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Text Content

Congress

Welcome Address

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Scientific Coordination

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Guest Country

Spotlight on Sweden



Keydates & Deadlines

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Downloads

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Congress Organizer & Contact

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Program

Scientific Program

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Plenary Speakers

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Child Care

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Topics

Biomaterials

8 Symposia



Characterization

11 Symposia



Digital Transformation

6 Symposia



Functional Materials, Surfaces and Devices

16 Symposia



Circular Materials

4 Symposia



Modelling and Simulation

6 Symbosia



Processing and Synthesis

7 Symbosia



Structural Materials

11 Symbosia

Call for Abstracts

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Exhibition & Sponsoring
Review MSE 2022

Congress
Welcome Address Scientific Coordination Guest Country Keydates & Deadlines
Downloads FAQ Congress Organizer & Contact
Program
Scientific Program Plenary Speakers Poster Session Congress Party
Participation
Tickets Hybrid Event Experience Congress Venue About Darmstadt (Germany) Travel
Information DB Congress Ticket Child Care Security Measures
Topics
Biomaterials Characterization Digital Transformation Functional Materials,
Surfaces and Devices Circular Materials Modelling and Simulation Processing and
Synthesis Structural Materials
Call for Abstracts
Abstract Submission & Management Template
Exhibition & Sponsoring
Review MSE 2022
Login
Congress Program Participation Topics Call for Abstracts Exhibition & Sponsoring
Review MSE 2022

Topics
Biomaterials Characterization Digital Transformation Functional Materials,
Surfaces and Devices Circular Materials Modelling and Simulation Processing and
Synthesis Structural Materials

Biomaterials

Topic
B: Biomaterials


In an age where the fusion of science and technology is more pertinent than
ever, the biomaterials sector stands at the forefront of revolutionary
advancements. This topic intricately explores the synthesis, analysis, testing,
and application of biomaterials, extending to the realms of medical devices,
drug delivery systems, and tissue engineering. The inspiration behind this focus
is not only grounded in the recent scientific advancements in biomedical
materials but also addresses the critical challenges encapsulated within this
exciting, strongly interdisciplinary domain of science and engineering.
Participants from diverse backgrounds including materials scientists,
physicists, chemists, biologists, and medical professionals will find themselves
at the nexus of discussion where material solutions meet high performance and
complex biological environments. Engage, learn and contribute to this
transformative field that beckons a future of innovation and collaboration.

Symposium
B01: Biomaterials Fusion: Bridging Science, Technology, and Biomedicine -
General Symposium Topic B
Special Symposium
B02: Bioceramics - Ceramics for healthcare, pharmaceutical and biological
applications
Special Symposium
B03: Biofabrication and 3D-Bioprinting
Special Symposium
B04: Bioinstructive polymers and hydrogels
Special Symposium
B05: Biomaterials Applications
Special Symposium
B06: Novel functional biocompatible materials in 3D microprinting
Special Symposium
B07: Vertical nano and microstructures for cellular interrogation and
manipulation
Special Symposium
B08: Metals in Medicine
Topic coordinator
Prof. Dr.-Ing.
Aldo R. Boccaccini

Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU)

Website
Prof. Dr.
Cornelia Lee-Thedieck

Leibniz Universität Hannover

Prof. Dr.
Cecilia Persson

Uppsala University

Website
 * Symposium
   B01: Biomaterials Fusion: Bridging Science, Technology, and Biomedicine -
   General Symposium Topic B
   
   Explore the transformative realm of biomaterials at our symposium dedicated
   to uniting leaders from science, technology, and biomedicine. Immerse
   yourself in the intricate world of biomaterial synthesis, characterization,
   testing, and application. The event promises deep insights into the vast
   interconnected sectors of medical devices, drug delivery, and tissue
   engineering. By looking at the interdisciplinary challenges and advancements
   in the field, we hope to foster a community where materials scientists,
   biologists, chemists, and medical professionals can discuss, collaborate, and
   innovate. Together, let's revolutionize the future of biomaterials in a
   demanding biological environment.
   
   
   
   Symposium Organizer
   Prof. Dr.-Ing.
   Aldo R. Boccaccini
   
   Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) (DE)
   
   Website
   Prof. Dr.
   Cornelia Lee-Thedieck
   
   Leibniz Universität Hannover (DE)
   
   Prof. Dr.
   Cecilia Persson
   
   Uppsala University (SE)
   
   Website
 * Special Symposium
   B02: Bioceramics - Ceramics for healthcare, pharmaceutical and biological
   applications
   
   The focus of this symposium is the broad field of bioceramics as well as
   bioactive glasses and composites for healthcare, including medical,
   pharmaceutical and biotechnological applications. Bioceramics in all their
   variants will be covered, including bioinert ceramics for implants and
   prosthetic devices, bioactive ceramics and glasses for tissue engineering and
   advanced applications such as medical imaging, drug delivery and cancer
   treatment. Presentations will address both basic science and technological
   aspects related to the design, processing, characterisation and applications
   of bioceramics in both existing and emerging applications.
   
