TY - JOUR
T1 - Boundary layer infusion of basic fibroblast growth factor accelerates intimal hyperplasia in endarterectomized canine artery
AU - Chen, Changyi
AU - Li, Juan
AU - Mattar, Samer G.
AU - Pierce, Glenn F.
AU - Aukerman, Lea
AU - Hanson, Stephen R.
AU - Lumsden, Alan B.
N1 - Funding Information:
We thank Ms. Carolyn Suwyn and Ms. Connie Miko for their expert technical assistance in tissue processing and histology procedures and Ms. Beverly Noe for her laboratory assistance. This study is supported in part by the Department of Surgery, Emory University School of Medicine, and by an NIH grant (R01-HL39437).
PY - 1997/5
Y1 - 1997/5
N2 - We examined the effects of human recombinant basic fibroblast growth factor (bFGF) on the proliferation and migration of cultured dog smooth muscle cells (SMCs) and endothelial cells (ECs) and the effect of continuous local boundary layer infusion of bFGF on intimal hyperplasia in endarterectomized dog artery. In vitro proliferation and migration of dog SMCs or ECs were performed using direct counting and Boyden's chamber, respectively. At a dose of 10 ng/mL, bFGF significantly promoted both SMC and EC proliferation (7-and 4-fold, respectively) and migration (2.3-and 1.9- fold, respectively). Six dogs underwent bilateral carotid endarterectomies. A newly designed local infusion device with an osmotic pump continuously delivered bFGF to one artery or vehicle solution to the contralateral artery for 14 days. The intimal thickness and area in the bFGF-treated vessels were increased by 72 and 81%, respectively, compared with control arteries (P < 0.05). As assessed by the bromodeoxyuridine index, the proliferative activity was increased by 73% in bFGF-treated arteries (P = 0.03). Furthermore, cell proliferation at the distal anastomoses of local in fusion device was significantly increased in the bFGF- infused grafts compared with distal anastomoses in the control grafts (13.24 ± 1.24% versus 5.24 ± 1.01%, P 0.01). These data demonstrate that human recombinant bFGF has a potent effect on dog SMC and EC proliferation and migration, and that local infusion of exogenous bFGF significantly enhances the intimal hyperplasia formation and cell proliferation to vascular injury. We conclude that the bFGF pathway may contribute to the development of intimal hyperplastic lesions.
AB - We examined the effects of human recombinant basic fibroblast growth factor (bFGF) on the proliferation and migration of cultured dog smooth muscle cells (SMCs) and endothelial cells (ECs) and the effect of continuous local boundary layer infusion of bFGF on intimal hyperplasia in endarterectomized dog artery. In vitro proliferation and migration of dog SMCs or ECs were performed using direct counting and Boyden's chamber, respectively. At a dose of 10 ng/mL, bFGF significantly promoted both SMC and EC proliferation (7-and 4-fold, respectively) and migration (2.3-and 1.9- fold, respectively). Six dogs underwent bilateral carotid endarterectomies. A newly designed local infusion device with an osmotic pump continuously delivered bFGF to one artery or vehicle solution to the contralateral artery for 14 days. The intimal thickness and area in the bFGF-treated vessels were increased by 72 and 81%, respectively, compared with control arteries (P < 0.05). As assessed by the bromodeoxyuridine index, the proliferative activity was increased by 73% in bFGF-treated arteries (P = 0.03). Furthermore, cell proliferation at the distal anastomoses of local in fusion device was significantly increased in the bFGF- infused grafts compared with distal anastomoses in the control grafts (13.24 ± 1.24% versus 5.24 ± 1.01%, P 0.01). These data demonstrate that human recombinant bFGF has a potent effect on dog SMC and EC proliferation and migration, and that local infusion of exogenous bFGF significantly enhances the intimal hyperplasia formation and cell proliferation to vascular injury. We conclude that the bFGF pathway may contribute to the development of intimal hyperplastic lesions.
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U2 - 10.1006/jsre.1997.5052
DO - 10.1006/jsre.1997.5052
M3 - Article
C2 - 9224397
AN - SCOPUS:0031147695
SN - 0022-4804
VL - 69
SP - 300
EP - 306
JO - Journal of Surgical Research
JF - Journal of Surgical Research
IS - 2
ER -