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Biofabrication2026

All the biofabrication roads converge in Monterrey, México

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This video introduces México as the next venue for the Congress of the International Society for Biofabrication: Biofabrication 2026.

Discover pieces and colors of México in this short video. Experience the energy of the Mexican science, technology, and culture.

Be invited to live all this with us in November (2 to 6), 2026 here at Tecnológico de Monterrey.

Join us!

Join us in Monterrey, Mexico, for the International Conference on Biofabrication 2026, where global leaders, innovators, and young researchers will gather to shape the future of the field.
Set in one of Latin America’s most dynamic scientific and cultural hubs, the conference will offer an inspiring mix of world-class science, hands-on learning, and vibrant social experiences — all framed by the warmth, color, and energy of Mexico.

An open invitation to Monterrey

Biofabrication continues to transform the way we imagine health, science, and technology. The field is not only advancing healthcare but also opening opportunities in food, sustainability, advanced materials, and beyond.

Our program will span a wide range of topics, from the latest advances in biomaterials and bioinks, to cutting-edge biofabrication technologies and their applications in medicine, industry, and beyond. Workshops, lectures, and discussions will be designed to spark collaboration, strengthen networks, and inspire new directions for the field.

We invite you to participate actively – to share your knowledge, build meaningful collaborations, and explore new opportunities in biofabrication. At the same time, we hope you will discover the rich culture and hospitality of Mexico, where tradition and modern innovation coexist in a city like Monterrey, the heart of Mexico’s industrial and technological development.

We look forward to welcoming you to Monterrey in 2026!

Six good reasons to be part of Biofabrication 2026

Inspiring Talks by World-Leading Plenary Speakers

Experience the forefront of Biofabrication through visionary lectures delivered by globally recognized scientists.
Biofabrication 2026 will feature 6 plenary sessions and over 60 keynote presentations by leading academics and innovators shaping the future of the field.

  • Lim Chwee Teck (National University of Singapore)
  • Nicholas A. Peppas (The University of Texas at Austin)
  • Marcy Zenobbi-Wong (ETH Zürich)
  • Milica Radisic (University of Toronto)
  • Roger D. Kamm (MIT)

 

 Stay tuned—more world-class speakers will be announced soon.

Social Events and Exceptional Networking Opportunities

Engage with colleagues, collaborators, and friends in an environment that fosters meaningful connections.
From the Welcome Reception to the Gala Dinner to informal gatherings, Biofabrication 2026 offers exceptional opportunities to exchange ideas, spark collaborations, and build lasting professional relationships.

Cutting-Edge Technical Content

Immerse yourself in the most advanced research across all areas of biofabrication—from bioprinting and biomaterials to tissue models and regenerative medicine.
Our scientific program will feature oral sessions, posters, and interactive discussions that highlight the latest breakthroughs and emerging trends in the field:

  • Hydrogel and biofabrication materials engineering
  • Scaffolding engineering
  • 3D and 4D Bioprinting
  • Organ-on-chips
  • 3Rs (reduce, replace, refine) -alternative to animal models
  • AI and Biofabrication
  • Translation & Entrepreneurship
  • New frontier applications: culture meat, fabrication of biorobots, precision medicine

Meet the World’s Leading Biofabrication Exhibitors

Discover the latest technologies, instruments, and services that are transforming biofabrication.
Our exhibition hall will showcase top international companies and start-ups presenting cutting-edge bioprinters, materials, imaging systems, and more.



Immersive Workshops Tailored for You

Learn directly from experts through specialized, hands-on workshops designed to expand your technical skills and knowledge.
Whether you’re a newcomer or an expert in the field, our workshops will help you master new techniques, explore advanced tools, and connect with peers who share your interests.

  • Build your own do-it-yourself bioprinter (workshop co-organized with University of Ottawa)
  • A Venture Cafe Night: Entrepreneurship in Biofabrication around the World (a venture cafe session)
  • Designing the Future of Biofabrication Together (workshop organized by the Future Design Lab, Tecnológico de Monterrey)

More to be announced

Unforgettable Mexican Cuisine and a Vibrant Atmosphere

Savor the flavors of authentic Mexican gastronomy while enjoying Monterrey’s unique blend of tradition and innovation.
Set against the backdrop of stunning mountains and a lively cultural scene, Biofabrication 2026 promises an experience that’s as inspiring outside the conference halls as it is within them.

