The effect of donor and recipient age on engraftment of tissue-engineered liver.

R A Cusick; H Lee; K Sano; Jörg-Matthias Pollok; H Utsunomiya; P X Ma; R Langer; J P Vacanti

The effect of donor and recipient age on engraftment of tissue-engineered liver.

Standard

The effect of donor and recipient age on engraftment of tissue-engineered liver. / Cusick, R A; Lee, H; Sano, K; Pollok, Jörg-Matthias; Utsunomiya, H; Ma, P X; Langer, R; Vacanti, J P.

In: J PEDIATR SURG, Vol. 32, No. 2, 2, 1997, p. 357-360.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Cusick, RA, Lee, H, Sano, K, Pollok, J-M, Utsunomiya, H, Ma, PX, Langer, R & Vacanti, JP 1997, 'The effect of donor and recipient age on engraftment of tissue-engineered liver.', J PEDIATR SURG, vol. 32, no. 2, 2, pp. 357-360. <http://www.ncbi.nlm.nih.gov/pubmed/9044153?dopt=Citation>

APA

Cusick, R. A., Lee, H., Sano, K., Pollok, J-M., Utsunomiya, H., Ma, P. X., Langer, R., & Vacanti, J. P. (1997). The effect of donor and recipient age on engraftment of tissue-engineered liver. J PEDIATR SURG, 32(2), 357-360. [2]. http://www.ncbi.nlm.nih.gov/pubmed/9044153?dopt=Citation

Vancouver

Cusick RA, Lee H, Sano K, Pollok J-M, Utsunomiya H, Ma PX et al. The effect of donor and recipient age on engraftment of tissue-engineered liver. J PEDIATR SURG. 1997;32(2):357-360. 2.

Bibtex

@article{c81d2df2953c4da7b604a10cf75c27e1,

title = "The effect of donor and recipient age on engraftment of tissue-engineered liver.",

abstract = "A novel treatment for end-stage liver disease using heterotopic hepatocyte transplantation on biodegradable polymers has been investigated. Survival and repopulation of adequate cell mass to replace hepatic function has been the principal difficulty of this method. Hence the authors have begun to investigate the role of donor and recipient age on the efficiency of hepatocyte transplantation. Lewis rats were used as donors and recipients. Hepatocytes were isolated with a collagenase digestion, both for the adult and fetal livers (17 days estimated gestational age). After digestion, the hepatocytes were seeded onto 95% porous poly-(L)-lactic acid matrices. The polymer-cell constructs with adult or fetal cells were then implanted between mesenteric leaves of three different recipient groups: adults (approximately 200 g), 2-week, and 4-week neonates (two to five animals per group, depending on litter size). The specimens were harvested at 4 weeks, stained with Hematoxylin and Eosin (H;E), and the cell area of each specimen (24 sections per group) was quantitated using morphometric analysis. Results were statistically analyzed using an unpaired, two-tailed Student's t test. At 4 weeks, all specimens showed survival of groups of hepatocytes, especially along the periphery of the polymers and near blood vessels. The hepatocyte cell area for the six groups was calculated in square micrometers: the adult cells transplanted into adult recipients, 0.16 x 10(5) microns2; fetal cells into adults, 0.47 x 10(5) microns2; adult into 4-week neonates, 1.17 x 10(5) microns2; fetal into 4-week neonates, 4.54 x 10(5) microns2; adult into 2-week neonates, 2.98 x 10(5) microns2, and fetal into 2-week neonates, 5.81 x 10(5) microns2. In all three recipient groups, the area of fetal hepatocytes was approximately two to three times the area of the adult hepatocytes (P <.05 for 2-week and 4-week neonatal recipients, P = .06 for adult recipients). Also, as the recipient age decreased, there was an increase in the hepatocyte cell area (P <.05 for fetal or adult groups). The authors conclude that fetal hepatocytes heterotopically transplanted have a significant survival advantage over adult hepatocytes, independent of recipient age. The authors further conclude that the neonatal environment is more favorable than the adult environment for implantation of hepatocytes.",

author = "Cusick, {R A} and H Lee and K Sano and J{\"o}rg-Matthias Pollok and H Utsunomiya and Ma, {P X} and R Langer and Vacanti, {J P}",

year = "1997",

language = "Deutsch",

volume = "32",

pages = "357--360",

journal = "J PEDIATR SURG",

issn = "0022-3468",

publisher = "W.B. Saunders Ltd",

number = "2",

}

RIS

TY - JOUR

T1 - The effect of donor and recipient age on engraftment of tissue-engineered liver.

