Longdom Conferences hosts 200+ leading international conferences and virtual events annually. Stem Cell, Tissue Engineering, and Regenerative Medicine are transformative fields dedicated to understanding and harnessing the body's natural ability to repair and regenerate. Stem cells, with their unique capacity to differentiate into various cell types, serve as the foundation for developing innovative therapies. Tissue engineering combines these cells with biomaterials to create functional tissues and organs for transplantation or repair. Regenerative medicine encompasses these approaches and aims to restore or replace damaged tissues and organs, offering hope for treating conditions that were once deemed untreatable. Together, these fields are revolutionizing medical science and paving the way for ground breaking treatments.

Join us for the 6th International Conference on Stem Cell, Tissue Engineering, and Regenerative Medicine, scheduled for February 27-28, 2025, in the vibrant city of Paris, France. This premier event will feature 10 cutting-edge scientific tracks, covering the latest advancements and future trends in the field. We invite leading experts, esteemed delegates, and enthusiastic students to engage in transformative discussions and networking opportunities.

Benefits: Gain invaluable insights from top-tier speakers and connect with key professionals driving innovation in regenerative medicine. Enhance your knowledge and explore collaborative opportunities that could shape the future of this dynamic field.

Why join LONGDOM Conferences?
Understand the current state of research | Meet international colleagues and experts | Visit the exhibition of leading-edge technology | Engage with editors of the top journals in your field | Global networking and certification | Brand Launching and many more to explore

Target Audience:
Stem Cell Researchers and Scientists
Tissue Engineers and Biotechnologists
Regenerative Medicine Clinicians
Medical and Biomedical Students
Industry Professionals and Innovators
Policy Makers and Ethical Experts

Why Attend?
Gain Insights: Stay ahead of the curve with the latest research and emerging trends in stem cell science and regenerative medicine.
Network with Experts: Connect with top scientists, clinicians, and industry leaders from around the world.
Discover Innovations: Explore groundbreaking advancements in tissue engineering, gene editing, and personalized medicine.
Enhance Your Knowledge: Participate in high-impact sessions and workshops designed to deepen your understanding and foster professional growth.
Collaborate and Innovate: Engage in discussions and collaborations that could shape the future of regenerative therapies and technologies.

Who will be the participants?
Scientists and Researchers | Medical Practitioners | Counselors and Therapists | Nutrition Specialists | Public Health Professionals | Academics and Educators | Non-Governmental Organizations | Government Representatives | Public and Community Members | Pharmaceutical and Healthcare Industry Professionals | Health Educators and Trainers | Students and Trainees

Don’t miss this opportunity to be at the forefront of scientific discovery and innovation. Register now and be part of a transformative event that is shaping the future of medicine!

Scientific Tracks

Track 1: Advances in Stem Cell
Advances in Stem Cell research have revolutionized our understanding of biology and medicine. Recent breakthroughs include the development of induced pluripotent stem cells (iPSCs), allowing scientists to create patient-specific cells for personalized treatments. Innovations in gene editing, such as CRISPR/Cas9, have enhanced our ability to manipulate stem cells for therapeutic purposes. Additionally, progress in stem cell differentiation and tissue engineering is paving the way for regenerative therapies that can repair or replace damaged tissues and organs, offering new hope for treating a wide range of diseases.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 2: Innovations in Tissue Engineering
Innovations in Tissue Engineering involve the development of advanced methods and materials to create functional tissues that can repair or replace damaged organs and tissues. This field combines principles from biology, engineering, and materials science to design scaffolds, biocompatible materials, and 3D bioprinting techniques that support cell growth and tissue formation. Recent innovations include the use of smart biomaterials that mimic natural tissue properties, growth factors that enhance cell differentiation, and cutting-edge fabrication technologies that allow precise control over tissue architecture. These advancements hold significant promise for regenerative medicine, enabling the creation of complex tissues such as skin, cartilage, and even organs, potentially transforming patient care by providing new solutions for tissue loss and organ failure.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 3: Regenerative Medicine: Clinical Trials and Translational Research
Regenerative Medicine: Clinical Trials and Translational Research is a critical area within the field of regenerative medicine that focuses on the journey from basic scientific discoveries to their application in clinical settings. Here’s a breakdown of its key components:

