ZEISS MEDICAL INDUSTRY SOLUTIONS

Quality Assurance for Orthopedic Implants

Quality solutions for all types of implants

Different implants, same manufacturing processes

While many different implants and fixation philosophies exist, and the solutions are diverse, the manufacturing processes of the individual components remain similar. Due to their material properties, orthopedic implants can be classified according to the manufacturing processes. This enables us to offer tailored quality solutions in the individual segments, which leads to an increase in productivity in your process. Explore the quality gates for the metal manufacturing process and the plastic manufacturing process.

Metal manufacturing process
Plastic manufacturing process

Dental implants

Due to the shape of dental implants, the thread measurement of the entire component surface is most challenging. Manufacturers have to reliably measure small structures & tolerances in fast cycle times.

Learn more about quality assurance in the field of dental

Shoulder implants

A shoulder implant consists of a glenosphere, a glenoid implant, peripheral screws, and a humeral stem. The measurement of narrow stem's freeform profile is the biggest metrological challenge for this type of implant.

Spinal implants

The full inspection of rods without datum references is the greatest difficulty in measuring spinal implants. For these implants, intervertebral discs are fixed by spinal rods and monoaxial pedicle screws.

Hip implants

It is the low tolerance of multiple parts made of several materials that makes measurement of hip implants challenging. These implants are comprised of an acetabular cup, a polyethylene liner, a femoral head and a femoral stem.

Knee implants

When measuring knee implants accurately, it is important to ensure that no white marks are left behind. A knee implant consists of metallic and plastic components.

Bone implants & screws

Bone screws and bone plates are used for implants in the field of trauma & extremities. The biggest metrology challenge of bone plates are multi-axis measurements of shallow bores on a freeform surface.

Metal working process

From raw material to finished parts

Orthopedic implants must function flawlessly even under the demanding physiological conditions in the human body. This makes it a central requirement for manufacturers to gain a deep understanding of orthopedic materials - metallic compounds, ceramic, and polymers - and the resulting organic reaction. One of the most important steps in the metal working process is assessing the raw materials properties to ensure the performance of the product. Other important challenges are the geometric dimensioning, technical cleanliness during the manufacturing process and efficiency gains through minimizing waste.

Quality gates and solutions

Quality Gate 1
Metallography

Analysis of raw material

Challenges

Assure constant quality of raw material from a micro to nano scale with respect to e.g., porosity, voids, cracks, fissures and grain size

Your benefits with ZEISS

Determine the root cause of failure to improve overall reliability

Microscopy systems
Quality Gate 2
Quality of Raw parts

Inspection of Primary Shape

Challenges

Ensuring that the components are produced in good shape and without fissures, voids, cracks or critical inclusions

Your benefits with ZEISS

Fast inspection of produced components to prevent cost-intensive failures later in the manufacturing process

3D scanning technology

CT- and X-ray systems
Quality Gate 3
Incoming inspection

Efficient verification of supplied parts

Challenges

Ensuring supplied parts are within the margins for machining and processing
Fast inspection cycle times to reduce probability of bottlenecking

Your benefits with ZEISS

Programmable inspection plans, which are executable in CNC
Optimize your machining time and sort out waste parts before they turn into products

3D scanning technology

Coordinate measuring machines
Quality Gate 4
In process control

Observation of processing quality

Challenges

Detect and classify particulate contamination to fulfill the quality standards in the medical industry
Inspections in process steps are necessary to control the processing and avoiding unnecessary scrap

Your benefits with ZEISS

Combine particle detection and classification in a Technical Cleanliness workflow that not only finds particles, but also helps classify them by contamination or wear origin
Avoid further processing of scrap parts

Technical Cleanliness
Quality Gate 5
Geometric dimensioning

Final dimensioning

Challenges

Critical factors for quality assurance are cycle time and reliability of results
Tight profile tolerance on polished surfaces and complex freeforms are a challenge for traditional inspection methods

Your benefits with ZEISS

Increase usable acceptance range by decreasing measurement uncertainty
Reduce operator influence and need for manual inspection by using CNC inspection
Fast contactless evaluation of freeform surface analysis

3D scanning technology

Coordinate measuring machines
Quality Gate 6
Surface Analysis

Final visual inspection

Challenges

Finished products have to be checked to guarantee the correct layer thickness and a flawless surface quality
Polishing results in a mirror-like finish that poses challenges for optical inspection

Your benefits with ZEISS

Fast contactless evaluation of roughness
Reproduceable and fast results in final inspection

See an application in more detail

Plastic manufacturing process

From raw material to machined parts

Due to the manufacturing process, plastic implants can be produced very efficiently as large batches, but also individually. Sometimes these are customized parts that have been specifically manufactured for the patient. This is because the great advantage of plastics in medicine is that they can be shaped in a variety of ways and can therefore be adapted well to the respective needs of the patient. Especially ultra high molecular weight polyethylene (UHMWPE) has seen great successes in medical implant applications due to its high abrasion resistance, high toughness, and great biochemical inertness. The precise manufacture of the sometimes very small parts with complex geometries is now technologically possible thanks to ultra-modern machines and systems.

Quality gates and solutions

Quality Gate 2
Incoming inspection

Efficient verification of stock

Challenges

Ensuring supplied parts are within the margins for machining and processing
Fast inspection cycle times to reduce probability of bottlenecking

Your benefits with ZEISS

Programmable inspection plans, which are executable in CNC
Optimize your machining time and sort out waste parts before they turn into products

3D scanning technology

Coordinate measuring machines
Quality Gate 3
Geometric dimensioning

Final dimensioning

Challenges

Critical factors for quality assurance are cycle time and reliability of results
Tight profile tolerance on polished surfaces are a challenge for traditional inspection methods

Your benefits with ZEISS

Increase usable acceptance range by decreasing measurement uncertainty
Reduce operator influence and need for manual inspection by using CNC inspection
Evaluate GD&T supported by smart software tools and workflows

CT and X-ray systems

Coordinate measuring machines

Quality assurance for additively manufactured implants

Additive manufacturing is a modern manufacturing method. It offers a lot of potential for a wide variety of customizable medical devices: From hip and knee to spine implants, trauma components through to Patient Specific Products (PSP). To produce precise, reproducible, and FDA-compliant additively manufactured medical parts, strict quality assurance requirements must be met.

Learn more

ZEISS Insights: technical papers

Technical Paper Critical Particles on Medical Products

Geometric dimensioning of a knee implant

Measurement of bone plates and screws

Identification of critical particles on medical devices

15.12.2023

AI automates testing of implant coatings

The medical technology group Smith+Nephew uses AI-supported light microscope ZEISS Axio Imager to inspect coated implants. The innovative solution has been handling image segmentation and is shortening the entire measurement process to just a few minutes.

16.06.2020

Precision at every turn

The Icelandic company Össur measures components with complex geometries with ZEISS solutions and thus guarantees the quality of its high-tech prosthetics.

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Medical Application!
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CONTURA / Measurement of femoral implant
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ZEISS O-DETECT: Applications in Action - Medical Components
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Millions of steps far
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ZEISS & Smith+Nephew: AI automates testing of implant coatings

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ZEISS Medical Industry Solutions Success Story Orchid Orthopedic Solutions

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