Six good reasons to be part of Biofabrication 2026

Unforgettable Mexican Cuisine and a Vibrant Atmosphere

Savor the flavors of authentic Mexican gastronomy while enjoying Monterrey’s unique blend of tradition and innovation. Set against the backdrop of stunning mountains and a lively cultural scene, Biofabrication 2026 promises an experience that’s as inspiring outside the conference halls as it is within them.

Inspiring Talks by World-Leading Plenary Speakers

Experience the forefront of Biofabrication through visionary lectures delivered by globally recognized scientists. Biofabrication 2026 will feature 6 plenary sessions and over 60 keynote presentations by leading academics and innovators shaping the future of the field.

  • Chwee Teck Lim (National University of Singapore)
  • Nicholas A. Peppas (The University of Texas at Austin)
  • Marcy Zenobbi-Wong (ETH Zürich)
  • Milica Radisic (University of Toronto)
  • Roger D. Kamm (MIT)
  • Rui Reis 3Bs (Research Institute on Biomaterials, Biodegradables and Biomimetics)

Stay tuned — more world-class speakers will be announced soon.

Cutting-Edge Technical Content

Immerse yourself in the most advanced research across all areas of biofabrication—from bioprinting and biomaterials to tissue models and regenerative medicine. Our scientific program will feature oral sessions, posters, and interactive discussions that highlight the latest breakthroughs and emerging trends in the field:

  • Hydrogel and biofabrication materials engineering
  • Scaffolding engineering
  • 3D and 4D Bioprinting
  • Organ-on-chips
  • 3Rs (reduce, replace, refine) -alternative to animal models
  • AI and Biofabrication
  • Translation & Entrepreneurship
  • New frontier applications: culture meat, fabrication of biorobots, precision medicine

Immersive Workshops Tailored for You

Learn directly from experts through specialized, hands-on workshops designed to expand your technical skills and knowledge. Whether you’re a newcomer or an expert in the field, our workshops will help you master new techniques, explore advanced tools, and connect with peers who share your interests.

  • Build your own do-it-yourself bioprinter (workshop co-organized with University of Ottawa)
  • Practical training on reconstructed human tissue models for skin testing (workshop organized by Episkin/L’Oréal)
  • Designing the Future of Biofabrication Together (workshop organized by the Future Design Lab, Tecnológico de Monterrey)

More to be announced.

Social Events and Exceptional Networking Opportunities

Engage with colleagues, collaborators, and friends in an environment that fosters meaningful connections. From the Welcome Reception to the Gala Dinner to informal gatherings, Biofabrication 2026 offers exceptional opportunities to exchange ideas, spark collaborations, and build lasting professional relationships.

Meet the World’s Leading Biofabrication Exhibitors

Discover the latest technologies, instruments, and services that are transforming biofabrication. Our exhibition hall will showcase top international companies and start-ups presenting cutting-edge bioprinters, materials, imaging systems, and more.

Unforgettable Mexican Cuisine and a Vibrant Atmosphere

Savor the flavors of authentic Mexican gastronomy while enjoying Monterrey’s unique blend of tradition and innovation. Set against the backdrop of stunning mountains and a lively cultural scene, Biofabrication 2026 promises an experience that’s as inspiring outside the conference halls as it is within them.

Inspiring Talks by World-Leading Plenary Speakers

Experience the forefront of Biofabrication through visionary lectures delivered by globally recognized scientists. Biofabrication 2026 will feature 6 plenary sessions and over 60 keynote presentations by leading academics and innovators shaping the future of the field.

  • Chwee Teck Lim (National University of Singapore)
  • Nicholas A. Peppas (The University of Texas at Austin)
  • Marcy Zenobbi-Wong (ETH Zürich)
  • Milica Radisic (University of Toronto)
  • Roger D. Kamm (MIT)
  • Rui Reis 3Bs (Research Institute on Biomaterials, Biodegradables and Biomimetics)

Stay tuned — more world-class speakers will be announced soon.

