Alzheimer's Disease-Related Polymorphisms in Shunt-Responsive Idiopathic Normal Pressure Hydrocephalus
Tiedosto(t)
Rinnakkaistallenteen versio
final draftPäivämäärä
2017Tekijä(t)
Yksilöllinen tunniste
10.3233/JAD-170583Metadata
Näytä kaikki kuvailutiedotLisätietoa
Rinnakkaistallenne
Viittaus
Huovinen J. Helisalmi S. Paananen J. Laiterä T. Kojoukhova M. Sutela A. Vanninen R. Laitinen M. Rauramaa T. Koivisto AM. Remes AM. Soininen H. Kurki M. Haapasalo A. Jääskeläinen JE. Hiltunen M. Leinonen V. (2017). Alzheimer's Disease-Related Polymorphisms in Shunt-Responsive Idiopathic Normal Pressure Hydrocephalus. Journal of Alzheimer's Disease, 60 (3) , 1077-1085. 10.3233/JAD-170583.Oikeudet
Tiivistelmä
Background:
Idiopathic normal pressure hydrocephalus (iNPH) is a late onset, surgically treated progressive brain disease caused by impaired cerebrospinal fluid dynamics and subsequent ventriculomegaly. Comorbid Alzheimer’s disease (AD) seems to be frequent in iNPH.
Objective:
We aim to evaluate the role of AD-related polymorphisms in iNPH.
Methods:
Overall 188 shunt-operated iNPH patients and 688 controls without diagnosed neurodegenerative disease were included into analysis. Twenty-three single-nucleotide polymorphisms (SNPs FRMD4A [rs7081208_A, rs2446581_A, rs17314229_T], CR1, BIN, CD2AP, CLU, MS4A6A, MS4A4E, PICALM, ABCA7, CD33, INPP5D, HLA_DRB5, EPHA1, PTK2B, CELF1, SORL1, FERMT2, SLC24A, DSG2, CASS4, and NME8) adjusted to APOE were analyzed between groups by using binary logistic regression analysis. Neuroradiological characteristics and AD-related changes in the right frontal cortical brain biopsies were available for further analysis.
Results:
Logistic regression analysis adjusted to age, gender, and other SNPs indicated allelic variation of NME8 between iNPH patients and non-demented controls (p = 0.014). The allelic variation of NME8 was not related to the neuropathological changes in the brain biopsies of iNPH patients. However, periventricular white matter changes (p = 0.017) were more frequent in the iNPH patients with the AA-genotype, an identified risk factor of AD.
Conclusions:
Our findings increase the evidence that iNPH is characterized by genetic and pathophysiological mechanisms independent from AD. Considering that NME8 plays a role in the ciliary function and displays SNP-related diversity in white matter changes, the mechanisms of NME8 in iNPH and other neurodegenerative processes are worth further study.
Avainsanat
Linkki alkuperäiseen julkaisuun
http://dx.doi.org/10.3233/JAD-170583Julkaisija
IOS PressKokoelmat
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