Bioprinting technologies and bioinks for vascular model establishment
Z Kong, X Wang - International Journal of Molecular Sciences, 2023 - mdpi.com
Clinically, large diameter artery defects (diameter larger than 6 mm) can be substituted by
unbiodegradable polymers, such as polytetrafluoroethylene. There are many problems in …
unbiodegradable polymers, such as polytetrafluoroethylene. There are many problems in …
[HTML][HTML] Advances in biofabrication techniques towards functional bioprinted heterogeneous engineered tissues: a comprehensive review
Biofabrication is a fast-evolving and multi-disciplinary field, harnessing the benefits and
capabilities of additive manufacturing and complementary bioassembly techniques at the …
capabilities of additive manufacturing and complementary bioassembly techniques at the …
Pharmaceutical additive manufacturing: a novel tool for complex and personalized drug delivery systems
Inter-individual variability is always an issue when treating patients of different races,
genders, ages, pharmacogenetics, and pharmacokinetic characteristics. However, the …
genders, ages, pharmacogenetics, and pharmacokinetic characteristics. However, the …
Nanoengineered myogenic scaffolds for skeletal muscle tissue engineering
Extreme loss of skeletal muscle overwhelms the natural regenerative capability of the body,
results in permanent disability and substantial economic burden. Current surgical …
results in permanent disability and substantial economic burden. Current surgical …
Fabrication of tissue-engineered tympanic membrane patches using 3D-Printing technology
In recent years, scaffolds produced in 3D printing technology have become more
widespread tool due to providing more advantages than traditional methods in tissue …
widespread tool due to providing more advantages than traditional methods in tissue …
Drug delivery and testing via 3D printing
V Kumar, H Kaur, A Kumari, G Hooda, V Garg… - Bioprinting, 2023 - Elsevier
Abstract 3D printing first came into existence in the year 1984. Since then, it has found
significant use in various fields, including pharmaceutical industries. 3D printing is a process …
significant use in various fields, including pharmaceutical industries. 3D printing is a process …
Gelatin–alginate–hyaluronic acid inks for 3D printing: Effects of bioglass addition on printability, rheology and scaffold tensile modulus
M Bertuola, B Aráoz, U Gilabert… - Journal of Materials …, 2021 - Springer
Natural hydrogels are widely used for 3D-bioprinting because of their qualities for tissue
engineering. Recently, hydrogels have been combined with bioactive glasses, due to their …
engineering. Recently, hydrogels have been combined with bioactive glasses, due to their …
Towards preserving post-printing cell viability and improving the resolution: Past, present, and future of 3D bioprinting theory
Three-dimensional bioprinting as an additive manufacturing technology for constructing
biomimetic tissues by the deposition of individual layers is an ever growing and evolving …
biomimetic tissues by the deposition of individual layers is an ever growing and evolving …
3D bioprinting for lung and tracheal tissue engineering: Criteria, advances, challenges, and future directions
Transplantation is the only long-term treatment option for patients with end-stage lung and
tracheal diseases. However, transplantation is limited by shortage of donor organs and post …
tracheal diseases. However, transplantation is limited by shortage of donor organs and post …
[HTML][HTML] 3D bioprinting for orthopaedic applications: Current advances, challenges and regulatory considerations
D Stanco, P Urbán, S Tirendi, G Ciardelli, J Barrero - Bioprinting, 2020 - Elsevier
In the era of personalised medicine, novel therapeutic approaches raise increasing hopes to
address currently unmet medical needs by developing patient-customised treatments. Three …
address currently unmet medical needs by developing patient-customised treatments. Three …