The Past and Present of 3D Printing

The Past and Present of 3D Printing

A Brief Chronology of 3D Printing Author: Geng ChenGraduated from the School of Optoelectronics, Beijing Institute of Technology in 2011 with a Bachelor of Engineering; graduated in 2014 with a Master’s degree. Currently works at the Medical Imaging Technology Research Room of the Suzhou Institute of Biomedical Engineering and Technology, Chinese Academy of Sciences, mainly … Read more

High-Resolution Projection-Based 3D Bioprinting Review

High-Resolution Projection-Based 3D Bioprinting Review

Click the blue text to follow us The core of projection-based 3D printing (PBP) lies in utilizing spatial light modulators to generate dynamic masks and projecting optical patterns onto the surface of photosensitive materials, achieving selective and precise curing. This technology boasts the highest resolution/manufacturing time ratio (RTM) among all 3D printing techniques. However, in … Read more

Understanding Medical 3D Printing and Its Applications

Understanding Medical 3D Printing and Its Applications

The pharmaceutical and biotechnology industry is currently the fastest-growing sector for 3D printing technology. This technology can provide more comprehensive personalized solutions for the medical and biological industries; bioprinting technology will promote research in regenerative medicine related to artificial living tissues and organs. In terms of personalized solutions, typical applications include 3D surgical planning models, … Read more

Applications of Projection Photopolymerization in 3D Bioprinting: Microneedles, Microspheres, and Microfluidic Chips

Applications of Projection Photopolymerization in 3D Bioprinting: Microneedles, Microspheres, and Microfluidic Chips

The projection photopolymerization 3D printing technology features high manufacturing precision, fast forming speed, and the ability for mass production, making it particularly advantageous in manufacturing high-precision structures. The microneedles, microspheres, and microfluidic chips manufactured using projection photopolymerization technology have significant application prospects in wound healing, drug delivery, and tissue engineering. To help everyone understand the … Read more

Five Cutting-Edge Directions in 3D Bioprinting

Five Cutting-Edge Directions in 3D Bioprinting

The dynamic changes in the field of bioprinting are gradually becoming a focus. As it continues to grow, different trends are emerging. These “niche markets” in bioprinting are crucial for understanding the development direction of the industry. Antarctic Bear has noticed that five directions are particularly noteworthy.Biomaterials△ GEL-MA INX bioprinting ink launched by Rousselot and … Read more

Bioprinting of Vascularized Tissues: A Comprehensive Review

Bioprinting of Vascularized Tissues: A Comprehensive Review

1. 3D Microvascularized Tissue Models Based on Collagen Hydrogel – Laser-Induced Cavitation Molding for Creating Channels and CavitiesIntroduction:The team of Professor Frank Niklaus, Anna Herland, and Göran Stemme from the Micro and Nanosystems Division of KTH Royal Institute of Technology published an article titled “3D Microvascularized Tissue Models by Laser-Based Cavitation Molding of Collagen” in … Read more

Applications of Bioprinter Technology

Applications of Bioprinter Technology

Bioprinter A bioprinter is a device that can assemble biological materials or cell units according to the principles of additive manufacturing, driven by digital three-dimensional models, to create products such as medical devices, tissue engineering scaffolds, and organ tissues. Working Principle of Bioprinter Bioprinters are invented based on existing technologies that are currently used to … Read more

Understanding Cutting-Edge Technology: 3D Printing – A Manufacturing Revolution

Understanding Cutting-Edge Technology: 3D Printing - A Manufacturing Revolution

3D Printing: A Manufacturing Revolution By Fang Minghe 3D Printing Cars, food, clothing, houses… Can you imagine these things being printed? More and more facts indicate that 3D printers are no longer exclusive machines for designers and scientists; they are gradually emerging from laboratories and factories, having an increasingly significant impact on the lives of … Read more

Light-Cured Bio 3D Printing: From Materials to Parameters to Applications

Light-Cured Bio 3D Printing: From Materials to Parameters to Applications

3D printing—an innovative manufacturing technology—has permeated more complex and refined fields from its initial applications in manufacturing, such as the production of plastic, metal, and other materials, including biomedicine. This “additive manufacturing” method of 3D printing can layer by layer print any biological tissue or organ required for tissue engineering. Among various 3D printing technologies, … Read more

The Challenges of 3D Printing a Heart

The Challenges of 3D Printing a Heart

↑Click the aboveSanlian Life Weekly to add to favorites! Recently, a “heart” measuring 2.5 centimeters was created using 3D printing. Although it has defects, it seems to bring us one step closer to the future of organ transplantation propelled by biological 3D printing. The First Vascularized 3D Printed Heart On April 15, Tel Aviv University … Read more