Clinical Trials in Regenerative Medicine
Clinical trials are structured research studies conducted on human participants to evaluate the safety, efficacy, and potential of new treatments or therapies. In regenerative medicine, these trials often involve novel interventions such as stem cell therapies, tissue-engineered products, and gene therapies aimed at repairing or replacing damaged tissues and organs. Clinical trials are conducted in phases:

Phase I: Tests the safety of the treatment in a small group of participants.
Phase II: Assesses the efficacy and further evaluates safety.
Phase III: Involves larger populations to confirm effectiveness, monitor side effects, and compare with standard treatments.
Phase IV: Occurs after a treatment is approved, focusing on long-term effects and effectiveness in the general population.

Translational Research
Translational research bridges the gap between laboratory discoveries and clinical application. It involves:

Preclinical Studies
Proof-of-Concept
Regulatory Approval

Challenges and Opportunities
Translational research in regenerative medicine faces several challenges, including the complexity of biological systems, ethical considerations, and the high costs of developing and testing new therapies. However, the potential rewards are immense, offering new treatments for conditions that currently have limited or no options, such as neurodegenerative diseases, heart failure, and severe injuries.

Impact on Healthcare
The ultimate goal of clinical trials and translational research in regenerative medicine is to develop safe, effective, and accessible treatments that can be integrated into standard medical practice, revolutionizing the way we approach chronic diseases, aging, and injuries. This field holds promise for improving patient outcomes, reducing healthcare costs, and enhancing quality of life.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 4 : Gene Editing and Stem Cells: CRISPR and Beyond
Gene editing and stem cell technologies are revolutionizing the landscape of biomedical research and therapeutic development. This session delves into the synergies between these two powerful fields:

Introduction to Gene Editing: Gene editing techniques, particularly CRISPR/Cas9, allow precise modifications to DNA. This has opened up new possibilities for correcting genetic defects, studying gene function, and developing targeted therapies.
Stem Cells and Gene Editing: Stem cells, with their unique ability to differentiate into various cell types, serve as a valuable platform for gene editing. By applying gene editing technologies to stem cells, researchers can correct genetic mutations, model diseases, and generate cells for transplantation.
Applications and Innovations: This session explores recent advancements in gene editing technologies and their applications in stem cell research. Topics include improving gene editing efficiency, minimizing off-target effects, and the development of novel gene editing tools beyond CRISPR.
Clinical Implications: Discuss the potential of gene-edited stem cells in treating genetic disorders, cancer, and other conditions. Examine ongoing clinical trials, regulatory challenges, and the future direction of these combined technologies in therapeutic settings.
Ethical and Regulatory Considerations: Address the ethical issues and regulatory frameworks surrounding the use of gene editing in stem cell research and therapy, ensuring responsible advancement in these fields.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 5 : Stem Cells in Disease Modeling and Drug Discovery
Stem cells are revolutionizing disease modeling and drug discovery by providing advanced tools for understanding complex diseases and developing new therapies. Here’s how:

Disease Modeling:
Cellular Models: Stem cells can be differentiated into various cell types, enabling researchers to create cellular models of diseases that closely mimic the human condition. These models allow for the study of disease mechanisms, progression, and genetic factors in a controlled environment.
Patient-Specific Models: Using induced pluripotent stem cells (iPSCs) derived from patients, researchers can generate models that reflect individual genetic backgrounds. This personalized approach helps in studying disease variability and identifying patient-specific therapeutic targets.

