Метод секвенирования нового поколения в дифференциальной диагностике сахарного диабета у детей

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Метод секвенирования нового поколения в дифференциальной диагностике сахарного диабета у детей. / Ivanov, D. O.; Turkunova, M. E.; Ditkovskaya, L. V.; Barbitoff, Yu A.; Serebryakova, E. A.; Glotov, O. S.; Glotov, A. S.; Berseneva, S.; Scorodok, J. L.; Efimova, O. A.; Zhelenina, L. A.; Ivashchenko, T. E.; Suspitsyn, E. N.; Bashnina, E. B.

In: ВОПРОСЫ ПРАКТИЧЕСКОЙ ПЕДИАТРИИ, Vol. 17, No. 1, 01.01.2022, p. 84-94.

Research output: Contribution to journal › Article › peer-review

Author

Ivanov, D. O. ; Turkunova, M. E. ; Ditkovskaya, L. V. ; Barbitoff, Yu A. ; Serebryakova, E. A. ; Glotov, O. S. ; Glotov, A. S. ; Berseneva, S. ; Scorodok, J. L. ; Efimova, O. A. ; Zhelenina, L. A. ; Ivashchenko, T. E. ; Suspitsyn, E. N. ; Bashnina, E. B. / Метод секвенирования нового поколения в дифференциальной диагностике сахарного диабета у детей. In: ВОПРОСЫ ПРАКТИЧЕСКОЙ ПЕДИАТРИИ. 2022 ; Vol. 17, No. 1. pp. 84-94.

BibTeX

@article{fa50e89a47cd49a1a28e5e652b13dca4,

title = "Метод секвенирования нового поколения в дифференциальной диагностике сахарного диабета у детей",

abstract = "In addition to type 1 and 2 diabetes mellitus (DM), endocrine disorders in children include hereditary forms of diabetes, such as maturity onset diabetes of the young (MODY). Since pathogenic mechanisms of chronic hyperglycemia in MODY are different from those in DM1 and DM2, it requires other therapeutic approaches. The diagnosis of MODY is confirmed by expensive molecular testing, such as next generation sequencing (NGS). Therefore, the strategy of choosing candidates for NGS is very important. Objective. To optimize the algorithm of choosing patients for NGS testing for DM type verification. Patients and methods. This study included 97 patients aged 1–18 years suspected of having MODY. We used NGS to confirm the diagnosis and identify polymorphisms in MODY-associated genes. Results. Fifty-three patients were found to have polymorphisms in MODY-associated genes, including GCK gene (MODY2) (n = 44), NHF1A gene (MODY3) (n = 8), and PAX4 gene (MODY9) (n = 1). Comparison of family histories of patients with MODY-associated polymorphisms and those in whom clinical diagnosis of MODY was not confirmed by NGS demonstrated significant differences: children with verified MODY were more likely to have first-degree relatives with some carbohydrate metabolism disorder (CMDs). Clinical, laboratory, and anthropometric parameters, as well as levels of insulin secretion and carbohydrate metabolism were similar in both groups. However, patients with non-confirmed MODY received insulin therapy more frequently than those with verified MODY as the majority of them were on a diet. Conclusion. NGS confirms the diagnosis of MODY in patients with different CMDs. A tailored approach should be used to choose patients for NGS to confirm MODY.",

keywords = "diabetes mellitus, GCK, HNF1A, MODY, monogenic diabetes mellitus in children, next generation sequencing",

author = "Ivanov, {D. O.} and Turkunova, {M. E.} and Ditkovskaya, {L. V.} and Barbitoff, {Yu A.} and Serebryakova, {E. A.} and Glotov, {O. S.} and Glotov, {A. S.} and S. Berseneva and Scorodok, {J. L.} and Efimova, {O. A.} and Zhelenina, {L. A.} and Ivashchenko, {T. E.} and Suspitsyn, {E. N.} and Bashnina, {E. B.}",

year = "2022",

month = jan,

day = "1",

doi = "10.20953/1817-7646-2022-1-84-94",

language = "русский",

volume = "17",

pages = "84--94",

journal = "ВОПРОСЫ ПРАКТИЧЕСКОЙ ПЕДИАТРИИ",

issn = "1817-7646",

publisher = "Dinastiia",

number = "1",

}

RIS

TY - JOUR

T1 - Метод секвенирования нового поколения в дифференциальной диагностике сахарного диабета у детей

AU - Ivanov, D. O.

AU - Turkunova, M. E.

