RT @CMIT_LA: C-MIT members recently published this article on in situ #bioprinting to directly implant #cells into target defects to utiliz…
RT @CMIT_LA: C-MIT members recently published this article on in situ #bioprinting to directly implant #cells into target defects to utiliz…
C-MIT members recently published this article on in situ #bioprinting to directly implant #cells into target defects to utilize the body's #microenvironment for #tissue maturation. /jt/ #innovation #biology @khademh https://t.co/B9aXpVOv29 https://t.co/1A1
RT @NPeppas: In situ three-dimensional printing for reparative and regenerative therapy by @khademh in #biomedicalMicrodevices https://t.co…
RT @NPeppas: In situ three-dimensional printing for reparative and regenerative therapy by @khademh in #biomedicalMicrodevices https://t.co…
RT @Eirini_Velliou: Must read 👇🏼 #3Dprinting #TissueEngineering https://t.co/ayEq8AkP5M
Must read 👇🏼 #3Dprinting #TissueEngineering
RT @NPeppas: In situ three-dimensional printing for reparative and regenerative therapy by @khademh in #biomedicalMicrodevices https://t.co…
RT @NPeppas: In situ three-dimensional printing for reparative and regenerative therapy by @khademh in #biomedicalMicrodevices https://t.co…
RT @NPeppas: In situ three-dimensional printing for reparative and regenerative therapy by @khademh in #biomedicalMicrodevices https://t.co…
RT @NPeppas: In situ three-dimensional printing for reparative and regenerative therapy by @khademh in #biomedicalMicrodevices https://t.co…
In situ three-dimensional printing for reparative and regenerative therapy by @khademh in #biomedicalMicrodevices https://t.co/a1z8QZUC42 https://t.co/s1l8SWpIep