Our Equipment

The clinic is equipped with a treadmill and active passive bike/arm crank trainer to help assist movement. We offer a dedicated space within the facility to assist with retraining walking and enhancing functional movement patterns. For individuals with limited mobility or who require additional support, we also provide parallel bars, tilt tables, a patient lifting system to support partial or full weight-bearing activities and walking aids such as a stand tall walker.

The space is equipped with exercise equipment to help the rehabilitation of fine motor skills of the hands with the integration of a Syrebo hand rehabilitation robotic glove.

Our environment is designed to promote safety, improvement, independence, and confidence throughout every stage of treatment.

Our Technology

MindMotion® GO

Linz Allied Rehab is proud to be the first clinical service in Australia to offer MindMaze’s MindMotion® GO, a groundbreaking, game-based digital neurorehabilitation platform. The MindMotion® GO is a TGA-approved device designed to deliver highly engaging, fully customisable therapy using advanced optical, markerless full-body motion capture. This state-of-the-art system translates patients’ movements into real-time on-screen interactions, offering immediate visual and performance feedback on the quality, quantity, and symmetry of movement. Within our open gym space, we have a row of TVs set up to cater to both individual and group sessions using the MindMotion® GO.

MindMotion® GO is specifically designed to support patients with neurological impairments, including stroke, traumatic brain injury, multiple sclerosis, cerebral palsy, and Parkinson’s disease. It targets a wide range of functional goals by enabling high-dose, high-intensity therapy for the upper limbs, lower limbs, trunk, and hands, while also challenging core aspects of motor control such as balance, coordination, range of motion, and flexibility. Its engaging game-like environment transforms rehabilitation into a motivating and enjoyable experience for users of all ages and abilities.

Therapists can tailor each program to suit the individual’s goals, limitations, and stage of recovery ensuring therapy remains relevant and appropriately challenging. This level of personalisation, combined with the system’s engaging feedback mechanisms, has been shown to significantly improve patient engagement, motivation, and adherence to rehabilitation programs.

Already adopted by over 90 leading neurological centres worldwide and having supported more than 3,300 patients, MindMotion® GO is paving the way for evidence-based, tech-enhanced rehabilitation that bridges the gap between clinical innovation and patient-centred care.

Single Joint Robotic Exoskeleton

The HAL (Hybrid Assistive Limb) Single Joint robotic exoskeleton is manufactured in Japan by Cyberdyne Inc. and is a TGA-approved device for use in Australia. HAL is an advanced neurorehabilitation technology that supports voluntary movement by detecting bioelectrical signals on the skin surface, which are generated by the brain’s intention to move. These signals are processed in real time to activate motors that assist in joint motion, facilitating a more natural and patient-driven movement pattern.

HAL is designed for individuals with neurological impairments such as stroke, multiple sclerosis, spinal cord injury, and other neuromuscular disorders. By supporting active engagement in movement, it promotes motor learning and neuroplasticity, which are essential components of rehabilitation. The device is fully customisable, enabling clinicians to adjust the level and direction of assistance to meet the specific functional goals and physical capacities of each user. It can be applied to various joints including the elbow, knee, ankle, or wrist making it highly adaptable across upper and lower limb rehabilitation. HAL’s data logging capabilities allow clinicians to monitor and analyse session metrics, providing valuable insight into patient performance and progress over time.

Compex

A Compex machine is a neuromuscular electrical stimulation (NMES) device designed to activate muscles using controlled electrical impulses. These impulses mimic the natural signals sent by the brain, causing targeted muscles to contract and relax.

It’s commonly used for:

• Strength & Power Training – Enhances muscle fiber recruitment to improve performance.
• Rehabilitation – Helps maintain or rebuild muscle strength after atrophy, injury or surgery when voluntary exercise is limited.
• Recovery – Increases blood flow to muscles, aiding in the removal of waste products and reducing soreness.
• Pain Management – Uses specific stimulation programs to help relieve chronic or acute muscular pain.

