2016
DOI: 10.1136/jmedgenet-2016-104297
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Risk assessment of maternally inheritedSDHDparaganglioma and phaeochromocytoma

Abstract: This study demonstrates that the risk of developing PPGL for a subject carrying a germline SDHD mutation on the maternal allele remains a rare scenario but does exist. Our data suggest an adjustment of current genetic counselling and clinical care recommendations for at-risk subjects. A targeted familial genetic test should be proposed from the age of 18 years to every subject having a mother carrying a germline SDHD mutation and a first medical workup, including imaging, should be recommended to SDHD-positive… Show more

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Cited by 42 publications
(22 citation statements)
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“…Individuals with germline mutations associated with PGL/PCC should undergo lifelong clinical, biochemical, and imaging surveillance (30,40). Followup should be offered to unaffected and affected mutation carriers and relatives at risk based on family history who have not yet undergone genetic testing (2).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Individuals with germline mutations associated with PGL/PCC should undergo lifelong clinical, biochemical, and imaging surveillance (30,40). Followup should be offered to unaffected and affected mutation carriers and relatives at risk based on family history who have not yet undergone genetic testing (2).…”
Section: Discussionmentioning
confidence: 99%
“…It has been proposed that genetic testing be offered from the age of 18 years to every person whose parent has a germline SDHD mutation, and further suggested that a primary medical evaluation, including imaging, be provided for confirmed SDHD carriers (40). This recommendation includes individuals for whom the affected parent is their mother, despite the aforementioned paternal parent-of-origin effect of SDHD mutations because, although rare, there have been cases of PGL/PCC in individuals carrying a germline SDHD mutation on the maternal allele (40).…”
Section: Discussionmentioning
confidence: 99%
“…Lack of the paternal chromosome 11 does not lead to tumor initiation due to a maternal oncosuppressor locus in the 11p15 region (imprinted in the father) (81). Thus, the family history may show a "skip-generation" pattern of inheritance (73,82,83). Very rarely, loss of the paternal 11q (where SDHD allele is located) and a mitotic recombination of the maternal 11q (carrying an SDHD mutation) with the paternal 11p15 imprinted oncossupressor region may lead to the phenotypic expression of the disease, inherited from the mother (73,82,83).…”
Section: Multifocal Tumorsmentioning
confidence: 99%
“…Lack of the paternal chromosome 11 does not lead to tumor initiation due to a maternal oncosuppressor locus in the 11p15 region (imprinted in the father) [ 91 ]. Thus, the family history may show a “skip-generation” pattern [ 49 , 92 , 93 ]. Very rarely, loss of the paternal 11q (where SDHD allele is located) and a mitotic recombination of the maternal 11q (carrying an SDHD mutation) with the paternal 11p15 imprinted oncosuppressor region may lead to the phenotypic expression of the disease, inherited from the mother [ 49 , 91 93 ].…”
Section: Genetic Basis Of Pediatric Pheo: Which Genes Should We Thmentioning
confidence: 99%