6 results on '"Saxena, Deepti"'
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2. Design construction and performance of nanostructured p-Cu2S/n-CdS junction diode
- Author
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Kumar, Mahendra, Kumar, Chandra, Saxena, Deepti, Pratap Singh, Dinesh, Kumar Sharma, Sachin, and Saxena, Kapil
- Published
- 2023
- Full Text
- View/download PDF
3. Resolving fetal hydrops – A rare entity.
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Saxena, Deepti, Tiwari, Amit K., Prasad, Rameshwar, and Srivastav, Saumya
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HYDROPS fetalis , *SEROUS fluids , *ERYTHROCYTES , *EXTRACELLULAR fluid , *EDEMA , *INTRACRANIAL aneurysms - Abstract
Non-immune hydrops fetalis (NIHF) is abnormal accumulation of serous fluid in ≥2 interstitial spaces with no evidence of maternal red cell alloimmunization. Leaving a few treatable conditions, it is generally considered as a sign of poor fetal outcome. Bi-allelic variants in THSD1 have been found to be to be associated with phenotypes ranging from lethal NIHF to persistent edema. Here, we report a family with non-immune hydrops in two successive pregnancies. Whole exome sequencing in second pregnancy identified a homozygous truncating variant in THSD1 (NM_018676:c.892G>T:p.Glu298Ter). Postnatal follow up showed gradual resolution of the accumulated fluid and normal development. This report further strengthens the association of variants in THSD1 with NIHF. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
4. Novel pathogenic variants in an Indian cohort with epidermolysis bullosa: Expanding the genotypic spectrum.
- Author
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Nilay, Mayank, Saxena, Deepti, Mandal, Kausik, Moirangthem, Amita, and Phadke, Shubha R.
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GENOTYPES , *EPIDERMOLYSIS bullosa , *PHENOTYPES , *HEREDITY , *MOLECULAR diagnosis - Abstract
Epidermolysis bullosa (EB) is a genodermatosis characterized by skin fragility and blisters with variable severity. Patients with Dystrophic EB (DEB) or Junctional EB (JEB) mainly present to clinic due to greater functional impairment. Pathogenic sequence variations in COL7A1 are implicated in DEB. We have tried to decipher the molecular spectrum and genotype phenotype correlation of 21 Indian patients with EB. Next generation sequencing (NGS) was performed to determine the pathogenic variants. Sanger sequencing was also done for validation of the variants in eleven individuals. Pathogenic variants were detected in 20 individuals (diagnostic yield of 95%). Majority of them (90%) had sequence variation in COL7A1 while two had pathogenic variants in ITGB4 and KRT14 respectively. Out of the 18 patients confirmed to have DEB, 3 had Dominant DEB (DDEB) whereas 15 patients had Recessive DEB (RDEB). Amongst 23 sequence variations identified, 12 were found to be novel (3 were missense, 5 were premature termination codon variants while 4 were splice-site changes). Genotype phenotype correlation was noted with milder manifestations in those with dominant inheritance types. Exact molecular diagnosis can be ascertained by NGS in majority of cases. • Twenty one individuals clinically suspected with Epidermolysis bullosa(EB) were evaluated for pathogenic variations. • First of its kind study in the subcontinent as molecular diagnosis was done by NGS without undergoing painful skin biopsies. • Majority were found to have Dystrophic EB and recessive mode of inheritance. • Identified 52% novel pathogenic variants in the cohort, further expanding the genotypic spectrum of such genodermatoses. • ~40% of the mutated alleles in COL7A1 were located in exons 3–4 and 73–75 suggesting these may be the hot-spots in Indian population. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
5. Genotype-phenotype spectrum of 130 unrelated Indian families with Mucopolysaccharidosis type II.
- Author
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Agrawal, Neha, Verma, Gaurav, Saxena, Deepti, Kabra, Madhulika, Gupta, Neerja, Mandal, Kausik, Moirangthem, Amita, Sheth, Jayesh, Puri, Ratna Dua, Bijarnia-Mahay, Sunita, Kapoor, Seema, Danda, Sumita, H, Sankar V., Datar, Chaitanya A., Ranganath, Prajnya, Shukla, Anju, Dalal, Ashwin, Srivastava, Priyanka, Devi, Radha Rama, and Phadke, Shubha R.
