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| Start | End | Duration | Virtual | Onsite |
|---|---|---|---|---|
| Jul 20, 2026 | Jul 24, 2026 | 5 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 24, 2026 | 5 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 24, 2026 | 5 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 24, 2026 | 5 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 24, 2026 | 5 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 24, 2026 | 5 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 24, 2026 | 5 days | Virtual | Onsite |
| Jul 27, 2026 | Jul 31, 2026 | 5 days | Virtual | Onsite |
| Jul 27, 2026 | Jul 31, 2026 | 5 days | Virtual | Onsite |
| Jul 27, 2026 | Jul 31, 2026 | 5 days | Virtual | Onsite |
| Jul 27, 2026 | Jul 31, 2026 | 5 days | Virtual | Onsite |
| Jul 27, 2026 | Jul 31, 2026 | 5 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 7, 2026 | 5 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 7, 2026 | 5 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 7, 2026 | 5 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 7, 2026 | 5 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 7, 2026 | 5 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 14, 2026 | 5 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 14, 2026 | 5 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 14, 2026 | 5 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 14, 2026 | 5 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 21, 2026 | 5 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 21, 2026 | 5 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 21, 2026 | 5 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 21, 2026 | 5 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 21, 2026 | 5 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 21, 2026 | 5 days | Virtual | Onsite |
| Aug 24, 2026 | Aug 28, 2026 | 5 days | Virtual | Onsite |
| Aug 24, 2026 | Aug 28, 2026 | 5 days | Virtual | Onsite |
| Aug 24, 2026 | Aug 28, 2026 | 5 days | Virtual | Onsite |
| Aug 24, 2026 | Aug 28, 2026 | 5 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 4, 2026 | 5 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 4, 2026 | 5 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 4, 2026 | 5 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 4, 2026 | 5 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 4, 2026 | 5 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 4, 2026 | 5 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 4, 2026 | 5 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 11, 2026 | 5 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 11, 2026 | 5 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 11, 2026 | 5 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 18, 2026 | 5 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 18, 2026 | 5 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 18, 2026 | 5 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 18, 2026 | 5 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 18, 2026 | 5 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 18, 2026 | 5 days | Virtual | Onsite |
| Sep 21, 2026 | Sep 25, 2026 | 5 days | Virtual | Onsite |
| Sep 21, 2026 | Sep 25, 2026 | 5 days | Virtual | Onsite |
| Sep 21, 2026 | Sep 25, 2026 | 5 days | Virtual | Onsite |
| Sep 21, 2026 | Sep 25, 2026 | 5 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 2, 2026 | 5 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 2, 2026 | 5 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 2, 2026 | 5 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 2, 2026 | 5 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 2, 2026 | 5 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 2, 2026 | 5 days | Virtual | Onsite |
| Oct 5, 2026 | Oct 9, 2026 | 5 days | Virtual | Onsite |
| Oct 5, 2026 | Oct 9, 2026 | 5 days | Virtual | Onsite |
| Oct 5, 2026 | Oct 9, 2026 | 5 days | Virtual | Onsite |
| Oct 5, 2026 | Oct 9, 2026 | 5 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 16, 2026 | 5 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 16, 2026 | 5 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 16, 2026 | 5 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 16, 2026 | 5 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 16, 2026 | 5 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 16, 2026 | 5 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 23, 2026 | 5 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 23, 2026 | 5 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 23, 2026 | 5 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 23, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Oct 26, 2026 | Oct 30, 2026 | 5 days | Virtual | Onsite |
| Nov 2, 2026 | Nov 6, 2026 | 5 days | Virtual | Onsite |
| Nov 2, 2026 | Nov 6, 2026 | 5 days | Virtual | Onsite |
| Nov 2, 2026 | Nov 6, 2026 | 5 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 13, 2026 | 5 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 13, 2026 | 5 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 13, 2026 | 5 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 13, 2026 | 5 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 13, 2026 | 5 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 13, 2026 | 5 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 13, 2026 | 5 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 20, 2026 | 5 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 20, 2026 | 5 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 20, 2026 | 5 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 20, 2026 | 5 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 20, 2026 | 5 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 20, 2026 | 5 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 20, 2026 | 5 days | Virtual | Onsite |
| Nov 23, 2026 | Nov 27, 2026 | 5 days | Virtual | Onsite |
| Nov 23, 2026 | Nov 27, 2026 | 5 days | Virtual | Onsite |
| Nov 23, 2026 | Nov 27, 2026 | 5 days | Virtual | Onsite |
| Nov 23, 2026 | Nov 27, 2026 | 5 days | Virtual | Onsite |