Confirmed Plenary Speakers

Lim Chwee Teck

National University of Singapore

Peppas A. Nicholas

University of Texas at Austin

Milica Radisic

University of Toronto

Roger D. Kamm

Massachusetts Institute of Technology

Marcy Zenobbi-Wong

ETH Zürich

The Conference Chairs

Dr. Mario Moisés Álvarez

Tecnológico de Monterrey

“We welcome you to vibrant Monterrey, the industrial and entrepreneurial city of México. In this edition of Biofabrication, we will focus on new applications of what we do. Together we will enable the convergence of ideas to expand the horizons of applications of Biofabrication”.

Dra. Grissel Trujillo de Santiago

Tecnológico de Monterrey

“We are excited to receive our friends and colleagues here at Tecnológico de Monterrey. This university environment, full of energy and drive, will be inspiring to imagine, to create, and to share collaborative ideas. Let us discuss the future of biofabrication here.”

Yu Shrike Zhang

Harvard Medical School

“Biofabrication 2026 will be a relevant opportunity to share ideas and points of view. Biofabrication is advancing so fast, and this community is driving that evolution. México is the ideal place to converge and discuss how to move forward in understanding, techniques, and applications.”

Nearly 40 technical symposia grouped within
7 thematic tracks

Track 1 — Biomaterials, Hydrogels & Bioinks

The material foundations that make biofabrication possible.

These symposia focus on matrices, scaffolds, and material design principles that underpin all downstream applications.

  • Adaptive Matrices: Engineering Next-Generation Hydrogels for Tissue and Disease Modeling
  • Hydrogels and Bioinks for Advanced and Translational Biofabrication
  • Macroporous Biomaterials for Biofabrication: Foam-Based and Granular Scaffolds
  • Cryofabrication: Engineering the Cellular Microenvironment through Ice Templating, Cryoprinting, Cryopreservation, and Cryogels
  • Decellularized Tissues: Development and Applications in Wound Healing
  •  

Track 2 — Advanced Bioprinting Technologies & Manufacturing Strategies

How we build: printers, processes, and fabrication paradigms.

This track highlights innovation in printing modalities, hybrid manufacturing, and next-gen fabrication strategies.

  • Frontiers in FRESH and Embedded 3D Bioprinting
  • Advances in Embedded Bioprinting for Microphysiological Systems, Tissue, and Organ Biomanufacturing
  • Advanced 3D and 4D Bioprinting Strategies for Engineering Biomimetic, Vascularized Tissues
  • 4D Printing for Tissue Engineering and Regenerative Medicine
  • Pushing the Boundaries of Biofabrication through the Hybridization of Novel Manufacturing Techniques
  • Shaping Biology with Light: Holographic Bioprinting for High-Resolution Control of Cell Behavior
  •  

Track 3 — Tissue-Specific & Organ-Oriented Biofabrication

Building tissues with structure, function, and clinical relevance.

These sessions are organized by biological target and translational intent.

  • Biofabrication of Soft Tissues
  • Biofabrication in Musculoskeletal Tissue Engineering
  • Biofabrication Strategies to Close the Design–Function Loop in Skeletal Muscle Tissue Engineering
  • Biofabrication of Cardiac Organoids for Tissue Engineering and Regenerative Medicine Applications
  • Engineering Multilayered Tubular Architectures: Advanced Biofabrication Strategies for Complex Tissues
  • Biofabrication Strategies for Cardiovascular Applications
  • Biofabrication for Oral Tissue Regeneration: Scientific Challenges and Translational Opportunities
  •  

Track 4 — Vascularization, Microphysiological Systems & Disease Models

From perfusion to pathology.

This track focuses on functionally complex systems and disease-relevant platforms.

