Rehabilitation
Technology
at APARC
Over 40 specialist rehabilitation technologies across 15 centres — from robotic gait training and virtual reality therapy to 3D gait analysis, hydrotherapy and advanced electrotherapy. Better outcomes through better tools.
Technology Accelerates
Recovery
The right rehabilitation technology doesn't replace skilled therapists — it gives them more powerful tools. Robotic systems can deliver thousands of precise movement repetitions in a single session. Virtual reality creates measurable, immersive environments for motor relearning. 3D gait analysis reveals movement faults invisible to the naked eye.
At APARC, technology is selected for its evidence base and clinical impact — not novelty. Every technology in our centres is used as part of a therapist-led, goal-directed rehabilitation plan.
Robotic Rehabilitation
Robotic movement trainin systems deliver high-repetition, precisely guided movement training — critical for motor relearning after stroke, spinal cord injury and other neurological conditions. APARC uses robotic technologies for both lower and upper limb rehabilitation.
Robotic Movement Training System
Body-weight supported treadmill system with robotic and VR guidance — delivers high-repetition movement pattern training for patients with partial paralysis, stroke or spinal cord injury who cannot yet function independently.
Robotic Upper Limb Rehabilitation
Robotic hand & wrist systems that guide and assist upper limb movement — enabling high-intensity, task-specific training for patients with hemiplegia, upper limb weakness or hand dysfunction following neurological injury.
Wearable Assisted Movement
Wearable devices that provides movement guidance — enabling movement practice for patients with significant weakness, including with real time feedback.
Wrist & Hand Robotic Therapy
Dedicated robotic assisted therapy for wrist and finger rehabilitation — provides assisted and resisted movement with real-time biofeedback, particularly effective for chronic upper limb deficits following stroke or peripheral nerve injury.
Virtual Reality Therapy
VR creates immersive, measurable therapeutic environments for motor relearning, balance training and cognitive rehabilitation — providing a level of engagement, feedback and task specificity not possible with conventional therapy alone.
VR Balance & Gait Training
Immersive virtual environments for movement training and motor rehabilitation — patients perform challenging tasks in a safe, controlled setting with real-time feedback and performance measurement.
Cognitive VR Rehabilitation
VR environments specifically designed for cognitive rehabilitation — attention, memory, executive function and spatial processing tasks delivered in an engaging, adaptive virtual environment with objective performance data.
Mirror Therapy Systems
Electronic and virtual mirror therapy for upper limb rehabilitation — particularly effective for phantom limb pain and improving upper limb motor function in hemiplegia through visual feedback and cortical reorganisation.
Immersive Motor Relearning
Task-specific VR programmes that simulate real-world activities — reaching, grasping, stepping — to drive neuroplasticity and motor relearning in a motivating, feedback-rich environment.
Gait & Movement Analysis
Objective movement assessment technologies that reveal what the eye cannot see — quantifying gait abnormalities, balance deficits and movement asymmetries to guide precise treatment and measure progress.
3D Gait Analysis Laboratory
Multi-camera motion capture system that produces a complete, quantitative picture of a patient's gait — joint angles, forces, timing, symmetry — enabling precise identification of abnormalities and objective outcome measurement.
Computerised Balance Assessment
Force-platform based balance analysis providing precise measurement of sway, weight distribution, limits of stability and sensory integration — used for both diagnosis and outcome measurement.
Posturography
Dynamic posturography system assessing a patient's ability to maintain balance under different sensory and surface conditions — used to identify the specific systems contributing to balance impairment.
Treadmill Gait Retraining
Partial Body weight supported treadmill with real-time step symmetry and speed feedback — used for gait retraining after neurological or orthopaedic conditions, with the ability to precisely control load and progression.
Electrotherapy & Neurostimulation
Electrical and magnetic stimulation technologies that target nerve and muscle tissue — driving motor recovery, reducing spasticity, managing pain and stimulating neuroplasticity beyond what exercise alone can achieve.
Functional Electrical Stimulation (FES)
Precisely timed electrical stimulation of nerves and muscles during functional tasks — restoring voluntary movement, enabling walking in patients with foot drop, and driving cortical reorganisation in upper limb rehabilitation.
Transcranial Magnetic Stimulation (TMS)
Non-invasive magnetic brain stimulation that modulates cortical excitability — used in combination with physiotherapy for motor recovery after stroke, and for management of chronic pain and spasticity.
TENS & Neuromuscular Stimulation
Transcutaneous electrical nerve stimulation and neuromuscular electrical stimulation for pain relief, muscle re-education and prevention of muscle atrophy — widely used across orthopaedic and neurological rehabilitation.
Repetitive Peripheral Magnetic Stimulation
Peripheral magnetic stimulation of muscles and nerves — used for spasticity management, pain reduction and motor facilitation, particularly in patients where needle-based interventions are not appropriate.
Shockwave, TECAR & Laser Therapy
High-energy acoustic and photobiomodulation technologies for tissue healing, pain relief and musculoskeletal rehabilitation — offering treatment options for chronic tendinopathies, calcifications and conditions that have not responded to conventional physiotherapy.
