Inhaltspezifische Aktionen

Bio-Metric Curriculum

Overview

BIO-METRIC Curriculum
Biomaterials and Osteoengineering – Multidisciplinary Education for Tissue Regeneration and Innovation in Collaboration

The BIO-METRIC Curriculum is part of the DAAD-funded Ta’ziz Short-Term Measures programme (Project ID: 57799097). It offers an interdisciplinary virtual course in regenerative medicine, integrating expertise from Germany, Jordan, and Tunisia. The curriculum covers topics such as biomaterials, scaffold engineering, natural compound integration, molecular pharming, design thinking, and regulatory affairs. The goal is to build regional and international capacity in regenerative biomedical innovation, with a focus on sustainability and translation.

Funding Agency:
German Academic Exchange Service (DAAD) Programme: Ta’ziz – Short-Term Measures 2025

Project Coordinator:
Prof. Dr. Thaqif El Khassawna, Professor of Experimental Trauma Surgery and Regenerative Medicine
Justus Liebig University Giessen, Aulweg 128, 35392 Giessen, Germany
Contact: thaqif.elkhassawna@chiru.med.uni-giessen.de

All sessions will be held online using the following link: https://webconf.hrz.uni-giessen.de/b/tha-akn-qsp-ihc

Module selection:
Module 1: Introduction to Regenerative Medicine
Module 2: Natural Compounds and Bioactive Materials
Module 3+4: 3D Bioprinting and Scaffold Evaluation
Module 5: Clinical Microbiology in Regenerative Medicine
Module 6: Plant Biotechnology and Molecular Pharming
Module 7: Design Thinking and Innovation in Biomedicine
Module 8: Scientific Writing and Research Communication
Module 9: Quality Management and Regulatory Affairs
Module 10: Public Health and Translational Impact in Regenerative Medicine

Module 1: Introduction to Regenerative Medicine

Students will develop a foundational understanding of regenerative medicine, including the biological principles, key technologies, and therapeutic applications. Upon completion, students will be able to critically evaluate current strategies in tissue engineering, stem cell therapy, and biomaterial use in clinical and research contexts. They will also be able to propose interdisciplinary approaches to regenerative therapies tailored to different clinical needs.

Content:

  • Basic principles of regenerative medicine
  • Overview of tissue regeneration in different organ systems
  • Cell-based therapies (e.g., stem cells, immune cells)
  • Biomaterials and scaffold design
  • Clinical translation: from bench to bedside
  • Ethical considerations in regenerative medicine
  • Regulation and market readiness of regenerative products
  • Integration with pharmacological agents and bioactive compounds
  • Challenges in scaling and personalization

Timeline: June 5th – June 19th (3 sessions, 2 hours each), 11-13.00 Uhr German Time; 12am-2pm Amman time

Week

Session Title

Key Topics

Lead Contributor(s)

June 5th

Biological Principles of Regeneration

Tissue-specific repair mechanisms, stem cell niches, inflammation & healing

Thaqif El Khassawna, JLU

June 12th

Biomaterials and Clinical Applications

Scaffold types, material selection, regulatory pathways

Thaqif El Khassawna, JLU

June 19th

Translational Challenges & Ethics

Clinical trials, patient-specific solutions, market adaptation, ethical considerations

Thaqif El Khassawna, JLU; Ala Alhusban, Al-Zaytoonah University, Jordan

 

Back to top

 

Module 2: Natural Compounds and Bioactive Materials

Students will acquire fundamental and applied knowledge in pharmacognosy, focusing on the extraction, analysis, and biomedical application of bioactive plant-based compounds such as Myrrh and Hypericum. Upon completion, students will be able to evaluate natural compounds for regenerative applications, understand their antimicrobial and osteogenic mechanisms, and assess their integration into hydrogel and scaffold systems. Emphasis will be placed on analytical techniques, sustainability, and translational potential in biomaterials development.

