What is the difference between DICOM and PACS?

DICOM (Digital Imaging and Communications in Medicine) is the international standard that defines how medical imaging data is formatted, stored, and exchanged. Every CT scan, MRI, X-ray, and ultrasound is stored as a DICOM file. PACS (Picture Archiving and Communication System) is the software and hardware infrastructure that receives, stores, retrieves, and displays DICOM images. DICOM is the language; PACS is the system that speaks it. An organization can have a PACS without building DICOM from scratch by using DICOM-compliant components.

How does AI integrate with PACS?

AI algorithms are typically integrated into PACS via DICOM Secondary Capture (SC) for annotations, DICOM Structured Reporting (SR) for findings, and custom API hooks in the PACS worklist engine. When a study arrives, the PACS routes it simultaneously to the radiologist worklist and an AI inference pipeline. The AI results — detections, measurements, classifications — are returned as DICOM SR or overlay objects and surfaced in the viewer alongside the original images. Triage-positive studies can be automatically escalated in the worklist for faster reading.

What radiology modalities does your system support?

Our PACS implementations support all DICOM-compliant modalities including CT, MRI, PET-CT, PET-MRI, digital X-ray (DX/CR), digital mammography (MG/DBT), ultrasound (US), nuclear medicine (NM/PT), fluoroscopy, endoscopy (ES), ophthalmology (OP/OPT), and dental (DX/IO/PX). We also support non-DICOM modalities that can be converted via DICOM encapsulation (pathology whole-slide images, ECG waveforms, dermatology photographs).

How is imaging data secured in your PACS?

All DICOM data is encrypted at rest using AES-256 and in transit using TLS 1.3. Access to studies is governed by patient-level RBAC — technologists, radiologists, referring physicians, and patients all have differentiated access rights. Every image view, download, and deletion is logged in a HIPAA-compliant audit trail. For multi-site deployments, we implement VPC peering, private endpoints, and IP allowlisting to prevent unauthorized access across organizational boundaries.

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DICOM & PACS Software Development

Medical imaging is the backbone of modern radiology. We build full-stack DICOM and PACS solutions — from cloud-native imaging archives and worklist management systems to browser-based DICOM viewers and AI-enhanced diagnostic tools — with complete DICOM 3.0 conformance and seamless integration with RIS, HIS, and EMR platforms.

DISCUSS YOUR IMAGING PROJECT

3B+

DICOM studies stored in cloud PACS globally

99.99%

Uptime for production imaging systems

Full

DICOM 3.0 conformance coverage

Sub-2s

Study load time target for radiologists

DICOM, PACS, and Everything In Between

DICOM (Digital Imaging and Communications in Medicine) is the international standard for medical imaging data. PACS (Picture Archiving and Communication System) is the infrastructure that stores, retrieves, and distributes DICOM images. We develop both — plus the clinical viewers and AI integrations that tie them together.

DICOM Standard Implementation

Full DICOM 3.0 compliance for storage (DICOM Store), retrieval (WADO-RS, WADO-URI), worklist management (MWL), print (DICOM Print), and structured reporting (SR) — conformant with IHE profiles including XDS-I, PIX/PDQ, and RAD-11.

DICOM 3.0WADO-RSMWLStructured ReportingIHE Profiles

PACS Architecture Development

Design and build scalable, cloud-native PACS using Orthanc, DCM4CHEE, or custom architectures on AWS, Azure, or GCP. Handle study routing, modality worklists, auto-routing rules, and multi-site federation with sub-second query response times.

OrthancDCM4CHEECloud PACSStudy RoutingMulti-Site

DICOM Viewer Development

Browser-based (OHIF, Cornerstone3D) and desktop DICOM viewers with MPR reconstruction, MIP/VR rendering, annotation tools, hanging protocols, and side-by-side comparison — optimized for diagnostic-grade performance on standard hardware.

OHIF ViewerCornerstone3DMPR3D RenderingHanging Protocols

Advanced PACS Capabilities

Modern PACS goes beyond storing images. Our platforms include AI assistance, vendor-neutral archiving, and full clinical system integration.

Cloud PACS & VNA

AWS HealthImaging or Azure-hosted vendor-neutral archives with 99.99% uptime, intelligent tiered storage (hot/warm/cold), global CDN distribution, and disaster recovery.

AI Diagnostic Assist

Integrate FDA-cleared AI algorithms from Aidoc, Rad AI, or custom models for automated detection of pulmonary embolism, intracranial hemorrhage, incidental findings, and fractures — routed to worklists in real time.