    * 
   
   
   
   Topics to be covered by the symposium include but are not limited to:
   
   
   
    * Bioceramics for medical implants
    * Bioactive Scaffolds for tissue engineering
    * Bone replacement, regeneration and reconstruction
    * Bioceramics for therapeutic ion and drug delivery
    * Ceramics in Nanomedicine
    * Sustainable and circular economy approaches for ceramics in medicine and
      therapeutics
   
   
   
   Symposium Organizer
   Prof. Dr.
   Kurosch Rezwan
   
   University of Bremen (DE)
   
   Dr.
   Laura Treccani
   
   CSMT Gestione S.c.a.r.l. (IT)

 * Special Symposium
   B03: Biofabrication and 3D-Bioprinting
   
   Biofabrication is a key biomedical technology for growing living tissue.
   These can be used both as implants in the field of regenerative medicine and
   as miniaturized organ analogues in pharmaceutical research. Another emerging
   field is the use of biofabrication methods to manufacture products in the
   field of cellular agriculture, such as cultivated meat. In addition to cell
   colonization techniques of scaffolds and injection molding of hydrogel-cell
   formulations, additive manufacturing of tissues by 3D bioprinting takes a
   central role in biofabrication. Here, bioinks consisting of living cells
   embedded in hydrogels are applied layer by layer to build up a pre-defined 3D
   structure. Following the manufacturing step, the prepared tissue precursors
   undergo a post-fabrication maturation phase. During this time the
   cell-hydrogel structure mature into a compact living tissue that possess
   similar biological functionality comparable to the native counterpart.
   
   The symposium will focus on presenting the latest findings in the field of
   biofabrication and 3D-bioprinting. Presentations on all relevant
   bio-manufacturing methods, such as cell seeding, molding and 3D-bioprinting,
   and novel bioink formulations are welcome. Special attention will be given to
   presentation that demonstrate application of the produced tissues in the
   clinical, pharmaceutical or food context. Furthermore, scientists and
   industrial partners that develop novel biofabrication methods or technologies
   that enable digitalization, process automation or scaling of
   biofabrication/bioprinting methods are invited. Finally yet importantly,
   fusion of microfluidics with printed cell entities in so called
   Organs-on-a-Chip as well as targeted manipulation of cell-biomaterial
   interfaces are topics of high interest for the session.
   
   
   
   Symposium Organizer
   Prof. Dr.
   Andreas Blaeser
   
   Technische Universität Darmstadt (DE)

 * Special Symposium
   B04: Bioinstructive polymers and hydrogels
   
   Polymers provide promising strategies to instruct cellular behavior. Their
   chemical and physical properties can be precisely controlled and surface
   functionalization strategies can be used to control their interaction with
   biological material, such as cells. Hydrogels are hydrated, physically and/or
   chemically crosslinked polymeric networks. They are widely used to mimic the
   extracellular matrix of tissues in 2D and 3D, successfully instructing cell
   behavior.
   
   As “material and form follow function”, hydrogels can be made of natural as
   well as synthetic polymers and in almost any shape, depending on the task
   they need to fulfill. Due to this versatility including their vast diverse
   chemical properties, polymers in many forms - including hydrogels - are
   widely used in biomaterials science and cell biology to study effects of
   mechanical properties, surface topology, 3D architecture,
   biofunctionalization and growth factor binding on biological systems.
   Furthermore, they are promising tools in tissue engineering due to their
   tunable physical and chemical properties.
   
   This symposium aims to bring together researchers from different fields who
   develop bio-instructive platforms using polymers and/or hydrogels. Light will
   be shed on the different types of polymers and hydrogels, on processing
   strategies such as additive manufacturing, and on their potential in
   fundamental biomaterials research as well as on clinical translational and
   biotechnological applications.
   
