Personalize stock implants at the Point of Care
Simq OSP is our first easy-to-use software to personalize your surgery at the point of care. Easily create personalized surgical guides and reports based on stock implants.
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Ready to reshape the implant industry?
Simq OSP is bridging the gap between standard implants and patient-specific solutions.
Easy digital planning at the point of care with an implant library
Followed by direct production in your hospital with 3D printers
Skip extensive planning by specialists and third parties
Increase surgical precision of standard implants
Save costs compared to PSIs
Medical device manufacturers: Increase sales and improve the service for your implants
How it works
Your software tool for complex osteosynthesis
Input
Patient Data
1
Morphing/Fitting
or Rearrange Fractures
2
Definition
of Defect
3
Virtual
Surgical Planning
4
Simulation in Cloud
Instruction
Pre-OP Bending
Results
Post-OP State
Surgical Templates
OP Bending
Marking Guides
OP Preparation
Benefits
Personalize
your standard implants
Biomechanical
evaluation of osteosynthesis
Objective KPIs
for Post Market Surveillance
Pre-op bending instructions
Select the
optimal implant
for your fracture
Quick and easy
without a middleman
Workflows
The first workflows are being developed for orthognathic surgery and fractures of the distal radius. More will follow soon.
Mandible
BSSO Orthognathic
Beta
Maxilla
LeFort I Orthognathic
Beta
Distal Radius
Fracture
Beta
Your
Workflows
?
Mandible
BSSO Orthognathic
Beta
Maxilla
LeFort I Orthognathic
Beta
Distal Radius
Fracture
Beta
+
More
Workflows
to come
Customizable at any time.
Workflows for new anatomical areas or materials.
Schedule free consultation
Simq OSP
The goal of the project is to personalize and improve the surgical planning of complex osteosyntheses. For this purpose, a patient-specific model is created based on a population-based model without segmentation.
Simple landmarks and measurements extracted from CT and X-ray images are used to create a population-based representation of the patient’s anatomy. For further treatment planning, a FEM simulation can be performed to evaluate the postoperative strength and plan the optimal selection, quantity and position of the stock plates used in the surgery.
Time saved
in the OR
Better service at
Point-of-Care Center
Simq OSP at a glance
Target: Personalization of standard implants with digital surgical planning
- Patient Matched implants without manufacturing
- Shorter surgery times
- Stability assessment of osteosynthesis
- Reduce human error
- Objective investigtion for morbidity and mortality conferences.
- Verified and validated parametric biomechanical simulation models
- Population-based parametric numerical models to replace time-consuming segmentation