Biocompatibility and Printability Bioinks for Fabrication of Bone-like Organoids

Construction of Biomimetic Vascularized and Innervated Skeletal Muscle Based on a Composite Integrated Manufacturing Biofabrication Platform

Ultra-small Tissue-compatible Organoid Printing for Rapid and Controllable Modeling of Patient-derived Organoids

The EPSC Derived Extraembryonic Cell Model Established and Applied for Evaluation of Drug Toxicity

Human Brain Organoid-based Folding on a Chip Emulates ZIKV-induced Cortical Development Malformation

Supramolecular Hydrogels for the Development of Oral Cancer-on-a-chip

DNA Hydrogel Microcarriers for Bone Organoid Construction and Bone Regeneration

3D Bioprinting of Bone Organoids using Bone Matrix-Inspired Bioinks for Enhanced Bone Regeneration

Dynamic Hydrogel Induces Differentiation of Human Vascular Organoids into Arterioles

Mgl2+ Macrophages as Key Regulators of Arterial Development in a Blood Vessel Organoids

Mechanoregulated Metabolic Crosstalk: PKM Transfer Induced by Soft Matrix Promotes Tendon Repair

Assembling Shape-Customized Bone Organoids with Adhesive Bioinks for Scalable Prevascularized Mature Tubular Bone Structures

Biomaterials-assisted Engineering Biological 3D Tissue for Tissue Regeneration

Harnessing Developmental Biology to Build Physiological Complexity and Function

Ruthenium(II) Tris-bidentate Complexes as Potential Multifunctional Photoinitiators for Light-based Biofabrication

To be Determined

All-in-one Generation and Multiomic Profiling of Human Whole Brain Organoid on a Millifluidic Plate

Engineering Brain Organoids with Ordered Spatiotemporal Patterning

Effect of Endothelial Cell Localization on Angiogenic and Osteogenic Potential in Co-Cultured Spheroids

Electrical Stimulation Modulates Cytoskeletal and Mechanical Properties of hMSCs Monitored via Quantitative AFM

Engineering Extracellular Cell Niche for in Studying Cell-substrate Interaction in Disease Environment

Advancing Intervertebral Disc Disease Therapies: The Role of Biofabrication Technologies

Biochemical and Mechanical Tuning of RBCEV-Loaded Scaffolds for Directed Stem Cell Differentiation

Microfluidics as a Biofabrication Technology for High-Throughput 3D in vitro Models

Engineering of Lumenized Vascularized 3D Tissue Constructs via High-Viscosity Medium

From Healthy to Cancerous: A Bioengineered 3D Intestinal Model Using High-Resolution DLP Bioprinting of PEGDA-Based Bioinks

Bioprinted, Spatially Defined Breast Tumor Microenvironment Models of Intratumoral Heterogeneity and Drug Resistance

Application of Three-Dimensional Reconstruction Combined with Fluorescence Thoracoscopy in Anatomic Segmentectomy: A Clinical Study

Design and Fabrication of 4D Microniche for Single Cell Mechanical Stimulation and Its Biomedical Applications

Research Progress in the Mechanobiology of Vascular Cell Phagocytosis Guixue Wang (Chongqing University, China)

Traction Force Measurement of Immune Cells and Its Applications

A Trilayer Hydrogel-Demineralized Bone Matrix Scaffold with Different Stiffness for Full-Thickness Osteochondral Defect Repair

Cell Shape Regulates Mitochondrial Dynamics and Energy Metabolism to Drive Osteogenic Differentiation of Mesenchymal Stem Cells

Quantify the 3D Traction Force in Mouse Early Embryo and Embryo Organoids Development

Decoding Nuclear Mechanics in Aging and Diseases

Contact Stiffness: A Unified Framework for Extracellular Matrix Mechanics in Regulating Cell Behaviors

Synthetic Retinoid Kills Drug-Resistant Cancer Stem Cells via Inducing RARγ-Translocation-Mediated Tension Reduction and Chromatin Decondensation

Restoring the Aged Enthesis Stiffness Gradient Promotes Stem Cell Chondrogenesis and Tissue Regeneration

Mechano-Electrical Coupling Mechanism in Tactile Neurons: Texture Perception and Mechanical Memory

Mechanism of Polygonum cuspidatum in Preventing and Treating Aortic Valve Calcification by Regulating Nucleus-Cytoskeleton Mechanical Coupling: Insights from Its Efficacy in Dissipating Blood Stasis and Resolving Masses