Pedunculo-Pontin Nucleus (PPN) - Deep Brain Stimulation (DBS) in Gait and Balance Disturbance in Parkinson's Disease (PPN-GAB-PARK Study)

NCT ID: NCT00821743

Last Updated: 2013-04-24

Basic Information

• Recruitment Status: UNKNOWN
• Clinical Phase: PHASE1/PHASE2
• Total Enrollment: 5 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2010-03-31
• Study Completion Date: 2013-09-30

Brief Summary

Disturbance of posture, gait and balance usually appear several years after Parkinson's disease (PD) onset. These axial signs, generally resistant to conventional drug and non-drug treatment, can generate a loss of autonomy and traumatic complications. Improvement of these axial signs by deep brain stimulation (DBS) of the pedunculo-pontin nucleus (PPN) has been described for a small number of patients. The objectives of the present prospective monocentric pilot study are to determine the optimal stimulation parameters of PPN-DBS, to evaluate the long term tolerance and the effect of PPN-DBS on axial signs and quality of life in five patients with severe PD. The use of detailed clinical rating scales and quantitative computer-based gait analysis will allow to identify the optimal stimulation parameters and relevant clinical efficacy parameters, mandatory for the design of further comparative large-scale studies.

Detailed Description

Parkinson's disease (PD) is a neurodegenerative disorder with an association of akinesia, rigidity and tremor, but also so-called "axial" motor signs (disturbance of posture, gait and balance) that usually appear after several years of disease evolution. These axial signs, generally resistant to drug treatment and deep brain stimulation (DBS) of subthalamic nucleus (STN), can generate a loss of autonomy and traumatic complications due to frequent falls. An improvement of axial signs by DBS of the pedunculo-pontin nucleus (PPN) has been described for a small number of patients. Nevertheless, this effect needs to be confirmed in more patients and there is need for complementary knowledge, including optimal stimulation modalities.

The primary objective of the current prospective monocentric pilot study is to determine the optimal stimulation parameters (site of stimulation, frequency, amplitude) of PPN-DBS in patients with severe PD. Secondary objectives are 1) to confirm the effect of PPN-DBS on disturbance of posture, balance and gait; 2) to evaluate long term tolerance of this technique; 3) to determine the components of gait that are most improved by PPN-DBS; 4) to evaluate unilateral versus bilateral stimulation; 5) to evaluate the effects of PPN-DBS on other PD symptoms; 6) to determine the impact of PPN-DBS on quality of life. Five patients fulfilling the following criteria, will be included: age between 18 and 70 years, idiopathic PD for more than 5 years, predominant axial motor signs (disturbance of gait and balance, falls, freezing of gait) responsible for disability in daily living and resistant to optimal treatment.

The DBS electrodes (model 3389, Medtronic) will be stereotactically implanted bilaterally in the PPN, according to the technique usually used for STN-DBS, and connected to the subcutaneously implanted stimulator (Kinetra, Medtronic). After the surgery, the study will comprise two phases: a 6-month phase dedicated to optimisation of the stimulation parameters (including systematic evaluation of defined parameters); followed by a phase of evaluation, that will compare, in a double-blind setting, 4 conditions (right unilateral, left unilateral, bilateral and off stimulation). Efficacy of PPN-DBS will be evaluated by clinical rating scales quantifying motor disturbance, cognitive function and quality of life, and by the means of computer-based measure of gait and balance (system Gaitrite and Vicon).

Expected results are 1) an improvement of gait, postural and balance disturbance, due to PPN-DBS. 2) Identification of the optimal PPN-DBS parameters, improving most the axial PD symptoms, will allow to abbreviate the adjustment period, by using as default setting these parameters when turning on the stimulator for the first time; 3) Identification of the axial signs which are the most improved will allow to select patients that could most benefit from PPN-DBS 4) The use of diverse specific rating scales and quantitative gait analysis will allow to determine the most relevant clinical criteria to be evaluated in further studies.

Thus, this project will allow to obtain data (selection criteria, relevant rating scales, optimal stimulation parameters) mandatory for the construction of further comparative large-scale studies, if the efficacy of PPN-DBS was confirmed by the present study.

Conditions

Parkinson Disease

Study Design

• Allocation Method: NON_RANDOMIZED
• Intervention Model: CROSSOVER
• Primary Study Purpose: TREATMENT
• Blinding Strategy: DOUBLE

Study Groups

1

The DBS electrodes (model 3389, Medtronic) will be stereotactically implanted bilaterally in the PPN, according to the technique usually used for STN-DBS, and connected to the subcutaneously implanted stimulator (Kinetra, Medtronic).

Group Type: OTHER

Deep brain stimulation electrode

Intervention Type: DEVICE

The DBS electrodes (model 3389, Medtronic) will be stereotactically implanted bilaterally in the PPN, according to the technique usually used for STN-DBS, and connected to the subcutaneously implanted stimulator (Kinetra, Medtronic).

Interventions

Deep brain stimulation electrode

The DBS electrodes (model 3389, Medtronic) will be stereotactically implanted bilaterally in the PPN, according to the technique usually used for STN-DBS, and connected to the subcutaneously implanted stimulator (Kinetra, Medtronic).

Intervention Type: DEVICE

Eligibility Criteria

Inclusion Criteria

• Severe idiopathic Parkinson's disease (stage of Hoehn and Yahr ≥ 3).
• Disease duration ≥ 5 years.
• Predominant axial motor signs (gait and balance disturbance as freezing of gait, postural instability, falls) with disability in daily life, defined by a score UPDRS II 2 of item 13 or 3 of item 14 or 15.
• Axial motor signs resistant to optimal drug and non-drug treatment, including physical therapy and eventually STN-DBS (if STN-DBS is ongoing for at least 1 year and has shown no efficacy on axial motor signs).
• No significant abnormality on brain MRI.

• Patient with non-axial, dopa-responsive motor signs and indication of first line STN-DBS. In case of absence of efficacy of STN-DBS on axial motor signs after one year of stimulation, PPN-DBS may be proposed to these patients.
• Patient with major cognitive disturbances defined by a score Mattis DRS 130 (of 144).
• Pregnant or breast-feeding woman.
• Patient with contraindication for general anaesthesia, a contraindication for surgery (including disorders of haemostasis, or necessity of anticoagulant and antiaggregant drug), or a contraindication for MRI.
• Patient presenting major depression, psychosis or addiction in six months preceding inclusion.

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 70 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Centre Hospitalier Universitaire de Nice

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Denys FONTAINE, PhD

Role: PRINCIPAL_INVESTIGATOR

Department of neurosurgery, CHU de Nice

Locations

Neurology, Neurosugery of Nice University Hospital

Nice, , France

Site Status: RECRUITING

Countries

France

Central Contacts

Denys FONTAINE, PhD

Role: CONTACT

fontaine.d@chu-nice.fr

04 92 03 84 50

Caroline BAYREUTHER, PhD

Role: CONTACT

bayreuther.c@chu-nice.fr

04 92 03 78 96

Facility Contacts

Denys Fontaine, PhD

Role: primary

fontaine.d@chu-nice.fr

04 92 03 84 50

Caroline Bayreuther, PhD

Role: backup

bayreuther.c@chu-nice.fr

04 92 03 78 96

Other Identifiers

PPN-GAB-PARK study

Identifier Type: -

Identifier Source: org_study_id