  • Bioprinting Vascularized Tissue Constructs
  • Diseased Vascular-on-Chip Models
  • Biofabrication of Complex Cancer Models via Bioprinting, Organoid Assemblies, and Organs-on-Chip
  • Cell-Dense Biofabrication for Functional Living Tissues
  • New Approach Methodologies: Biofabrication of Non-Animal Screening Platforms

 


Track 5 — Digital Biofabrication, AI & Design–Function Integration

Data-driven, predictive, and closed-loop biofabrication.

This is your future-facing track.

  • Machine Learning and Digital Twins for Predictive Biofabrication
  • Integrating Machine Learning and AI for Next-Generation Biofabrication: Perspectives from Industry and Academia

 

 

Track 6 — Community Building

  • ISBF Early Career Researchers Symposium
  •  

 


Track 7 — Biofabrication for Emerging Applications

Expanding impact beyond classical biomedical boundaries.

This track captures societal impact, new sectors, and community development.

  • Biofabrication of Food
  • ISBF Early Career Researchers Symposium
  • 3D Hierarchical Tissues from Stem Cells
  • Minimally Invasive In Situ Bioprinting
  • Programming Hybrid Living–Synthetic Materials for Biofabrication Across Scales
  • Biofabrication Beyond Medicine and Food: Sustainability and Non-Mammalian Living Systems

 

Adaptative Matrices: Engineering Next-Generation Hydrogels for Tissue and Disease Modeling

Biofabrication aims to design extracellular environments that not only support but also actively guide cellular behavior. This approach primary relies on hydrogels composed of polysaccharides and proteins, which provide a broad range of biochemical, mechanical, and structural cues essential for regulating cell behavior and promoting tissue development. However, conventional fabrication methods struggle to achieve precise control over critical structural elements, such as intricate shapes, anisotropy, and mechanical heterogeneity, hindering the replication of tissue architecture with the necessary complexity. In response, 3D bioprinting technologies have significantly addressed these challenges by improving control over hydrogel engineering, enabling more accurate mimicry of tissue organization. This has facilitated the development of complex, patient-specific constructs that hold significant promise for advancing in vitro disease modeling, tissue regeneration, drug testing, and personalized therapies. 

Despite significant progress, key challenges remain. In particular, the printing of tissues with precise microscale features remains difficult due to the limited resolution of current bioprinting systems. Additionally, a fundamental limitation lies in the static nature of printed constructs, which limits their ability to fully replicate the functional adaptability required for effective tissue regeneration and disease modeling. To address these challenges, the recent emergence of advanced light-assisted bioprinting techniques offers the potential for precise control over the structural and mechanical properties of hydrogels across the micro- to macroscale. Furthermore, the ongoing development of smart hydrogels is paving the way for the fabrication of adaptive and functional constructs that encode the blueprint of their own evolution. This marks the emergence of 4D bioprinting, a new paradigm that integrates time as an engineered, dynamic element, enabling cellular constructs to evolve over time based on predefined physical or biological parameters, and facilitating predictable transformations such as degradation, volumetric swelling, and actuation. Achieving this requires embedding stimuli-responsive behaviors, either within the materials themselves or in cell–matrix composites, to control the construct’s transition in form, function, or size. 

Notably, the 4D concept can be significantly enhanced by integrating DNA-based hydrogels, which, by leveraging the supramolecular properties of complementary nucleic acid sequences, can present bioactive molecules in a reversible manner, opening new avenues for precise control over cellular interactions and advancing sophisticated tissue engineering applications.

Considering these premises, this symposium seeks to highlight the latest advances in the biofabrication of next-generation hydrogels for tissue engineering, with particular focus on the use of adaptive matrices. We propose to explore key areas, including DNA-integrated hydrogels and smart materials, their applications in 3D/4D bioprinting of dynamic scaffolds, and how these factors can be leveraged for tissue and disease modeling. Furthermore, the symposium will address the importance of spatial precision in mechanobiology, examining how finely tuned material properties contribute to our understanding of cellular behavior and tissue development.

 

The symposium will feature two invited speakers who are actively working on these cutting-edge applications involving DNA-based hydrogels (Prof. Krieg) and advanced bioprinting strategies (Prof. Castilho) and four oral presentations from contributors, potentially spanning multiple continents and representing a diverse range of expertise, including both mid-career and promising early-stage researchers.