Drug Discovery:
High-Throughput Screening: Stem cell-derived models can be used for high-throughput screening of compounds, identifying potential drugs that affect disease-specific pathways or cell functions.
Toxicity Testing: These models provide platforms to test drug safety and efficacy, assessing potential toxic effects before clinical trials. They help in predicting adverse reactions and improving drug development processes.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 6 : Stem Cell Therapies for Neurodegenerative Diseases
Stem cell therapies for neurodegenerative diseases focus on harnessing the regenerative potential of stem cells to address conditions such as Parkinson’s disease, Alzheimer’s disease, and amyotrophic lateral sclerosis (ALS). These therapies aim to repair or replace damaged neurons, support neuroprotection, and restore lost functions.

Cell Replacement Therapy: This approach involves transplanting stem cells into the brain to replace damaged or degenerated neurons. For instance, dopamine-producing neurons can be generated from stem cells to treat Parkinson’s disease, potentially alleviating motor symptoms and improving quality of life.
Neuroprotection: Stem cells can secrete growth factors and other bioactive molecules that protect existing neurons from further damage. This neuroprotective effect can slow the progression of neurodegenerative diseases and support the survival of vulnerable neurons.
Disease Modeling: Stem cells are used to create in vitro models of neurodegenerative diseases, allowing researchers to study disease mechanisms and screen potential drugs. Patient-specific stem cells can help in understanding individual responses to treatments and personalizing therapy.
Gene Editing and Stem Cells: Combining stem cell technology with gene editing tools like CRISPR/Cas9 can correct genetic mutations responsible for certain neurodegenerative diseases, offering a potential path to permanent treatment.
Challenges and Future Directions: Despite promising advancements, challenges such as immune rejection, ethical concerns, and the need for long-term safety data remain. Ongoing research is focused on optimizing stem cell sources, improving delivery methods, and ensuring effective integration and function of transplanted cells.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 7 : Ethical and Regulatory Considerations in Stem Cell Research
Stem cell research holds immense promise for advancing medical science and developing new treatments. However, it also raises important ethical and regulatory challenges that must be carefully addressed to ensure responsible progress.
Ethical Considerations:
Source of Stem Cells: The use of embryonic stem cells involves ethical dilemmas regarding the status of the embryo. Researchers must navigate the moral implications of using human embryos for research purposes.
Consent and Privacy: Informed consent is crucial when obtaining stem cells from donors. Researchers must ensure that donors are fully aware of how their cells will be used and that their privacy is protected.
Equity and Access: Ethical concerns also include ensuring equitable access to stem cell therapies and addressing potential disparities in how these treatments are distributed among different populations.
Regulatory Considerations:
Guidelines and Oversight: Various national and international regulations govern stem cell research, including guidelines on the use of embryonic stem cells, gene editing, and clinical trials. Compliance with these regulations ensures that research is conducted responsibly and ethically.
Clinical Trials and Approval: Before stem cell-based therapies can be widely used, they must undergo rigorous clinical testing and regulatory approval processes to ensure safety and efficacy. Regulatory bodies, such as the FDA or EMA, play a crucial role in this process.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 8 : Personalized Medicine and Stem Cells
Personalized Medicine is a medical approach that tailors treatment and healthcare strategies to the individual characteristics of each patient. This approach considers factors such as genetics, environment, and lifestyle to optimize disease prevention, diagnosis, and treatment. The goal is to provide more effective and targeted therapies that are specifically suited to the individual's unique biological profile.

