 cases with a known follow-up), and disability in 70% (28/40) among the survivors. Prenatal diagnosis was performed in 30 pregnancies in 25 families, including one pre-implantation genetic diagnosis. CONCLUSIONS: We report the occurrence of UCDs in India and the spectrum that may be different from the rest of the world. Citrullinemia type 1 was the most common UCD observed in the cohort. Increasing awareness amongst clinicians will improve outcomes through early diagnosis and timely treatment. Genetic diagnosis in the proband will enable prenatal/pre-implantation diagnosis in subsequent pregnancies.

Crigler Najjar Syndrome Type 2 (CNS Type 2): An Unwonted Cause of Jaundice in Adults.

Crigler Najjar Syndrome (CNS) Type 2 is an uncommon genetic disorder characterised by non-haemolytic unconjugated hyperbilirubinemia. It is caused by mutations in the UGT1A1 gene which codes for the enzyme uridine diphosphate glucoronosyl transferase- 1, required for the conjugation and further excretion of bilirubin from the body. Affected individuals are usually asymptomatic apart from the jaundice and investigations reveal isolated indirect hyperbilirubinemia. It can be conveniently diagnosed by evaluating the response to phenobarbitone in terms of fall in bilirubin levels. Genetic testing of the UGT1A1 gene for mutations is the diagnostic clincher. However, case reports documenting the genetic mutational analysis are sparse. We report one such rare case.

Vascular Endothelial Growth Factor (VEGF) Gene Promoter Polymorphisms and Disease Progression in North Indian Cohort with Autosomal Dominant Polycystic Kidney Disease.

Autosomal dominant polycystic kidney disease (ADPKD) is characterized by a significant phenotypic variability in progression of the disease. Vascular endothelial growth factor (VEGF) has been reported to play a major role in renal pathophysiology. The aim of the present case-control study was to evaluate the association of two promoter polymorphisms (-2578C>A and-1154G>A) of VEGF gene and ADPKD. Genotyping was carried out in 123 ADPKD patients and 100 healthy controls, using a polymerase chain reaction-restriction fragment length polymorphism technique (PCR-RFLP). The genotype, allele and haplotype frequencies of these two polymorphisms in ADPKD patients were compared with those in controls, as well as in patients with early and advanced chronic kidney disease (CKD) stages, using Chi-square (χ2) test. The distribution frequency of CC, CA and AA genotypes of -2578C>A polymorphism differed significantly between patients and controls (0.31, 0.63 and 0.06 vs 0.37, 0.44 and 0.19, respectively (P=0.003)), but no significantly different genotype distribution was observed for the-1154G>A polymorphism. The A allele of -2578C>A and G allele of -1154G>A, were significantly more present in the controls as compared to the patients, and may provide protection for CKD under recessive (OR, 3.73; 95% CI, 1.45-9.62; P=0.0042), and dominant (OR, 0.55; 95%CI, 0.31-0.98; P=0.041) models. The [A;G] haplotype was more frequently present in controls (18%) than in cases (8%), (OR 0.398; 95% CI 0.22-0.71; P=0.002). These results suggest that the two promoter polymorphisms of VEGF may modify the disease risk in ADPKD patients from North India.

Infantile Systemic Hyalinosis: Novel Founder Mutation in the Initiation Codon among "Malis (Farmers)" in Jodhpur.

Infantile systemic hyalinosis (OMIM 236490) is a progressive autosomal recessive disorder characterized by widespread deposition of hyaline material in many tissues leading to multiple subcutaneous skin nodules, gingival hypertrophy and joint contractures. The authors describe five children from four unrelated families, from the "mali (farmer)" community in Jodhpur, with the disorder. All of them had classical clinical features, and four died from severe infections between age of 7 mo to 3 y. Two affected children had the same, but novel mutation in the initiation codon, in homozygous form c.1 A > G; p. M1? in capillary morphogenesis protein-2 (CMG2), or ANTXR2 gene on chromosome 4q21.21. The other two parents had the same mutation in heterozygous form. It is likely that this is a founder mutation in this community.

RANBP2 mutation in an Indian child with recurrent acute necrotizing encephalopathy.

BACKGROUND: Acute necrotizing encephalopathy (ANE) is a rare disorder characterized by encephalopathy following a febrile illness, mostly viral. Most cases are sporadic; however, recurrent and familial cases have been linked to RANBP2 mutation. DESCRIPTION OF THE CASE: This is a description of a three and half years old girl with recurrent ANE with RANBP2 mutation (c.1754 C>T (p.T585M)). She had two episodes of encephalopathy, each following a short non-specific febrile illness. Neuroradiologically, she had typical findings involving bilateral thalami during the first episode and involving bilateral temporal and occipital lobes, bilateral cerebellar hemispheres and brainstem during the second episode. She was managed with intravenous gamma globulin and dexamethasone during both the episodes. She recovered significantly with residual deficits in her cognitive and language domains. CONCLUSIONS: In relevant clinic-radiological scenarios both isolated and recurrent ANE should be considered because of treatment and long-term outcome related implications.

