TSUCHIYA Ken
   Department   School of Medicine(Tokyo Women's Medical University Hospital), School of Medicine
   Position   Professor (Fixed Term)
Article types Original article
Language English
Peer review Non peer reviewed
Title Germline Mutations for Kidney Volume in ADPKD
Journal Formal name:Kidney international reports.
Abbreviation:Kidney Int Rep
ISSN code:24680249
Volume, Issue, Page 7(3),pp.537-546
Author and coauthor Kataoka Hiroshi, Yoshida Rie, Iwasa Naomi, Sato Masayo, Manabe Shun, Kawachi Keiko, Makabe Shiho, Akihisa Taro, Ushio Yusuke, Teraoka Atsuko, Tsuchiya Ken, Nitta Kosaku, Mochizuki Toshio
Publication date 2021/12/13
Summary Introduction: Valid prediction models or predictors of disease progression in children and young patients with autosomal dominant polycystic kidney disease (ADPKD) are lacking. Although total kidney volume (TKV) and Mayo imaging classification are generally used to predict disease progression in patients with ADPKD, it remains unclear whether germline mutation types are associated with these factors. We therefore investigated the association between mutation type and TKV and Mayo imaging classification among patients with ADPKD.
Methods: A total of 129 patients with ADPKD who underwent genetic analyses were enrolled in the study. The associations between the severity of PKD (TKV ≥ 1000 ml and Mayo classes 1C-1E) and the PKD1 mutation types (nonsense mutation, frameshift or splicing mutation, and substitution) were evaluated.
Results: Among the mutation types, only PKD1 splicing/frameshift mutation had significant associations with TKV ≥ 1000 ml in sex-adjusted and multivariable logistic analyses. Similarly, only the PKD1 splicing/frameshift mutation was significantly associated with Mayo 1C-1E in sex-adjusted and multivariable logistic analyses. PKD1 nonsense mutation, PKD1 substitution, or PKD1 mutation position had no significant association with TKV ≥ 1000 ml or Mayo 1C-1E.
Conclusion: Kidney cyst severity differs according to the mutation types in PKD1. Patients with PKD1 splicing mutations or PKD1 frameshift mutations are associated with TKV ≥ 1000 ml or Mayo 1C-1E. Detailed assessment of mutation types may be useful for predicting renal prognosis in patients with ADPKD and may especially contribute to the care of a high-risk group of children with ADPKD.
DOI 10.1016/j.ekir.2021.12.012
PMID 35257066