Stem Cells play a crucial role in personalized medicine due to their ability to differentiate into various cell types and their potential to treat a range of diseases. Here's how stem cells are integrated into personalized medicine:
Disease Modeling: Stem cells can be used to create patient-specific disease models. By deriving stem cells from a patient's own tissues, researchers can develop cellular models that mimic the disease state. This helps in understanding the disease mechanisms and testing potential therapies in a more personalized context.
Customized Therapies: Stem cells can be tailored to the patient’s genetic makeup, enhancing the effectiveness of treatments. For instance, stem cells can be genetically modified to correct specific mutations associated with genetic disorders, leading to personalized therapeutic interventions.
Regenerative Medicine: Stem cells have the potential to repair or replace damaged tissues and organs. In personalized medicine, stem cell therapies can be designed to address individual patient needs, such as regenerating damaged heart tissue or repairing spinal cord injuries based on each patient's unique condition.
Pharmacogenomics: Stem cells can be used to assess how a patient’s body responds to different drugs. By testing various medications on stem cell-derived tissues, researchers can predict which drugs will be most effective or cause adverse reactions, allowing for personalized drug prescriptions.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 9 : Stem Cells and Cancer: Understanding Tumorigenesis and Therapy
Stem cells have a profound connection with cancer, influencing both the understanding of tumor development and the advancement of potential therapies. Here’s an overview:
Tumorigenesis and Cancer Stem Cells:
Cancer Stem Cells (CSCs): Within tumors, a subset of cells known as cancer stem cells exhibits properties similar to normal stem cells, including self-renewal and the ability to differentiate. These cells are thought to drive tumor growth, metastasis, and recurrence due to their resistance to conventional treatments.
Tumor Microenvironment: The stem cell niche or microenvironment in tumors plays a critical role in supporting CSCs, influencing their behavior and resistance to therapies.
Research and Insights:
Mechanisms of CSC Regulation: Understanding how CSCs are regulated and interact with their microenvironment helps in elucidating mechanisms of tumor progression and resistance.
Molecular Pathways: Research focuses on identifying the molecular pathways and signaling networks that are critical for CSC function and survival.
Therapeutic Strategies:
Targeting CSCs: Developing therapies that specifically target cancer stem cells is a promising approach to overcome treatment resistance and prevent relapse. Strategies include targeting specific surface markers, signaling pathways, or the microenvironment that supports CSCs.
Combination Therapies: Integrating CSC-targeted treatments with conventional therapies (like chemotherapy and radiotherapy) aims to enhance overall treatment efficacy and reduce the likelihood of recurrence.
Challenges and Future Directions:
Personalized Approaches: Tailoring treatments based on the specific characteristics of CSCs in individual tumors holds promise for more effective and less toxic cancer therapies.
Identifying CSC Markers: One of the challenges is identifying reliable markers for CSCs that can be targeted without affecting normal stem cells.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Track 10 : Stem Cell Innovations in Cardiovascular Regeneration
Stem cell research holds tremendous promise for revolutionizing the treatment of cardiovascular diseases. Innovations in this area focus on harnessing the regenerative potential of stem cells to repair and regenerate damaged heart tissues, offering new hope for conditions like heart attacks, heart failure, and other cardiovascular disorders.

Key Areas of Focus:
Stem Cell Types and Sources
Cell Therapy
Tissue Engineering
Mechanisms of Action
Challenges and Advances

Benefits: By leveraging stem cell innovations, the potential to develop more effective treatments for cardiovascular diseases is greatly enhanced. This approach promises to improve patient outcomes, reduce reliance on heart transplants, and ultimately contribute to a better quality of life for individuals with heart conditions.
Related Conferences: Stem Cell Conferences | Tissue Engineering Conferences | Regenerative Medicine Conferences | Stem Cell Meetings | Stem Cell symposiums | Stem Cell Therapy Conference | Stem Cell Workshops | Top Stem Cell Conferences | Stem Cell Summit | Top Tissue Engineering Conferences

Stem Cells Market Size & Trends

The global stem cells market size was valued at USD 14.80 billion in 2023 and is expected to grow at a compound annual growth rate (CAGR) of 11.43% from 2024 to 2030. The growing development of precision medicine, increase in the number of cell therapy production facilities and rising number of clinical trials are expected to be major driving factors of the market. Recent advances in the stem cells therapeutics and the tissue engineering hold the potential to draw the attention for treatment of several diseases. Furthermore, increasing demand for stem cells banking and rise in research activities pertaining to stem cells production, storage, and characterization are also expected to fuel the revenue growth for the market. Technological improvements in the parent and ancillary market for stem cells usage are some of the other factors that reinforce the expected growth in demand for stem cells over the forecast period.

