Diagnosis and Genetic Counseling for Mitochondrial Disease at the Institute of Medical Genetics, Tokyo Women's Medical University
We performed a retrospective review of medical records of patients seeking genetic counseling for mitochondrial disease at our clinic between 2004 and 2015. Of a total of 31 adult subjects (male to female ratio= 1 : 2.1; mean age at first visit 40 years), 27 (87.1 %) underwent genetic testing. The r...
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| Published in | Tokyo Women's Medical University Journal Vol. 2; pp. 6 - 13 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Society of Tokyo Women's Medical University
20.12.2018
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2432-6186 |
| DOI | 10.24488/twmuj.2018003 |
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| Abstract | We performed a retrospective review of medical records of patients seeking genetic counseling for mitochondrial disease at our clinic between 2004 and 2015. Of a total of 31 adult subjects (male to female ratio= 1 : 2.1; mean age at first visit 40 years), 27 (87.1 %) underwent genetic testing. The results of the genetic testing revealed a gene mutation causing the mitochondrial disease in 20/27 (74.1 %) subjects. The mutation detection ratio in blood samples from symptomatic subjects was 17/22 (77.3 %). The mutation detection ratio differed according to family history of mitochondrial disease. Of the 31 subjects, 13 (42.0 %) learned that they had at-risk family members based on the results of their own genetic testing. Eight female subjects who were single or without a child or pregnant underwent genetic counseling to obtain a precise diagnosis and identify the genetic cause based on a detailed family history and other medical information. The genetic cause in these cases was usually not identified. Even in the case of a precise diagnosis, there may not be sufficient natural history information, which makes presymptomatic and prenatal genetic testing difficult. For subjects with mitochondrial disease and their families, uncertainty about their future leads to great emotional stress. Our findings indicate the importance of providing clear information about the disease and its uncertainties, empathetically listening to the patients, and assisting patients with the process of adapting to their situation. Long-term follow-up is necessary to track changes in symptoms or in family situations, as well as to detect new cases. |
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| AbstractList | We performed a retrospective review of medical records of patients seeking genetic counseling for mitochondrial disease at our clinic between 2004 and 2015. Of a total of 31 adult subjects (male to female ratio= 1 : 2.1; mean age at first visit 40 years), 27 (87.1 %) underwent genetic testing. The results of the genetic testing revealed a gene mutation causing the mitochondrial disease in 20/27 (74.1 %) subjects. The mutation detection ratio in blood samples from symptomatic subjects was 17/22 (77.3 %). The mutation detection ratio differed according to family history of mitochondrial disease. Of the 31 subjects, 13 (42.0 %) learned that they had at-risk family members based on the results of their own genetic testing. Eight female subjects who were single or without a child or pregnant underwent genetic counseling to obtain a precise diagnosis and identify the genetic cause based on a detailed family history and other medical information. The genetic cause in these cases was usually not identified. Even in the case of a precise diagnosis, there may not be sufficient natural history information, which makes presymptomatic and prenatal genetic testing difficult. For subjects with mitochondrial disease and their families, uncertainty about their future leads to great emotional stress. Our findings indicate the importance of providing clear information about the disease and its uncertainties, empathetically listening to the patients, and assisting patients with the process of adapting to their situation. Long-term follow-up is necessary to track changes in symptoms or in family situations, as well as to detect new cases. |
| Author | SAITO, Kayoko IWASAKI, Naoko MATSUO, Mari |
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| References | 12) Kwak SH, Park KS: Role of mitochondrial DNA variation in the pathogenesis of diabetes mellitus. Front Biosci (Landmark Ed) 21: 1151-1167, 2016 17) Koopman WJH, Willems PHGM, Smeitink JAM: Monogenic mitochondrial disorders. N Engl J Med 366: 1132-1141, 2012 1) Chinnery PF: Mitochondrial Disorders Overview In GeneReviews®. University of Washington, Seattle., http://www.ncbi.nlm.nih.gov/books/NBK1224/accessed on June 11, 2018 6) Vialettes BH, Paquis-Flucklinger V, Pelissier JF et al: Phenotypic expression of diabetes secondary to a T14709C mutation of mitochondrial DNA. Comparison with MIDD syndrome (A3243G mutation): a case report. Diabetes Care 20: 1731-1737, 1997 10) Biarnésa J, Rojas I, Fernández-Castañer M et al: Analysis of mutations A3243G, C3256T and mitochondrial deletions in 41 diabetic patients. Med Clin (Barc) 116: 292-293, 2001 (in Spanish 13) Iwasaki N, Babazono T, Tsuchiya K et al: Prevalence of A-to-G mutation at nucleotide 3243 of the mitochondrial tRNALeu (UUR) gene in Japanese patients with diabetes mellitus and end stage renal disease. J Hum Genet 46: 330-334, 2001 7) Graham BH: Diagnostic challenges of mitochondrial