HIS/RIS/EMR Integration

HL7 v2.x and FHIR ImagingStudy resource integration connects PACS with hospital information systems, radiology information systems, and EMRs for end-to-end order-to-report workflows.

DICOM Worklist & Routing

Automated MWL population from RIS orders, intelligent study routing to reading worklists by modality and subspecialty, and DICOM router configuration for multi-site environments.

Technologies We Work With

OrthancDCM4CHEEOHIF ViewerCornerstone3DDICOMwebAWS HealthImagingAzure API for DICOMFHIR ImagingStudyHL7 v2Python (pydicom)Node.js

Why Radiology Teams Choose Woltrio

We bring together DICOM standards expertise, cloud infrastructure engineering, and clinical radiology workflow knowledge to deliver imaging platforms that radiologists trust.

DICOM Conformance Expertise

We write, validate, and publish DICOM conformance statements. Our engineers have deep experience with the full DICOM standard — not just basic DIMSE operations.

Performance-First Architecture

Radiologists need images in under two seconds. We architect prefetching strategies, CDN caching, and progressive loading pipelines that deliver diagnostic-quality images at speed.

Security & Regulatory Compliance

All imaging archives are encrypted at rest and in transit, with HIPAA-compliant access controls, patient-level authorization, and full audit trails on every image access.

Our DICOM PACS Development Process

From workflow analysis to DICOM validation, we follow a radiology-informed process that minimizes disruption and maximizes clinical utility.

Radiology Workflow Analysis

Map existing modality types, study volumes, reading workflows, and integration touchpoints to inform architecture decisions.

DICOM Conformance Planning

Define supported SOP classes, transfer syntaxes, DICOM service classes (SCU/SCP), and IHE integration profiles.

PACS Architecture Design

Design storage tiers, routing rules, database schema, API layer, and viewer integration strategy for the target environment.

Viewer & Integration Development

Build the DICOM viewer, worklist engine, HL7/FHIR integration adapters, and AI pipeline connectors in agile sprints.

DICOM Validation & Go-Live

Conduct DICOM conformance testing, IHE Connectathon testing where required, and phased rollout with radiologist feedback cycles.

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Frequently
asked Questions

Seeking basic information? Our FAQ section is a ready reckoner with precise answers to the most probable queries.

Yes — and in most cases, cloud PACS is the recommended architecture for new deployments. AWS HealthImaging, Azure API for DICOM, and GCP Healthcare API all provide HIPAA-eligible, scalable DICOM storage services that eliminate the capital cost of on-premises hardware. We build production cloud PACS on these services with intelligent tiered storage, global CDN delivery for multi-site organizations, and disaster recovery architectures. Existing on-premises PACS can be migrated to cloud with our DICOM migration tooling.

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DICOM & PACS Software Development

3B+

DICOM studies stored in cloud PACS globally

99.99%

Uptime for production imaging systems

Full

DICOM 3.0 conformance coverage

Sub-2s

Study load time target for radiologists

DICOM, PACS, and Everything In Between

DICOM & PACS Software Development

DICOM, PACS, and Everything In Between

DICOM Standard Implementation

PACS Architecture Development

DICOM Viewer Development

Advanced PACS Capabilities

Cloud PACS & VNA

AI Diagnostic Assist

HIS/RIS/EMR Integration

DICOM Worklist & Routing

Technologies We Work With

Why Radiology Teams Choose Woltrio

DICOM Conformance Expertise

Performance-First Architecture

Security & Regulatory Compliance

Our DICOM PACS Development Process

Radiology Workflow Analysis

DICOM Conformance Planning

PACS Architecture Design

Viewer & Integration Development

DICOM Validation & Go-Live

Ready to Build Your Healthcare Software?

Frequentlyasked Questions

DICOM & PACS Software Development

DICOM, PACS, and Everything In Between

DICOM Standard Implementation

PACS Architecture Development

DICOM Viewer Development

Advanced PACS Capabilities

Cloud PACS & VNA

AI Diagnostic Assist

HIS/RIS/EMR Integration

DICOM Worklist & Routing

Technologies We Work With

Why Radiology Teams Choose Woltrio

DICOM Conformance Expertise

Performance-First Architecture

Security & Regulatory Compliance

Our DICOM PACS Development Process

Radiology Workflow Analysis

DICOM Conformance Planning

PACS Architecture Design

Viewer & Integration Development

DICOM Validation & Go-Live

Ready to Build Your Healthcare Software?

Frequentlyasked Questions

Frequently
asked Questions

Frequently
asked Questions