Presentazione di PowerPoint

Biostimolazione/Bioristrutturazione
Il fibroblasto secondo lo stimolo recettoriale che
riceve e dallo stato della matrice e' in grado di
differenziarsi per produrre i costituenti della matrice
Frammenti di acido ialuronico
CD44
MATRICE FUNZIONALE
(COLLAGENE 3)
Frammenti di acidi nucleici
Mediatori dell’infiammazione
CD39
CD40
TESSUTO FIBROTICO
(COLLAGENE 1)
Lento assorbimento nei primi 3 mesi ed
accelerazione successiva.
Molea G. et all; British Journal of Plastic Surgery (2000), 53, 137 141
9
Skin rejuvenation to make use of absorbable PDO THREAD in regenrative
medicine. Authors: Jung-Hyun Yoon, Sang-Seop Kim, Dae-II Kim, N-Finders Co.
Ltd.. (2013)
Im JN et Al. In vitro and in vivo degradation behaviors of synthetic absorbable bicomponent
monofilament suture prepared with poly(p-dioxanone) and its copolymer. Polymer Degrad Stab
2007;92:667–674
Model of extracellular-matrix-remodelling phase of matrix contracture.
The effect of mechanical stimulation has on the process fibroblasts differentiate into
myofibroblasts
The effect of mechanical stimulation has on the process fibroblasts differentiate into myofibroblasts
Rosso : Mio-fibroblasti
Skin rejuvenation to make use of absorbable PDO THREAD in regenerative
medicine. Authors: Jung-Hyun Yoon, Sang-Seop Kim, Dae-II Kim, (2013)
Skin rejuvenation to make use of absorbable PDO THREAD in regenrative
medicine. Authors: Jung-Hyun Yoon, Sang-Seop Kim, Dae-II Kim, N-Finders Co.
Ltd.. (2013)
Molea G. et all; British Journal of Plastic Surgery (2000), 53, 137 141
9
Skin rejuvenation to make use of absorbable PDO THREAD in regenerative
medicine. Authors: Jung-Hyun Yoon, Sang-Seop Kim, Dae-II Kim, (2013)
Model of extracellular-matrix-remodelling phase of matrix contracture.
Im JN et Al. In vitro and in vivo degradation behaviors of synthetic absorbable bicomponent
monofilament suture prepared with poly(p-dioxanone) and its copolymer. Polymer Degrad Stab
2007;92:667–674
The effect of mechanical stimulation has on the process fibroblasts differentiate into myofibroblasts