Hydrogels and bioinks are cornerstone materials in biofabrication, enabling the creation of complex, functional, and biologically relevant constructs for tissue engineering, regenerative medicine, disease modeling, and beyond. Despite remarkable progress in recent years, the field continues to face critical challenges related to material design, printability, biological performance, and translation from laboratory-scale demonstrations to clinically and industrially relevant applications. This symposium aims to provide a comprehensive and forward-looking perspective on the role of hydrogels and bioinks as enabling technologies for next-generation biofabrication.

The symposium will bring together leading international researchers working at the interface of materials science, bioengineering, biology, and translational research to discuss recent advances and emerging directions in hydrogel and bioink development. Emphasis will be placed on understanding structure–property–function relationships that govern printability, mechanical integrity, mass transport, and cell–material interactions. Contributions addressing innovative material chemistries, hybrid and composite bioinks, and dynamic or stimuli-responsive hydrogels will highlight how advanced design strategies can expand the functional capabilities of biofabricated constructs.

In addition to material innovation, the symposium will address critical issues related to characterization, standardization, and benchmarking of bioinks—key aspects for ensuring reproducibility, comparability, and meaningful biological outcomes across laboratories. Discussions will also explore how rheological behavior, crosslinking mechanisms, and fabrication parameters influence both printing fidelity and long-term biological performance.

Importantly, the symposium will adopt a strong translational outlook. Speakers will examine challenges associated with scalability, manufacturability, quality control, and regulatory considerations, bridging the gap between fundamental research and real-world implementation. By integrating perspectives from academia, research institutions, and industry, this symposium seeks to foster dialogue, collaboration, and a shared vision for the future of hydrogel- and bioink-based biofabrication.

Overall, this symposium will serve as a high-impact forum to define current frontiers, identify unresolved challenges, and inspire innovative solutions that advance the global biofabrication community toward clinically and technologically transformative outcomes.

We can help you to personalize your trip to México from any city in the world.

We can help you to personalize your trip to México from any city in the world.

The Call for abstracts will open from February 2nd to March 31st 2026.

If you have EU, USA, or Canadian passport, you will not need VISA to enter (and stay in) México for up to 3 months. Visitors from Australia and New Zealand do not require VISA to enter México.

If your connecting flight has a landing scale in USA, you might need a USA VISA (please verify).

Monterrey is one of the safest cities in Latin America. Monterrey is one of the sites for the FIFA World Cup 2026. The central campus of Tecnológico de Monterrey, the venue for Biofabrication 2026, is a private University environment with high safety standards and 24/7 controlled access.

Registration fees will be announced on January 2026.

Reaching Cancun from Monterrey is fast and cost-efficient. There are more than 20 daily direct fligths to Cancun and from Cancun. We definitely recommend stoping-by Cancun before or after Biofabrication 2026. We can help you to plan this special trip to the Mexican Caribean.

Please remember that we will have plenty of good food available for you during Biofabrication 2026. Food at coffee breaks and Lunch are included in the registration fee. We will have plenty of good food during the Reception dinner as well. If you are part of our Young Biofabrication community (young faculty, posdoctoral researcher or student) you are also invited to a Special Dinner on November 3rd, 2026).

Not really. We have secured preferential fares for you at most hotels nearby the venue. To access these fares, please state that you will be a BIOFAB2026 attendee to reserve your place at the hotels listed above.

Our sponsors

Be one of our exhibitors and/or sponsors

For the very first time, the International Conference on Biofabrication will take place in Latin America – in Monterrey, Mexico. This represents a historic milestone for our Society and a strategic opportunity for companies and institutions. Mexico stands as a gateway to Latin America, one of the fastest-growing regions in biotechnology, and a bridge that connects with North-America. By joining us, you will gain access to a unique market, emerging talent, and a vibrant community of innovators shaping the future of biofabrication.

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To prepare your trip to México

Embark on an exciting journey to enjoy our authentic Mexican gastronomy, our colorful and profound traditions, and the warm welcome of our people.

