Tissue generation with growth factors

R. K. Khouri; B. Koudsi; E. G. Deune; Pyo Hong Sung Pyo Hong; M. R. Ozbek; C. M. Serdar; S. Z. Song; G. F. Pierce; B. A. Pruitt; B. Kim; P. J. Fabri

Tissue generation with growth factors

R. K. Khouri, B. Koudsi, E. G. Deune, Pyo Hong Sung Pyo Hong, M. R. Ozbek, C. M. Serdar, S. Z. Song, G. F. Pierce, B. A. Pruitt, B. Kim, P. J. Fabri

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

Background. An in vivo experimental model was introduced to determine whether the mitogenic effect of recombinant platelet-derived growth factor (rPDGF) could be used to generate potentially useful tissue. Methods. In Lewis rats, the extended femoral arteriovenous bundle was placed within silicone chambers containing collagen disks. The disks could deliver their content of rPDGF-BB (125 to 131 μg/disk) either as a rapid pulse or as a slow release. The time course of tissue generation was determined by harvesting the specimens at various postoperative days. The effect of continuous versus pulsed delivery was determined at 30 days. Analysis of the generated tissue was performed by use of histomorphometry. Results. Pulsed delivery of rPDGF-BB induced the formation of a substantial amount of tissue that peaked at 10 to 15 days (145.9 ± 13.8 vs 35.0 ± 6.8 mm³; p < 0.0001); however, the generated tissue completely subsided by day 30. Sustained delivery of rPDGF-BB caused continuous growth of the tissue and was more effective than pulsed delivery. Conclusions. In an experimental model that approximates an in vivo tissue culture system, rPDGF-BB can induce a tenfold increase in tissue within the chamber. However, that tissue is labile and its survival necessitates continuous rPDGF-BB delivery. To become useful for reconstructive purposes, means to stabilize this new tissue growth are needed.

Original language	English (US)
Pages (from-to)	374-380
Number of pages	7
Journal	Surgery
Volume	114
Issue number	2
State	Published - 1993
Externally published	Yes

ASJC Scopus subject areas

Surgery

Cite this

@article{49abdca2e2484d938925f175aee84787,

title = "Tissue generation with growth factors",

abstract = "Background. An in vivo experimental model was introduced to determine whether the mitogenic effect of recombinant platelet-derived growth factor (rPDGF) could be used to generate potentially useful tissue. Methods. In Lewis rats, the extended femoral arteriovenous bundle was placed within silicone chambers containing collagen disks. The disks could deliver their content of rPDGF-BB (125 to 131 μg/disk) either as a rapid pulse or as a slow release. The time course of tissue generation was determined by harvesting the specimens at various postoperative days. The effect of continuous versus pulsed delivery was determined at 30 days. Analysis of the generated tissue was performed by use of histomorphometry. Results. Pulsed delivery of rPDGF-BB induced the formation of a substantial amount of tissue that peaked at 10 to 15 days (145.9 ± 13.8 vs 35.0 ± 6.8 mm3; p < 0.0001); however, the generated tissue completely subsided by day 30. Sustained delivery of rPDGF-BB caused continuous growth of the tissue and was more effective than pulsed delivery. Conclusions. In an experimental model that approximates an in vivo tissue culture system, rPDGF-BB can induce a tenfold increase in tissue within the chamber. However, that tissue is labile and its survival necessitates continuous rPDGF-BB delivery. To become useful for reconstructive purposes, means to stabilize this new tissue growth are needed.",

author = "Khouri, {R. K.} and B. Koudsi and Deune, {E. G.} and {Sung Pyo Hong}, {Pyo Hong} and Ozbek, {M. R.} and Serdar, {C. M.} and Song, {S. Z.} and Pierce, {G. F.} and Pruitt, {B. A.} and B. Kim and Fabri, {P. J.}",

year = "1993",

language = "English (US)",

volume = "114",

pages = "374--380",

journal = "Surgery",

issn = "0039-6060",

publisher = "Mosby Inc.",

number = "2",

}

TY - JOUR

T1 - Tissue generation with growth factors

AU - Khouri, R. K.

AU - Koudsi, B.

AU - Deune, E. G.

AU - Sung Pyo Hong, Pyo Hong

AU - Ozbek, M. R.

AU - Serdar, C. M.

AU - Song, S. Z.

AU - Pierce, G. F.

AU - Pruitt, B. A.

AU - Kim, B.

AU - Fabri, P. J.

PY - 1993

Y1 - 1993

N2 - Background. An in vivo experimental model was introduced to determine whether the mitogenic effect of recombinant platelet-derived growth factor (rPDGF) could be used to generate potentially useful tissue. Methods. In Lewis rats, the extended femoral arteriovenous bundle was placed within silicone chambers containing collagen disks. The disks could deliver their content of rPDGF-BB (125 to 131 μg/disk) either as a rapid pulse or as a slow release. The time course of tissue generation was determined by harvesting the specimens at various postoperative days. The effect of continuous versus pulsed delivery was determined at 30 days. Analysis of the generated tissue was performed by use of histomorphometry. Results. Pulsed delivery of rPDGF-BB induced the formation of a substantial amount of tissue that peaked at 10 to 15 days (145.9 ± 13.8 vs 35.0 ± 6.8 mm3; p < 0.0001); however, the generated tissue completely subsided by day 30. Sustained delivery of rPDGF-BB caused continuous growth of the tissue and was more effective than pulsed delivery. Conclusions. In an experimental model that approximates an in vivo tissue culture system, rPDGF-BB can induce a tenfold increase in tissue within the chamber. However, that tissue is labile and its survival necessitates continuous rPDGF-BB delivery. To become useful for reconstructive purposes, means to stabilize this new tissue growth are needed.

AB - Background. An in vivo experimental model was introduced to determine whether the mitogenic effect of recombinant platelet-derived growth factor (rPDGF) could be used to generate potentially useful tissue. Methods. In Lewis rats, the extended femoral arteriovenous bundle was placed within silicone chambers containing collagen disks. The disks could deliver their content of rPDGF-BB (125 to 131 μg/disk) either as a rapid pulse or as a slow release. The time course of tissue generation was determined by harvesting the specimens at various postoperative days. The effect of continuous versus pulsed delivery was determined at 30 days. Analysis of the generated tissue was performed by use of histomorphometry. Results. Pulsed delivery of rPDGF-BB induced the formation of a substantial amount of tissue that peaked at 10 to 15 days (145.9 ± 13.8 vs 35.0 ± 6.8 mm3; p < 0.0001); however, the generated tissue completely subsided by day 30. Sustained delivery of rPDGF-BB caused continuous growth of the tissue and was more effective than pulsed delivery. Conclusions. In an experimental model that approximates an in vivo tissue culture system, rPDGF-BB can induce a tenfold increase in tissue within the chamber. However, that tissue is labile and its survival necessitates continuous rPDGF-BB delivery. To become useful for reconstructive purposes, means to stabilize this new tissue growth are needed.

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Tissue generation with growth factors

Abstract

ASJC Scopus subject areas

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