The names of the 3rd and 4th authors are incorrect and should be: Gregory J. Gage and
Timothy C. Marzullo, respectively. Please use the corrected citation below.'The NIH 3-D print …

The introduction of affordable, consumer-oriented 3-D printers is a milestone in the current
“maker movement,” which has been heralded as the next industrial revolution. Combined …

Abstract The National Institutes of Health (NIH) has launched the NIH 3D Print Exchange, an
online portal for discovering and creating bioscientifically relevant 3D models suitable for 3D …

Personalized medicine and precision medicine are easier to conceptualize than define, and
implementation can be even more challenging. 3D printing has intersected medicine to …

Abstract Three-dimensional (3D) printing is opening new opportunities in biomedicine by
enabling creative problem solving, faster prototyping of ideas, advances in tissue …

3D printing, also known as additive manufacturing, is the computer-guided process of
fabricating physical objects by depositing successive layers of material. It has transformed …

3D printing is now a useful tool for the laboratory. Engineers and scientists can create much
needed small prototype parts or replacement parts for research equipment. With many …

With the increased availability of three‐dimensional (3D) printers, innovative teaching and
training materials have been created in medical fields. For pathology, the use of 3D printing …

Welcome to the body shop, where machines are busy constructing new organs, one cell at a
time. 3-D bioprinters, cousins to the common inkjet printer, squirt cells into a scaffold, printing …

First patented in 1986, three-dimensional (3D) printing, also known as additive
manufacturing or rapid prototyping, now encompasses a variety of distinct technology types …