
Longer Development Cycles
Tooling requirements and manufacturing constraints can slow design validation and product launches.
Medical products are becoming more specialized, personalized, and complex. Yet many manufacturers still rely on production methods that were designed for longer development cycles and standardized products.
Shapeways helps medical companies accelerate product development through industrial additive manufacturing, injection molding, engineering support, and scalable production solutions.
Whether you're developing a new medical device, orthopedic product, wearable technology, or surgical tool, we help you move from concept to production with greater speed and flexibility.

Tooling requirements and manufacturing constraints can slow design validation and product launches.

Medical products increasingly require customization, specialized geometries, and frequent design updates.

Moving from prototype to production remains a challenge for many medical innovators.

Inventory costs and long lead times reduce flexibility and increase risk.

Discover how digital manufacturing is accelerating medical innovation through faster product development, patient-specific devices, and more agile healthcare supply chains.
Modern medical manufacturing requires more than a single production technology.
By combining additive manufacturing, injection molding, and engineering expertise, Shapeways helps teams:
✔️ Accelerate design validation
✔️ Reduce development risk
✔️ Support patient-specific applications
✔️ Bridge the gap between prototype and production
✔️ Scale manufacturing efficiently
SLS, MJF and SLA technologies.
Efficient, repeatable manufacturing at scale.
For exceptional precision and material flexibility.
We support medical companies accelerate development through industrial additive manufacturing, injection molding, advanced materials, and engineering-focused production support designed for modern medical manufacturing workflows. From rapid prototyping to scalable production, Shapeways helps medical companies bring products to market faster.
Explore how Shapeways and organizations are using additive manufacturing to solve complex engineering, production, and customization challenges.
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Discover how digital manufacturing enables personalized healthcare through patient-specific orthoses, surgical instruments, and anatomical models. Learn how medical innovation accelerates development, customization, and bring products to market faster.
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Discover how OHD leveraged additive manufacturing to rapidly develop custom adapters and components for respirator fit testing, helping safety professionals across healthcare and to protect workers without the delays of traditional manufacturing.
Additive manufacturing is widely used for medical device prototyping, orthopedic products, surgical guides, anatomical models, wearable device housings, diagnostic equipment components, rehabilitation devices, and low-volume specialized medical products.
Shapeways offers a range of manufacturing technologies, including SLS, MJF, SLA, injection molding, CNC machining, and other production-ready manufacturing solutions to support different stages of product development.
Yes. Many medical companies use additive manufacturing not only for prototyping, but also for bridge manufacturing, low-volume production, patient-specific products, and specialized end-use applications.
Additive manufacturing is often the best choice during product development, design validation, customization, and low-volume production. Injection molding becomes more cost-effective when designs are finalized and production volumes justify tooling investment.
Common materials include Nylon PA12, TPU, stainless steel, titanium, aluminum, and engineering-grade resins. Material selection depends on the product's functional, mechanical, and regulatory requirements.
Yes. Our engineering team can assist with design optimization, Design for Additive Manufacturing (DfAM), manufacturability reviews, material selection, CAD support, and production planning.
Bridge manufacturing is the production phase between prototyping and full-scale manufacturing. It allows medical companies to produce low-volume batches for testing, pilot programs, clinical evaluations, and market validation before committing to large-scale production.
Additive manufacturing eliminates tooling delays, enables rapid design iterations, and allows teams to test functional prototypes faster. This helps medical companies reduce development cycles, gather feedback earlier, and bring products to market more efficiently.