Meniscus tears are common knee injuries that have long frustrated patients and doctors due to limited repair options.

Optimizing gelatin hydrogels for volumetric 3D bioprinting. Insights from Rousselot’s Jos Olijve on the ENLIGHT bioprinting ...

The first in vitro cell culture techniques ... There is a variety of 3D culture technologies — including spheroids, organoids, scaffolds and hydrogels — that differ in their principles and ...

Pharmaceutical and biotechnology companies rely on these hydrogels for creating 3D cell culture models that better mimic the human tissue environment, enabling more accurate results in drug ...

Aged individuals and astronauts experience bone loss despite rigorous physical activity. Bone mechanoresponse is in-part ...

and matrices (hydrogels) has played a key part in the advancement of tissue engineering and regenerative medicine 8. Hence, to advance the field further, reproducible 3D cell-culture systems for ...

The Global 3D Cell Culture Market is expected to witness a double-digit growth rate by 2027. Some of the key factors driving ...

STAMP revolutionizes muscle fiber alignment on hydrogels using 3D-printed stamps, enhancing soft robotics and tissue ...

3D cell culture techniques closely mimic in vivo conditions, generating more accurate data for disease modeling and drug toxicity testing. Rebecca Roberts is a science writer and communicator. She ...

An FFG-funded consortium of Austrian research groups from the University of Vienna, MedUni Vienna and Technikum Wien together with company partner DOC Medikus GmbH has developed an innovative ...

Researchers streamline cell culture with automated systems, incorporating machine learning to save time and improve reproducibility. Conventional methods for 3D cell culture rely on human intervention ...

This includes the incorporation of multiple cell types, 3D architectures, and dynamic microenvironments. Future research in cell culture will focus on the integration of advanced technologies, such as ...