Visa Trip Advisor
Planning a trip to Paris, France? Join our meeting!
Need help with your visa?
To assist participants with their visa applications, we provide the following support documents:

1. Official Letter of Invitation
2. Official Letter of Abstract Acceptance
3. Payment Receipt

Important Points:

1. The Official Letter of Invitation will be issued only after successful registration and payment for the conference.
2. Visa Letters can only be issued for individuals accepted to attend the conference.

To arrange for a Visa Letter, please contact our Program Manager, Ms. Mary Ann, at medconnectexpo@conferencesinternational.org

To request your Visa Letter, please provide:

1. Your name as it appears on your passport
2. A scanned copy of your passport (for passport number and date of birth)
3. The Abstract Acceptance letter (for presenters)

Payment Options:

1. Payment Gateway/Stripe
2. Bank Transfer

Need help with registration?
Contact Ms. Mary Ann at medconnectexpo@conferencesinternational.org
The Stem Cell Conference 2025 team will provide you with an invoice for the requested amount to facilitate a bank transfer

Advantages of Participation
Participation Options
Stem Cell Conference 2025 offers various ways to engage, categorized into Academic, Student, and Business sections:

1. Keynote Speaker: 45-50 minutes
2. Oral Presentation: 25-30 minutes (individual presenters only)
3. Workshop: 45-50 minutes (multiple presenters allowed)
4. Special Session: 45-50 minutes (multiple presenters allowed)
5. Symposium: Over 45 minutes (multiple presenters allowed)
6. Delegate Registration: Access to all sessions with full benefits
7. Poster Presenter: Opportunity to present a poster and access delegate benefits
8. Remote Attendance: Participate via virtual mode, video presentation, or e-poster
9. Exhibitor: Showcase products through various booth sizes
10. Media Partner, Sponsor, Collaborator

Benefits of Attending the Conference

1. Earn CME/CPD credits along with a participation certificate.
2. Gain global visibility through dedicated Speaker and Abstract pages on Google.
3. Access our Library of Abstracts, which receives over 30,000 visits monthly, attracting scholars and speakers.
4. Engage in interactive sessions, especially if attending with a research team.
5. Network with thought leaders in Stem Cell, Regenerative Medicine & Tissue Engineering.
6. Compete for the Young Scientist Award and Best Poster certificates.
7. Participate in one-on-one discussions with esteemed speakers.
8. Attend Keynote presentations featuring leading experts in Stem Cell, Regenerative Medicine & Tissue Engineering.

Benefits for Speakers:

1. All accepted abstracts published in relevant journals.
2. CPD/CME credits and participation certification for attendees.
3. Enhanced visibility for researchers on a global scale.
4. Opportunities for professional development.
5. Insights into the latest research advancements.
6. Build lasting connections through networking activities.
7. Promote your work via abstract books and flyers, potentially reaching 1 million views.
8. Explore topics beyond your primary focus in Stem Cell, Regenerative Medicine & Tissue Engineering.

Benefits for Delegates:

1. Expand knowledge and enhance professional growth.
2. Renew your energy through conference participation.
3. Support innovative approaches to improve industry outcomes.
4. Network with scholars and practitioners in Stem Cell, Regenerative Medicine & Tissue Engineering.

Benefits for Sponsors:

1. Increased visibility in the global marketplace.
2. Showcase innovative products and services to a wide audience.
3. Generate leads and foster business growth.
4. Build a supportive network with like-minded professionals.
5. Engage in reflective discussions that can enhance business strategies.
6. Compare strategies with leading organizations to drive advancement.
7. Find solutions to company challenges through expert interactions.

