Central post-stroke pain (CPSP) is a neuropathic pain syndrome and one of the major sequelae after ischemic or hemorrhagic cerebral stroke. Recently, a modified stimulation paradigm has been developed in the field of spinal cord stimulation (SCS) for a variety of neuropathic pain disorders. To date, this stimulation paradigm has not yet been evaluated systematically for deep brain stimulation to treat neuropathic pain disorders. The purpose of this clinical investigation is to investigate if Burst-DBS of the thalamus is more effective compared to classical continuous low-frequency stimulation DBS to reduce the subjective pain intensity in patients with chronic neuropathic pain after stroke or in patients with neuropathic facial pain.
Central post-stroke pain (CPSP) is a neuropathic pain syndrome and one of the major sequelae after ischemic or hemorrhagic cerebral stroke. Neuropathic facial pain (NFP) can arise after damage to or affection of the trigeminal nerve caused by trauma, infection or postsurgery and results in characteristic burning and shooting pain of the affected area in the face. The lack of effective analgesic treatment for these two conditions continues to be an unmet medical need and led to the investigation of alternative treatments of CPSP and NFP such as deep brain stimulation (DBS). DBS is an invasive neuromodulation therapy that consists of placing small electrodes into confined anatomical structures of the brain to deliver small therapeutic currents. Recently, a modified stimulation paradigm has been developed in the field of spinal cord stimulation (SCS) for a variety of neuropathic pain disorders. This so-called burst stimulation provides pulse trains of five high-frequency pulses at 500 Hz (= 500 Hz spike frequency) occurring 40 times a second (= 40 Hz burst frequency). Burst SCS has been demonstrated to provide a better pain relief compared to classical tonic (continuous application of 50 Hz stimulation) SCS without causing paresthesia. To date, this stimulation paradigm has not yet been evaluated systematically for deep brain stimulation to treat neuropathic pain disorders. The purpose of this clinical investigation is to investigate if Burst-DBS of the thalamus is more effective compared to classical continuous low-frequency stimulation DBS to reduce the subjective pain intensity in patients with chronic neuropathic pain after stroke or in patients with neuropathic facial pain.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
20
Patients undergo stereotactic implantation of DBS electrodes in the thalamus under local anesthesia. The DBS electrodes will be connected to an external pacemaker for a time period of four weeks. On the first day following surgery, patients will undergo an empirical clinical testing of the stimulation parameter settings. At the same day patients will undergo somatosensory- and contact heat-evoked potential recording for phenotype-stratification (post-hoc analysis).During the next 24 days with the electrodes externalized and connected to the external pacemaker, patients will be randomly assigned in a 1:1 ratio to one of the two groups that undergo two blocks of stimulation: 12 days of of Burst-stimulation followed by 12 days active tonic stimulation (Burst-DBS -\> tonic-DBS) Between each stimulation block the stimulator will be switched off for one day to prevent any hang-over effects of stimulation (wash-out period).
Patients undergo stereotactic implantation of DBS electrodes in the thalamus under local anesthesia. The DBS electrodes will be connected to an external pacemaker for a time period of four weeks. On the first day following surgery, patients will undergo an empirical clinical testing of the stimulation parameter settings. At the same day patients will undergo somatosensory- and contact heat-evoked potential recording for phenotype-stratification (post-hoc analysis).During the next 24 days with the electrodes externalized and connected to the external pacemaker, patients will be randomly assigned in a 1:1 ratio to one of the two groups that undergo two blocks of stimulation: 12 days of active tonic stimulation followed by 12 days of Burst-stimulation (tonic-DBS -\> Burst-DBS) Between each stimulation block the stimulator will be switched off for one day to prevent any hang-over effects of stimulation (wash-out period).
Dep. of Neurosurgery, Bern University Hospital
Bern, Switzerland
RECRUITINGPercentage reduction of pain intensity
Percentage reduction of pain intensity on the numeric rating scale (NRS 1-10) after each stimulation-block compared to the baseline pain intensity before surgery. Score 0-10 with 0 representing no pain, and 10 maximum pain intensity
Time frame: 1 week after surgery
Percentage reduction of pain intensity
Percentage reduction of pain intensity on the numeric rating scale (NRS 1-10) after each stimulation-block compared to the baseline pain intensity before surgery. Score 0-10 with 0 representing no pain, and 10 maximum pain intensity
Time frame: 2 weeks after surgery
Change of pain intensity on the numeric rating scale
Efficacy of DBS after 12 months of open-label stimulation measured as the percentage change of pain intensity on the numeric rating scale compared to baseline. Score 0-10 with 0 representing no pain, and 10 maximum pain intensity
Time frame: 12 months after surgery
Percentage change of pain intensity on the Neuropathy pain scale
Efficacy of DBS after 12 months of open-label measured as the percentage change of pain intensity on the Neuropathy pain scale (DN-4) compared to baseline. Score 0-10 with 0 representing no pain, and 100 maximum pain intensity
Time frame: 12 months after surgery
Percentage improvement of quality of life measured by the EuroQoL 5D-5L
Efficacy of DBS after 12 months of open-label measured as the percentage improvement of quality of life measured by the EuroQoL 5D-5L questionnaire (Mobility, Self-Care, Usual Activities, Pain/Discomfort, Anxiety/ Depression (rating from no problems to extreme problems) and health status self rating by patient (Score 0-100, 0 the worst health and 100 the best health)) compared to baseline.
Time frame: 12 months after surgery
Change of dosage of analgesic medication(s)
Change of dosage of analgesic medication(s) at 12 months of open-label stimulation measured as the total dosage in mg per medication per day with reference to baseline
Time frame: 12 months after surgery
Efficacy of DBS
Efficacy of DBS after 12 months of open-label stimulation measured as the percentage improvement of depressive symptoms by the BDI questionnaire compared to baseline
Time frame: 12 months after surgery
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