Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Metabolic Brain Disease
Published in: Metabolic Brain Disease 4/2015

01-08-2015 | Research Article

Increased brain iron deposition is a risk factor for brain atrophy in patients with haemodialysis: a combined study of quantitative susceptibility mapping and whole brain volume analysis

Authors: Chao Chai, Mengjie Zhang, Miaomiao Long, Zhiqiang Chu, Tong Wang, Lijun Wang, Yu Guo, Shuo Yan, E. Mark Haacke, Wen Shen, Shuang Xia

Published in: Metabolic Brain Disease | Issue 4/2015

Login to get access

Abstract

To explore the correlation between increased brain iron deposition and brain atrophy in patients with haemodialysis and their correlation with clinical biomarkers and neuropsychological test. Forty two patients with haemodialysis and forty one age- and gender-matched healthy controls were recruited in this prospective study. 3D whole brain high resolution T1WI and susceptibility weighted imaging were scanned on a 3 T MRI system. The brain volume was analyzed using voxel-based morphometry (VBM) in patients and to compare with that of healthy controls. Quantitative susceptibility mapping was used to measure and compare the susceptibility of different structures between patients and healthy controls. Correlation analysis was used to investigate the relationship between the brain volume, iron deposition and neuropsychological scores. Stepwise multiple regression analysis was used to explore the effect of clinical biomarkers on the brain volumes in patients. Compared with healthy controls, patients with haemodialysis showed decreased volume of bilateral putamen and left insular lobe (All P < 0.05). Susceptibilities of bilateral caudate head, putamen, substantia nigra, red nucleus and dentate nucleus were significantly higher (All P < 0.05). The increased brain iron deposition is negatively correlated with the decreased volume of bilateral putamen (P < 0.01). Neuropsychological scores positively correlated with decreased volume of left insular lobe (P < 0.05). Dialysis duration was negatively associated with decreased volume of bilateral putamen (P < 0.05). Our study indicated increased brain iron deposition and dialysis duration was risk factors for brain atrophy in patients with haemodialysis. The decreased gray matter volume of the left insular lobe was correlated with neurocognitive impairment.
Literature
Ağildere AM, Kurt A, Yildirim T, Benli S, Altinörs N (2001) MRI of neurologic complications in end-stage renal failure patients on hemodialysis: pictorial review. Eur Radiol 11:1063–1069PubMedCrossRef
Belmar L, de Francisco AL, Bueno L, Piñera C, Monfá E, Kislikova M, Seras M, Rodrigo E, Arias M (2014) Strokes in patients on haemodialysis: incidence, onset time and associated factors. Nefrologia 34:347–352PubMed
Brouns R, De Deyn PP (2004) Neurological complications in renal failure: a review. Clin Neurol Neurosurg 107:1–16PubMedCrossRef
Chai C, Yan S, Chu Z, Wang T, Wang L, Zhang M, Zuo C, Haacke EM, Xia S, Shen W (2015) Quantitative measurement of brain iron deposition in patients with haemodialysis using susceptibility mapping. Metab Brain Dis 30:563–571
Drew DA, Sarnak MJ (2014) Ischemic and hemorrhagic stroke: high incidence in hemodialysis and peritoneal dialysis patients. Am J Kidney Dis 63:547–548PubMedCrossRef
Good CD, Johnsrude IS, Ashburner J, Henson RN, Friston KJ, Frackowiak RS (2001) A voxel-based morphometric study of ageing in 465 normal adult human brains. Neuroimage 14:21–36PubMedCrossRef
Haacke EM, Tang J, Neelavalli J, Cheng YC (2010) Susceptibility mapping as a means to visualize veins and quantify oxygen saturation. J Magn Reson Imaging 32:663–676PubMedCentralPubMedCrossRef
Hagemeier J, Weinstock-Guttman B, Bergsland N, Heininen-Brown M, Carl E, Kennedy C, Magnano C, Hojnacki D, Dwyer MG, Zivadinov R (2012) Iron deposition on SWI-filtered phase in the subcortical deep gray matter of patients with clinically isolated syndrome may precede structure-specific atrophy. AJNR Am J Neuroradiol 33:1596–1601PubMedCrossRef
Herweh C, Prager E, Sykora M, Bendszus M (2013) Cerebral atrophy is an independent risk factor for unfavorable outcome after spontaneous supratentorial intracerebral hemorrhage. Stroke 44:968–971PubMedCrossRef
Hsieh TJ, Chang JM, Chuang HY, Ko CH, Hsieh ML, Liu GC, Hsu JS (2009) End-stage renal disease: in vivo diffusion-tensor imaging of silent white matter damage. Radiology 252:518–525PubMedCrossRef
Karkar A (2012) Modalities of hemodialysis: quality improvement. Saudi J Kidney Dis Transpl 23:1145–1161PubMed
Koushik NS, McArthur SF, Baird AD (2010) Adult chronic kidney disease: neurocognition in chronic renal failure. Neuropsychol Rev 20:33–51PubMedCrossRef
