Knee Ligament Injury Diagnosis

Dynamic Testing.
Knee Care Reimagined.

Genourob’s knee laxity arthrometers offer unparalleled precision in ligament diagnosis. These tools are not intended to replace MRI but to complement it, applying precise translation and rotation tests to provide a detailed assessment of knee ligament integrity. This meticulous approach ensures a comprehensive understanding of each knee, offering a foundation for the most effective treatment strategies, combining the strengths of dynamic (Arthrometers) and static diagnostics (MRI).

Accurate Detection of Complete/Partial ACL Injuries

Precise Objective AM/PL Bundle Evaluation

Assessment of AM-PL & AL-PM Corners

A 2023 scientific publication, published in the famous peer-reviewed medical journal, The Knee Journal, validated through arthroscopic findings, that Dyneelax/GNRB technology outperforms MRI in detecting partial ACL ruptures.

Discover Proven Outcomes

Case Studies

“GNRB sensitivity and specificity were equivalent to those of MRI for healthy ACL and complete ACL tear detection. However, MRI had some difficulty in detecting partial ACL tears compared with the GNRB which showed better sensitivity.”

2023 - GNRB® laximeter with magnetic resonance imaging in clinical practice for complete and partial anterior cruciate ligament tears detection: A prospective diagnostic study with arthroscopic validation on 214 patients.

DOI: 10.1016/j.knee.2023.03.017

Authors: Theo Cojean, Cecile Batailler, Henri Robert, Laurence Cheze

CHU Nantes, CHU Angers, CH Laval (French Hospitals)

2024 - DYNEELAX Robotic Arthrometer Reliability and Feasibility on Healthy and Anterior Cruciate Ligament Injured/Reconstructed Persons

DOI: 10.1155/2024/3413466

Authors: Nuno Nascimento, Roula Kotsifaki, Emmanouil Papakostas, Bashir A. Zikria, Khalid Alkhelaif, Elisabet Hagert, Bruno Olory, Pieter D’Hooghe, Rod Whiteley

Aspetar Orthopaedic and Sports Medicine Hospital, Sports City Street, P.O. Box 29222, Doha, Qatar

2024 - Intra-rater and inter-rater reliability of robotic arthrometer DYNEELAX® laximeter

DOI: 10.1002/jeo2.70026

Authors: Katja Mihalinec, Carmen B. Martinez-Cepa, Juan C. Zuil-Escobar, Nataša Kejžar, Renata Vauhnik
University of Ljubljana, Ljubljana, Slovenia
Universidad San Pablo‐CEU, CEU Universities, Boadilla del Monte, Spain
Institute for Joint and Sports Injuries, Ukmarjeva 2, Ljubljana, Slovenia

Surgical Planning Guided by Dynamic Robotics

Pre-Operative Insights.
Smarter Surgical Planning.

Using Dyneelax’s unique ability to assess both tibial translation and rotation dynamically, surgical planning has reached a new level of insight and personalization. For the first time in medical history, these detailed pre-surgical evaluations are possible, allowing orthopedic surgeons to create a targeted surgical plan based on individual joint behavior under load, maximizing the chances of a successful procedure and reducing recovery time. Dyneelax is an innovative, patented tool that supports a proactive approach, merging dynamic analysis with customized surgery planning. By pairing Dyneelax with static MRI, surgeons can use both dynamic and static data for better patient outcomes.

Optimize Surgical Precision with Real-Time Knee Bio-mechanical Data

Evaluate the Need for Extra-Articular Tenodesis or Other ACL-Related Procedures

Innovative Data-Driven Pre-Surgical Dynamic Evaluations

Study findings highlight how Dyneelax brings precision to ACL and multi-ligament surgery planning.