AU - Cusick, R A

AU - Lee, H

AU - Sano, K

AU - Pollok, Jörg-Matthias

AU - Utsunomiya, H

AU - Ma, P X

AU - Langer, R

AU - Vacanti, J P

PY - 1997

Y1 - 1997

N2 - A novel treatment for end-stage liver disease using heterotopic hepatocyte transplantation on biodegradable polymers has been investigated. Survival and repopulation of adequate cell mass to replace hepatic function has been the principal difficulty of this method. Hence the authors have begun to investigate the role of donor and recipient age on the efficiency of hepatocyte transplantation. Lewis rats were used as donors and recipients. Hepatocytes were isolated with a collagenase digestion, both for the adult and fetal livers (17 days estimated gestational age). After digestion, the hepatocytes were seeded onto 95% porous poly-(L)-lactic acid matrices. The polymer-cell constructs with adult or fetal cells were then implanted between mesenteric leaves of three different recipient groups: adults (approximately 200 g), 2-week, and 4-week neonates (two to five animals per group, depending on litter size). The specimens were harvested at 4 weeks, stained with Hematoxylin and Eosin (H;E), and the cell area of each specimen (24 sections per group) was quantitated using morphometric analysis. Results were statistically analyzed using an unpaired, two-tailed Student's t test. At 4 weeks, all specimens showed survival of groups of hepatocytes, especially along the periphery of the polymers and near blood vessels. The hepatocyte cell area for the six groups was calculated in square micrometers: the adult cells transplanted into adult recipients, 0.16 x 10(5) microns2; fetal cells into adults, 0.47 x 10(5) microns2; adult into 4-week neonates, 1.17 x 10(5) microns2; fetal into 4-week neonates, 4.54 x 10(5) microns2; adult into 2-week neonates, 2.98 x 10(5) microns2, and fetal into 2-week neonates, 5.81 x 10(5) microns2. In all three recipient groups, the area of fetal hepatocytes was approximately two to three times the area of the adult hepatocytes (P <.05 for 2-week and 4-week neonatal recipients, P = .06 for adult recipients). Also, as the recipient age decreased, there was an increase in the hepatocyte cell area (P <.05 for fetal or adult groups). The authors conclude that fetal hepatocytes heterotopically transplanted have a significant survival advantage over adult hepatocytes, independent of recipient age. The authors further conclude that the neonatal environment is more favorable than the adult environment for implantation of hepatocytes.

AB - A novel treatment for end-stage liver disease using heterotopic hepatocyte transplantation on biodegradable polymers has been investigated. Survival and repopulation of adequate cell mass to replace hepatic function has been the principal difficulty of this method. Hence the authors have begun to investigate the role of donor and recipient age on the efficiency of hepatocyte transplantation. Lewis rats were used as donors and recipients. Hepatocytes were isolated with a collagenase digestion, both for the adult and fetal livers (17 days estimated gestational age). After digestion, the hepatocytes were seeded onto 95% porous poly-(L)-lactic acid matrices. The polymer-cell constructs with adult or fetal cells were then implanted between mesenteric leaves of three different recipient groups: adults (approximately 200 g), 2-week, and 4-week neonates (two to five animals per group, depending on litter size). The specimens were harvested at 4 weeks, stained with Hematoxylin and Eosin (H;E), and the cell area of each specimen (24 sections per group) was quantitated using morphometric analysis. Results were statistically analyzed using an unpaired, two-tailed Student's t test. At 4 weeks, all specimens showed survival of groups of hepatocytes, especially along the periphery of the polymers and near blood vessels. The hepatocyte cell area for the six groups was calculated in square micrometers: the adult cells transplanted into adult recipients, 0.16 x 10(5) microns2; fetal cells into adults, 0.47 x 10(5) microns2; adult into 4-week neonates, 1.17 x 10(5) microns2; fetal into 4-week neonates, 4.54 x 10(5) microns2; adult into 2-week neonates, 2.98 x 10(5) microns2, and fetal into 2-week neonates, 5.81 x 10(5) microns2. In all three recipient groups, the area of fetal hepatocytes was approximately two to three times the area of the adult hepatocytes (P <.05 for 2-week and 4-week neonatal recipients, P = .06 for adult recipients). Also, as the recipient age decreased, there was an increase in the hepatocyte cell area (P <.05 for fetal or adult groups). The authors conclude that fetal hepatocytes heterotopically transplanted have a significant survival advantage over adult hepatocytes, independent of recipient age. The authors further conclude that the neonatal environment is more favorable than the adult environment for implantation of hepatocytes.

M3 - SCORING: Zeitschriftenaufsatz

VL - 32

SP - 357

EP - 360

JO - J PEDIATR SURG

JF - J PEDIATR SURG

SN - 0022-3468

IS - 2

M1 - 2

ER -