Build a secure, workflow-ready DICOM viewer for clinical, research, or product teams that need more than an off-the-shelf viewer.
Planning a DICOM viewer build?
Use PYCAD's DICOM viewer development checklist to scope viewer features, DICOM infrastructure, performance, and compliance requirements before development starts.
PYCAD helps medical imaging teams build production-minded software around DICOM, AI models, datasets, viewers, and clinical workflows. This service is for teams with a serious use case, real stakeholders, and a need for an implementation partner.
Who this is for
- Healthcare AI startups building imaging products.
- Hospitals, research teams, and imaging companies modernising workflows.
- Teams that need DICOM, viewer, dataset, model, or deployment expertise.
Not a fit if
- You only need a free tool for personal file viewing.
- You do not yet have a target user, workflow, dataset, or product goal.
- You need legal or regulatory approval without the technical validation work behind it.
What we can build
DICOM viewer UX for 2D, 3D, MPR, measurements, annotations, PACS/DICOMweb integration, AI overlays, and deployment.
- Workflow architecture and implementation plan.
- Medical imaging software development and integration.
- Testing with representative imaging data and operational edge cases.
- Documentation and handoff for your product, research, or engineering team.
How the engagement works
- Clarify the imaging workflow, users, data, systems, and success criteria.
- Define the technical architecture, risks, milestones, and delivery scope.
- Build iteratively, validate with representative cases, and prepare the system for real use.
Related PYCAD capabilities
- Custom DICOM viewer development
- Medical imaging data handling
- Medical imaging model training
- Medical AI model deployment
Ready to discuss a medical imaging project?
If you have a real medical imaging workflow, dataset, viewer, or AI product to build, share the context with PYCAD. We will help clarify the technical path, risks, and next execution steps.