2024 – All the menisco‐ligamentary structures of the medial plane play a significant role in controlling anterior tibial translation and tibial rotation of the knee. Cadaveric study of 29 knees with the Dyneelax® laximeter

DOI: 10.1002/jeo2.12038

Authors: Baptiste Guegan, Michel Drouineau, Harold Common, Henri Robert

Centre Hospitalier Universitaire de Rennes, Rennes, France
Centre Hospitalier du Haut Anjou, Château‐ Gontier‐Sur‐Mayenne, France

Rehabilitation Enhanced by Robotic Arthrometry

Next-Gen Rehabilitation.
Powered by Robotics.

Our robotic knee laxity arthrometers transform post-ACLR rehabilitation, enabling the delivery of personalized rehab programs. Conducting precise tests as soon as 1 month post-surgery at very small loads of force (100N max) assesses knee function early, allowing the medical corps to prescribe the right exercises at the right time. This tailored approach ensures optimized recovery outcomes and accelerates the return to activity. By combining dynamic assessments with patient-specific needs, our arthrometers set a new standard in effective, customized rehabilitation.

Prevent Knee Ligament Injuries from Happening

Monitor the ACL & Other Structures Over Time

Customize the Rehabilitation According to Results

Physical-Therapy Programs following ACL Reconstruction Surgery using Arthrometers

Hamstring
Tendon Program

Click title to access comprehensive hamstring tendon rehabilitation strategies using robotic arthrometers for optimal recovery.

BPTB Or
Quadriceps Tendon Program

Click title for BPTB or Quadriceps Tendon rehabilitation protocols, ensuring a guided and effective recovery using arthrometer tech.

Synthetic
Graft Program

Click title for synthetic graft rehabilitation guidelines, designed for successful recovery by monitoring the ACL graft.

ACL Monitoring Scientific Reviews done with robotic arthrometers

2023 – Ecological and Specific Evidence-Based Safe Return To Play After Anterior Cruciate Ligament Reconstruction In Soccer Players: A New International Paradigm

DOI: 10.26603/001c.73031

Authors: Florian Forelli, Nicolas Le Coroller, Maxime Gaspar, Geoffrey Memain, Georgios Kakavas, Nicholas MiraGlia, Patrice Marine, Pascal Maille, Timothy E Hewett, Alexandre Jm Rambaud

2019 – Joint laxity and graft compliance increase during the first year following ACL reconstruction with short hamstring tendon grafts

DOI: 10.1007/s00167-019-05711-z

Authors: Thomas Pouderoux, Bart Muller, Henri Robert

2017 – ACL Grafts Compliance During Time: Influence of Early Sollicitations on the Final Stiffness of the Graft after Surgery

DOI: 10.24966/ORP-2052/100035

Authors: Stéphane Nouveau, Henri Robert, Henri Robert, Timothée Viel

2016 – Evolution of the anteroposterior laxity by GNRB at 6, 9 and 12 months post-surgical anterior cruciate ligament reconstruction

DOI: 10.1016/j.rehab.2016.07.045

Authors: Bertrand Semay, Alexandre Rambaud, Rémi Philippot, Pascal Edouard

Revolutionizing Knee Care with ADL Software

Precision Diagnostics Through
Machine Learning & AI.

The Automated Dynamic Laximetry (ADL) Software empowers our robotic arthrometers with intelligent diagnostics capabilities. Leveraging AI and machine learning, it analyzes complex patterns within knee assessment data, offering precise, actionable insights. This innovative approach transforms knee care, providing a deep understanding of ligament conditions and shaping future diagnostics.

Precision Engineered: The custom-made ADL Electronic Card

At the core of our arthrometers, a Genourob-designed electronic card delivers unparalleled precision in tracking knee movement, revolutionizing diagnostics & treatment.

Rapid Results: 8-minute Testing Duration

The system provides thorough assessments in just 8 minutes, offering rapid results for quicker clinical decision-making and enhanced patient throughput.

Data driven

The ADL software simplifies analysis with graphs and table charts, making patient results clear and easily shareable for quick, informed decisions between all medical departments.

Simplicity Meets Innovation: User-Friendly Interface

Our robotic arthrometers leverage AI-driven machine learning to offer decision support tools, simplifying interpretation for both specialists and non-specialists alike.