BBT Biomaterials, Biomechanics and Tissue Engineering

Principal investigator: Maria Pau Ginebra
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BBT focuses on designing bio-instructive biomaterials that actively interact with host tissues to promote regeneration or deliver therapeutic effects. Their work includes engineering materials that influence cell behavior through specific geometric, chemical, and physical cues. They apply advanced biofabrication techniques to create personalized, structurally organized devices that replicate natural tissue environments. The group also develops innovative antibiotic-free antimicrobial biomaterials and combines plasma technologies with biomaterials for applications in oncology. Their research aims to advance regenerative medicine through smart, functional materials.

Research Areas

Services Offered

  • Surface analysis of different materials using microscopy techniques.
  • Mechanical characterization of materials.
  • Chemical and structural analysis for material characterization.
  • Extensive catalog of techniques for physical characterization of materials.
  • Thermal and surface treatments for surface modification.
  • Electrochemical characterization.
  • Catalog of techniques for biological characterization of surfaces and materials.
  • Technological consultancy for companies

Featured Projects

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BAMBBI - Bio-inspired AntiMicrobial Bone BIoceramics. Deciphering contact-based biocidal mechanisms

Developing antimicrobial bioceramics to combat bacterial bone infections, a major challenge in orthopaedic and maxillofacial surgery worsened by antibiotic resistance, which causes over 2 million deaths annually. The project explores the bactericidal properties of natural surface topographies, aiming to understand their mechanisms and translate them into synthetic bone grafts that combine antimicrobial action with bone regeneration support. Beyond bone regeneration, this research could impact catalysis, water purification, and protein separation.

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APACHE - Atmospheric Pressure plasma meets biomaterials for bone Cancer Healing

This research is at the forefront of plasma medicine, combining plasma physics, life sciences, and clinical medicine. It studies cold atmospheric pressure plasmas (APP), which can selectively kill cancer cells without harming surrounding tissue. Focusing on bone cancer, APACHE explores alternative or complementary therapies to surgery and chemotherapy, including biomaterials for bone grafting. The project investigates how cold plasmas affect bone cancer cells to develop improved treatments by combining multiple strategies.

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Bio-TUNE - Fine tune of cellular behaviour and multifunctional materials for medical implants

The research aims to create multifunctional biomaterials for medical implants that promote cell growth while preventing bacterial infection—two conflicting goals that often challenge implant success. The project studies interactions between eukaryotic cells and bacteria at molecular and biophysical levels, developing innovative coatings with biochemical and topographical cues that encourage tissue integration and resist bacterial colonization. Bio-TUNE advances biomaterial design paradigms for tissue regeneration and personalized medicine, seeking clinical translation of these advanced surfaces.<br />

Read the publication Go to publication

01

BAMBBI - Bio-inspired AntiMicrobial Bone BIoceramics. Deciphering contact-based biocidal mechanisms

Developing antimicrobial bioceramics to combat bacterial bone infections, a major challenge in orthopaedic and maxillofacial surgery worsened by antibiotic resistance, which causes over 2 million deaths annually. The project explores the bactericidal properties of natural surface topographies, aiming to understand their mechanisms and translate them into synthetic bone grafts that combine antimicrobial action with bone regeneration support. Beyond bone regeneration, this research could impact catalysis, water purification, and protein separation.

Read the publication Go to publication

02

APACHE - Atmospheric Pressure plasma meets biomaterials for bone Cancer Healing

This research is at the forefront of plasma medicine, combining plasma physics, life sciences, and clinical medicine. It studies cold atmospheric pressure plasmas (APP), which can selectively kill cancer cells without harming surrounding tissue. Focusing on bone cancer, APACHE explores alternative or complementary therapies to surgery and chemotherapy, including biomaterials for bone grafting. The project investigates how cold plasmas affect bone cancer cells to develop improved treatments by combining multiple strategies.

Read the publication Go to publication

03

Bio-TUNE - Fine tune of cellular behaviour and multifunctional materials for medical implants

The research aims to create multifunctional biomaterials for medical implants that promote cell growth while preventing bacterial infection—two conflicting goals that often challenge implant success. The project studies interactions between eukaryotic cells and bacteria at molecular and biophysical levels, developing innovative coatings with biochemical and topographical cues that encourage tissue integration and resist bacterial colonization. Bio-TUNE advances biomaterial design paradigms for tissue regeneration and personalized medicine, seeking clinical translation of these advanced surfaces.<br />

Read the publication Go to publication

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