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Medical & Biomechanics

Measure what you cannot touch

Non-contact full-field strain for implants, soft tissue, and device submissions where contact gauges would distort the response

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FDA
Submission ready
Non-contact
No specimen damage
Full-field
Every surface point
Automated
Multi-specimen batches

The Problem

Strain gauges will not bond to living tissue, and contact extensometers restrict the very motion you are trying to measure. Point sensors miss the heterogeneity that defines biological response.

The Solution

Three ways Trilion supports medical R&D

Implant & Prosthetic Testing

Full-field strain on orthopedic, spinal, dental, and cardiovascular devices for FDA submissions.

Soft Tissue

Measure skin, tendon, cartilage, and engineered constructs without contact or bonding.

Motion & Gait

Dense 3D surface kinematics beyond what marker-based tracking can resolve.

Applications

3D rendered hip implant with a strain colormap on the implant neck inside an acetabular cup.
Full-field strain on a hip implant neck shows where load transfers between femoral stem and cup. ARAMIS gives implant designers the same view on physical test articles.
ARAMIS displacement vectors along a runners carbon-fiber prosthetic blade on a treadmill.
ARAMIS captures how a prosthetic running blade flexes and rebounds during stance, frame by frame.

Lab throughput

“Automation Suite standardizes multi-specimen protocols, eliminating operator variability across large study batches.”

Deployed in device R&D and university biomechanics labs

Ready to strengthen your submission?

Talk to an engineer about implant, tissue, or motion testing.

Featured Resources

Case studies, white papers, and application notes

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Guide

Optical 3D Deformation and Strain Measurement (ASNT Nondestructive Testing Handbook, Chapter 10)

Revised ASNT Nondestructive Testing Handbook chapter on 3D image correlation for full-field deformation and strain ...

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Published Paper

3D Digital Image Correlation: The Ultimate Biomechanics Tool for Displacements and Strain Testing

3D Digital Image Correlation (DIC) provides the ability to measure non-contact 3D coordinates, displacements and ...

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Published Paper

High Resolution Three-Dimensional Strain Mapping of Bioprosthetic Heart Valves Using Digital Image Correlation

Three commonly used bioprosthetic heart valves (Edwards SAPIEN 3, Medtronic CoreValve, and Carpentier-Edwards PERIMOUNT ...

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Published Paper

Quantification of Facial Dynamic Motion for Cosmetic and Reconstructive Surgery Using Three-Dimensional Digital Image Correlation

Study of 14 subjects using a dual-camera 3D digital image correlation system with GOM ARAMIS software to quantify ...

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Published Paper

Smart Biomechanics Strain Measurements using 3D Image Correlation Photogrammetry

Biomechanics place huge challenges on existing measurement technologies for determining the mechanical properties of ...

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Key Products & Systems

Purpose-built systems for your application

Flagship 3D DIC System

ARAMIS Adjustable 12M

Full-field strain and displacement measurement for components and structures. Scales from coupon to full-scale testing.

Non-Contact Video Extensometer

XI-Gauge 2D/3D

Replace clip-on extensometers with non-contact video strain measurement. ISO 9513 verified.

Ultra high-speed CMOS imaging

Phantom TMX Series

The fastest Phantom cameras ever built. Up to 1.75 million fps at reduced resolution, 76 Gpx/s throughput, and BSI sensor sensitivity for ballistics, fluid dynamics, and fracture mechanics.

High-resolution high-speed imaging

Phantom T-Series

T-Series cameras pair multi-megapixel resolution with thousands of frames per second. Ideal for material testing with DIC, automotive crash analysis, and biomechanics motion capture.

From the Blog

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