Genetic analyses reinforce MRI results
Using Mendelian randomization estimates, the authors found that genetic links generally reflected their observational findings. Both genetically predicted gout and serum urate were significantly linked with regional gray matter volumes, including cerebellar, midbrain, pons, and brainstem.
They also found significant links with higher magnetic susceptibility in the putamen and caudate, markers of higher iron. But while genetically predicted gout was significantly linked with global gray matter volume, urate was not.
In males, but not in females, urate was positively linked with alcohol intake and lower socioeconomic status.
Dr. Topiwala acknowledged several limitations to the study, writing that “the results from the volunteer participants may not apply to other populations; the cross-sectional serum urate measurements may not reflect chronic exposure; and Parkinson’s disease and essential tremor may have been diagnostically confounded.”
A novel approach that suggests further related research
Asked to comment on the study, Puja Khanna, MD, MPH, a rheumatologist and clinical associate professor of medicine at the University of Michigan, Ann Arbor, called its novel use of neuroimaging interesting.
Dr. Khanna, who was not involved in the study, said she would like to know more about the role that horizontal pleiotropy – one genetic variant having independent effects on multiple traits – plays in this disease process, and about the impact of the antioxidative properties of urate in maintaining neuroprotection.
“[The] U.K. Biobank is an excellent database to look at questions of association,” John D. FitzGerald, MD, PhD, MPH, MBA, professor and clinical chief of rheumatology at the University of California, Los Angeles, said in an interview.
“This is a fairly rigorous study,” added Dr. FitzGerald, also not involved in the study. “While it has lots of strengths,” including its large sample size and Mendelian randomization, it also has “abundant weaknesses,” he added. “It is largely cross-sectional, with single urate measurement and single brain MRI.”
“Causation is the big question,” Dr. FitzGerald noted. “Does treating gout (or urate) help prevent dementia or neurodegenerative decline?”
Early diagnosis benefits patients
Dr. Khanna and Dr. FitzGerald joined the authors in advising doctors to monitor their gout patients for cognitive and motor symptoms of neurodegenerative disease.
“It is clearly important to pay close attention to the neurologic exam and history in gout, especially because it is a disease of the aging population,” Dr. Khanna advised. “Addressing dementia when gout is diagnosed can lead to prompt mitigation strategies that can hugely impact patients.”
Dr. Topiwala and her colleagues would like to investigate why the dementia risk was time-dependent. “Is this because of the acute inflammatory response in gout, or could it just be that patients with gout visit their doctors more frequently, so any cognitive problems are picked up sooner?” she asked.
The authors, and Dr. Khanna and Dr. FitzGerald, report no relevant financial relationships. The Wellcome Trust; the U.K. Medical Research Council; the European Commission Horizon 2020 research and innovation program; the British Heart Foundation; the U.S. National Institutes of Health; the Engineering and Physical Sciences Research Council; and the National Institute for Health and Care Research funded the study.