BACKGROUND: Deep brain stimulation of the subthalamic nucleus (STN-DBS) improves sleep in patients affected by Parkinson's disease (PD). Since microsubthalamotomy (mSTN) shows positive effects on motor symptoms, it could improve sleep in PD patients. Our goals were: to assess the effects of mSTN on sleep in patients affected by advanced PD; and to look for a correlation between sleep and motor features after the neurosurgical procedure. METHODS: Fifteen patients who underwent bilateral STN-DBS were enrolled. Subjective sleep evaluation was assessed using the Parkinson's Disease Sleep Scale (PDSS). Data on sleep schedule and presence of restless legs syndrome (RLS) were obtained. Objective sleep features were investigated by polysomnography (PSG). To evaluate the mSTN effect, we compared motor state and sleep features before and after the neurosurgical procedure, before the programmable pulse generator was switched on. RESULTS: mSTN had beneficial effects on motor state and sleep features. After the surgery, the mean total PDSS score increased from 84.0±25.2 to 115.2±16.6 (P<0.001). PD patients reported longer total sleep time duration, decreased daytime sleepiness, and improvement in RLS symptoms. PSG data showed an increase in total sleep time and sleep efficiency with a decrease in wakefulness after sleep onset and arousal index. No correlation between motor improvements and sleep features modifications was observed after mSTN. CONCLUSIONS: mSTN improves sleep quality and ameliorates several sleep complaints, as well as motor symptoms, in advanced PD patients who have undergone STN-DBS.
BACKGROUND: Deep brain stimulation of the subthalamic nucleus (STN-DBS) improves sleep in patients affected by Parkinson's disease (PD). Since microsubthalamotomy (mSTN) shows positive effects on motor symptoms, it could improve sleep in PDpatients. Our goals were: to assess the effects of mSTN on sleep in patients affected by advanced PD; and to look for a correlation between sleep and motor features after the neurosurgical procedure. METHODS: Fifteen patients who underwent bilateral STN-DBS were enrolled. Subjective sleep evaluation was assessed using the Parkinson's Disease Sleep Scale (PDSS). Data on sleep schedule and presence of restless legs syndrome (RLS) were obtained. Objective sleep features were investigated by polysomnography (PSG). To evaluate the mSTN effect, we compared motor state and sleep features before and after the neurosurgical procedure, before the programmable pulse generator was switched on. RESULTS:mSTN had beneficial effects on motor state and sleep features. After the surgery, the mean total PDSS score increased from 84.0±25.2 to 115.2±16.6 (P<0.001). PDpatients reported longer total sleep time duration, decreased daytime sleepiness, and improvement in RLS symptoms. PSG data showed an increase in total sleep time and sleep efficiency with a decrease in wakefulness after sleep onset and arousal index. No correlation between motor improvements and sleep features modifications was observed after mSTN. CONCLUSIONS:mSTN improves sleep quality and ameliorates several sleep complaints, as well as motor symptoms, in advanced PDpatients who have undergone STN-DBS.
Authors: Harutomo Hasegawa; Richard Selway; Valentina Gnoni; Sandor Beniczky; Steve C R Williams; Meir Kryger; Luigi Ferini-Strambi; Peter Goadsby; Guy D Leschziner; Keyoumars Ashkan; Ivana Rosenzweig Journal: Sleep Med Rev Date: 2020-04-22 Impact factor: 11.609
Authors: Sandra Kurcova; Jan Bardon; Miroslav Vastik; Marketa Vecerkova; Monika Frolova; Lenka Hvizdosova; Martin Nevrly; Katerina Mensikova; Pavel Otruba; David Krahulik; Egon Kurca; Stefan Sivak; Jana Zapletalova; Petr Kanovsky Journal: Medicine (Baltimore) Date: 2018-02 Impact factor: 1.889