Seventeen Novel Mutations in PCCA and PCCB Genes in Indian Propionic Acidemia Patients, and Their Outcomes.

AIMS: The goal of this study was to identify mutations in the propionyl-CoA carboxylase alpha subunit (PCCA) and propionyl-CoA carboxylase beta subunit (PCCB) genes, and to assess their effects on propionic academia (PA) patients. METHODOLOGY: Twenty-five Indian children with PA were enrolled in this study. Bidirectional Sanger sequencing was performed on both the coding and flanking regions of the PCCA and PCCB genes and the chromatograms were analyzed. Bioinformatic tools were used to classify novel variations into pathogenic or benign. RESULTS: The majority of the cases (19/25, 76%) were of the early-onset (<90 days of age) type and 5 were of the late-onset type. The majority of patients had mutations in the PCCA gene (18/25). A total of 26 mutations were noted: 20 in the PCCA gene and 6 in PCCB gene. Seventeen mutations were novel (14 in PCCA and 3 in PCCB). The SNP c.937C>T (p.Arg313Ter), was noted in 9/36 (25%) alleles in the PCCA gene. All of the children were symptomatic and only three survived who are doing well with no major disabilities. CONCLUSION: The spectrum of mutations in the PCCA and PCCB genes among Indians is distinct from other populations. The absence of a common mutation signifies the heterogeneity and admixture of various subpopulations. These findings also suggest that individuals of Indian origin may not benefit from the mutation-based "carrier screening panels" offered by many genetic laboratories.

Identification of mutations, genotype-phenotype correlation and prenatal diagnosis of maple syrup urine disease in Indian patients.

Maple syrup urine disease (MSUD) is caused by mutations in genes BCKDHA, BCKDHB, DBT encoding E1α, E1ß, and E2 subunits of enzyme complex, branched-chain alpha-ketoacid dehydrogenase (BCKDH). BCKDH participates in catabolism of branched-chain amino acids (BCAAs) - leucine, isoleucine and valine in the energy production pathway. Deficiency or defect in the enzyme complex causes accumulation of BCAAs and keto-acids leading to toxicity. Twenty-four patients with MSUD were enrolled in the study for molecular characterization and genotype-phenotype correlation. Molecular studies were carried out by sequencing of the 3 genes by Sanger method. Bioinformatics tools were employed to classify novel variations into pathogenic or benign. The predicted effects of novel changes on protein structure were elucidated by 3D modeling. Mutations were detected in 22 of 24 patients (11, 7 and 4 in BCKDHB, BCKDHA and DBT genes, respectively). Twenty mutations including 11 novel mutations were identified. Protein modeling in novel mutations showed alteration of structure and function of these subunits. Mutations, c.1065 delT (BCKDHB gene) and c.939G > C (DBT gene) were noted to be recurrent, identified in 6 of 22 alleles and 5 of 8 alleles, respectively. Two-third patients were of neonatal classical phenotype (16 of 24). BCKDHB gene mutations were present in 10 of these 16 patients. Prenatal diagnoses were performed in 4 families. Consanguinity was noted in 37.5% families. Although no obvious genotype-phenotype correlation could be found in our study, most cases with mutation in BCKDHB gene presented in neonatal period. Large number of novel mutations underlines the heterogeneity and distinctness of gene pool from India.

Inherited metabolic disorders: prenatal diagnosis of lysosomal storage disorders.

OBJECTIVE: To offer accurate prenatal diagnosis of lysosomal storage disorders in early pregnancy. METHOD: Prenatal enzymatic diagnoses of Gaucher, Fabry, Pompe, Niemann Pick A/B, Tay Sach, Sandoff, GM1, mucoplysaccharidoses, Wolman, Krabbe, Metachromatic leukodystrophy and Batten diseases were made in uncultured chorionic villi samples by fluorometric/spectrophotometric methods. RESULTS: Of 331 prenatal enzymatic diagnosis, 207 fetuses (67%) were normal and 124 (37%) were affected. The interpretation of affected, normal and carrier fetuses was done using their respective reference ranges as well as % enzyme activity of normal mean. The prenatal molecular confirmation was feasible in 43 biochemically diagnosed fetuses. Of the 207 normal reported fetuses, post natal enzymatic confirmation was done in 23 babies, clinical status of another 165 babies was assessed as unaffected via questionnaire on telephone and 19 were lost to follow-up. In affected pregnancies, 123 opted for termination of which 44 were confirmed enzymatically after abortion. A single false positive was determined to be a carrier by prenatal mutation analysis and carried to term. CONCLUSION: We recommend uncultured chorionic villi for reliable prenatal enzymatic diagnosis of various lysosomal storage disorders on account of the low rate of false positive (0.5%) and false negative (2.2%) results.