| Nov 23, 2026 | Nov 27, 2026 | 5 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 4, 2026 | 5 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 4, 2026 | 5 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 4, 2026 | 5 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 4, 2026 | 5 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 4, 2026 | 5 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 4, 2026 | 5 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 4, 2026 | 5 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 11, 2026 | 5 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 11, 2026 | 5 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 11, 2026 | 5 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 11, 2026 | 5 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 11, 2026 | 5 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 11, 2026 | 5 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 11, 2026 | 5 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 18, 2026 | 5 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 18, 2026 | 5 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 18, 2026 | 5 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 18, 2026 | 5 days | Virtual | Onsite |
| Dec 21, 2026 | Dec 25, 2026 | 5 days | Virtual | Onsite |
| Dec 21, 2026 | Dec 25, 2026 | 5 days | Virtual | Onsite |
| Dec 21, 2026 | Dec 25, 2026 | 5 days | Virtual | Onsite |
| Dec 21, 2026 | Dec 25, 2026 | 5 days | Virtual | Onsite |
| Dec 21, 2026 | Dec 25, 2026 | 5 days | Virtual | Onsite |
| Dec 21, 2026 | Dec 25, 2026 | 5 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 1, 2027 | 5 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 1, 2027 | 5 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 1, 2027 | 5 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 1, 2027 | 5 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 1, 2027 | 5 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 8, 2027 | 5 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 8, 2027 | 5 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 8, 2027 | 5 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 8, 2027 | 5 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 8, 2027 | 5 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 8, 2027 | 5 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 8, 2027 | 5 days | Virtual | Onsite |
| Jan 11, 2027 | Jan 15, 2027 | 5 days | Virtual | Onsite |
| Jan 11, 2027 | Jan 15, 2027 | 5 days | Virtual | Onsite |
| Jan 11, 2027 | Jan 15, 2027 | 5 days | Virtual | Onsite |
| Jan 11, 2027 | Jan 15, 2027 | 5 days | Virtual | Onsite |
| Jan 11, 2027 | Jan 15, 2027 | 5 days | Virtual | Onsite |
Format: Live instructor-led online training via Zoom / Microsoft Teams
The Radiomics and Imaging Analytics Training Course is a comprehensive professional development program designed to equip radiologists, radiographers, oncologists, physicians, biomedical engineers, medical physicists, healthcare data scientists, health informatics specialists, clinical researchers, artificial intelligence specialists, healthcare IT professionals, and hospital administrators with the knowledge and practical skills required to extract, analyze, and interpret quantitative imaging biomarkers for precision medicine and evidence-based clinical decision-making. As healthcare organizations increasingly adopt radiomics, medical imaging analytics, artificial intelligence (AI), machine learning, deep learning, computer vision, precision oncology, predictive imaging analytics, Electronic Health Records (EHRs), Picture Archiving and Communication Systems (PACS), and digital healthcare transformation, radiomics has become an essential technology for improving disease diagnosis, prognosis, treatment planning, and personalized patient care. This course provides practical methodologies for integrating advanced imaging analytics into clinical workflows to enhance healthcare quality, research, and innovation.
Participants will gain an in-depth understanding of radiomics workflows, image acquisition, image preprocessing, image segmentation, quantitative feature extraction, texture analysis, feature selection, predictive modeling, statistical validation, imaging biomarkers, and clinical interpretation. The course explores radiomics applications across computed tomography (CT), magnetic resonance imaging (MRI), positron emission tomography (PET), ultrasound, mammography, pathology imaging, and digital radiography. Practical exercises demonstrate how imaging analytics supports disease detection, tumor characterization, treatment response evaluation, prognosis prediction, and precision medicine while integrating radiomics with artificial intelligence, genomics, and clinical decision support systems.
The training further explores emerging technologies including deep learning, explainable artificial intelligence (XAI), cloud-based imaging analytics, federated learning, healthcare big data, Internet of Medical Things (IoMT), blockchain-enabled healthcare security, healthcare interoperability standards including DICOM, HL7, and FHIR, and advanced visualization platforms. Participants will examine healthcare governance, regulatory frameworks, ethical considerations, imaging data quality assurance, cybersecurity, reproducibility, multicenter validation, and research methodologies necessary for successful implementation of radiomics in clinical practice and biomedical research.
Upon successful completion of the course, participants will possess the competencies required to design, implement, evaluate, validate, and optimize radiomics and imaging analytics solutions that improve diagnostic accuracy, personalized medicine, healthcare research, clinical workflow efficiency, and organizational innovation. The course combines expert-led presentations, practical laboratory demonstrations, collaborative workshops, image analysis projects, web-based tutorials, and real-world healthcare case studies to ensure participants develop immediately applicable technical, analytical, and clinical skills.
