Conference Coverage

How Does TMS Benefit Patients With Parkinson’s Disease?

In conjunction with exercise, TMS improves motor function, but sham stimulation provides similar results.


MIAMI—For patients with Parkinson’s disease, a regime of transcranial magnetic stimulation (TMS) and aerobic exercise results in motor improvements that are sustained for one month, according to a study presented at the Second Pan American Parkinson’s Disease and Movement Disorders Congress. Another study by the same researchers indicates that stimulation of two regions in the premotor associative cortex, compared with stimulation of one region, improves axial symptoms in Parkinson’s disease. Both studies suggest that TMS prolongs the cortical silent period.

TMS Prolonged Cortical Silent Period

Aerobic exercise improves the motor symptoms of Parkinson’s disease. A proposed mechanism for this improvement is the enhancement of brain-derived neurotrophic factor (BDNF) signaling or activity. TMS also improves motor symptoms of Parkinson’s disease, and rat studies indicate that it enhances BDNF-tropomyosin receptor kinase B (TrkB) signaling, which is a biomarker of plasticity.

Milton C. Biagioni, MD, Assistant Professor of Neurology at the Marlene and Paolo Fresco Institute for Parkinson’s and Movement Disorders at NYU Langone Health in New York, and colleagues studied differences in BDNF-TrkB signaling between 16 patients with Parkinson’s disease and five healthy controls. Levels of all TrkB signaling biomarkers were significantly higher in healthy controls than in patients with Parkinson’s disease.

Dr. Biagioni and colleagues also investigated the biologic effects, motor outcomes, and physiologic outcomes of repetitive TMS and aerobic exercise in patients with Parkinson’s disease in a randomized, double-blind trial. In this trial, 16 patients with Parkinson’s disease participated in daily 40-minute sessions of aerobic exercise. Participants were randomized 1:1 to receive high-frequency repetitive TMS or sham stimulation over the motor cortex. Patients exercised on a recumbent linear cross trainer.

Motor outcomes included the Unified Parkinson’s Disease Rating Scale (UPDRS) and Timed Up and Go (TUG) test. Neurophysiologic outcomes included the cortical silent period, motor threshold, and paired-associative stimulation (PAS-25). The researchers obtained peripheral blood lymphocytes from participants in the morning to measure BDNF activity. Outcomes were measured at baseline, two weeks after the intervention, and one month after the intervention.

Among patients with Parkinson’s disease, mean age was about 65. Mean disease duration was eight years, and mean UPDRS III score was 46.4. The researchers found no significant differences at baseline between patients randomized to TMS and those randomized to sham.

BDNF-TrkB signaling increased by 29.3% in the sham group and by 36.6% in the TMS group. Both increases were statistically significant, but the difference between groups was not significant. At one month, the cortical silent period was significantly prolonged after TMS, compared with sham. All patients had significant improvement in UPDRS III. Improvements in UPDRS III and TUG were sustained for one month in the TMS group.

Multifocal Stimulation Improved Axial Score

A previous study indicated that low-frequency repetitive TMS over the supplementary motor area (SMA) effectively improves motor symptoms in Parkinson’s disease. Like the SMA, the dorsal premotor cortex (PMd) is involved in motor planning and motor control. Researchers had not previously studied multifocal TMS over both targets, and Dr. Biagioni and colleagues decided to examine this technique.

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