Neonatal Screening for Congenital Adrenal Hyperplasia in Indian Newborns with Reflex Genetic Analysis of 21-Hydroxylase Deficiency

Tippabathani, Jayakrishna; Seenappa, Venu; Murugan, Alagupandian; Phani, Nagaraja Mahishi; Hampe, Mahesh H; Appaswamy, Giridharan; Gambhir, Prakash

doi:10.3390/ijns9010009

Cited by 3 publications

(3 citation statements)

References 25 publications

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“…Reviewing reports from 2020 until now, 2 multi-condition studies have been reported: a 3-year study of CH, CAH, G6PDD, GAL, and PKU in Bengaluru, South India [ 517 ]; and a Canadian collaboration study of CH, CAH, G6PDD, GAL, PKU and BIO in Udupi district of South India [ 518 ]. Reports continue regarding NBS for endocrinopathies: CH screening, prevalence, and etiology in Indian preterm babies [ 519 ]; a report of confirmatory testing from the original DBS to speed diagnosis of CAH (assuming that the DBS and patient match) [ 520 ]; a review of the challenges and opportunities resulting from NBS for CAH [ 521 ]; a case study of a newborn with unnecessary devastating consequences from CAH resulting from no NBS [ 522 ]; a standard operating protocol for routine NBS for CAH in Indian settings [ 523 ]; and a discussion of genetic confirmatory testing for CAH from the original DBS as a means of speeding the diagnostic process [ 520 ].…”

Section: Resultsmentioning

confidence: 99%

Current Status of Newborn Bloodspot Screening Worldwide 2024: A Comprehensive Review of Recent Activities (2020–2023)

Therrell,

Padilla,

Borrajo

et al. 2024

IJNS

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Newborn bloodspot screening (NBS) began in the early 1960s based on the work of Dr. Robert “Bob” Guthrie in Buffalo, NY, USA. His development of a screening test for phenylketonuria on blood absorbed onto a special filter paper and transported to a remote testing laboratory began it all. Expansion of NBS to large numbers of asymptomatic congenital conditions flourishes in many settings while it has not yet been realized in others. The need for NBS as an efficient and effective public health prevention strategy that contributes to lowered morbidity and mortality wherever it is sustained is well known in the medical field but not necessarily by political policy makers. Acknowledging the value of national NBS reports published in 2007, the authors collaborated to create a worldwide NBS update in 2015. In a continuing attempt to review the progress of NBS globally, and to move towards a more harmonized and equitable screening system, we have updated our 2015 report with information available at the beginning of 2024. Reports on sub-Saharan Africa and the Caribbean, missing in 2015, have been included. Tables popular in the previous report have been updated with an eye towards harmonized comparisons. To emphasize areas needing attention globally, we have used regional tables containing similar listings of conditions screened, numbers of screening laboratories, and time at which specimen collection is recommended. Discussions are limited to bloodspot screening.

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Section: Resultsmentioning

confidence: 99%

Current Status of Newborn Bloodspot Screening Worldwide 2024: A Comprehensive Review of Recent Activities (2020–2023)

Therrell,

Padilla,

Borrajo

et al. 2024

IJNS

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“…The risk can be much higher due to the high rates of consanguinity in the country. [ 55 ] Thus, genetic diagnosis in affected probands and carrier testing in their partners before planning pregnancy will be extremely beneficial. Continuous follow-up of both the partners being carriers or CAH-affected individuals marrying a carrier will benefit in better management of CAH-associated pregnancies and drastically reduce the incidence of CAH in India.…”

Section: Linical D Iagnosismentioning

confidence: 99%

“…To overcome the challenges with 17-OHP testing by LC-MS/MS, genetic testing for the most common mutations (screening for hotspot mutations) can be considered in those with elevated 17-OHP on first-line NBS with a turnaround time of 5–7 days. [ 55 ] This can be a suitable alternative for the second-tier LC-MS for accurate and cost-effective diagnosis of 21-OHD.…”

Section: Linical D Iagnosismentioning

confidence: 99%

Congenital Adrenal Hyperplasia – A Comprehensive Review of Genetic Studies on 21-Hydroxylase Deficiency from India

Ravichandran,

Asha,

Mathai

et al. 2024

Indian Journal of Endocrinology and Metabolism

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Congenital adrenal hyperplasia (CAH) comprises a heterogeneous group of autosomal recessive disorders impairing adrenal steroidogenesis. Most cases are caused by mutations in the CYP21A2 gene resulting in 21-hydroxylase (21-OH) deficiency (21-OHD). The genetics of 21-OH CAH is complexed by a highly homologous pseudogene CYP21A1P imposing several limitations in the molecular analysis. Therefore, genetic testing is still not a part of routine CAH diagnosis and is mainly dependent on 17-hydroxy progesterone (OHP) measurements. There are very few reports of CYP21A2 gene analysis from India and there is no comprehensive review available on genetic testing and the spectrum of CYP21A2 mutations from the country. This review focuses on the molecular aspects of 21-OHD and the genetic studies on CYP21A2 gene reported from India. The results of these studies insist the compelling need for large-scale CYP21A2 genetic testing and newborn screening (NBS) in India. With a high disease prevalence and consanguinity rates, robust and cost-effective genetic testing for 21-OH CAH would enable an accurate diagnosis in routine clinical practice. Whereas establishing affordable genotyping assays even in secondary care or resource-poor settings of the country can identify 90% of the mutations that are pseudogene derived, initiatives on reference laboratories for CAH across the nation with comprehensive genetic testing facilities will be beneficial in those requiring extended analysis of CYP21A2 gene. Further to this, incorporating genetic testing in NBS and carrier screening programmes will enable early diagnosis, better risk assessment and community-based management.

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Navigating the Complex Landscape of CYP21A2 Variants

Dubey,

Gupta

2023

Indian J Pediatr

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Neonatal Screening for Congenital Adrenal Hyperplasia in Indian Newborns with Reflex Genetic Analysis of 21-Hydroxylase Deficiency

Cited by 3 publications

References 25 publications

Current Status of Newborn Bloodspot Screening Worldwide 2024: A Comprehensive Review of Recent Activities (2020–2023)

Current Status of Newborn Bloodspot Screening Worldwide 2024: A Comprehensive Review of Recent Activities (2020–2023)

Congenital Adrenal Hyperplasia – A Comprehensive Review of Genetic Studies on 21-Hydroxylase Deficiency from India

Navigating the Complex Landscape of CYP21A2 Variants

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