How to fly to México?

We can help you to plan, ahead of time, your flight to México. Here you will find a preliminary plan to get to Monterrey from different parts of the world.

The following important hubs have direct connections to Monterrey: Madrid, Toronto, Panamá, Houston, Dallas, Atlanta, Los Ángeles, Ciudad de México (México City), Cancún.

 

Do I need VISA to enter México?

If you have EU, USA, or Canadian passport, you will not need VISA to enter (and stay in) México for up to 180 days. Visitors from Australia and New Zealand do not require VISA to enter México.

If your connecting flight has a landing scale in USA, you might need a USA VISA (please verify).

Convenient hotels & Outstanding restaurants

Please find here an extensive list of convenient hotels and highly recomended restaurants here in Monterrey.

 

 



Important note for attendees traveling from New Zealand

TERMIS Asia-Pacific will take place in New Zealand from 27-30 October 2026. Colleagues traveling from New Zealand may consider the following flight options to conveniently join us at Biofabrication 2026 after the TERMIS:

FAQ's

How to reach Monterrey from XYZ?

We can help you to personalize your trip to México from any city in the world.

The Call for abstracts will open from February 2nd to March 31st 2026.

If you have EU, USA, or Canadian passport, you will not need VISA to enter (and stay in) México for up to 3 months. Visitors from Australia and New Zealand do not require VISA to enter México.

If your connecting flight has a landing scale in USA, you might need a USA VISA (please verify).

Monterrey is one of the safest cities in Latin America. Monterrey is one of the sites for the FIFA World Cup 2026. The central campus of Tecnológico de Monterrey, the venue for Biofabrication 2026, is a private University environment with high safety standards and 24/7 controlled access.

Registration fees will be announced on January 2026.

Reaching Cancun from Monterrey is fast and cost-efficient. There are more than 20 daily direct fligths to Cancun and from Cancun. We definitely recommend stoping-by Cancun before or after Biofabrication 2026. We can help you to plan this special trip to the Mexican Caribean.

Please remember that we will have plenty of good food available for you during Biofabrication 2026. Food at coffee breaks and Lunch are included in the registration fee. We will have plenty of good food during the Reception dinner as well. If you are part of our Young Biofabrication community (young faculty, posdoctoral researcher or student) you are also invited to a Special Dinner on November 3rd, 2026).

Not really. We have secured preferential fares for you at most hotels nearby the venue. To access these fares, please state that you will be a BIOFAB2026 attendee to reserve your place at the hotels listed above.

Timeline

Nearly 40 Symposia grouped within
7 exciting tracks​

Track 1 — Biomaterials, Hydrogels & Bioinks

The material foundations that make biofabrication possible.

These symposia focus on matrices, scaffolds, and material design principles that underpin all downstream applications.

  • Adaptive Matrices: Engineering Next-Generation Hydrogels for Tissue and Disease Modeling
  • Hydrogels and Bioinks for Advanced and Translational Biofabrication
  • Macroporous Biomaterials for Biofabrication: Foam-Based and Granular Scaffolds
  • Cryofabrication: Engineering the Cellular Microenvironment through Ice Templating, Cryoprinting, Cryopreservation, and Cryogels
  • Frozen Frontiers in Biofabrication: Ice Templating and Cryobioprinting
  • Decellularized Tissues: Development and Applications in Wound Healing
  • Novel Hydrogels and Bioinks from Natural Sources

Track 2 — Advanced Bioprinting Technologies & Manufacturing Strategies

How we build: printers, processes, and fabrication paradigms.

This track highlights innovation in printing modalities, hybrid manufacturing, and next-gen fabrication strategies.

