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

numerical simulation and computational models, partial differential equations lead to cost reduction with simq

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.

Florian Maier
CMO

Book your free consultation now!

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.

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0

Time saved
in the OR

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0

Better service at
Point-of-Care Center

Simq OSP at a glance

Target: Personalization of standard implants with digital surgical planning