By engaging both slow-twitch and fast-twitch fibers more efficiently than voluntary exercise alone, a Compex machine can improve muscle strength, endurance, and recovery, making it valuable for rehab patients, and anyone aiming to optimise muscle performance.

Physilog®

Physilog® is a compact and versatile wearable motion sensor system designed to provide precise 3D motion analytics in real-world clinical and research settings. Developed to support the assessment and rehabilitation of individuals with mobility impairments arising from neurological or musculoskeletal conditions, Physilog® enables clinicians to objectively quantify movement patterns with a level of detail far beyond what is typically observable through visual assessment alone.

Using inertial measurement units (IMUs), Physilog® captures and analyses parameters such as acceleration, angular velocity, and spatial orientation across multiple planes of movement. This data is crucial in evaluating functional mobility and gait performance, especially in populations with stroke, Parkinson’s disease, multiple sclerosis, orthopedic injuries, and age-related impairments.

The system enhances the utility of common mobility tests such as the Five Times Sit-to-Stand (FTSTS), 10 Metre Walk Test (10MWT), and Timed Up and Go (TUG) by providing advanced metrics including gait speed, variability, symmetry, stride length, cadence, foot clearance, turn dynamics, and postural control. These insights support more accurate clinical decision-making, treatment planning, and progress tracking.

Physilog® is lightweight and non-invasive, allowing for natural movement during testing. It can be used in both clinical and community environments and is compatible with real-time feedback software to facilitate immediate interpretation of results. By integrating objective kinematic analysis into everyday practice, Physilog® empowers clinicians to deliver more personalised and data-driven rehabilitation strategies.

Blazepods

Blazepods are a portable, interactive training system designed to improve reaction time, agility, coordination, and cognitive performance through light-based activities. The system uses small, durable pods that light up in different colours according to programmed activities, with multiple different configurations and settings available. Users respond by tapping the lit pod as quickly as possible, integrating physical and cognitive challenge into each session. The Blazepod app tracks performance data in real time, allowing for targeted skill development, progress monitoring, and personalised training plans. Their engaging, game-like format makes training more enjoyable while promoting consistency and measurable improvement.

LusioMATE

Blazepods are a portable, interactive training system designed to improve reaction time, agility, coordination, and cognitive performance through light-based activities. The system uses small, durable pods that light up in different colours according to programmed activities, with multiple different configurations and settings available. Users respond by tapping the lit pod as quickly as possible, integrating physical and cognitive challenge into each session. The Blazepod app tracks performance data in real time, allowing for targeted skill development, progress monitoring, and personalised training plans. Their engaging, game-like format makes training more enjoyable while promoting consistency and measurable improvement.

ReOxy®

Linz Allied Rehab is pleased to offer ReOxy®, an innovative, evidence-based device that delivers personalised, interval-based hypoxic therapy to support cardiovascular and neurological rehabilitation and enhanced wellbeing. Developed by AI Mediq, ReOxy® is a TGA-approved device that uses controlled variations in oxygen levels, known as Intermittent Hypoxia-Hyperoxia Therapy (IHHT), to safely stimulate the body’s natural adaptive mechanisms, improving oxygen utilisation, metabolic efficiency, and cellular resilience.

ReOxy® is used for patients with musculoskeletal injuries, neurological, cardiopulmonary, and metabolic conditions, including stroke, traumatic brain injury, chronic fatigue, COPD, hypertension, and long COVID. By carefully modulating oxygen concentrations in real time, the device delivers a fully automated, tailored therapy program that adjusts based on the individual’s physiological response, monitored continuously through pulse oximetry and heart rate analysis.

This therapy modality has been shown to enhance mitochondrial function, cerebral blood flow, autonomic regulation, and tissue oxygenation, making it an ideal adjunct to conventional rehabilitation. Sessions are passive, non-invasive, and well-tolerated, allowing patients at various stages of recovery to participate safely. ReOxy® provides a novel approach to optimising recovery, reducing fatigue, and improving cardiovascular and cognitive function.