DOCTORAL PROGRAM

Shaping future scientific leaders in Medical and Pharmaceutical research.

At the heart of the Faculty of Medical Sciences at UM6P lies a bold vision: to reimagine medical research through an interdisciplinary, translational, and impact-driven approach.
Our research ecosystem brings together clinicians, scientists, engineers, and public health experts to address today’s most pressing health challenges from chronic diseases and digital health to biotechnologies and personalized medicine.
We foster a dynamic and collaborative environment where students, PhD candidates, and faculty work side by side in cutting-edge labs, simulation platforms, and living labs integrated within our UM6P Hospital and the Smart Health Care City of Benguerir. Anchored in the spirit of learning by doing, our research activities go beyond publication, aiming to create real-world impact, drive innovation, and contribute to national and global health priorities.
Whether in basic science, clinical research, data science, or medical education, we are building a new generation of health professionals equipped to lead, innovate, and transform the future of care.

PROGRAM OBJECTIVES

                          • Conduct original, high-impact research in health and medical sciences
                          • Train independent researchers with strong analytical and scientific communication skills
                          • Promote interdisciplinary collaboration across clinical, biomedical, and data sciences
                          • Bridge research and real-world impact through innovation and translational science
                          • Prepare future leaders in academia, healthcare innovation, and public health

RESEARCH DOMAINS

MOLECULAR AND CELLULAR BIOLOGY

 

Unraveling Disease Mechanisms for Targeted Therapies

The Molecular & Cellular Biology team at FMS–UM6P explores the fundamental mechanisms behind neurodegenerative diseases (such as Alzheimer’s and Parkinson’s) and brain cancers like glioblastoma. The research aims to drive innovation in RNA-based therapies and personalized medicine.

Key Research Areas

                  • Neurodegeneration & Brain Cancer
                    Study of cellular dysfunctions in CNS diseases and tumor progression
                    Focus on glioblastoma, Parkinson’s, and Alzheimer’s
                  • Non-Coding RNAs & Gene Regulation
                    Investigate the role of non-coding RNAs in disease development
                    Develop RNA-based therapies using antisense technologies and genome editing
                  • RNA Therapeutics & Precision Medicine
                    Design novel RNA-targeted treatments tailored to individual patients
                    Translate molecular findings into clinical applications
                  • Stem Cells & Regenerative Medicine
                    Explore the potential of stem cells in repairing damaged tissues
                    Expand therapeutic possibilities for complex neurological conditions
BIOMATERIALS FOR MEDICAL APPLICATIONS

 

Advanced Materials for Regenerative Medicine

The BRT at FMS-UM6P focuses on developing innovative biomaterials for tissue repair, combining material science, nanotechnology, and bioengineering.

Key Research Areas :

                  • Calcium Phosphate Biomaterials
                    For bone regeneration and injectable biocompatible cements used in minimally invasive surgery
                  • Bioactive Glasses
                    Functionalized with therapeutic ions for bone and soft tissue repair, with antimicrobial and osteogenic properties
                  • Smart Hydrogels
                    Injectable, environment-responsive hydrogels for cartilage regeneration in osteoarthritis treatment

The team also explores drug delivery systems, natural phosphate valorization, and scaffold design for tissue engineering.

AI FOR BIOLOGICAL AND MEDICAL APPLICATIONS

 

Accelerating Discovery Through Data-Driven Health Research

At the Faculty of Medical Sciences – UM6P, we harness the power of artificial intelligence and bioinformatics to tackle today’s most complex
biomedical challenges. Our work focuses on applying machine learning, deep learning, and biological data modeling to advance healthcare,
research, and diagnostics.

Key Research Areas :

                    • AI in Biomedical Science
                      Machine learning models to decode biological complexity
                      Deep learning for disease detection and health outcome prediction
                      Multi-omics integration to study cellular systems
                    • Computational Drug Discovery
                      AI-powered tools to accelerate drug screening and target prediction
                      In silico modeling for improved efficacy and safety
                    • AI in Diagnostics & Personalized Medicine
                      Smart diagnostic tools for early, accurate detection
                      Algorithms tailored to patient genetics and treatment response
                    • Health Data Science
                      Analysis of health records, imaging, and clinical data
                      Development of clinical decision support systems
EPIDEMIOLOGY AND PUBLIC HEALTH

 

Generating Evidence to Inform Policy and Improve Population Health

The Epidemiology and Public Health team at the Faculty of Medical Sciences – UM6P is committed to tackling major public health challenges in Morocco and beyond. The focus is on preventive strategies, health data analysis, and policy support to improve population well-being and reduce health inequalities.

Key Research Areas

                    • Preventive Public Health
                      Identify and evaluate strategies to reduce disease burden and improve health outcomes
                      Study social, environmental, and economic determinants of health
                    • Health Data & Intelligence Systems
                      Develop a public health intelligence system to produce high-quality population health data
                      Analyze epidemiological trends to anticipate health needs
                    • Methodological Support
                      Provide research design and data analysis expertise to other units
                      Strengthen the quality and impact of clinical and community-based research
                    • Policy & Decision Support
                      Generate evidence to inform healthcare policy and planning
                      Support decision-makers in designing data-driven, equitable healthcare strategies

PROGRAM STRUCTURE

Our PhD journey is designed to develop scientific excellence and leadership skills. The program typically spans 3 to 4 years, with progressive milestones ensuring steady research progress and professional growth.

  • Literature review and research proposal
  • Initial research experiments
  • Participation in research seminars
Year 1
  • Data collection and advanced experiments
  • Presentation at national or international conferences
  • Drafting initial publications
Year 2
  • Data analysis and final experiments
  • Writing and submission of research articles
  • Thesis drafting
Year 3
  • Thesis completion and defense
  • Publication of research findings
  • Preparation for postdoctoral opportunities or industry positions
Year 4

OUR RESEARCH PARTNERS

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Key partners:

 

ENTRY REQUIREMENTS

Master’s degree in a related field

Research proposal

Academic transcripts

English proficiency proof

HOW TO APPLY

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TESTIMONIALS

Loubna OUMESLAKHT,
Ph.D candidate

“Since age 13, I’ve dreamt of becoming an Immunologist, inspired by the wonders of the immune system. Transitioning from supporting cancer patients, I pursued Oncology, earning an MSc in Cancer Science. Now, as a Ph.D. candidate in Immuno-Oncology at UM6P, I’ve had the privilege of working on a joint project between UM6P and IMRB, Paris Est Créteil University.”

Lisa Jerryson
Teacher

“I’ve gained invaluable insights from Dr. B. BOANIMBEK BAKOUME regarding the management of patients experiencing anterior knee pain and/or patellar instability. Dr. B. BOANIMBEK’s approach stands out for its thoughtfulness and organization, with a deep consideration for each patient’s unique needs. I’m truly thankful to have Dr. B. BOANIMBEK as a Mentor.”

El Mahdi Kabbou,
second year student, Doctorate in Medicine

“Reflecting on my journey, I’m El Mahdi Kabbou, a second-year medical student at UM6P Faculty of Medical Sciences. Beyond textbooks, my story is about the triumphs and friendships that shape me. It began with a dream rooted in my family’s healing legacy, driving me to strive for greatness in medicine. As student office president, I immerse myself in campus life, organizing events and making a difference.

Apply now and join the next generation of scientific leaders.

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