Parkinson Disease Clinical Trial
Official title:
Improving Dexterous Skills in Parkinson's Disease: A Randomized Controlled Trial
Background and aim: Patients with Parkinson's disease (PD) exhibit disturbed manual
dexterity. This impairment leads to difficulties in activities of daily living (ADL) such as
buttoning a T-shirt or hand-writing. The aim of the present research project is to
investigate the effectiveness of a high intensity home based exercise intervention focusing
on fine motor skills (HOMEDEXT), in patients with PD.
Design: A single blinded randomized controlled trial (RCT) will be performed. Randomization
will be done by an independent biostatistician who will use a computerized randomization
protocol. A baseline assessment and a follow-up measurement 4 weeks immediately after
intervention (end of rehabilitation) will be performed. A follow-up measurement, 12 weeks
later, will be done to assess long-lasting effects. Assessments will be performed by
investigators who are blinded for the intervention.
Participants: One hundred and four out-patients with PD will be recruited who report
specific difficulties in manual dexterity when executing ADL. Intervention: The patients
will be allocated to either an intervention group (n = 52) or control group (n = 52). In the
intervention group PD patients will exercise, over a period of four weeks, once/day during
30 minutes a treatment with specific exercises for dexterity. The PD patients, who will be
allocated to the control group, will exercise Theraband exercises.
Outcome measures: The primary outcome measures for manual dexterity will be the Nine Hole
Peg test. Secondary outcome measures will be the Coin Rotation task, a sensitive screening
for dexterity. Furthermore for ADL a modified version of the subscale II of the Movement
Disorders Society unified Parkinson's Disease Rating Scale (MDS-UPDRS) will be used.
Parkinsonian symptoms will be assessed by the MDS-UPDRS subscale III. To assess improvements
in quality of life a modified version of the Parkinson's Disease Questionnaire (PDQ-39) will
be used.
Parkinson's disease (PD) is a progressive neurodegenerative disorder that affects both motor
and non-motor basal ganglia circuitry (Stern et al., 2012). The degeneration of dopaminergic
neurons in the substantia nigra leads to the clinical manifestation of the cardinal motor
features of PD: bradykinesia, muscle rigidity, tremor at rest and impairment of postural
reflexes (Bohlhalter & Kägi, 2011). While dopaminergic therapy improves some symptoms of PD,
other symptoms, such as impaired finger dexterity, may be less responsive to pharmacological
treatment (Quencer et al., 2007; Gebhardt et al., 2008). Patients with PD often report
difficulties in activities of daily living (ADL), such as fastening T-shirt buttons or tying
shoe laces, activities which require dexterous skills (Peto et al., 2001; Nijkrake et al.,
2009). The exact mechanisms for the loss in finger dexterity are not known. Elementary motor
deficits such as bradykinesia (Agostino et al., 2003), reduced strength and finger torque
production (Fellows et al., 1998; de Oliveira et al., 2008) certainly play a role. However,
these deficits do not fully account for the motor impairment and it has been suggested that
an apraxic disorder called limb kinetic apraxia, may significantly contribute to the
dexterous deficits observed in PD (Quencer et al., 2007; Gebhardt et al. 2008; Vanbellingen
et al., 2011, 2012).
Only limited data exist on therapeutic interventions of dexterous problems in PD (Dixon et
al., 2007; Rao, 2010). However, there is increasing evidence that allied health care, which
includes physical therapy (PT), speech-language therapy and occupational therapy (OT), may
complement the standard pharmacological and surgical treatments (Van der Marck et al.,
2009). These therapies aim to minimize the impact of the disease process, and improve the
patient's participation in ADL. Two major treatment approaches are most commonly used for
PD: movement strategy training and muskuloskeletal exercises (Morris et al., 2009). By using
movement strategies, patients with PD may bypass the defective basal ganglia, by engaging
alternative neural circuits that are still intact (frontal and parietal cortical pathways).
Examples are mental rehearsing and focusing attention (Morris et al., 2009) or using sensory
cues to initiate and maintain movements (Nieuwboer et al. 2007). However, a disadvantage of
this treatment approaches, particularly the recruitment of frontal cortex, is its dependence
on preserved cognitive abilities. As the disease progress, many patients with PD eventually
develop cognitive impairments (Aarsland et al., 2010), which could negatively influence the
learning of movement strategies (Nieuwboer et al., 2009). Musculoskeletal exercises aim to
improve strength, joint range of movement, muscle length and endurance (Trend et al. 2002).
High intensity exercise programs have been successful and showed either short or long-term
effects for balance and gait for patients with PD (Hirsch et al., 2003; Morris et al., 2009;
Ebersbach et al., 2010), of which most training modes were consistent with principles
promoting activity-dependent neuroplasticity (Petzinger et al. 2010). Activity-dependent
neuroplasticity is defined as the modifications within the central nervous system, in
response to physical activity that promotes a skill acquisition process (Adkins et al.,
2006). As such intensity, specificity, difficulty; and complexity of practice appear to be
important parameters for driving neuroplasticity and a potential lasting effect on both
brain and behavior (Petzinger et al. 2010). In contrast to the significant short and
long-term improvements which were found after high intensity training for gait and balance
(Hirsch et al., 2003; Morris et al., 2009; Ebersbach et al., 2010), there is little evidence
for fine motor skills in patients with PD (Gauthier et al., 1987). However, no well-designed
study has been conducted, so far, which focused on these aspects of motor skills in PD.
Until date no well designed trial has been performed, in patients with PD, to investigate
whether a high intensity exercise program, focusing on fine motor skills, could improve
dexterous skills. As described above, patients with PD often experience impaired dexterity
which leads to significant disability in several ADL, contributing to a reduced quality of
life. For gait and balance disorders, high intensity training programs have been shown to be
successful in patients with PD, based on training modes driving activity-dependent
plasticity. However, the question remains open whether a high intensity exercise program,
focusing on fine motor skills, could be effective as well in patients with PD.
The aims of the present project are to assess the outcomes of a high intensity exercise
intervention, focusing on fine motor skills, in in-patients with PD. The short and long-term
benefits of this training program will be compared with conventional training, which
patients already receive during their hospital stay. For this purposes, a single blinded
randomized controlled trial (RCT) will be performed.
Based on the literature we hypothesize that the specific home based dexterity program
(HOMEDEXT) will improve fine motor skills both at short term and long-term, detected by the
primary outcome measurement nine-hole peg test (Earhart et al. 2011). The improved finger
and hand functions will also lead to improved ADL functioning as assessed by a modified
version of the subscale II of the Movement Disorders Society unified Parkinson's Disease
Rating Scale (MDS-UPDRS) (Goetz et al., 2008). Furthermore, we expect that patients with PD
will report a higher quality of life (QoL), as assessed by the secondary outcome measures, a
modified version of the Parkinson's Disease Questionnaire (PDQ-39) (Peto et al., 2001).
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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