Content:

  • Introduction to medicinal plant-derived compounds
  • Extraction and standardization techniques (e.g., Soxhlet, maceration, steam distillation)
  • Analytical methods (HPLC, FTIR, NMR)
  • Antimicrobial and osteogenic properties
  • Incorporation into hydrogels and scaffolds
  • Mechanisms of action in tissue regeneration
  • Sustainability, regional sourcing, and regulatory considerations
  • Case studies: Myrrh, Hypericum, and comparable natural actives
  • NEW: Introduction to phytosomes and nanoliposomes using natural stabilizers and plasticizers (as suggested by Prof. Al-Hiari)

Timeline: June 26th – July 10rd (3 sessions, 2 hours each)

Week

Session Title

Key Topics

Lead Contributor(s)

June 26th

Extraction & Phytochemical Characterization

Extraction techniques, compound isolation, regional medicinal plants, HPLC & FTIR

 Talal Aburjai,Muhammed Alzweiri, University of Jordan

July 3rd

Mechanisms & Bioactivity

Antimicrobial activity, osteoinduction, screening assays, formulation techniques

 Rula Darwish, Yousef Al-Hiari, University of Jordan;Thaqif El Khassawna, JLU

July 10rd

Scaffold Applications & Nanophytosome Strategies

Incorporation into hydrogels, phytosome/nanoliposome systems, regulatory & sustainability considerations

Yousef Al-Hiari, Talal Aburjai, University of Jordan;Ala Alhusban, Al-Zaytoonah University, Jordan;Mohamed Ellouz University of Sfax, Tunisia

 

Back to top

 

Module 3+4: 3D Bioprinting and Scaffold Evaluation

Participants will develop in-depth knowledge of biomaterial classification, hydrogel formulation, and 3D bioprinting technologies as applied in regenerative medicine. They will learn to select and modify materials for scaffold development, design printable bioinks incorporating natural compounds, and evaluate scaffold performance through mechanical, biological, and imaging-based analyses. The module empowers students to bridge the gap between material science, engineering, and clinical translation.

Content:

  • Classification and biological evaluation of biomaterials (natural vs. synthetic)
  • Rheological principles, photoinitiators, degradation behavior of hydrogels
  • Collagen-based scaffold formulation and optimization
  • 3D bioprinting workflows and printer calibration
  • Scaffold modeling and slicing using open-source software (e.g., Blender)
  • Preclinical evaluation: cytotoxicity, mechanical testing, µCT, SEM
  • Integration of antimicrobial and osteoinductive natural compounds (e.g., Myrrh, Hypericum)
  • Regulatory and safety aspects of scaffold development

Timeline: July 17th – Aug 7th (4 sessions, 2 hours each)

Week

Session Title

Key Topics

Lead Contributor(s)

July 17th

Basics of Biomaterials

Classification, degradation, biocompatibility, selection for bone healing

Mohamed Ellouz University of Sfax, Tunisia

July 24th

Collagen Hydrogels: Design and Rheology

Hydrogel formulation, photoinitiators, crosslinking, challenges in incorporating bioactives

 Muhammed Alzweiri, University of Jordan

July 31st

3D Bioprinting and Scaffold Fabrication

Bioink preparation, 3D design using Blender, extrusion technologies, printer calibration

Mohamed Ellouz, University of Sfax Tunisia;Thaqif El Khassawna, JLU

Aug 7th

Scaffold Evaluation and Biocompatibility

Mechanical testing, cytotoxicity assays, µCT, SEM, histology, preclinical relevance

Thaqif El Khassawna, JLU

 

Back to top

 

Module 5: Clinical Microbiology in Regenerative Medicine

Participants will develop a thorough understanding of microbiological principles relevant to regenerative medicine and bone healing. They will learn to evaluate infection risks, microbial interactions with biomaterials, and antimicrobial testing. The module empowers students to interpret laboratory diagnostics, plan anti-infective strategies, and critically assess antimicrobial resistance (AMR) within the context of implant-associated infections and tissue regeneration.

