Unique Hybrid PACS Model

ProtonPACS is an innovative system designed to enhance your medical imaging workflow. It offers a seamless user experience by mirroring your user preferences, workflow, and critical enterprise data for each study.

With ProtonPACS, you can ensure uninterrupted access to all your data, as your on-site server and offsite storage automatically sync in real-time for efficient collaboration. The system provides pacs for radiology teams easy management of study viewing, along with additional features like a performance image viewer and advanced search functionality. Leveraging cloud computing technology, ProtonPACS improves security, scalability, and mobility, enabling you to securely access and analyze medical images anytime, anywhere.

Hybrid Architecture Benefits

Our system mirrors your user preferences, workflow and all other critical enterprise data for each study.

You never lose access to any of your data.

Your on-site server and offsite storage automatically sync with each other for real-time collaboration.

Additional features include: performance image viewer, advanced search functionality, and cloud computing which improves security, scalability and mobility.

PACS Architecture Comparison


Capital Expenses

Ongoing Support


Image Access

Data Storage and Disaster Recovery

  • On-site server
  • Local data storage
  • In-house IT support
  • Software licenses
  • Hardware
In-house IT support needed for:
  • Ongoing upgrades
  • Hardware maintenance
  • Hardware replacement
  • Network monitoring
  • Application troubleshooting
To give more resources access you must purchase:
  • Additional software licenses
  • Supporting hardware
  • Access images on local server
  • If the server is down, images are not accessible
In-house IT typically archives images on local hardware and maintains 2 copies
  • Off-site server
  • Off-site data storage
  • In-house OR outsourced IT support
Typically a pay-as-you-go subscription pricing plan
Can be included or offered as add-on service
  • Can be included
  • Additional licenses may be required for new users and workstations
  • Access images via secure Internet connection
  • If Internet is down, images are not accessible
Solutions are available for additional fees
  • On-site server
  • Off-site server and cloud data storage
  • IT support included in per study fee
ProtonPACS provides all hardware and software as part of per-study fee
in per-study fee
For no additional fee you can add new:
  • Users
  • Locations
Access all images easily, even when the local server or Internet is down.
  • 2 off-site data centers
  • 4 levels of redundancy

Frequently Asked Questions

What is a PACS?

A PACS, or Picture Archiving and Communication System, is a medical imaging technology used primarily in healthcare organizations to securely store, retrieve, present, and share digital images and reports. Traditionally associated with radiology, PACS has expanded to include other imaging departments such as cardiology and pathology.

How does a PACS system work?

A PACS (Picture Archiving and Communication System) works by capturing, storing, and distributing digital medical images and reports during a medical exam. It serves as a centralized system for image and data management in clinics, hospitals, or any medical facility that provides medical imaging services.

What are PACS used for?

PACS (Picture Archiving and Communication Systems) are used in healthcare for storing, retrieving, and viewing digital medical images. They streamline workflow, enable efficient image analysis, and facilitate remote collaboration for radiology PACS teams. PACS also generate comprehensive reports linked to patient records, integrate with electronic health records, and support long-term image archiving.

Image Storage:

PACS systems provide large storage repositories to accommodate the vast amounts of data generated by various medical imaging equipment like CT scans, MRI machines, and X-ray devices.

Image Retrieval:

These systems enable fast and reliable access to images and related data for healthcare providers, which is essential for timely diagnosis and treatment planning.

Image Viewing:

PACS offers sophisticated tools for viewing images, including abilities to zoom, rotate, measure, and compare images, which are critical for detailed analysis by medical professionals.


PACS systems are designed to facilitate the electronic transmission of images and reports across different departments within a healthcare institution or across different institutions, improving collaboration and consultation among medical staff.


They are often integrated with other health information systems such as Electronic Health Records (EHRs) and Radiology Information Systems (RIS) to provide a comprehensive view of a patient’s medical history and diagnostics.

Who uses a PACS system?

PACS (Picture Archiving and Communication Systems) are used by radiologists, imaging departments, clinicians, specialists, technologists, administrators, and IT staff in healthcare. They enable storing, managing, and accessing digital medical images for interpretation, diagnosis, treatment planning, and collaboration. PACS support remote consultations, telemedicine, research, and education. They are essential for hospitals, clinics, and diagnostic centers, streamlining workflows and enhancing patient care.

You can learn more about our radiology PACS solutions, and PACS solutions for orthopaedic centers.

What does a typical PACS architecture look like?

A PACS (Picture Archiving and Communication System) architecture typically consists of three main components: an image acquisition system, a central database or server, and viewing workstations. The image acquisition system captures digital medical images from various modalities and sends them to the central database. The central database stores and organizes the images, along with associated patient data. Viewing workstations provide healthcare professionals with access to the stored images, allowing them to view, analyze, and generate reports for patient care. Communication protocols ensure seamless data exchange between these components within the PACS architecture.

How do you use a PACS system as a clinician?

As a clinician, you can use a PACS (Picture Archiving and Communication System) by accessing the system with your authorized credentials. Search for patient records by entering their identifying information, retrieve and view the medical images relevant to the case, and analyze the findings using the available tools. Generate reports based on your analysis and integrate them with the electronic health record if the PACS system allows. Collaborate with other healthcare providers by securely sharing images. Utilize the PACS system for treatment planning and informed decision-making, ensuring compliance with organization protocols and privacy regulations.

What are the benefits of a PACS system?

A PACS (Picture Archiving and Communication System) offers benefits such as improved workflow efficiency, faster image retrieval, secure data sharing and collaboration, cost savings, integration with electronic health records, and long-term data preservation. It enhances patient care through streamlined processes, enhanced accessibility, and informed decision-making.

What are the benefits of a PACS for patients?

PACS (Picture Archiving and Communication Systems) significantly improves quality and safety in patient care by enhancing timeliness, accuracy, and access to vital information. It ensures prompt diagnosis and treatment, reduces errors, and enables healthcare providers to make informed decisions based on comprehensive patient data, ultimately enhancing patient outcomes.