Publications (2)11.46 Total impact
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Article: Silent infarcts and cerebral microbleeds modify the associations of white matter lesions with gait and postural stability: population-based study.
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ABSTRACT: Although cerebral white matter lesions (WMLs), silent infarcts (SIs), and microbleeds (MBs) are individually associated with poorer gait and balance, it is unknown if they interact. We studied the interactions of WML volume with SI and MB on gait and postural stability. Participants in a population-based study aged 60 to 86 years underwent brain MRI, computerized gait measurement, and a physiological profile assessment of postural stability. Segmentation procedures and standard rating methods were used to measure WML, SI, and MB. Linear regression was used to test interactions between lesions on gait and postural stability, adjusting for age, sex, and total intracranial volume. There were 395 participants (mean age, 72 years; SD, 7.0). SIs were predominantly located in subcortical frontal white matter and in deep gray structures, and MBs were largely lobar. Participants with SI or MB had higher WML volumes than those without (P<0.001 and P=0.05, respectively). The presence of SI (P for interaction=0.01) or MB (P for interaction <0.01) magnified the adverse association of WML volume with gait. SI (P for interaction=0.02), but not MB, magnified the adverse association of WML volume with postural stability. Subclinical cerebrovascular lesions are adversely associated with gait and postural stability in older people in a cumulative fashion.Stroke 03/2012; 43(6):1505-10. · 5.73 Impact Factor -
Article: Cerebral white matter lesions, gait, and the risk of incident falls: a prospective population-based study.
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ABSTRACT: The association between cerebral white matter lesions (WMLs) and the risk of falls in older people is uncertain, with no supporting prospective evidence. We aimed to determine the risk of incident falls associated with WML volume, and the interactions between WML volume, gait, and other sensorimotor factors leading to falls. We conducted a prospective, population-based study (n=294, mean age 72.3 years, independently mobile). Volumetric MRI, computerized gait measures, and sensorimotor measures of falls risk were obtained at baseline. Incident falls were recorded prospectively over a 12-month period. Using regression modeling, we estimated the risk of incident falls associated with baseline WML volume. Increasing baseline WML volume was independently associated with any incident fall (P=0.01) and multiple incident falls (P=0.02). The risk of incident falls was doubled in people with lesion volumes in the highest quintile of its distribution compared with the lowest (adjusted relative risk, 2.32; 95% CI, 1.28-4.14). Greater lesion volume was also associated with poorer gait and greater gait variability (both P<0.001). The effect of WML volume on the risk of falls was magnified in people with poorer quadriceps muscle strength (P=0.03) and greater gait variability (P=0.001). These data provide the first prospective evidence to our knowledge demonstrating that WMLs are strong risk factors for falls in the general older population. WMLs present potential therapeutic targets for interventional trials in falls prevention.Stroke 10/2008; 40(1):175-80. · 5.73 Impact Factor
