Results 101 to 110 of about 22,992 (302)
From Lab to Landscape: Environmental Biohybrid Robotics for Ecological Futures
Advanced Robotics Research, EarlyView.This Perspective explores environmental biohybrid robotics, integrating living tissues, microorganisms, and insects for operation in real‐world ecosystems. It traces the leap from laboratory experiments to forests, wetlands, and urban environments and discusses key challenges, development pathways, and opportunities for ecological monitoring and ...
Miriam Filippi
wiley +1 more source
AI-driven 3D bioprinting for regenerative medicine: From bench to bedside
Bioactive MaterialsIn recent decades, 3D bioprinting has garnered significant research attention due to its ability to manipulate biomaterials and cells to create complex structures precisely.
Zhenrui Zhang +4 more
doaj +1 more source
Strategic Design of Soft Actuators in Translational Medical Robotics for Human‐Centered Healthcare
Advanced Robotics Research, EarlyView.Soft robotics enables biocompatible, compliant medical devices, but clinical translation requires design‐driven engineering beyond materials. This perspective reviews implantable, surgical, and wearable systems by actuation mechanism, highlighting how optimized architectures and integration improve mechanical interfacing, adaptability, and durability ...
Ho Jun Jin +3 more
wiley +1 more source
Advanced Science, EarlyView.This study presents a 3D embedded bioprinting platform that recapitulates key stromal features of the tumor microenvironment using fibroblasts and lung‐derived ECM. The model enables functional assessment of CAR‐NK cells and provides a versatile tool to support the development of next‐generation immunotherapeutic strategies against solid tumors ...
Dahong Kim +10 more
wiley +1 more source
3D bioprinting: current status and future prospects in tissue and organ regeneration
Future Journal of Pharmaceutical SciencesThree-dimensional (3D) bioprinting has emerged as a transformative technology in tissue engineering and regenerative medicine, offering innovative solutions for the fabrication of complex biological structures.
M. Selvakumar +3 more
doaj +1 more source
, 2015 Scientific and technological advances are rapidly changing conditions of human existence. Modern information technology is increasingly used in the health care industry.
Svyrydenko, D., Yurchenko, V.
openaire +1 more source
Printable Conductive Hydrogels for Electrochemical Biosensing and Soft Bioelectronic Interfaces
Advanced Science, EarlyView.Flexible, conductive hydrogels that integrate printability, mechanical tunability, biocompatibility, and electronic performance remain challenging to achieve. Here, we develop 3D‐printable poly(ethylene glycol)–poly(pyrrole)‐ hydrogels with tissue‐like mechanics, high cytocompatibility, and robust electrochemical function.
Lukas Hein +6 more
wiley +1 more source
Current Developments in 3D Bioprinting for Tissue and Organ Regeneration–A Review [PDF]
, 2020 Swarnima Agarwal +5 more
openalex +1 more source
In situ bioprinting: bioprinting methods, bioinks, cell sources & advanced bioprinting strategies
BiofabricationAbstract Bioprinting is a tissue engineering approach which has great potential to devise regenerative therapies and alleviate tissue/organ shortage. In situ bioprinting, allowing the direct creation of functional 3D tissues/organs at the defect site in the patient body, has
Yinglun Jian +4 more
openaire +2 more sources
Advanced Science, EarlyView.ABSTRACT Self‐healing materials represent a paradigm shift in designing functional biomedical devices for drug delivery, tissue regeneration, and 3D bioprinting. However, their clinical translation remains limited by challenges such as insufficient mechanical strength, potential cytotoxicity from chemical modifications, and complex activation ...
Ganjun Feng +15 more
wiley +1 more source