AU - Ditkovskaya, L. V.

AU - Barbitoff, Yu A.

AU - Serebryakova, E. A.

AU - Glotov, O. S.

AU - Glotov, A. S.

AU - Berseneva, S.

AU - Scorodok, J. L.

AU - Efimova, O. A.

AU - Zhelenina, L. A.

AU - Ivashchenko, T. E.

AU - Suspitsyn, E. N.

AU - Bashnina, E. B.

PY - 2022/1/1

Y1 - 2022/1/1

N2 - In addition to type 1 and 2 diabetes mellitus (DM), endocrine disorders in children include hereditary forms of diabetes, such as maturity onset diabetes of the young (MODY). Since pathogenic mechanisms of chronic hyperglycemia in MODY are different from those in DM1 and DM2, it requires other therapeutic approaches. The diagnosis of MODY is confirmed by expensive molecular testing, such as next generation sequencing (NGS). Therefore, the strategy of choosing candidates for NGS is very important. Objective. To optimize the algorithm of choosing patients for NGS testing for DM type verification. Patients and methods. This study included 97 patients aged 1–18 years suspected of having MODY. We used NGS to confirm the diagnosis and identify polymorphisms in MODY-associated genes. Results. Fifty-three patients were found to have polymorphisms in MODY-associated genes, including GCK gene (MODY2) (n = 44), NHF1A gene (MODY3) (n = 8), and PAX4 gene (MODY9) (n = 1). Comparison of family histories of patients with MODY-associated polymorphisms and those in whom clinical diagnosis of MODY was not confirmed by NGS demonstrated significant differences: children with verified MODY were more likely to have first-degree relatives with some carbohydrate metabolism disorder (CMDs). Clinical, laboratory, and anthropometric parameters, as well as levels of insulin secretion and carbohydrate metabolism were similar in both groups. However, patients with non-confirmed MODY received insulin therapy more frequently than those with verified MODY as the majority of them were on a diet. Conclusion. NGS confirms the diagnosis of MODY in patients with different CMDs. A tailored approach should be used to choose patients for NGS to confirm MODY.

AB - In addition to type 1 and 2 diabetes mellitus (DM), endocrine disorders in children include hereditary forms of diabetes, such as maturity onset diabetes of the young (MODY). Since pathogenic mechanisms of chronic hyperglycemia in MODY are different from those in DM1 and DM2, it requires other therapeutic approaches. The diagnosis of MODY is confirmed by expensive molecular testing, such as next generation sequencing (NGS). Therefore, the strategy of choosing candidates for NGS is very important. Objective. To optimize the algorithm of choosing patients for NGS testing for DM type verification. Patients and methods. This study included 97 patients aged 1–18 years suspected of having MODY. We used NGS to confirm the diagnosis and identify polymorphisms in MODY-associated genes. Results. Fifty-three patients were found to have polymorphisms in MODY-associated genes, including GCK gene (MODY2) (n = 44), NHF1A gene (MODY3) (n = 8), and PAX4 gene (MODY9) (n = 1). Comparison of family histories of patients with MODY-associated polymorphisms and those in whom clinical diagnosis of MODY was not confirmed by NGS demonstrated significant differences: children with verified MODY were more likely to have first-degree relatives with some carbohydrate metabolism disorder (CMDs). Clinical, laboratory, and anthropometric parameters, as well as levels of insulin secretion and carbohydrate metabolism were similar in both groups. However, patients with non-confirmed MODY received insulin therapy more frequently than those with verified MODY as the majority of them were on a diet. Conclusion. NGS confirms the diagnosis of MODY in patients with different CMDs. A tailored approach should be used to choose patients for NGS to confirm MODY.

KW - diabetes mellitus

KW - GCK

KW - HNF1A

KW - MODY

KW - monogenic diabetes mellitus in children

KW - next generation sequencing

UR - http://www.scopus.com/inward/record.url?scp=85127526611&partnerID=8YFLogxK

U2 - 10.20953/1817-7646-2022-1-84-94

DO - 10.20953/1817-7646-2022-1-84-94

M3 - статья

AN - SCOPUS:85127526611

VL - 17

SP - 84

EP - 94

JO - ВОПРОСЫ ПРАКТИЧЕСКОЙ ПЕДИАТРИИ

JF - ВОПРОСЫ ПРАКТИЧЕСКОЙ ПЕДИАТРИИ

SN - 1817-7646

IS - 1

ER -

ID: 115626177