Benefits for Collaborators:

1. Access to a high-traffic platform for visibility at Stem Cell Conference 2025.
2. Build lasting professional relationships.
3. Enhance your organization's reach with marketing materials displayed at the conference.
4. Increase your association's visibility in the global business forum.
5. Engage with key delegates to share insights about your organization and services.
6. Your branding will be included in conference materials distributed to hospitals, universities, and the public.

Sponsors:
Elite Sponsor Benefit:

1. Opportunity to sponsor 10 Poster Presentation Awards.
2. Three corporate-sponsored workshop slots (includes audio-visual support).
3. Two complimentary exhibit booths with priority selection of location (3x3 sqm size).
4. Four complimentary registrations for the conference.
5. Logo recognition on the front page of the congress website, the sponsorship page, and the OMICS International Journal homepage.
6. One full-page color advertisement in the congress program or book of abstracts (cover pages excluded).
7. Three promotional inserts provided by the sponsor in the delegate bags.
8. One post-congress email to registered attendees (up to 60 days after the event, content provided by the sponsor and approved by the corresponding journal).
9. Exclusive online promotion across all our social media platforms.
10. 20% discount on sponsorship for any of our conferences next year.

Gold Sponsor Benefits:

1. Opportunity to sponsor 5 Poster Presentation Awards.
2. Two corporate-sponsored workshop slots (please adhere to deadlines; catering and audio-visual support included).
3. One complimentary exhibit booth with priority selection of location (3x3 sqm size).
4. Three complimentary congress registrations.
5. Logo recognition on the front page of the congress website and on the sponsorship page.
6. One full-page color advertisement in the congress program or book of abstracts (cover pages excluded).
7. Two promotional inserts provided by the sponsor in the delegate bags.
8. Exclusive online promotion across all our social media platforms.
9. 15% discount on sponsorship for any of our conferences next year.

Silver Sponsor Benefits:

1. Opportunity to sponsor 3 Poster Presentation Awards.
2. Two complimentary congress registrations.
3. One corporate-sponsored workshop slot (please adhere to deadlines; catering and audio-visual support included).
4. One complimentary exhibit booth with priority selection of location (3x3 sqm size).
5. Logo recognition on the congress website's sponsorship page.
6. One full-page color advertisement in the congress program or book of abstracts (cover pages excluded).
7. One promotional insert provided by the sponsor in the delegate bags.
8. Priority access to purchase additional sponsorship items.
9. Exclusive online promotion across all our social media platforms.
10. 10% discount on sponsorship for any of our conferences next year.

Exhibition Sponsorship Benefits:

Ideal Platform for Partnerships: This conference is the perfect opportunity to forge new collaborations and partnerships.
Global Reach: Located strategically to facilitate access to every market around the world.
Key Decision-Makers: 89% of our attendees are the primary contacts for purchasing decisions in their labs.
High Engagement: Our exhibitor booths were visited 4-5 times by 80% of attendees, ensuring maximum visibility.
Valuable Feedback: Past exhibitors report a significant number of inquiries generated from conference attendees.
Networking Opportunities: Connect and develop relationships with both academic and business professionals.

1. Opportunity to sponsor one Poster Presentation Award.
2. One complimentary congress registration.
3. Customized exhibit booth setup (3x3 sqm).
4. Logo recognition on the congress website's sponsorship page.
5. A4 color advertisement in the congress program or book of abstracts.
6. Inclusion of your company’s leaflet or insert in the congress delegate bags.
7. Exclusive online promotion across all our social media platforms.
8. 5% discount on sponsorship for any of our conferences next year.
9. Enhance your brand visibility in the global market through our website.
10. Foster new client relationships and strengthen existing ones through B2B meetings.
11. Elevate your corporate image through logo branding.
12. Brand exposure during the opening and closing ceremonies.
13. Press release on behalf of your company.
14. Distribution of brochures worldwide featuring your brand.
15. Sharing of conference posters with industries and universities globally.