  • Frontiers in FRESH and Embedded 3D Bioprinting
  • Advances in Embedded Bioprinting for Microphysiological Systems, Tissue, and Organ Biomanufacturing
  • Advanced 3D and 4D Bioprinting Strategies for Engineering Biomimetic, Vascularized Tissues
  • 4D Printing for Tissue Engineering and Regenerative Medicine
  • Pushing the Boundaries of Biofabrication through the Hybridization of Novel Manufacturing Techniques
  • Shaping Biology with Light: Holographic and Light Bioprinting for High-Resolution Control of Cell Behavior
  • Architected microfibres: Pushing the boundaries of melt electrowriting for biomedical applications

Track 3 — Tissue-Specific & Organ-Oriented Biofabrication

Building tissues with structure, function, and clinical relevance.

These sessions are organized by biological target and translational intent.

  • Biofabrication of Soft Tissues
  • Biofabrication for Bone, Joint, and Musculoskeletal Interface Engineering
  •  Closing the Design–Function Loop in Skeletal Muscle Engineering: Feedback-Driven Biofabrication for Translational Applications
  • Volumetric Skeletal, Cardiac, and Smooth Muscle Engineering: Performance, Power Generation, and Functional Benchmarking.
  • Biofabrication of Cardiac Organoids for Tissue Engineering and Regenerative Medicine Applications
  • Engineering Multilayered Tubular Architectures: Advanced Biofabrication Strategies for Complex Tissues
  • Biofabrication Strategies for Cardiovascular Applications
  • Biofabrication for Oral Tissue Regeneration: Scientific Challenges and Translational Opportunities

Track 4 — Vascularization, Microphysiological Systems & Disease Models

From perfusion to pathology.

This track focuses on functionally complex systems and disease-relevant platforms.

  • Bioprinting Vascularized Tissue Constructs
  • Diseased Vascular-on-Chip Models
  • Biofabrication of Complex Cancer Models via Bioprinting, Organoid Assemblies, and Organs-on-Chip
  • Cell-Dense Biofabrication for Functional Living Tissues
  • New Approach Methodologies: Biofabrication of Non-Animal Screening Platforms

Track 5 — Digital Biofabrication, Artificial Intelligence

Data-driven, predictive, and closed-loop biofabrication.

This is a future-facing track.

  • Machine Learning and Digital Twins for Predictive Biofabrication
  • Integrating Machine Learning and AI for Next-Generation Biofabrication: Perspectives from Industry and Academia

Track 6 — Biofabrication for Emerging Applications

Expanding impact beyond classical biomedical boundaries.

This track captures societal impact, new sectors, and community development.

  • Biofabrication of Food
  • ISBF Early Career Researchers Symposium
  • 3D Hierarchical Tissues from Stem Cells
  • Minimally Invasive In Situ Bioprinting
  • Programming Hybrid Living–Synthetic Materials for Biofabrication Across Scales
  • Biofabrication Beyond Medicine and Food: Sustainability and Non-Mammalian Living Systems
  • Biofabrication for Controlled Release and Bioactive Compounds Delivery

 

Track 7 — Community Building

Expanding and strengthening our Biofabrication Community

  • ISBF Early Career Researchers Symposium
  • Biofab startups: CEOs and founders sharing experiences and learning
  • Education, democratization, and outreach in the context of Biofabrication.

Nearly 40 Symposia grouped within
7 exciting tracks​

The material foundations that make biofabrication possible.

These symposia focus on matrices, scaffolds, and material design principles that underpin all downstream applications.

  • Adaptive Matrices: Engineering Next-Generation Hydrogels for Tissue and Disease Modeling
  • Hydrogels and Bioinks for Advanced and Translational Biofabrication
  • Macroporous Biomaterials for Biofabrication: Foam-Based and Granular Scaffolds
  • Cryofabrication: Engineering the Cellular Microenvironment through Ice Templating, Cryoprinting, Cryopreservation, and Cryogels
  • Frozen Frontiers in Biofabrication: Ice Templating and Cryobioprinting
  • Decellularized Tissues: Development and Applications in Wound Healing
  • Novel Hydrogels and Bioinks from Natural Sources

How we build: printers, processes, and fabrication paradigms.

This track highlights innovation in printing modalities, hybrid manufacturing, and next-gen fabrication strategies.

