Unilateral subthalamic nucleus stimulation has a measurable ipsilateral effect on rigidity and bradykinesia in parkinson disease

Samer D. Tabbal, Mwiza Ushe, Jonathan W. Mink, Fredy J. Revilla, Angie R. Wernle, Minna Hong, Morvarid Karimi, Joel S. Perlmutter

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59 Scopus citations

Abstract

Background: Bilateral deep brain stimulation (DBS) of the subthalamic nucleus (STN) improves motor function in Parkinson disease (PD). However, little is known about the quantitative effects on motor behavior of unilateral STN DBS. Methods: In 52 PD subjects with STN DBS, we quantified in a double-blinded manner rigidity (n = 42), bradykinesia (n = 38), and gait speed (n = 45). Subjects were tested in four DBS conditions: both on, left on, right on and both off. A force transducer was used to measure rigidity across the elbow, and gyroscopes were used to measure angular velocity of hand rotations for bradykinesia. About half of the subjects were rated using the Unified Parkinson Disease Rating Scale (part III) motor scores for arm rigidity and repetitive hand rotation simultaneously during the kinematic measurements. Subjects were timed walking 25 feet. Results: All subjects had significant improvement with bilateral STN DBS. Contralateral, ipsilateral and bilateral stimulation significantly reduced rigidity and bradykinesia. Bilateral stimulation improved rigidity more than unilateral stimulation of either side, but there was no significant difference between ipsilateral and contralateral stimulation. Although bilateral stimulation also increased hand rotation velocity more than unilateral stimulation of either side, contralateral stimulation increased hand rotation significantly more than ipsilateral stimulation. All stimulation conditions improved walking time but bilateral stimulation provided the greatest improvement. Conclusions: Unilateral STN DBS decreased rigidity and bradykinesia contralaterally as well ipsilaterally. As expected, bilateral DBS improved gait more than unilateral DBS.

Original languageEnglish (US)
Pages (from-to)234-242
Number of pages9
JournalExperimental Neurology
Volume211
Issue number1
DOIs
StatePublished - May 2008

All Science Journal Classification (ASJC) codes

  • Neurology
  • Developmental Neuroscience

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