Content:

  • Microbial pathogenesis and host immune response
  • Biofilm formation on scaffolds and implants
  • Mechanisms and clinical implications of antimicrobial resistance
  • In vitro antimicrobial screening methods (disk diffusion, MIC assays)
  • Diagnostic tools and infection biomarkers
  • Case studies on chronic wound and implant-related infections
  • Microbiological considerations in scaffold design
  • Emerging strategies: antiseptics, nanoparticles, and EV-based therapies

Timeline: Aug 14th – Aug 28th  (3 sessions, 2 hours each)

Individual session descriptions and contributor roles:

Week

Session Title

Key Topics

Lead Contributor(s)

Aug 14th

Clinical Microbiology Fundamentals

Pathogenesis, immune response, biofilm formation

Rula Darwish, University of Jordan

Aug 21st

AMR and Scaffold Interaction

Resistance mechanisms, testing biomaterials, microbial–material interface

 Rula Darwish, University of Jordan

Aug 28th

Translational Diagnostics and Case Applications

Infection biomarkers, wound diagnostics, implant infection management

 Rula Darwish, Muhammad Alzweiri, University of Jordan

 

Back to Top

 

Module 6: Plant Biotechnology and Molecular Pharming

Students will gain a comprehensive understanding of plant-based biotechnological strategies for therapeutic development. They will learn the principles and applications of molecular pharming, genetic engineering using CRISPR/Cas systems, and nanoparticle-based delivery systems (e.g., phytosomes, nanoliposomes). By the end of the module, participants will be able to evaluate the potential of plant systems for pharmaceutical production, discuss challenges in yield optimization and regulation, and assess their translational relevance to regenerative medicine.

Content:

  • Plant biotechnology and molecular pharming principles
  • Genetic modification techniques (Agrobacterium, biolistics)
  • Expression systems: plastid, nuclear, viral vectors
  • CRISPR/Cas9 in plant-based bioengineering
  • Phytosomes and nanoliposomes: structure, preparation, and biomedical applications
  • Case studies: growth factors, antibodies, vaccines from plants
  • Biosafety, scalability, and regulatory framework in pharming

Timeline:
Sep 4th – Sep 18th (3 sessions, 2 hours each)

Week

Session Title

Key Topics

Lead Contributor(s)

Sep 4th

Introduction to Molecular Pharming

Overview of pharming strategies, bioreactor concepts, plant-based expression systems

Diaaeldin Daghma, Julius-Kühn-Institute, Justus Liebig Universität

Sep 11th

Engineering, Yield, and Gene Editing

CRISPR/Cas in plants, yield enhancement, pharmaceutical target expression

Diaaeldin Daghma, Julius-Kühn-Institute, Justus Liebig Universität

Sep  18th

Nanoparticle Strategies & Applications

Applications of Phytosomes,

 nanoliposomes, stabilizers, plant-derived bioactives for drug delivery

Yusuf Al-Hiari, University of Jordan; Diaaeldin Daghma; Julius-Kühn-Institute, Justus Liebig Universität

 

Back to Top

 

Module 7: Design Thinking and Innovation in Biomedicine

Participants will develop creative problem-solving competencies and acquire hands-on experience in design thinking processes tailored to biomedical innovation. They will learn to analyze user needs, generate and prototype ideas, and develop interdisciplinary approaches to tackle complex challenges in regenerative medicine and medical device development. The module promotes collaboration and entrepreneurship in translational science.

Content:

  • Fundamentals of design thinking (Stanford & IDEO approaches)
  • Problem framing and user-centered innovation
  • Stakeholder mapping and need-finding in biomedicine
  • Ideation techniques and creative facilitation
  • Prototyping methods and low-fidelity modeling
  • Feedback integration and iteration cycles
  • Case-based challenges from regenerative medicine (e.g., scaffold usability)
  • Pitching biomedical solutions

Timeline:
Sep 25th – Oct 9th (3 sessions, 2 hours each)

Week

Session Title

Key Topics

Lead Contributor(s)

Sep 25th

Design Thinking Fundamentals

User-centric innovation, stakeholder needs, healthcare examples

Thaqif El Khassawna; JLU; Talal Aburjai, University of Jordan

Oct 2nd

Ideation & Prototyping

Brainstorming, concept development, prototyping tools

Ala Alhusban, Al-Zaytoonah University, Jordan; Muhammed Alzweiri, University of Jordan

Oct 9th

Feedback & Biomedical Application

Iteration, validation, biomedical case studies

Rula Darwish, University of Jordan; Thaqif El Khassawna, JLU

 

Back to Top

 

Module 8: Scientific Writing and Research Communication

Participants will gain essential skills in academic and scientific writing with a focus on clarity, structure, and publication standards. They will be able to prepare research articles, theses, abstracts, and grant proposals in line with international scientific norms. Additionally, students will learn to present scientific data visually and critically engage with peer-reviewed literature.