disorders.. Methods Mol Biol 837: 35-46, 2012. doi: 10.1007/978-1-61779=504-6_3 15) Harding AE, Holt IJ, Sweeney MG et al: Prenatal diagnosis of mitochondrial DNA8993 T-G disease. Am J Hum Genet 50: 629-633, 1992 3) Schon EA, Bonilla E, DiMauro S: Mitochondrial DNA mutations and pathogenesis. J Bioenerg Biomembr 29: 131-149, 1997 5) van den Ouweland JMW, Lemkes HH, Ruitenbeek W et al: Mutation in mitochondrial tRNALeu (UUR) gene in a large pedigree with maternally transmitted type II diabetes mellitus and deafness. Nat Genet 368-371, 1992 2) Holt IJ, Harding AE, Morgan-Hughes JA: Deletions of muscle mitochondrial DNA in patients with mitochondrial myopathies. Nature 331: 717-719, 1988 14) National Center Hospital National Center of Neurology and Psychiatry, Genetic Counseling Unit: Handbook of Mitochondrial Diseases, http://www.nanbyou.or.jp/upload_files/mt_handbook.pdf (accessed on August 28, 2016) (in Japanese 11) Silva JP, Köhler M, Graff C et al: Impaired insulin secretion and beta-cell loss in tissue-specific knockout mice with mitochondrial diabetes. Nat Genet 26: 336-340, 2000 16) White SL, Collins VR, Wolfe R et al: Genetic counseling and prenatal diagnosis for the mitochondrial DNA mutations at nucleotide 8993. Am J Hum Genet 65: 474-482, 1999 8) Matthews PM, Hopkin J, Brown RM et al: Comparison of the relative levels of the 3243 (A-->G) mtDNA mutation in heteroplasmic adult and fetal tissues. J Med Genet 31: 41-44, 1994 4) Macmillan C, Lach B, Shoubridge EA: Variable distribution of mutant mitochondrial DNAs (tRNA(Leu[3243])) in tissues of symptomatic relatives with MELAS: the role of mitotic segregation. Neurology 43: 1586-1590, 1993 9) Velho G, Byrne MM, Clement K et al: Clinical phenotypes, insulin secretion, and insulin sensitivity in kindreds with maternally inherited diabetes and deafness due to mitochondrial tRNA Leu (UUR) gene mutation. Diabetes 45: 478-487, 1996 |
| References_xml | – reference: 1) Chinnery PF: Mitochondrial Disorders Overview In GeneReviews®. University of Washington, Seattle., http://www.ncbi.nlm.nih.gov/books/NBK1224/accessed on June 11, 2018 – reference: 4) Macmillan C, Lach B, Shoubridge EA: Variable distribution of mutant mitochondrial DNAs (tRNA(Leu[3243])) in tissues of symptomatic relatives with MELAS: the role of mitotic segregation. Neurology 43: 1586-1590, 1993 – reference: 5) van den Ouweland JMW, Lemkes HH, Ruitenbeek W et al: Mutation in mitochondrial tRNALeu (UUR) gene in a large pedigree with maternally transmitted type II diabetes mellitus and deafness. Nat Genet 368-371, 1992 – reference: 3) Schon EA, Bonilla E, DiMauro S: Mitochondrial DNA mutations and pathogenesis. J Bioenerg Biomembr 29: 131-149, 1997 – reference: 9) Velho G, Byrne MM, Clement K et al: Clinical phenotypes, insulin secretion, and insulin sensitivity in kindreds with maternally inherited diabetes and deafness due to mitochondrial tRNA Leu (UUR) gene mutation. Diabetes 45: 478-487, 1996 – reference: 13) Iwasaki N, Babazono T, Tsuchiya K et al: Prevalence of A-to-G mutation at nucleotide 3243 of the mitochondrial tRNALeu (UUR) gene in Japanese patients with diabetes mellitus and end stage renal disease. J Hum Genet 46: 330-334, 2001 – reference: 17) Koopman WJH, Willems PHGM, Smeitink JAM: Monogenic mitochondrial disorders. N Engl J Med 366: 1132-1141, 2012 – reference: 11) Silva JP, Köhler M, Graff C et al: Impaired insulin secretion and beta-cell loss in tissue-specific knockout mice with mitochondrial diabetes. Nat Genet 26: 336-340, 2000 – reference: 12) Kwak SH, Park KS: Role of mitochondrial DNA variation in the pathogenesis of diabetes mellitus. Front Biosci (Landmark Ed) 21: 1151-1167, 2016 – reference: 16) White SL, Collins VR, Wolfe R et al: Genetic counseling and prenatal diagnosis for the mitochondrial DNA mutations at nucleotide 8993. Am J Hum Genet 65: 474-482, 1999 – reference: 15) Harding AE, Holt IJ, Sweeney MG et al: Prenatal diagnosis of mitochondrial DNA8993 T-G disease. Am J Hum Genet 50: 629-633, 1992 – reference: 7) Graham BH: Diagnostic challenges of mitochondrial disorders.. Methods Mol Biol 837: 35-46, 2012. doi: 10.1007/978-1-61779=504-6_3 – reference: 6) Vialettes BH, Paquis-Flucklinger V, Pelissier JF et al: Phenotypic expression of diabetes secondary to a T14709C mutation of mitochondrial DNA. Comparison with MIDD syndrome (A3243G mutation): a case report. Diabetes Care 20: 1731-1737, 1997 – reference: 14) National Center Hospital National Center of Neurology and Psychiatry, Genetic Counseling Unit: Handbook of Mitochondrial Diseases, http://www.nanbyou.or.jp/upload_files/mt_handbook.pdf (accessed on August 28, 2016) (in Japanese) – reference: 2) Holt IJ, Harding AE, Morgan-Hughes JA: Deletions of muscle mitochondrial DNA in patients with mitochondrial myopathies. Nature 331: 717-719, 1988 – reference: 8) Matthews PM, Hopkin J, Brown RM et al: Comparison of the relative levels of the 3243 (A-->G) mtDNA mutation in heteroplasmic adult and fetal tissues. J Med Genet 31: 41-44, 1994 – reference: 10) Biarnésa J, Rojas I, Fernández-Castañer M et al: Analysis of mutations A3243G, C3256T and mitochondrial deletions in 41 diabetic patients. Med Clin (Barc) 116: 292-293, 2001 (in Spanish) |
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| Title | Diagnosis and Genetic Counseling for Mitochondrial Disease at the Institute of Medical Genetics, Tokyo Women's Medical University |
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