The BBB remains a major obstacle to effective treatment of CNS disorders by limiting the entry of most therapeutics into the brain. The hCMEC/D3 is widely used as anin vitromodel to study BBB structure, permeability, and drug transport. In parallel, ...
Biomedical materials (Bristol, England)
Jan 7, 2026
Interface tissues, such as the enthesis connecting ligaments to bone, present multiphasic architectures with continuous gradients in structure, composition, and mechanics. Engineering such complex transitions remains a major challenge in biofabricati...
3D bioprinting enables rapid fabrication of complex biological structures for tissue engineering applications. However, optimizing bioink formulation remains challenging due to complex relationships among material properties, printability, and cell v...
Magnetic soft robots offer significant potential for biomedical applications, as recent advances in magnetic programming and 3D printing technologies have enabled the fabrication of increasingly complex and multifunctional structures. However, curren...
Due to the excellent biocompatibility and adjustability, hydrogels have broadened their application in different fields, such as 3D printing, tissue engineering, drug delivery, and biosensing. However, traditional hydrogel research is confronted with...
International journal of pharmaceutics
Nov 16, 2025
Pharmaceutical 3D printing is an emerging digital manufacturing technology capable of autonomously producing personalised medicines. However, the same reliance on digital workflows that enables this innovation also introduces new vulnerabilities, mos...
International journal of pharmaceutics
Nov 15, 2025
Transdermal drug delivery systems (TDDS) offer a painless and non-invasive route of administration but are limited by the skin barrier. Microneedles (MNs) have been shown to overcome this challenge and enable the delivery of small molecules, peptides...
Given the increasing adoption of flexible 3D-printed joints in the field of robotics, it is essential to characterize the stiffness/spring coefficient and damping of printed specimens to understand the effects of various processing parameters and the...
Alginate-based biomaterials have been widely used for tissue repair and regeneration, owing to their tunability, biocompatibility, biodegradability, and low cytotoxicity. With the rapid advancement of bioprinting technology, alginate has increasingly...
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