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[New technologies and robotics].

Christiane Kruppa1, Sebastian Benner2, Alexis Brinkemper3

  • 1Chirurgische Klinik und Poliklinik, Berufsgenossenschaftliches Universitätsklinikum Bergmannsheil Bochum, Ruhr-Universität Bochum, Bochum, Deutschland. christiane.kruppa@bergmannsheil.de.

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PubMed
Summary

Robot-assisted systems offer promising rehabilitation for trauma patients, integrating technologies like exoskeletons and brain-machine interfaces. Further research is needed to fully establish their role in trauma recovery.

Keywords:
Artificial intelligenceBrain-machine interfaceExoskeletonRehabilitationSurgical traumatology

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Area of Science:

  • Robotics and biomechatronics in rehabilitation medicine.

Context:

  • Advancements in computer and electromotor technologies are driving the adoption of robot-assisted systems in trauma surgery rehabilitation.
  • Current applications are often limited to pilot projects, with diverse technological approaches including exoskeletons, functional electrical stimulation, soft robotics, neurorobotics, and brain-machine interfaces.

Purpose:

  • To explore the current state and potential of various robot-assisted technologies in trauma rehabilitation.
  • To identify areas with existing evidence (e.g., exoskeletons for gait in paraplegia) and areas needing further investigation (e.g., complex fracture rehabilitation).

Summary:

  • Exoskeletal systems show the most evidence for gait and stance rehabilitation in paraplegic patients, with emerging roles in hip fracture and prosthetic care.
  • Single joint systems are being tested for extremity rehabilitation post-surgery, but data is limited for widespread trauma application.
  • Advancements in myoelectric and "sentient" prostheses, alongside 3D printing, are enhancing limb amputation rehabilitation.

Impact:

  • Significant progress in artificial intelligence is expected to drive groundbreaking developments and broader applications of these technologies in trauma patient rehabilitation.
  • Increased use of these advanced systems can lead to improved functional recovery and quality of life for individuals recovering from traumatic injuries.