We supply systems which provide research quality data for all your research needs.
Our equipment is being used for research at most of the major university research labs in the UK within the fields of gait analysis, orthopaedics, rehabilitation, sports science, and more.
The Orthopaedic Research Institute at Bournemouth University has been using a Motek GRAIL system since summer 2016:
“We have been using Motek’s GRAIL system for gait analysis in patients after orthopaedic surgery, and we’re about to start using the GRAIL to analyse patient outcomes after ground-breaking surgery using robotics. Overall we’re very pleased with the GRAIL, as it has fulfilled exactly what we needed it for. Having done the research before buying, we knew it had major advantages over all other comparable systems.”
Tom Wainwright, Associate Professor in Orthopaedics, Deputy Head of Orthopaedic Research Institute at Bournemouth University.
AMTI Biomechanics Measurement System
AMTI’s Biomechanics Measurement System (BMS) is OPTIMA technology in the most affordable package.
AMTI BP Force plates
These large force platforms are used for high frequency measurement in sports and other applications where a large top surface is required.
AMTI Canes, Crutches and Walker Sensors
These sensors are specifically designed for the precise measurement of the forces and moments transmitted through walkers, canes and crutches.
AMTI Force Plate Stairs
AMTI’s force platform stairway has been designed in response to clinical patient requests to improve their gait while going up and down stairs.
AMTI Force/Torque Sensors
AMTI’s multi-axis load cells (multi-axis transducers) are ideal whenever it is important to measure forces and moments in three dimensions.
AMTI Mobius Treadmill
These treadmills can be with or without incline, and are a compact dual-belt end-to-end force sensing treadmill.
AMTI Multi-Axis Wear-Testing Machines
These simulate human joint motion, for the purpose of testing and evaluating prosthetic devices prior to clinical use.
AMTI Optima Human Performance System
AMTI's ground-breaking development in force technology offers a 10-fold improvement over any other force platform available on the market.
AMTI Portable Force Plates
Lightweight, simple and easy-to-use, these portable force plates are a flexible solution that are ready to set up on any flat surface.
AMTI Standard Force Plates
These force platforms are the ideal choice for sports science performance, athletics, gait analysis, strength and conditioning, balance evaluation and more.
The Computer Assisted Rehabilitation Environment (CAREN) is the world’s most advanced biomechanics laboratory using augmented and virtual reality.
The C-Mill is an augmented and virtual reality instrumented single belt treadmill, used for the evaluation and training of impaired gait and balance.
Motek DynSTABLE & STABLE
These are clinical solutions for the assessment and training of every aspect of impaired balance control using VR and force plate technology.
The GRAIL (Gait Realtime Analysis Interactive Lab) is a dedicated solution for gait analysis and training in challenging conditions to improve gait patterns.
Motek HapticMaster VR
The HapticMaster VR is a haptic robot designed to give users a realistic sense of touch in a virtual or remote world using their upper extremities.
The M-Gait is a modular 3D instrumented dual-belt treadmill which can have various upgrades to improved the functionality of your set-up.
Motek N-Mill Treadmill
Smaller than the C-Mill, the N-Mill is a single belt treadmill with an optional force plate.
Myon Aktos Mini Wireless EMG
The Aktos Mini is an affordable EMG wireless sensor, using a portable 4 channel system to analyse and measure muscle signals or joint angles in real-time.
Myon Aktos Wireless EMG/ACC/IMU System
Myon's wireless, small, lightweight sensors and electrodes can quickly, easily and comfortably be applied and used for recording and analysing movement.
Treadmetrix's high speed single and dual belt instrumented force treadmills can be purchased with or without incline capacity for powerful gait analysis.