Materials Design Innovations in Optimizing Cellular Behavior on Melt Electrowritten (MEW) Scaffolds
The field of melt electrowriting (MEW) has seen significant progress, bringing innovative
advancements to the fabrication of biomaterial scaffolds, and creating new possibilities for …
advancements to the fabrication of biomaterial scaffolds, and creating new possibilities for …
Recent advances in degradable biomedical polymers for prevention, diagnosis and treatment of diseases
Biomedical polymers play a key role in preventing, diagnosing, and treating diseases,
showcasing a wide range of applications. Their unique advantages, such as rich source …
showcasing a wide range of applications. Their unique advantages, such as rich source …
[HTML][HTML] Heterogeneous porous PLLA/PCL fibrous scaffold for bone tissue regeneration
Bone tissue engineering has become one of the most promising therapeutic methods to treat
bone defects. A suitable scaffolding material to regenerate new bone tissues should have a …
bone defects. A suitable scaffolding material to regenerate new bone tissues should have a …
Novel bilayer coating on gentamicin-loaded titanium nanotube for orthopedic implants applications
Fabricating a multifunctional orthopedic implant which prevents post-surgery infection is
highly desirable in advanced materials applications. However, designing an antimicrobial …
highly desirable in advanced materials applications. However, designing an antimicrobial …
[HTML][HTML] MEWron: An open-source melt electrowriting platform
Melt electrowriting (MEW) is a distinct class of additive manufacturing technologies that
generates fibrous and porous macrostructures with microscale resolution from an electrically …
generates fibrous and porous macrostructures with microscale resolution from an electrically …
The influence of the molecular weight of poly (ethylene oxide) on the hydrolytic degradation and physical properties of polycaprolactone binary blends
The use of biodegradable polymers in tissue engineering has been widely researched due
to their ability to degrade and release their components in a controlled manner, allowing for …
to their ability to degrade and release their components in a controlled manner, allowing for …
Antibacterial and osteogenic dual-functional micronano composite scaffold fabricated via melt electrowriting and solution electrospinning for bone tissue engineering
X Lai, J Huang, S Huang, J Wang… - … Applied Materials & …, 2024 - ACS Publications
The utilization of micronano composite scaffolds has been extensively demonstrated to
confer the superior advantages in bone repair compared to single nano-or micron-sized …
confer the superior advantages in bone repair compared to single nano-or micron-sized …
Materials and Strategies to Enhance Melt Electrowriting Potential
Melt electrowriting (MEW) is an emerging additive manufacturing (AM) technology that
enables the precise deposition of continuous polymeric microfibers, allowing for the creation …
enables the precise deposition of continuous polymeric microfibers, allowing for the creation …
[HTML][HTML] Evaluation of the interface of metallic-coated biodegradable polymeric stents with prokaryotic and eukaryotic cells
Polymeric coronary stents, like the ABSORB™, are commonly used to treat atherosclerosis
due to their bioresorbable and cell-compatible polymer structure. However, they face …
due to their bioresorbable and cell-compatible polymer structure. However, they face …
Investigating the correlation between the protein adhesion simulation and the biocompatibility of polymeric substrate for skin-tissue-engineering applications
Investigating the protein adhesion properties of polymeric scaffolds through computational
simulations can predict the biocompatibility of scaffolds before an experimental assay is …
simulations can predict the biocompatibility of scaffolds before an experimental assay is …