Biomedical Engineering Reference
In-Depth Information
59 Bullard KM, Longaker MT and Lorenz HP, 'Fetal wound healing: current biology',
World J Surg
, 2003,
27
(1), 54-61.
60 Colwell AS, Longaker MT and Lorenz HP, 'Fetal Wound Healing',
Front Biosci
, 2003,
8
, s1240-8.
61 Armstrong JR and Ferguson MW, 'Ontogeny of the skin and the transition from scar-free
to scarring phenotype during wound healing in the pouch young of the marsupial,
Monodelphis domestica
',
Dev Biol
, 1998,
169
(1), 242-60.
62 Goss RJ, 'Regeneration versus repair', in Cohen IK, Diegelman RF and Linblad WJ
(eds),
Wound Healing: Biochemical and Clinical Aspects
, Saunders, Philadelphia, 1992,
20-39.
63 Toma JG, McKenzie IA, Bagli D and Miller FD, 'Isolation and characterization of
multipotent skin-derived precursors from human skin',
Stem Cells
, 2005,
23
(6), 727-37.
64 Weissman IL, 'Stem cells: units of development, units of regeneration, and units in
evolution',
Cell
, 2000,
100
(1), 157-68.
65 Korbling M and Estrov Z, 'Adult stem cells for tissue repair - a new therapeutic concept?'
New Engl J Med
, 2003,
349
(6), 570-82.
66 Fernandes KJ, McKenzie IA, Mill P, Smith KM, Akhavan M, Barnabé-Heider F,
Biernaskie J, Junek A, Kobayashi NR, Toma JG, Kaplan DR, Labosky PA, Rafuse V, Hui
CC and Miller FD, 'A dermal niche for multipotent adult skin-derived precursor cells',
Nat Cell Biol
, 2004,
6
(11), 1082-93.
67 Kawase Y, Yanagi Y, Takto T, Fujimoto M and Okochi H, 'Characterization of
multipotent adult stem cells from the skin: transforming growth factor-β (TGF-β)
facilitates cell growth',
Exp Cell Res
, 2004,
295
(1), 194-203.
68 Haniffa MA, Wang XN, Holtick U, Rae M, Isaacs JD, Dickinson AM, Hilkens CM and
Collin MP, 'Adult human fibroblasts are potent immunoregulatory cells and functionally
equivalent to mesenchymal stem cells',
J Immunol
, 2007,
179
(3), 1595-604.
69 Crosby JR, Kaminski WE, Schatteman G, Martin PJ, Raines EW, Seifert RA and Bowen-
Pope DF, 'Endothelial cells of hematopoietic origin make a significant contribution to
adult blood vessel formation',
Circ Res
, 2000,
87
(9) 728-730.
70 Ogawa M, LaRue AC and Drake AC, 'Hematopoietic origin of fibroblasts/myofibroblasts:
Its pathophysiologic implications',
Blood
, 2006,
108
(9), 2893-6.
71 Opalenik SR and Davidson JM, 'Fibroblast differentiation of bone marrow-derived cells
during wound repair',
FASEB
, 2005,
19
(11), 1561-3.
72 Badiavas EV, Abedi M, Butmarc J, Falanga V and Quesenberry P, 'Participation of bone
marrow derived cells in cutaneous wound healing',
J Cell Physiol
, 2003,
196
(2), 245-
50.
73 Kataoka K, Medina RJ, Kageyama T, Miyazaki M, Yoshino T, Makino T and Huh NH,
'Participation of adult mouse bone marrow cells in reconstitution of skin',
Am J Pathol
,
2003,
163
(4), 1227-31.
74 Yamaguchi Y, Kubo T, Murakami T, Takahashi M, Hakamata Y, Kobayashi E, Yoshida
S, Hosokawa K, Yoshikawa K and Itami S, 'Bone marrow cells differentiate into wound
myofibroblasts and accelerate the healing of wounds with exposed bones when com-
bined with an occlusive dressing',
Br J Dermatol
, 2005,
152
(4), 616-22.
75 Fu X, Fang L, Li X, Cheng B and Sheng Z, 'Enhanced wound-healing quality with bone
marrow mesenchymal stem cells autografting after skin injury',
Wound Repair Regen
,
2006,
14
(3), 325-35.
76 LaRue AC, Masuya M, Ebihara Y, Fleming PA, Visconti RP, Minamiguchi H, Ogawa
M and Drake CJ, 'Hematopoietic origins of fibroblasts: I.
In vivo
studies of fibroblasts
associated with solid tumors',
Exp Hematol
, 2006,
34
(2), 208-18.