Extracorporeal Shockwave Therapy (ESWT)
High-energy acoustic waves applied to targeted tissue — clinically proven for chronic tendinopathy, plantar fasciitis, calcific tendinitis and other conditions resistant to conventional treatment, promoting healing through mechanical stimulation.
Class IV High-Intensity Laser
High-power therapeutic laser delivering deep tissue photobiomodulation — accelerating tissue repair, reducing inflammation and providing powerful analgesic effects for both acute and chronic musculoskeletal conditions.
Low-Level Laser Therapy (LLLT)
Low-intensity photobiomodulation for wound healing, pain management and inflammation reduction — used for a broad range of conditions including neuropathic pain, post-surgical recovery and soft tissue injuries.
TECAR Thearpy
TECAR Therapy is an advanced electro-physical modality used in physiotherapy that delivers high-frequency electromagnetic energy to stimulate tissue repair and enhance circulation. It promotes faster recovery by increasing cellular metabolism, reducing pain and inflammation, and improving musculoskeletal healing.
Exercise & Strength Rehabilitation
Advanced exercise and strength assessment technologies that enable precise, objective rehabilitation — from isokinetic strength testing to anti-gravity treadmill training and functional gymnasium equipment.
Mobi‑L Rehabilitation System
Mobi‑L Rehabilitation System is an advanced robotic rehabilitation device used in physiotherapy to train multiple joints and improve strength, coordination, and range of motion. It provides interactive, data-driven exercises with real-time feedback to support faster recovery after stroke, injury, or mobility disorders.
TheraBand Rehab Station
The TheraBand Rehab Station is a versatile rehabilitation system that uses progressive resistance bands to improve strength, flexibility, and functional movement. It enables targeted therapeutic exercises for multiple muscle groups, making it widely used in physiotherapy clinics for injury recovery and conditioning.
Functional Rehabilitation Gymnasium
Purpose-designed rehabilitation gym with functional movement equipment, cable systems, suspension trainers and sport-specific training tools — enabling progressive, goal-directed exercise rehabilitation from basic strengthening to full return-to-sport.
Neuromuscular Control Systems
Real-time EMG biofeedback and balance board systems for neuromuscular re-education — training the nervous system to control muscle activation, joint stability and proprioception after injury or neurological impairment.
Cognitive & Sensory Rehabilitation
Specialist technologies for cognitive rehabilitation, sensory retraining and neuropsychological recovery — addressing the cognitive and perceptual consequences of brain injury, neurological conditions and ageing.
Computerised Cognitive Training
Adaptive, evidence-based cognitive rehabilitation software targeting attention, memory, processing speed, executive function and language — providing structured, progressive training with detailed performance analytics.
Sensory Integration Therapy
Equipment and protocols for sensory integration and sensory processing rehabilitation — tactile, vestibular and proprioceptive stimulation for children and adults with sensory processing difficulties, developmental conditions and brain injury.
Biofeedback Systems
Real-time physiological feedback during therapy — surface EMG biofeedback for muscle re-education, pressure biofeedback for postural training, and force-plate feedback for balance and gait — making invisible processes visible and trainable.
Eye Tracking & Visual Rehabilitation
Eye tracking technology and visual rehabilitation protocols for patients with visual field deficits, oculomotor impairments and visual processing disorders following stroke, TBI or neurological conditions.
Technology Matched to Your Condition
Different conditions require different technologies. Here's how APARC's technology portfolio maps to the conditions we most commonly treat.
Stroke Rehabilitation
Robotic upper limb, FES, VR motor relearning, 3D gait analysis, exoskeleton walking, TMS, mirror therapy
Spinal Cord Injury
Robotic gait training, exoskeleton walking, FES cycling, underwater treadmill, isokinetic strength testing
Traumatic Brain Injury
Cognitive VR, computerised cognitive training, eye tracking, balance assessment, gait analysis, biofeedback
Parkinson's Disease
VR gait training, treadmill retraining, balance assessment, posturography, FES, anti-gravity treadmill
Joint Replacement Rehab
Underwater treadmill, aquatic therapy, isokinetic testing, anti-gravity treadmill, functional gymnasium, contrast therapy
Sports Injuries
Isokinetic dynamometry, anti-gravity treadmill, shockwave, high-intensity laser, neuromuscular systems, functional gym
Chronic Pain
ESWT, LLLT, TMS, TENS, high-intensity laser, focused shockwave, biofeedback, aquatic therapy
Paediatric Conditions
Robotic gait, sensory integration, aquatic therapy, VR, hydrotherapy, computerised cognitive training, biofeedback
Technology Hubs at APARC
The most comprehensive technology range is available at APARC's two specialist centres. Standard physiotherapy technologies are available across all 15 centres.
ACNR — Neurorehabilitation Centre
APARC's dedicated neurological rehabilitation centre — home to the highest concentration of neuro-specific technologies in the APARC network. Residential and daycare programmes available.
APARC at ShardaCare HealthCity
APARC's multi-disciplinary rehabilitation centre inside ShardaCare HealthCity — offering the full APARC technology range within a multi-specialty hospital complex for patients across NCR East.