| Alsberg Eben |
Bioprinting Scaffold-free Constructs with Cell-only Bioink
|
| Andreadis Dimitrios |
Bioprinting-based development of salivary gland mini-organoids for high-through drug screening and therapeutic application in xerostomia patients
|
| Angelopoulos Ioannis |
Bioprinting-based development of salivary gland mini-organoids for high-through drug screening and therapeutic application in xerostomia patients
|
| Apatzidou Danae |
Cell therapies for periodontal clinical applications
|
| Azimi Bahareh |
Piezoelectric polymers and nanocomposites in bone Tissue Engineering
|
| Bakopoulou Athina |
Bioprinting-based development of salivary gland mini-organoids for high-through drug screening and therapeutic application in xerostomia patients
Cell therapies - Clinical applications in Regenerative Dentistry
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Benoit Danielle |
Engineered salivary gland tissue chips for radioprotective drug screening
|
| Bizios Rena |
Matrix strain and stromal support guide tissue engineering scaffold vascularization in a time dependent manner
Considerations for biomaterial scaffolds: Lessons learned from physiology and biology
Restoring vocal fold biomechanics after laryngeal nerve injury through biomaterial augmentation
|
| Bonatti Amedeo Franco |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Chatzinikolaidou Maria |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Chen Xinping |
Study on the structural characteristics of intestinal microbiota in patients with breast cancer in Hainan Province
|
| Chiou Gennifer |
Matrix strain and stromal support guide tissue engineering scaffold vascularization in a time dependent manner
|
| Cosgriff-Hernandez Elizabeth |
Engineered matrices to improve bone regeneration with the Masquelet Technique
|
| Dalgarno Kenneth |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Danti Serena |
Piezoelectric polymers and nanocomposites in bone Tissue Engineering
|
| De Maria Carmelo |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Derr Paige |
3D bioprinted complex skin models to investigate in vitro human simplex virus infection and enable high-throughput therapeutic screenings
|
| Dion Gregory |
Restoring vocal fold biomechanics after laryngeal nerve injury through biomaterial augmentation
|
| Dunne Nicholas |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Ellison S. Tori |
3D bioprinted complex skin models to investigate in vitro human simplex virus infection and enable high-throughput therapeutic screenings
|
| Epple Matthias |
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Esparza Marisa |
Protein Loaded Poly(lactic-co-glycolic acid) Nanoparticles for Vascular Tissue Engineering Applications
|
| Ferrer Marc |
3D bioprinted complex skin models to investigate in vitro human simplex virus infection and enable high-throughput therapeutic screenings
|
| Fu Shengmiao |
Study on the structural characteristics of intestinal microbiota in patients with breast cancer in Hainan Province
|
| Ghorbani Sadegh |
Regulating of Cell-Matrix Interactions at Engineered Biointerfaces via Nanopatterning of Laminin-332
|
| Gilbert Ryan |
poly(pro-drug) biomaterials for drug delivery to the injured central nervous system
|
| Gonzales Gabriela |
Restoring vocal fold biomechanics after laryngeal nerve injury through biomaterial augmentation
|
| Guda Teja |
Matrix strain and stromal support guide tissue engineering scaffold vascularization in a time dependent manner
Restoring vocal fold biomechanics after laryngeal nerve injury through biomaterial augmentation
|
| Guo Jason |
Injectable and 3D-printable PNiPAAm-based hydrogels for tissue engineering
|
| Harley Brendan |
Mineralized Collagen Scaffold Pore Structure Enhances Immunomodulatory Potential of Mesenchymal Stem Cells
|
| Hookway Tracy |
Engineered Models of Heterotypic Cardiac Interactions
|
| Hwang Nathaniel |
Skin penetrating tyrosinase conjugated CNT nanoneedle for alleviating photo-induced damage
|
| Jeon Oju |
Bioprinting Scaffold-free Constructs with Cell-only Bioink
|
| Jeong Hyoen |
Bioprinting Scaffold-free Constructs with Cell-only Bioink
|
| Jiang Emily |
Injectable and 3D-printable PNiPAAm-based hydrogels for tissue engineering
Study on the structural characteristics of intestinal microbiota in patients with breast cancer in Hainan Province
|
| Jui Elysa |
Matrix strain and stromal support guide tissue engineering scaffold vascularization in a time dependent manner
|
| Kim Yuseon |
Injectable and 3D-printable PNiPAAm-based hydrogels for tissue engineering
|
| Ko Junghyeon |
Skin penetrating tyrosinase conjugated CNT nanoneedle for alleviating photo-induced damage
|
| Kolliopoulos Vasiliki |
Mineralized Collagen Scaffold Pore Structure Enhances Immunomodulatory Potential of Mesenchymal Stem Cells
|
| Kong Hyunjoon |
Stem cell secretome regulators for tissue vascularization and homeostasis
|
| Kontogianni Georgia-Ioanna |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Kostka Kathrin |
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Koutakis Panagiotis |
Protein Loaded Poly(lactic-co-glycolic acid) Nanoparticles for Vascular Tissue Engineering Applications
|
| Kruse Benedikt |
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Kwak Seon-Yeong |
Skin penetrating tyrosinase conjugated CNT nanoneedle for alleviating photo-induced damage
|
| Laperle Alex |
A microphysiological system for modeling opioid reinforcement and withdrawal, and the negative affective component of pain of device based on 3D cultures of human iPSC-derived neurons
|
| Layrolle Pierre |
Maxillo-facial bone regeneration with stem cells and biomaterials in a comparative clinical trial
|
| Le Visage Catherine |
