The future of Rehabilitation today

Robotic Rehabilitation

Robotic rehabilitation is one of the most modern and advanced methods of neurological and motor rehabilitation. It utilizes high precision robotic systems for motor retraining in a safe, controlled, and repetitive manner, allowing for the objective monitoring of progress at the same time.

Robotic rehabilitation in action

At Diaplasis Rehabilitation Center, in Kalamata, robotic technology does not substitute the rehabilitation therapist, but acts supplementary, enhancing significantly the results of rehabilitation. 

Unlike conventional methods, robotic therapy can:

  • retrain nervous system
  • enhance neuroplasticity
  • enable thousands of repetitions of physiological movements
  • guide movement in absolute precision
  • provide measurable progress data

Combined therapeutic approach

Diaplasis medical team incorporates robotic technology into the development of individualized rehabilitation programs, aiming at maximizing functional recovery and ensuring safe reintegration of the patient to everyday life activities

Its application is based upon:

  • well organized clinical protocols
  • Physiatrist’s medical supervision
  • Collaboration with the interdisciplinary rehabilitation team

Each program is adapted to the needs, capabilities and diagnosis of the patient, with clearly defined functional objectives and continuous progress assessment.

Αποκατάσταση ασθενούς στην ρομποτική αποκατάσταση της Διάπλασης

Whom does it apply for

Robotic rehabilitation is applied to patients with:

01

Neurological conditions

  • Stroke
  • Κάκωση νωτιαίου μυελού
  • Multiple Sclerosis
  • Traumatic Brain Injuries
  • Craniocerebral paralysis
  • Μyopathies
  • Critical Illness Syndrome
02

Orthopaedic and post-operative conditions

  • post-operative rehabilitation
  • chronic musculoskeletal disorders
  • need for intensive mobilization retraining

Robotic rehabilitation systems at Diaplasis

  • Supports gait retraining in a controlled and repetitive way
  • Ensures safe rehabilitation therapy after neurological impairments (i.e. stroke or spinal cord injury)

It integrates:

  • Robotic lower limbs
  • Body weight support
  • Gait training on a specialized treadmill
  • It allows early mobilization, even in patients with reduced stamina or after prolonged hospitalization
  • It supports robotic mobilization of the lower limbs
  • It is ideal for patients on prolonged bed-rest
  • It offers stable support in an upright position
  • It contributes to the activation of the muscles and circulatory system
  • It helps reduce complications associated with immobilization
  • It is designed for functional rehabilitation of the upper limb (arm and shoulder)
  • It enhances neuromuscular retraining
  • It focuses on enhancing mobility in patients with neurological impairments (i.e. stroke, traumatic injuries)
  • It uses targeted exercises, interactive games and muscle strengthening for better therapeutic results

  • Supports gait retraining in a controlled and repetitive way
  • Ensures safe rehabilitation therapy after neurological impairments (i.e. stroke or spinal cord injury)

It integrates:

  • Robotic lower limbs
  • Body weight support
  • Gait training on a specialized treadmill

  • It allows early mobilization, even in patients with reduced stamina or after prolonged hospitalization
  • It supports robotic mobilization of the lower limbs
  • It is ideal for patients on prolonged bed-rest
  • It offers stable support in an upright position
  • It contributes to the activation of the muscles and circulatory system
  • It helps reduce complications associated with immobilization

  • It is designed for functional rehabilitation of the upper limb (arm and shoulder)
  • It enhances neuromuscular retraining
  • It focuses on enhancing mobility in patients with neurological impairments (i.e. stroke, traumatic injuries)
  • It uses targeted exercises, interactive games and muscle strengthening for better therapeutic results
Therapeutic Benefits

The integration of robotic technology contributes to:

Improvement of balance and strength
Accelerating rehabilitation
ασθενής σε θεραπεία ρομποτικής αποκατάστασης
Reducing time of recovery
Safe repetition of movement
Monitoring rehabilitation progress objectively

What does changes in a patient’s everyday life?

With robotic rehabilitation, the patient can:

  • walk with greater confidence
  • gets tired less often
  • gain better body control
  • minimizes dependency on others
  • return to everyday life activities faster

Frequently Asked Questions

No. It adds to the conventional rehabilitation plan, enhancing the results.

Yes, even in patients with reduced stamina or prolonged bed rest.

Yes, it ensures secure and managed strain.

Results are measurable and objectively recorded.