Non-spherocytic hemolytic anemia caused by erythrocyte pyruvate kinase defiiency: the analysis of genetic defects in pediatric patients, living in Russian Federation-Reference-Cited by-同舟云学术

Non-spherocytic hemolytic anemia caused by erythrocyte pyruvate kinase defiiency: the analysis of genetic defects in pediatric patients, living in Russian Federation

Published:2021-05-22 Issue:2 Volume:20 Page:84-96
ISSN:2414-9314
Container-title:Pediatric Hematology/Oncology and Immunopathology
language:
Short-container-title:Voprosy gematologii/onkologii i immunopatologii v pediatrii

Author:

Cherniak E. A.¹,Sokolova N. E.²,Semiglazova K. V.¹,Lavrentyeva I. N.³,Donush E. K.⁴,Plaksina O. I.⁵,Borisova M. V.⁶,Danilyuk N. A.⁷,Mitrofanova E. S.⁸,Baturskaya I. P.⁹,Revina N. G.¹⁰,Burlutskaya T. I.¹¹,Rakov M. A.¹²,Evstratov A. V.¹³,Tselousova O. M.¹⁴,Lebedev V. V.¹⁵,Chaplygina N. V.¹⁶,Koryakina I. V.¹⁷,Osmulskaya N. S.¹⁸,Afanasyeva E. I.¹⁹,Nikonova O. E.²⁰,Sokolova L. I.²¹,Tsedenisheeva E. Kh.²²,Yunusova I. M.²³,Zauralov E. O.²⁴,Osipova I. V.²⁵,Aslanyan K. S.²⁶,Sipacheva E. V.²⁷,Boldyreva O. P.²⁸,Kazaryan G. R.²⁹,Basharova E. V.³⁰,Mann S. G.³¹,Kurnikova M. A.³¹,Raikina E. V.³¹,Smetanina N. S.³¹

Affiliation:

1. Dmitry Rogachev National Medical Research Center of Pediatric Hematology, Oncology and Immunology, Ministry of Healthcare of the Russian Federation, Moscow

2. Children's City Multidisciplinary Clinical Specialized Center of High Medical Technologies, Saint-Petersburg

3. Morozov Children’s City Clinical Hospital, Department of Health in Moscow, Moscow

4. Russian Children's Clinical Hospital of the N.I. Pirogov Russian National Research Medical University of Ministry of Healthcare of the Russian Federation, Moscow

5. Regional Children's Clinical Hospital, Nizhny Novgorod

6. Krasnoyarsk Regional Clinical Center for Maternity and Childhood Protection, Perinatal Center, Krasnoyarsk

7. Regional Oncological Dispensary, Penza

8. Children's Regional Clinical Hospital, Tula

9. Amur Regional Children's Clinical Hospital, Blagoveshchensk

10. Regional Children's Clinical Hospital named after P.G. Vyzhletsova, Arkhangelsk

11. Children's Regional Clinical Hospital, Belgorod

12. Regional Children's Hospital, Bryansk

13. Regional Clinical Children's Hospital, Kaluga

14. Kirov Research Institute of Hematology and Blood Transfusion, FMBA of Russia, Kirov

15. Children's Regional Clinical Hospital, Krasnodar

16. Regional Children's Clinical Hospital, Kursk

17. Regional Children's Hospital, Lipetsk

18. Regional Children's Clinical Hospital, Omsk

19. Regional Children's Clinical Hospital, Orenburg

20. Perm Regional Children’s Clinical Hospital, Perm

21. Children's city hospital. Republican Children's Oncohematological Center, Yoshkar-Ola

22. Children's Republican Clinical Hospital, Ulan-Ude

23. N.M. Kuraev Children's Republican Clinical Hospital, Ministry of Healthcare of the Republic of Dagestan, Makhachkala

24. Children's Republican Clinical Hospital, Saransk

25. Regional Children’s Clinical Hospital, Kazan

26. Regional Children's Clinical Hospital, Rostov-on-Don

27. Regional Children's Clinical Hospital, Tambov

28. Regional Clinical Hospital №1, Tyumen

29. Regional Children’s Clinical Hospital, Nizhnevartovsk

30. Regional Children's Clinical Hospital, Chelyabinsk

31. Dmitry Rogachev National Medical Research Center of Pediatric Hematology, Oncology and Immunology, Ministry of Healthcare of the Russian Federation, Moscow

Abstract

The article presents retrospective data analysis of a cohort of patients with PKD (n = 41 patients, aged 4 months – 26,5 years, median of age – 5 years 1 month) who were examined at the Dmitry Rogachev National Medical Research Center of Pediatric Hematology, Oncology and Immunology for unspecifid hereditary hemolytic anemia during the period 2013–2020. The study was approved by the Independent Ethics Committee of the Dmitry Rogachev National Medical Research Center of Pediatric Hematology, Oncology and Immunology. In all patients, the diagnosis was confimed by Next Generation sequencing (NGS). The homozygous mutations in the PKLR gene were found in 10 patients (24.39%), compound heterozygous mutations in 31 patients (75.61%), 77.78% of them were missense mutations. Gender distribution (male:female) was 1:1.73. At least once transfusion of erythrocyte suspension was required to 40 (97.56%) patients. The minimum age at the time of the debut of transfusion dependence was the fist day of life, the maximum was 4 years. Exchange blood transfusion was performed in 13 children, severe normocytic hyperregenerative anemia with transfusion of red blood cells in the fist days of life was noted in 12 children, at the 1st month of life – in 9 children, at the 2nd month of life – in 8 children, at the 3rd month – in 6 children, at the 5th month – in 2 children, at the 1st year – in 1 child, and 2 children underwent single transfusions on the background of infectious episodes at 3 and 4 years respectively. Splenectomy due to high transfusion dependence was performed in 10 patients: transfusion independence was achieved in 5 patients, in 5 – an increase in the interval between blood transfusions. Median of surgical intervention (9 patients): 7 years 4 months, minimum age – 1 year 4 months, maximum – 14 years 4 months. In total, 36 genotypes were described in 41 patients, among them were: c.1529G>A in 3 patients, c.1137_1139del / c.1456C>T – in 2 patients, c.1079G>A/c.1529G>A in 2 patients, c.1130T>C/c.1456C>T in 2 patients, other genotypes occurred once. Two mutations were the most frequent: c.1456C>T (16.67%) and c.1529G>A (16.67%). 19 (46,34%) of patients had previously not described mutations.

Publisher

Fund Doctors, Innovations, Science for Children

Subject

Oncology,Hematology,Immunology,Immunology and Allergy,Pediatrics, Perinatology and Child Health

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