   
   
   Symposium Organizer
   Prof. Dr.
   Dorothea Brüggemann
   
   Bremen University of Applied Sciences (DE)
   
   Prof. Dr.
   Cornelia Lee-Thedieck
   
   Leibniz Universität Hannover (DE)

 * Special Symposium
   B05: Biomaterials Applications
   
   This symposium will attract experts working in the broad field of biomedical
   applications of materials, including metals, ceramics, polymers, and their
   composites. Presentations will include topics ranging from biomedical
   implants, coatings, and surface treatment of biomaterials to novel
   biomaterial approaches for tissue engineering, drug delivery, and
   biofabrication. Thus biomedical applications of both permanent and
   biodegradable materials will be considered in this symposium. Moreover,
   advanced methods for the characterization and testing of biomaterials in
   in-vivo relevant conditions will also be considered, emphasizing the
   tissue/biomaterial interface and interactions. Other topics will include
   innovative multifunctional bioactive coatings for biomedical devices and
   tailored surface functionalization approaches for eliciting specific
   biological responses. Biomaterial-based approaches to develop advanced
   scaffolds for tissue regeneration will also be covered in this symposium. New
   concepts directed at the development of multifunctional scaffolds
   (next-generation scaffolds) will be presented, which can have a drug delivery
   or biomolecular signaling function, thus providing enhanced support to cell
   attachment, growth, and proliferation. The symposium will offer an excellent
   forum to present and discuss the most recent and relevant contributions to
   the application of materials in the biomedical field, bringing together
   material scientists, biologists, pharmacists, tissue engineers, and medical
   doctors.
   
   The oral presentations shall address these topics:
   
    * Bioactive materials as dense and porous implants
    * Functionally-graded biomaterials
    * Scaffolds for tissue engineering and biofabrication application
    * Cells/Biomaterial Interface Interactions
    * Biodegradable materials and medical devices
    * Clinical applications
    * Materials for controlled drug delivery
   
   
   
   
   
   Symposium Organizer
   Prof. Dr.-Ing.
   Aldo R. Boccaccini
   
   Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) (DE)
   
   Website
   Dr.
   Sahar Salehi-Müller
   
   University of Bayreuth (DE)

 * Special Symposium
   B06: Novel functional biocompatible materials in 3D microprinting
   
   Additive manufacturing represents an established fabrication strategy, with
   accessible and affordable commercial equipment solutions. Materials used for
   3D printing include metals, ceramics, and polymers, which can be almost
   arbitrarily shaped via a plethora of fabrication techniques, including, e.g.,
   fused deposition modelling, selective laser sintering, and digital light
   processing.
   
   Yet, when the dimensions of the features to be fabricated approach the
   micrometre scale, difficulties arise due to technological limitations and
   loss of performance of the materials adopted. This is even more daunting when
   microstructures for biological purposes are considered. Besides aiming at
   overcoming the technological challenges of (sub)micron processing, current
   research is also addressing the establishment of novel materials with
   unprecedented properties and functionalities.
   
   The symposium aims at collecting excellent pieces of research on innovative
   materials for 3D microprinting. Regardless of the microfabrication techniques
   used (e.g., direct laser writing, multiphoton lithography, stereolithography,
   etc.), contributors will have the chance to present their most recent
   advancements in the field. Reports on biocompatible and stimuli-responsive
   materials, surface functionalization strategies, as well as
   cross-disciplinary approaches will be given high relevance.
   
   By gathering together chemists, materials scientists, physicists and
   biologists, the Symposium will encourage dissemination of novel ideas to a
   broad audience, stimulate discussion, and promote further innovation.
   
   
   
   Symposium Organizer
   Dr.-Ing.
   Enrico Domenico Lemma
   
   Università Campus Bio-Medico di Roma (IT)
   
   Prof. Dr.
   Alberto Rainer
   
   Università Campus Bio-Medico di Roma (IT)

 * Special Symposium
   B07: Vertical nano and microstructures for cellular interrogation and
   manipulation
   
   Motivation: Simple, controllable, and versatile access to the intracellular
   space as well as tuning cell networks with minimal perturbation is crucial to
   advancing new nanobioelectronic, sensing, therapeutic, and diagnostic
   technologies. Such emerging material-based technologies—broadly called
   vertical micro and nanostructures—are rapidly transforming our capacity to
   (i) interrogate and manipulate cells providing avenues to sense the
   intracellular environment, (ii) stimulate and record cellular electrical
   activity, (iii) target biophysical stimuli to intracellular compartments,
   (iv) sampling of cell states (nanobiopsy), and (v) transport hard-to-deliver
   drugs. Nanoneedles are right now rapidly transitioning from laboratory
   proof-of-principles to transformational approaches in cell and gene therapy,
   spatial biology, and neural modulation. This symposium will consolidate
   existing and emerging knowledge, comparing performance across nano and
   microstructures technology for intra and extra cellular interrogation and
   manipulation. Such symposium is essential for broadening the use of this
   technology across cognates research communities, and will significantly
   contribute toward the early commercial activities of the current and future
   vertical micro and nanostructure technology market.
   
   
   First, the symposium will highlights the relevant design and manufacturing of
   passive and electroactive nanoneedle devices. In particular, showcasing how
   rational design and fabrication play crucial roles in achieving efficient and
   minimally-invasive nanoinjection (the use of nanoneedle for intracellular
   delivery). This will be achieved through presenting: (i) approaches for
   advanced nanoneedle manufacturing through micro and nano-fabrication
   methodologies, (ii) approaches available to control and regulate the physical
   and chemical properties of nanoneedles and their substrates to achieve
   desirable optimal interfacial interactions, and (iii) approaches for
   increasing nanoneedle technology readiness level by scaling up fabrication
   for translational uptake.
   