Content:

  • Scientific writing formats: IMRAD structure and stylistic conventions
  • Writing abstracts, introductions, and conclusions
  • Referencing systems and citation management
  • Visual representation: figures, tables, and graphical abstracts
  • Authorship ethics and plagiarism avoidance
  • Preparing for peer review and journal submission
  • Developing funding proposals and grant writing

Timeline: Oct 16th – Oct 30th (3 sessions, 2 hours each)

Week

Session Title

Key Topics

Lead Contributor(s)

Oct 16th

Structure and Language of Scientific Texts

IMRAD, writing flow, tense consistency, academic tone

 Muhammed Alzweiri; University of Jordan

Oct 23rd

Figures, Ethics, and Literature

Referencing styles, figure quality, plagiarism, authorship criteria

Mohamed Ellouz; University of Sfax, Tunisia

Oct 30th

Publication & Grant Writing

Peer-review process, submission strategy, basics of grant writing

Talal Aburjai, University of Jordan; Thaqif El Khassawna, JLU; Mohamed Ellouz, University of Sfax, Tunisia

 

Back to Top

 

Module 9: Quality Management and Regulatory Affairs

Participants will gain a comprehensive understanding of quality assurance and regulatory frameworks in the biomedical and pharmaceutical sectors. They will be able to apply quality standards (e.g., ISO 13485), risk assessment tools, and compliance procedures relevant to the development of biomaterials and medical devices. Students will also become familiar with CE-marking, documentation protocols, and the principles behind regulatory audits.

Content:

  • Fundamentals of quality management systems (QMS)
  • ISO 13485 vs. ISO 9001: applicability and structure
  • Risk management tools: FMEA and CAPA
  • Documentation systems and SOP development
  • Regulatory compliance: CE-marking, GMP, and audit readiness
  • Quality control vs. quality assurance
  • Examples from biomedical research and device development

Timeline: Nov 6th – Nov 20th (3 sessions, 2 hours each)

Week

Session Title

Key Topics

Lead Contributor(s)

Nov 6th

Introduction to Quality Systems

QMS principles, ISO frameworks, quality culture in research

Talal Aburjai, University of Jordan; Thaqif El Khassawna JLU

Nov 13rd

Risk Management and CAPA

Risk analysis tools, FMEA, corrective & preventive action strategies

Talal Aburjai, University of Jordan; Thaqif El Khassawna JLU

Nov 20th

Implementation and Regulatory Compliance

SOP writing, audit readiness, CE-marking, clinical research compliance

Talal Aburjai, University of Jordan; Thaqif El Khassawna JLU

 

Back to Top

 

Module 10: Public Health and Translational Impact in Regenerative Medicine

Participants will develop the ability to assess how innovations in regenerative medicine can address public health challenges and reduce health disparities. They will be able to evaluate healthcare systems, economic and social determinants of health, and strategies for translating biomedical innovation into equitable health solutions, particularly in low- and middle-income countries (LMICs). Interdisciplinary communication, ethical deployment, and impact measurement will also be addressed.

Content:

  • Structures of global health systems and policy development
  • Economic development and access to healthcare
  • Social determinants of bone and wound health
  • Translation of biomedical research into public health interventions
  • Intersectoral and interdisciplinary collaboration models
  • Health equity in LMICs and rural populations
  • Ethical frameworks for technology deployment in underserved contexts

Timeline:  Nov 27th – Dec 11th (3 sessions, 2 hours each)

Week

Session Title

Key Topics

Lead Contributor(s)

Nov 27th

Health Systems and Global Health Challenges

Health models, system thinking, LMIC context, policy trends

Ala Alhusban, Al-Zaytoonah University, Jordan; Thaqif El Khassawna JLU

Dec 4th

Economic and Social Determinants in Regenerative Care

Inequities in access, health economics, rural-urban divide, local infrastructure

Ala Alhusban, Al-Zaytoonah University, Jordan; Rula Darwish, University of Jordan

Dec 11th

Translational Strategy and Ethics

From research to population impact, ethics of access, stakeholder engagement

Thaqif El Khassawna JLU; Ala Alhusban, Al-Zaytoonah University, Jordan

 

Back to Top