Great software... because we put People first

FUTURE HEALTHCARE

Future Processing is working on ground breaking, innovative developments in software to improve medical imaging and data management to improve decision making by clinicians and enhance patient outcomes.

OUR EXPERTISE

Future Processing has more than 10 years of experience in software development for medical image processing and is experienced at working to standards required by ISO 13485.

Machine learning and medical imaging experts work for us. They can support projects and R&D department of client.

During those years of our experience we have collaborated closely with companies and academic institutes. We have developed a range of systems and are working on next generation software which will support improved diagnosis. Algorithms created by our engineers support the rapid growth of machine learning that is taking place within healthcare, helping analyse data sets and interpret medical images using image processing techniques.
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NUMBERS


10 years

Future Processing experience in software development for medical image processing


69

computer vision specialists working for Future Processing


16%

the algorithm is better than the doctor during detecting cancerous changes at medical images


10 000 000

the number of medical images analysed by radiologist during his career


17,7 m.

people die each year from cardiovascular diseases


1 out of 6

deaths are due to cancer



OUR EXPERIENCE WITH HEALTHCARE


SEGMENTATION

Segmentation of medical images is a pivotal step in the day-to-day clinical practice.

At Future Processing, we develop medical image analysis and segmentation algorithms which benefit from both conventional image processing techniques and modern machine learning algorithms, including various deep neural architectures.

We have already applied these approaches for segmenting scans of different modalities (MR and CT) and organs – including:

  • CORONARY VESSELS
  • BRAIN
  • LUNGS
  • RETINAL IMAGES

BENEFITS FROM USING THIS TECHNOLOGY:

  • Fully- and semi-automatic segmentation of organs, bones and tissues.
  • Specialised methods tuned for specific regions.
  • Advanced algorithms calibrated and geared towards medical images.
  • Delivered solutions based on years of experience in medical image analysis.

Read the case study


IMAGING IN ONCOLOGY

Dynamic contrast enhanced (DCE) imaging using computed tomography (CT) or magnetic resonance (MR) has been intensively studied to allow for assessing the vascular support of various tumours and other tissues.

In the ECONIB project we seek to interpret every single bit of information that can be extracted from the dynamic imaging.

We are working on a comprehensive system that will allow for segmenting DCE images, extracting and analysing DCE biomarkers and will implement convenient data re-processing modules with the intention of bringing it into standard clinical workflow to deliver value not only to clinicians but – most importantly – to patients.

BENEFITS FROM USING THIS TECHNOLOGY:

  • Enhancements in diagnostic & prognostic efficiency of DCE.
  • Improved medial image segmentation.
  • Hands-free processing.
  • Convenient re-analysis.
  • Flexibility & reproducibility.

Read the case study


4D IMAGING IN CARDIOLOGY

Cardio4D is a computational platform increasing the efficiency and efficacy of medical imaging in patients suffering from cardiovascular diseases.

This non-invasive method is aimed to help physicians better analyse 3D angiograms by revealing the 4th dimension: detailed information about flow conditions in the patient’s cardiovascular system.

Advanced algorithms from computational physics, machine learning and image analysis will support clinicians in diagnosis and decision making. This will enhance the conventional angiography by revealing information previously unavailable or difficult to obtain like from IVUS or FFR.

BENEFITS FROM USING THIS TECHNOLOGY:

  • Full non-invasive investigation.
  • Localization of regions likely to develop atherosclerotic plaques.
  • Estimation of stability and hemodynamic significance of existing plaques.
  • Possibility to perform in-silico perfusion scintigraphy, IVUS and FFR.

Read the case study




Innovative solutions change the face of medicine.

Contact us and check how our specialists can support your project.
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