Ειδοποίηση Μελετητή:[ intitle:Bioprinting ]
[HTML] Cartilage Tissue Engineering by the 3D Bioprinting of iPS Cells in a Nanocellulose/Alginate Bioink
D Nguyen, DA Hägg, A Forsman, J Ekholm… - Scientific Reports, 2017
Results Protocols used to induce the differentiation of the iPSCs in the bioprinted materials
were inspired by current strategies with the highest success rate, relying on co-culturing with
irradiated mature chondrocytes (iChons) 8. Growth factors combined with a 3D environment
were inspired by current strategies with the highest success rate, relying on co-culturing with
irradiated mature chondrocytes (iChons) 8. Growth factors combined with a 3D environment
 |  |  |
3-D Bioprinting of Human Skin
RL McMullen
In the past two decades significant progress has been made in the development of in vitro-
engineered skin. It can be used for patients that require skin grafts, due to loss of skin from
injury (eg, in burn victims), or as in vitro models to study various phenomena in skin. The
engineered skin. It can be used for patients that require skin grafts, due to loss of skin from
injury (eg, in burn victims), or as in vitro models to study various phenomena in skin. The
| | |
Αυτή η Ειδοποίηση του Μελετητή Google σας προσφέρεται από τη Google
Ακύρωση ειδοποίησης
Δημιουργία λίστας των ειδοποιήσεών μου
Δεν υπάρχουν σχόλια:
Δημοσίευση σχολίου