Lee JH, Han YH, Kang BM, Mun CW, Lee SJ, Baik SK (2013) Quantitative assessment of subcortical atrophy and iron content in progressive supranuclear palsy and parkinsonian variant of multiple system atrophy. J Neurol 260:2094–2101PubMedCrossRef
Madero M, Gul A, Sarnak MJ (2008) Cognitive function in chronic kidney disease. Semin Dial 21:29–37PubMedCrossRef
Mah S, deVeber G, Wei XC, Liapounova N, Kirton A (2013) Cerebellar atrophy in childhood arterial ischemic stroke: acute diffusion MRI biomarkers. Stroke 44:2468–2474PubMedCrossRef
Murray AM, Tupper DE, Knopman DS, Gilbertson DT, Pederson SL, Li S, Smith GE, Hochhalter AK, Collins AJ, Kane RL (2006) Cognitive impairment in hemodialysis patients is common. Neurology 67:216–223PubMedCrossRef
Prohovnik I, Post J, Uribarri J, Lee H, Sandu O, Langhoff E (2007) Cerebrovascular effects of hemodialysis in chronic kidney disease. J Cereb Blood Flow Metab 27:1861–1869PubMedCrossRef
Sarnak MJ, Tighiouart H, Scott TM, Lou KV, Sorensen EP, Giang LM, Drew DA, Shaffi K, Strom JA, Singh AK, Weiner DE (2013) Frequency of and risk factors for poor cognitive performance in hemodialysis patients. Neurology 80:471–480PubMedCentralPubMedCrossRef
Takata Y, Ansai T, Soh I, Awano S, Nakamichi I, Akifusa S, Goto K, Yoshida A, Fujii H, Fujisawa R, Sonoki K (2014) Cognitive function and 10 year mortality in an 85 year-old community-dwelling population. Clin Interv Aging 9:1691–1699PubMedCentralPubMedCrossRef
van der Veen PH, Muller M, Vincken KL, Mali WP, van der Graaf Y, Geerlings MI, SMART Study Group (2014a) Brain volumes and risk of cardiovascular events and mortality. The SMART-MR study. Neurobiol Aging 35:1624–1631PubMedCrossRef
van der Veen PH, Muller M, Vincken KL, Witkamp TD, Mali WP, van der Graaf Y, Geerlings MI, SMART-MR Study Group (2014b) Longitudinal changes in brain volumes and cerebrovascular lesions on MRI in patients with manifest arterial disease: the SMART-MR study. J Neurol Sci 337:112–118PubMedCrossRef
Wang HH, Hung SY, Sung JM, Hung KY, Wang JD (2014) Risk of stroke in long-term dialysis patients compared with the general population. Am J Kidney Dis 63:604–611PubMedCrossRef
Xia S, Zheng G, Shen W, Liu S, Zhang LJ, Haacke EM, Lu GM (2015) Quantitative measurements of brain iron deposition in cirrhotic patients using susceptibility mapping. Acta Radiol56:339–346
Yoshimitsu T, Hirakata H, Fujii K, Kanai H, Hirakata E, Higashi H, Kubo M, Tanaka H, Shinozaki M, Katafuchi R, Yokomizo Y, Oh Y, Tomooka S, Fujimi S, Fujishima M (2000) Cerebral ischemia as a causative mechanism for rapid progression of brain atrophy in chronic hemodialysis patients. Clin Nephrol 53:445–451PubMed
Zhang LJ, Qi R, Zhong J, Xu Q, Zheng G, Lu GM (2012) The effect of hepatic encephalopathy, hepatic failure, and portosystemic shunt on brain volume of cirrhotic patients: a voxel-based morphometry study. PLoS One 7:e42824PubMedCentralPubMedCrossRef
Zhang LJ, Wen J, Ni L, Zhong J, Liang X, Zheng G, Lu GM (2013) Predominant gray matter volume loss in patients with end-stage renal disease: a voxel-based morphometry study. Metab Brain Dis 28:647–654PubMedCrossRef
Zivadinov R, Heininen-Brown M, Schirda CV, Poloni GU, Bergsland N, Magnano CR, Durfee J, Kennedy C, Carl E, Hagemeier J, Benedict RH, Weinstock-Guttman B, Dwyer MG (2012) Abnormal subcortical deep-gray matter susceptibility-weighted imaging filtered phase measurements in patients with multiple sclerosis: a case–control study. Neuroimage 59:331–339PubMedCrossRef
Metadata
Title
Increased brain iron deposition is a risk factor for brain atrophy in patients with haemodialysis: a combined study of quantitative susceptibility mapping and whole brain volume analysis
Authors
Chao Chai
Mengjie Zhang
Miaomiao Long
Zhiqiang Chu
Tong Wang
Lijun Wang
Yu Guo
Shuo Yan
E. Mark Haacke
Wen Shen
Shuang Xia
Publication date
01-08-2015
Publisher
Springer US
Published in
Metabolic Brain Disease / Issue 4/2015
Print ISSN: 0885-7490
Electronic ISSN: 1573-7365
DOI
https://doi.org/10.1007/s11011-015-9664-2

Other articles of this Issue 4/2015

Metabolic Brain Disease 4/2015 Go to the issue

Research Article

Effects of palatable cafeteria diet on cognitive and noncognitive behaviors and brain neurotrophins’ levels in mice

Review Article

Testosterone deficiency, insulin-resistant obesity and cognitive function

Research Article

The confusion assessment method for the intensive care unit in patients with cirrhosis

Original Paper

Fish oil provides protection against the oxidative stress in pilocarpine model of epilepsy

Research Article

Two novel CAII mutations causing carbonic anhydrase II deficiency syndrome in two unrelated Chinese families

Research Article

Liver transplantation nearly normalizes brain spontaneous activity and cognitive function at 1 month: a resting-state functional MRI study