In this multicenter randomized clinical trial, 24 months of moderate to vigorous aerobic exercise, intensive pharmacological reduction of blood pressure and serum LDL cholesterol, or the combination of these interventions did not significantly improve global cognitive function compared to usual care in older adults with hypertension and either family history of dementia or subjective cognitive decline.

Exercise and intensive vascular risk reduction each improved cardiovascular parameters, but no group differences were observed for changes in the Preclinical Alzheimer Cognitive Composite or NIH Toolbox Cognition Battery scores.

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Question Can exercise, intensive pharmacological reduction of blood pressure (BP) and serum low-density lipoprotein cholesterol (LDL-C), or the combination of these interventions improve cognitive function in older adults with family history of dementia and/or self-reported subjective cognitive decline?

Findings In this randomized clinical trial of 513 participants, moderate to vigorous aerobic exercise training, intensive pharmacological lowering of BP and serum LDL-C, or both did not result in statistically significant differences in improvements in global cognitive function over 24 months.

Meaning The findings do not provide evidence in support of exercise, intensive reduction of BP and serum LDL-C, or both for improving cognitive function in older adults with family history of dementia and/or self-reported subjective cognitive decline.

Neuroscientists at University of Iowa Health Care have demonstrated for the first time that noninvasive brain stimulation can alter the activity of a critical deep brain region involved in emotion and memory. Moreover, the study shows that personalizing the stimulation site using a patient’s unique brain connectivity pathway can increase the neuromodulation effect.

The study, published recently in Nature Communications, used innovative, concurrent brain stimulation and recording techniques in people to provide direct human evidence that noninvasive transcranial magnetic stimulation (TMS) can reliably engage and modulate activity in the hippocampus.

The hippocampus is a deep brain region that plays a critical role in multiple brain functions, such as memory and emotion. Problems with hippocampal function have been implicated in several neurological and neuropsychiatric conditions, including Alzheimer’s disease, depression, anxiety, and post-traumatic stress disorder (PTSD).

💬 Editorial by Holly Elser, MD, PhD, and Jonathan Graff-Radford, MD:

Recent randomized clinical trials on dementia prevention highlight several challenges in interpreting lifestyle intervention studies, including practice and Hawthorne effects, modest changes in cognitive outcomes, and heterogeneity in both trial design and participant baseline risk.

The trial by Zhang et al—evaluating aerobic exercise and intensive vascular risk reduction—showed no significant cognitive benefit over 2 years in older adults at elevated risk, underscoring the potential influence of midlife vs late-life intervention timing and the need for longer trials or biomarker-enriched cohorts to better assess dementia prevention strategies.

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Dementia prevention is a global public health priority,^1,2 with up to 45% of cases potentially attributable to modifiable risk factors over the life course.³ While recent landmark trials, including FINGER, SPRINT MIND, and POINTER, suggest either single-or multidomain lifestyle interventions can improve cognitive outcomes,^4-6 others have shown no clear benefit,^7,8 thus highlighting ongoing uncertainty in the field.

In this issue of JAMA Neurol ogy, Zhang and colleagues⁹ report the results of a single-blind, multicenter randomized clinical trial of the effects of exercise and intensive vascular risk reduction on cognitive function. Eligible study participants were between the ages of 60 and 85 years at baseline with a history of hypertension, family history of dementia, or self-reported cognitive decline. The study used a 2 × 2 factorial design wherein participants were randomized to aerobic exercise training alone, intensive pharmacological reduction of cardiovascular risk factors (IRVR) alone, both aerobic exercise and IRVR, or usual care for a 24-month period. The IRVR protocol lowered systolic blood pressure to less than 130 mm Hg, and participants with baseline serum low-density lipoprotein cholesterol (LDL-C) of 70 mg/dL or higher were also treated with a high-intensity statin.