Comparative Effects of Virtual Reality and Proprioceptive Neuromuscular Facilitation in Patients With Parkinson's Disease (VR PNF RPT PD)

Lahore University of Biological and Applied Sciences

Status

Not yet enrolling

Conditions

Parkinson Disease

Treatments

Other: Intervention 1

Device: artificial intelligence

Study type

Interventional

Funder types

Other

Identifiers

NCT07308093

DPT/ERB/33

U1111-1332-3369 (Registry Identifier)

Details and patient eligibility

About

Parkinson's Disease is a chronic neurodegenerative disorder marked by the progressive loss of dopaminergic neurons in the substantia nigra and accumulation of α-synuclein (Lewy bodies).It impacts both motor and non-motor systems, with growing global prevalence-affecting 7-10 million people, mostly men over 60 years-due to increasing life expectancy and demographic shifts.

PD shows motor symptoms like tremors and bradykinesia, along with non-motor issues like depression, REM sleep disorder, and cognitive decline. Diagnosis is often delayed due to subtle early signs like constipation or shoulder pain and atypical cases lacking classical tremors.

VR offers immersive, task-specific therapy that enhances motor learning and neuroplasticity in a safe, engaging environment. By integrating sensory feedback and real-time motion tracking, VR reduces tremors, promotes cortical reorganization (notably in the sensorimotor cortex and cerebellum), and increases rehabilitation motivation through gamified experiences.

PNF is a hands-on therapy using tactile, auditory, and proprioceptive cues to improve coordination, strength, and movement patterns. Especially useful in Parkinson's rehabilitation, PNF targets rigidity, bradykinesia, tremors, and postural instability by reinforcing neuromuscular coordination and improving movement execution in functional, diagonal planes.

Sensorimotor control is the dynamic integration of sensory input, motor planning, and execution, which becomes disrupted in PD due to impaired proprioception and feedback loops. Patients rely excessively on visual feedback, making movement effortful, highlighting the need for focused upper limb rehabilitation strategies.

Full description

Experimental: (VR+ RPT) Participants in this group received Virtual Reality (VR)-based training in addition to Routine Physical Therapy (RPT). The VR intervention was delivered using the Oculus Meta Quest 3 headset and consisted of immersive, goal-directed tasks performed three times per week for six weeks, each session lasting 30 minutes at a moderate intensity (RPE 11-13). VR tasks were designed to target specific motor impairments, including pick-and-place tasks for kinetic tremor reduction, tracing tasks to address bradykinesia, and reaching and grasping tasks to improve proprioception. Participants interacted with five virtual balls in a simulated environment, transferring them from one basket to another under therapist supervision. Alongside VR, participants also underwent Routine Physical Therapy (RPT) three times per week for six weeks, each 40-minute session consisting of a warm-up with diaphragmatic breathing, 30 minutes of stretching and strengthening for the core, hip, knee, back, and elbow extensors, and a cool-down with static stretches for major muscle groups.
Control: (PNF+RPT) Participants in this group received Proprioceptive Neuromuscular Facilitation (PNF) therapy in addition to Routine Physical Therapy (RPT). PNF was administered three times per week for six weeks, with each session lasting 30 minutes at a moderate intensity (RPE 11-13). Specific PNF techniques were selected for symptom management: slow reversal for kinetic tremor to improve coordinated agonist-antagonist contractions, rhythmic initiation for bradykinesia to facilitate movement initiation, and tactile input to enhance proprioception and body awareness. PNF was administered under the direct guidance of a physical therapist, with manual contact and graded resistance tailored to individual capacity. Participants also received RPT on the same schedule and with the same structure as described for the experimental group, including warm-up breathing, targeted stretching and strengthening, and cool-down static stretches.

Enrollment

28 estimated patients

Sex

All

Ages

50 to 80 years old

Volunteers

No Healthy Volunteers

Inclusion criteria

Idiopathic Parkinson's Disease according to Gelb's criteria
Stage II-IV Hoehn &Yahr scale
Intact cognition status (MMSE > 24)
50-80 years of age

Exclusion criteria

History of PD surgery
Phobia of virtual gaming systems
Visual anomalies
Cardiovascular problems
Severe dyskinesia or "on-off" fluctuations

Trial design

Primary purpose

Treatment

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

Single Blind

28 participants in 2 patient groups

Virtual Reality

Experimental group

Description:

Participants in this group received Virtual Reality (VR)-based training in addition to Routine Physical Therapy (RPT). The VR intervention was delivered using the Oculus Meta Quest 3 headset and consisted of immersive, goal-directed tasks performed three times per week for six weeks, each session lasting 30 minutes at a moderate intensity (RPE 11-13). VR tasks were designed to target specific motor impairments, including pick-and-place tasks for kinetic tremor reduction, tracing tasks to address bradykinesia, and reaching and grasping tasks to improve proprioception. Participants interacted with five virtual balls in a simulated environment, transferring them from one basket to another under therapist supervision. Alongside VR, participants also underwent Routine Physical Therapy (RPT) three times per week for six weeks, each 40-minute session consisting of a warm-up with diaphragmatic breathing, stretching, strengthening and cool-down.

Treatment:

Device: artificial intelligence

Proprioceptive Neuromuscular Facilitation

Active Comparator group

Description:

Participants in this group received Proprioceptive Neuromuscular Facilitation (PNF) therapy in addition to Routine Physical Therapy (RPT). PNF was administered three times per week for six weeks, with each session lasting 30 minutes at a moderate intensity (RPE 11-13). Specific PNF techniques were selected for symptom management: slow reversal for kinetic tremor to improve coordinated agonist-antagonist contractions, rhythmic initiation for bradykinesia to facilitate movement initiation, and tactile input to enhance proprioception and body awareness. PNF was administered under the direct guidance of a physical therapist, with manual contact and graded resistance tailored to individual capacity. Participants also received RPT on the same schedule and with the same structure as described for the experimental group, including warm-up breathing, targeted stretching and strengthening, and cool-down static stretches.

Treatment:

Other: Intervention 1

Trial contacts and locations

Central trial contact

Shoaib Waqas, PhD

Data sourced from clinicaltrials.gov

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