  • Frontiers in FRESH and Embedded 3D Bioprinting
  • Advances in Embedded Bioprinting for Microphysiological Systems, Tissue, and Organ Biomanufacturing
  • 4D Printing for Tissue Engineering and Regenerative Medicine
  • Pushing the Boundaries of Biofabrication through the Hybridization of Novel Manufacturing Techniques
  • Shaping Biology with Light: Holographic and Light Bioprinting for High-Resolution Control of Cell Behavior
  • Architected microfibres: Pushing the boundaries of melt electrowriting for biomedical applications
  • Engineering Complex Tissues Through Multimaterial Biofabrication

Building tissues with structure, function, and clinical relevance.

These sessions are organized by biological target and translational intent.

  • Biofabrication of Soft Tissues
  • Biofabrication for Bone, Joint, and Musculoskeletal Interface Engineering
  •  Closing the Design–Function Loop in Skeletal Muscle Engineering: Feedback-Driven Biofabrication for Translational Applications
  • Volumetric Skeletal, Cardiac, and Smooth Muscle Engineering: Performance, Power Generation, and Functional Benchmarking.
  • Biofabrication of Cardiac Organoids for Tissue Engineering and Regenerative Medicine Applications
  • Engineering Multilayered Tubular Architectures: Advanced Biofabrication Strategies for Complex Tissues
  • Biofabrication Strategies for Cardiovascular Applications
  • Biofabrication for Oral Tissue Regeneration: Scientific Challenges and Translational Opportunities

From perfusion to pathology.

This track focuses on functionally complex systems and disease-relevant platforms.

  • Bioprinting Vascularized Tissue Constructs
  • Diseased Vascular-on-Chip Models
  • Biofabrication of Complex Cancer Models via Bioprinting, Organoid Assemblies, and Organs-on-Chip
  • Cell-Dense Biofabrication for Functional Living Tissues
  • New Approach Methodologies: Biofabrication of Non-Animal Screening Platforms
  • Advanced 3D and 4D Bioprinting Strategies for Engineering Biomimetic, Vascularized Tissues

Data-driven, predictive, and closed-loop biofabrication.

This is a future-facing track.

  • Machine Learning and Digital Twins for Predictive Biofabrication
  • Integrating Machine Learning and AI for Next-Generation Biofabrication: Perspectives from Industry and Academia

Expanding and strengthening our Biofabrication Community

  • ISBF Early Career Researchers Symposium
  • Biofab startups: CEOs and founders sharing experiences and learning
  • Education, democratization, and outreach in the context of Biofabrication.
  • Biofabrication & Industry: Industry Symposium focused in Biofabrication

Expanding impact beyond classical biomedical boundaries.

This track captures societal impact, new sectors, and community development.

  • Biofabrication of Food
  • 3D Hierarchical Tissues from Stem Cells
  • Minimally Invasive In Situ Bioprinting
  • Programming Hybrid Living–Synthetic Materials for Biofabrication Across Scales
  • Biofabrication Beyond Medicine and Food: Sustainability and Non-Mammalian Living Systems
  • Biofabrication for Controlled Release and Bioactive Compounds Delivery

Be one of our exhibitors and/or sponsors

For the very first time, the International Conference on Biofabrication will take place in Latin America – in Monterrey, Mexico. This represents a historic milestone for our Society and a strategic opportunity for companies and institutions. Mexico stands as a gateway to Latin America, one of the fastest-growing regions in biotechnology, and a bridge that connects with North-America. By joining us, you will gain access to a unique market, emerging talent, and a vibrant community of innovators shaping the future of biofabrication.

Our sponsors

Platinum

Gold

Bronze

Exhibitors

Be one of our exhibitors and/or sponsors

For the very first time, the International Conference on Biofabrication will take place in Latin America – in Monterrey, Mexico. This represents a historic milestone for our Society and a strategic opportunity for companies and institutions. Mexico stands as a gateway to Latin America, one of the fastest-growing regions in biotechnology, and a bridge that connects with North-America. By joining us, you will gain access to a unique market, emerging talent, and a vibrant community of innovators shaping the future of biofabrication.

Our sponsors

Platinum

Gold

Bronze

Exhibitors

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