1. Understand the principles, concepts, and clinical applications of radiomics and imaging analytics.
2. Apply image preprocessing, segmentation, and quantitative feature extraction techniques.
3. Utilize machine learning and artificial intelligence for medical imaging analytics.
4. Develop predictive imaging models for diagnosis, prognosis, and treatment planning.
5. Integrate radiomics with Electronic Health Records, PACS, and clinical decision support systems.
6. Apply DICOM, HL7, and FHIR interoperability standards in imaging workflows.
7. Ensure healthcare data quality, reproducibility, cybersecurity, and regulatory compliance.
8. Evaluate imaging biomarkers for precision medicine and clinical research.
9. Improve diagnostic accuracy and workflow efficiency using imaging analytics.
10. Develop enterprise implementation strategies for radiomics and imaging analytics programs.
1. Improved diagnostic accuracy through quantitative imaging analysis.
2. Enhanced precision medicine and personalized treatment planning.
3. Increased efficiency in radiology and oncology workflows.
4. Improved disease prognosis and treatment response assessment.
5. Enhanced clinical research and imaging biomarker development.
6. Better integration between imaging systems and healthcare information systems.
7. Improved compliance with healthcare quality and regulatory standards.
8. Stronger data-driven clinical decision-making capabilities.
9. Increased innovation through artificial intelligence and advanced imaging analytics.
10. Accelerated digital transformation within healthcare organizations.
This course is suitable for radiologists, radiographers, oncologists, physicians, pathologists, biomedical engineers, medical physicists, healthcare data scientists, artificial intelligence specialists, health informatics professionals, healthcare IT managers, clinical researchers, imaging scientists, software developers, healthcare consultants, quality assurance professionals, hospital administrators, postgraduate researchers, policymakers, and professionals involved in medical imaging, precision medicine, and healthcare analytics.
· Introduction to radiomics and quantitative imaging
· Medical imaging modalities and imaging biomarkers
· Image acquisition and quality assessment
· Digital imaging workflows and DICOM standards
· Clinical applications of radiomics
· Case Study: Designing a radiomics implementation strategy for an oncology imaging center
· Image preprocessing and normalization
· Image segmentation techniques
· Quantitative feature extraction and texture analysis
· Feature engineering and selection methods
· Radiomics software platforms and workflows
· Case Study: Extracting imaging biomarkers from CT and MRI scans for cancer assessment
· Machine learning algorithms for radiomics
· Deep learning and convolutional neural networks
· Predictive modeling and clinical outcome prediction
· Explainable Artificial Intelligence (XAI)
· Model validation and performance evaluation
· Case Study: Developing AI-assisted predictive models for early disease diagnosis
· PACS and Radiology Information Systems (RIS)
· Electronic Health Records integration
· HL7 and FHIR interoperability standards
· Clinical decision support systems
· Healthcare data governance and cybersecurity
· Case Study: Integrating radiomics into hospital clinical decision-making workflows
· Radiogenomics and precision medicine
· Clinical trial imaging analytics
· Multicenter studies and reproducibility
· Imaging quality assurance and standardization
· Regulatory and ethical considerations
· Case Study: Using radiomics to personalize cancer treatment and evaluate therapeutic response
· Strategic planning for radiomics implementation
· Cloud-based imaging analytics platforms
· Federated learning and healthcare big data
· Emerging technologies in imaging analytics
· Continuous performance improvement and organizational adoption
· Case Study: Enterprise-wide deployment of radiomics and imaging analytics to improve diagnostic accuracy, personalized healthcare, research excellence, and operational efficiency
1. Customized Training: All our courses can be tailored to meet the specific needs of participants.
2. Language Proficiency: Participants should have a good command of the English language.
3. Comprehensive Learning: Our training includes well-structured presentations, practical exercises, web-based tutorials, and collaborative group work. Our facilitators are seasoned experts with over a decade of experience.
4. Certification: Upon successful completion of training, participants will receive a certificate from Foscore Development Center (FDC-K).
5. Training Locations: Training sessions are conducted at Foscore Development Center (FDC-K) centers. We also offer options for in-house and online training, customized to the client's schedule.
6. Flexible Duration: Course durations are adaptable, and content can be adjusted to fit the required number of days.
7. Onsite Training Inclusions: The course fee for onsite training covers facilitation, training materials, two coffee breaks, a buffet lunch, and a Certificate of Successful Completion. Participants are responsible for their travel expenses, airport transfers, visa applications, dinners, health/accident insurance, and personal expenses.
8. Additional Services: Accommodation, pickup services, freight booking, and visa processing arrangements are available upon request at discounted rates.
9. Equipment: Tablets and laptops can be provided to participants at an additional cost.
10. Post-Training Support: We offer one year of free consultation and coaching after the course.
11. Group Discounts: Register as a group of more than two and enjoy a discount ranging from 10% to 50%.
12. Payment Terms: Payment should be made before the commencement of the training or as mutually agreed upon, to the Foscore Development Center account. This ensures better preparation for your training.
13. Contact Us: For any inquiries, please reach out to us at training@fdc-k.org or call us at +254712260031.
14. Website: Visit www.fdc-k.org for more information.