Identification of a Novel TAZ Gene Mutation in a Family With X-Linked Dilated Cardiomyopathy Barth Syndrome

Abstract Mutations in the tafazzin (TAZ) gene on chromosome Xq28 are responsible for the Barth syndrome (BTHS) phenotype resulting in a loss of function in the protein tafazzin involved in the transacylation of cardiolipin, an essential mitochondrial phospholipid. TAZ gene was investigated in the proband in our study, who died of dilated cardiomyopathy at 8 months of age, and his family by sequencing to identify the genetic cause of BTHS. Molecular analysis revealed a novel mutation in exon 5 (c.520T>G) of the TAZ gene. This novel mutation c.520T>G, pW174G, was also found in female carriers (mother and grandmother of proband) in the family. Bioinformatic analysis was carried out to examine the effect of mutation in the gene and confirmed the deleterious effect of this single mutation to the protein structure. Protein modeling and 3-dimensional structure of TAZ protein demonstrated the significantly visible changes in mutated protein leading to BTHS phenotype. Prenatal diagnosis in a subsequent pregnancy showed a carrier female, and pregnancy was continued. Child is doing well at 1 year of age.

Molecular characterisation and prenatal diagnosis of Asparto-acylase deficiency (Canavan disease)--report of two novel and two known mutations from the Indian subcontinent.

OBJECTIVES: To establish a technique for mutation identification and prenatal screening in confirmed cases of Canavan disease. METHOD: Mutations in ASPA gene were identified by sequencing. Six exons of ASPA gene were amplified using intronic primers flanking the exons and then sequenced on ABI 3500Dx automated unit. This technique was used to identify mutations in three cases of Canavan disease. Prenatal diagnosis was performed in two families. RESULTS: Two reported mutations c.162 C > A (p.Asn54Lys) and c.859 G > A (p.Ala287Thr) were identified in two different cases of Canavan disease. Third case was compound heterozygous for two novel mutations (c.728 T > G, p.Ile243Ser; c.902 T > C, p.Leu301Pro). Prenatal diagnosis was performed in three pregnancies in two families, two affected fetuses and one unaffected fetus were identified. CONCLUSIONS: Molecular characterization of Canavan disease helps identify the cause at genetic level, thus confirming diagnosis and enabling identification of carriers in the family. Though enzyme assay and NAA measurement allows diagnosis and prenatal diagnosis of Canavan diasease, molecular methods have the advantage of bringing accuracy in prenatal testing with an earlier result. This is the first case report of mutation studies in Canavan disease from Indian subcontinent.

An unforgettable concurrence: Successfully managed gallstone ileus accompanied by diabetic nephropathy.

BACKGROUND: Gallstone ileus is an uncommon complication of gall stones associated with potentially serious morbidity and mortality. CASE REPORT: We reported a 60-year-old male case who presented with renal failure and pain in right hypochondriac region. He also had a history of brain infarcts along with diabetes which is an additional factor for mortality. On Computed Tomography of the abdomen, he was diagnosed to have cholecystocholedochal fistula including air in the gall bladder and obstruction in the distal part of the ileum. Computed tomography plays an important role to make the proper diagnosis and in treatment. CONCLUSIONS: As in our case, diagnosis was challengeable because of renal failure,diabetes, septicaemia and intestinal obstruction (peritonitis). We did surgery on the basis of peritonitis which remains the only choice in such cases. In follow- up of 1 month patient was doing well and asymptomatic.

Hemoglobinopathies in India--clinical and laboratory aspects.

ß-thalassemia is the most common autosomal recessive genetic disorder in India with a mean carrier frequency of 3.3%, and 7500 to 12,000 children with ß-thalassemia major are born every year. Subjects with thalassemia trait, also known as carriers, have low mean corpuscular volume, low mean corpuscular hemoglobin, and increased hemoglobin A2 (>4%). Patients with ß-thalassemia major have severe anemia and require blood transfusions by 1 year of age, whereas ß-thalassemia intermedia patients have mild to moderate anemia and in most cases require no or infrequent blood transfusions. Genotype/phenotype correlation is helpful for the prediction of the phenotype, and deciding treatment options for ß-thalassemia patients. Genetic analyses include determining the type of ß-globin gene mutation, co-inheritance of α-globin gene deletions/duplications, and Xmn1 polymorphism in γ gene. Success of a ß-thalassemia control program depends on prospective carrier screening followed by genetic counseling and prenatal diagnosis.

An unusual presentation of giant extrathoracic tumor in a child--managed successfully.

Lipoma is one of the most common mesenchymal tumors, usually seen over the trunk and proximal portions of the extremities. However, giant lipomas are very rarely seen over the chest wall and axilla in children. In rural areas, patients usually do not bother to be treated, which leads to complications, as seen in our case. Here, we report a rare case of a three-year-old child who presented with a large swelling on the right side of the anterior chest wall and in the axillary region. On histopathology, the diagnosis was lipoma. At the six-month follow-up, the child was normal without any complications. The clinical features, radiological and pathological findings and management of the lesion are discussed. If such a large tumor is not treated in a timely manner, it can cause respiratory discomfort or lead to malignancy.