   Second, the symposium will focus on designing and investigating the
   cell–nanoneedle interface. This will be achieved through presenting: (i)
   approaches for modelling of the biointerface to predict the underpinning
   mechanisms and dynamics of interactions between nanoneedles and cells as a
   function of the physicochemical properties of the nanostructures, of the
   cellular system and the target applications. The modelling comprises
   analytical, numerical, and machine learning approaches. (ii) experimental
   approaches to visualise, characterise and analyse the cell–materials
   interface across scales from the nanoscale interactions at the molecular
   level to the macroscopic interactions with tissues and organisms, comprising
   advanced electron microscopy strategy for high-resolution ultrastructural
   visualisation and optical microscopy approaches for quantitative, real-time
   biomolecular visualization. Critically, the symposium will probe the impact
   of biointerface design and characterisation and the methodologies to be
   developed in the transition from laboratory to a diverse landscape of
   applications the biomedical sector.
   
   Third, the symposium will cover the widespread adoption of nanoneedles in
   emerging biomedical applications. These broadly include: the delivery of
   drugs and biologicals, in particular in vivo gene therapy alongside ex vivo
   cell and gene therapy; intracellular biosensing with a focus on longitudinal
   sampling of live systems and spatial biology; the stimulation and recording
   of electrical activity in complex networks of excitable cells; the
   high-precision biophysical interrogation of mechanosensitive elements of the
   cells. The symposium will discuss the potential market, the scale of interest
   and investment, regulatory issues, and approaches devised to address the
   challenges of translating a high-control minimal-invasiveness afforded by
   nanoneedles to the biomedical industry.
   
   Bridging the worlds of medical technologies, bioengineering and material
   science, this transdisciplinary symposium will bring together the chemical,
   physical and biological aspects of emerging technologies for intracellular
   manipulation.
   
   
   
   Symposium Organizer
   Dr.
   Roey Elnathan
   
   Monash University (AU)
   
   Prof. Dr.-Ing.
   Francesca Santoro
   
   RWTH Aachen University
   
   Prof. Dr.
   Zhao Wenting
   
   Nanyang Technological Univerisity (SG)

 * Special Symposium
   B08: Metals in Medicine
   
   Metallic biomaterials continue to dominate various medical applications, such
   as orthopedics, trauma, cranio-facial, and dental procedures. They also
   maintain their prominence as the preferred choice for specific implants in
   the cardiovascular field. Nevertheless, optimizing surface properties for
   cell adhesion, enhancing antimicrobial functionality, and tailoring
   mechanical attributes remain formidable challenges. Additionally, the
   emergence of degradable metals in clinical practice introduces the complexity
   of controlling their degradation rate alongside promoting tissue
   regeneration. Furthermore, the trend toward individualization extends to
   metallic implants, where additive manufacturing techniques, applicable to
   both permanent and degradable metals, enable customization of geometry and
   mechanical characteristics to align with each patient's unique requirements.
   
   Our symposium will showcase recent advancements in these domains,
   underscoring metals' enduring significance in biomedical device research and
   development.
   
   
   
   Symposium Organizer
   Prof. Dr.
   Cecilia Persson
   
   Uppsala University (SE)
   
   Website
   Prof. Dr.
   Regine Willumeit-Römer
   
   Helmholtz-Zentrum hereon GmbH (DE)
   
   Website



MSE 2024
24 - 26 September 2024 | Hybrid Congress in Darmstadt (Germany) & Online MSE
2024 24 - 26 September 2024 | Hybrid Congress in Darmstadt (Germany) & Online


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 * Congress
   * Welcome Address
   * Scientific Coordination
   * Guest Country
   * Keydates & Deadlines
   * Downloads
   * FAQ
   * Congress Organizer & Contact
 * Program
   * Scientific Program
   * Plenary Speakers
   * Poster Session
   * Congress Party
 * Participation
   * Tickets
   * Hybrid Event Experience
   * Congress Venue
   * About Darmstadt (Germany)
   * Travel Information
   * DB Congress Ticket
   * Child Care
   * Security Measures
 * Topics
   * Biomaterials
   * Characterization
   * Digital Transformation
   * Functional Materials, Surfaces and Devices
   * Circular Materials
   * Modelling and Simulation
   * Processing and Synthesis
   * Structural Materials
 * Call for Abstracts
   * Abstract Submission & Management
   * Template
 * Exhibition & Sponsoring
 * Review MSE 2022

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