Intervertebral disc degeneration: evaluation of novel therapies in relevant ex vivo and in vivo models
|
| Lee Sang Jin |
Bioprinting Scaffold-free Constructs with Cell-only Bioink
Skin penetrating tyrosinase conjugated CNT nanoneedle for alleviating photo-induced damage
|
| Levenberg Shulamit |
Bioprinting perfused muscle for regenerative medicine and food applications
|
| Lin Chong |
Study on the structural characteristics of intestinal microbiota in patients with breast cancer in Hainan Province
|
| Lipke Elizabeth |
Biomimetic Material Support of Pluripotent Cell Stem
Differentiation for Cardiac Applications
|
| Loukelis Konstantinos |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Ma Zhichao |
Study on the structural characteristics of intestinal microbiota in patients with breast cancer in Hainan Province
|
| Machla Foteini |
Bioprinting-based development of salivary gland mini-organoids for high-through drug screening and therapeutic application in xerostomia patients
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Maidment Nigel |
A microphysiological system for modeling opioid reinforcement and withdrawal, and the negative affective component of pain of device based on 3D cultures of human iPSC-derived neurons
|
| Malka Ronit |
Restoring vocal fold biomechanics after laryngeal nerve injury through biomaterial augmentation
|
| Mantalaris Athanasios |
Metabolism-driven stem cell bioprocessing
|
| Martinez Elena |
Development of biomimetic models of intestinal tissue: guiding cellular self-organization through biofabrication techniques
|
| Matsusaki Michiya |
Sustained oxygen release from hydroxyapatite coated calcium peroxide scaffold for tissue engineering
Development of Blood-Brain Barrier Networks with Opening Structures for Screening Assays of Receptor-Mediated Transport
|
| Miar Solaleh |
Restoring vocal fold biomechanics after laryngeal nerve injury through biomaterial augmentation
|
| Mikos Antonios |
Injectable and 3D-printable PNiPAAm-based hydrogels for tissue engineering
|
| Miserlis Dimitrios |
Protein Loaded Poly(lactic-co-glycolic acid) Nanoparticles for Vascular Tissue Engineering Applications
|
| Naseem Raasti |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Navara Adam |
Injectable and 3D-printable PNiPAAm-based hydrogels for tissue engineering
|
| Ong Joo |
Matrix strain and stromal support guide tissue engineering scaffold vascularization in a time dependent manner
Restoring vocal fold biomechanics after laryngeal nerve injury through biomaterial augmentation
|
| Parchi Paolo |
Piezoelectric polymers and nanocomposites in bone Tissue Engineering
|
| Pearce Hannah |
Injectable and 3D-printable PNiPAAm-based hydrogels for tissue engineering
|
| Platania Varvara |
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Prymak Oleg |
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Qin Xiao-Hua |
3D-Printed Mini-Bone-Organs
|
| Rathbone Christopher |
Matrix strain and stromal support guide tissue engineering scaffold vascularization in a time dependent manner
|
| Reis Rui |
Engineering biomaterials and using high-throughput approaches for optimising their interactions with cells
|
| Rhea Allison |
Matrix strain and stromal support guide tissue engineering scaffold vascularization in a time dependent manner
|
| Ricci Claudio |
Piezoelectric polymers and nanocomposites in bone Tissue Engineering
|
| Seidlits Stephanie |
A microphysiological system for modeling opioid reinforcement and withdrawal, and the negative affective component of pain of device based on 3D cultures of human iPSC-derived neurons
|
| Shahrokhtash Ali |
Regulating of Cell-Matrix Interactions at Engineered Biointerfaces via Nanopatterning of Laminin-332
|
| Shin Heungsoo |
Engineering multi-cellular spheroids using bioinspired materials for tissue regeneration
|
| Shu Zhan |
A microphysiological system for modeling opioid reinforcement and withdrawal, and the negative affective component of pain of device based on 3D cultures of human iPSC-derived neurons
|
| Sokolova Viktoriya |
Dentin-pulp complex tissue engineering: a proposal for future dental clinical practice.
|
| Sutherland Duncan |
Regulating of Cell-Matrix Interactions at Engineered Biointerfaces via Nanopatterning of Laminin-332
|
| Svendsen Clive |
A microphysiological system for modeling opioid reinforcement and withdrawal, and the negative affective component of pain of device based on 3D cultures of human iPSC-derived neurons
|
| Temenoff Johnna |
Effect of Biomaterial Substrate on Expansion and Function of Marrow Stromal Cells
|
| Tomioka Daisuke |
Sustained oxygen release from hydroxyapatite coated calcium peroxide scaffold for tissue engineering
|
| Vitale-Brovarone Chiara |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Vozzi Giovanni |
Polymeric scaffolds under dynamic conditions promote osteogenic differentiation of pre-osteoblasts
|
| Wang Yadong |
Tissue Engineering with Soft Matter
A microphysiological system for modeling opioid reinforcement and withdrawal, and the negative affective component of pain of device based on 3D cultures of human iPSC-derived neurons
|
| Watt Fiona |
Regulating of Cell-Matrix Interactions at Engineered Biointerfaces via Nanopatterning of Laminin-332
|
| Wechsler Marissa |
Protein Loaded Poly(lactic-co-glycolic acid) Nanoparticles for Vascular Tissue Engineering Applications
|
| Wells Derrick |
Bioprinting Scaffold-free Constructs with Cell-only Bioink
|
| Wyse Jordyn |
Protein Loaded Poly(lactic-co-glycolic acid) Nanoparticles for Vascular Tissue Engineering Applications
|
| Xu Weihua |
Study on the structural characteristics of intestinal microbiota in patients with breast cancer in Hainan Province
|