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MUCOPOLYSACCHARIDOSIS , *SHORT stature , *EXOMES , *MOLECULAR spectra , *LYSOSOMAL storage diseases , *NUCLEOTIDE sequencing , *PHENOTYPES - Abstract
MPS II is an X linked recessive lysosomal storage disorder with multi-system involvement and marked molecular heterogeneity. In this study, we explored the clinical and molecular spectrum of 144 Indian patients with MPS II from 130 unrelated families. Clinical information was collected on a predesigned clinical proforma. Sanger method was employed to sequence all the exons and exon/intron boundaries of the IDS gene. In cases where causative variation was not detected by Sanger sequencing, MLPA and RFLP were performed to identify large deletions/duplications and complex rearrangements. Cytogenetic microarray was done in one patient to see the breakpoints and extent of deletion. In one patient with no detectable likely pathogenic or pathogenic variation, whole-genome sequencing was also performed. Novel variants were systematically assessed by in silico prediction software and protein modelling. The pathogenicity of variants was established based on ACMG criteria. An attempt was also made to establish a genotype-phenotype correlation. Positive family history was present in 31% (41/130) of patients. Developmental delay and intellectual disability were the main reasons for referral. Macrocephaly, coarse facies and dysostosis were present in almost all patients. Hepatosplenomegaly, joint contractures and short stature were the characteristic features, seen in 87% (101/116), 67.8% (74/109) and 41.4% (41/99) patients respectively. Attenuated phenotype was seen in 32.6% (47/144) patients, while severe phenotype was seen in 63% (91/144) patients. The detection rate for likely pathogenic or pathogenic variants in our cohort is 95.5% (107/112) by Sanger sequencing, MLPA and RFLP. We also found two variants of unknown significance, one each by Sanger sequencing and WGS. Total of 71 variants were identified by Sanger sequencing and 29 of these variants were found to be novel. Amongst the novel variants, there was a considerable proportion (51%) of frameshift variants (15/29). Almost half of the causative variants were located in exon 3,8 and 9. A significant genotype-phenotype correlation was also noted for both known and novel variants. This information about the genotype spectrum and phenotype will be helpful for diagnostic and prognostic purposes. [ABSTRACT FROM AUTHOR]
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- 2022
- Full Text
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6. Deciphering the molecular landscape of microcephaly in 87 Indian families by exome sequencing.
- Author
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Masih, Suzena, Moirangthem, Amita, Shambhavi, Arya, Rai, Archana, Mandal, Kausik, Saxena, Deepti, Nilay, Mayank, Agrawal, Neha, Srivastava, Somya, Sait, Haseena, and Phadke, Shubha R.
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MICROCEPHALY , *PHENOTYPIC plasticity , *GENETIC disorders , *MOLECULAR diagnosis , *FAMILIES , *RECESSIVE genes - Abstract
Microcephaly is a frequent feature of neurodevelopmental disorders (NDDs). Our study presents the heterogeneous spectrum of genetic disorders in patients with microcephaly either in isolated form or in association with other neurological and extra-neural abnormalities. We present data of 91 patients from 87 unrelated families referred to our clinic during 2016–2020 and provide a comprehensive clinical and genetic landscape in the studied cohort. Molecular diagnosis using exome sequencing was made in 45 families giving a yield of 51.7%. In 9 additional families probable causative variants were detected. We identified disease causing variations in 49 genes that are involved in different functional pathways Among these, 36 had an autosomal recessive pattern, 8 had an autosomal dominant pattern (all inherited de novo), and 5 had an X-linked pattern. In 41 probands where sequence variations in autosomal recessive genes were identified 31 were homozygotes (including 16 from non-consanguineous families). The study added 28 novel pathogenic/likely pathogenic variations. The study also calls attention to phenotypic variability and expansion in spectrum as well as uncovers genes where microcephaly is not reported previously or is a rare finding. We here report phenotypes associated with the genes for ultra-rare NDDs with microcephaly namely ATRIP , MINPP1 , PNPLA8 , AIMP2 , ANKLE2 , NCAPD2 and TRIT1. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
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