A mouse model of orthotopic vascularized aerated lung transplantation

M. Okazaki; A. S. Krupnick; C. G. Kornfeld; J. M. Lai; J. H. Ritter; S. B. Richardson; H. J. Huang; N. A. Das; G. A. Patterson; A. E. Gelman; D. Kreisel

doi:10.1111/j.1600-6143.2007.01819.x

A mouse model of orthotopic vascularized aerated lung transplantation

M. Okazaki, A. S. Krupnick, C. G. Kornfeld, J. M. Lai, J. H. Ritter, S. B. Richardson, H. J. Huang, N. A. Das, G. A. Patterson, A. E. Gelman, D. Kreisel

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

117 Citations (Scopus)

Abstract

Outcomes after lung transplantation are markedly inferior to those after other solid organ transplants. A better understanding of cellular and molecular mechanisms contributing to lung graft injury will be critical to improve outcomes. Advances in this field have been hampered by the lack of a mouse model of lung transplantation. Here, we report a mouse model of vascularized aerated single lung transplantation utilizing cuff techniques. We show that syngeneic grafts have normal histological appearance with minimal infiltration of T lymphocytes. Allogeneic grafts show acute cellular rejection with infiltration of T lymphocytes and recipient-type antigen presenting cells. Our data show that we have developed a physiological model of lung transplantation in the mouse, which provides ample opportunity for the study of nonimmune and immune mechanisms that contribute to lung allograft injury.

Original language	English
Pages (from-to)	1672-1679
Number of pages	8
Journal	American Journal of Transplantation
Volume	7
Issue number	6
DOIs	https://doi.org/10.1111/j.1600-6143.2007.01819.x
Publication status	Published - Jun 2007
Externally published	Yes

Keywords

Lung transplantation
Mice
Surgical technique

ASJC Scopus subject areas

Immunology and Allergy
Transplantation
Pharmacology (medical)

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10.1111/j.1600-6143.2007.01819.x

Cite this

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title = "A mouse model of orthotopic vascularized aerated lung transplantation",

abstract = "Outcomes after lung transplantation are markedly inferior to those after other solid organ transplants. A better understanding of cellular and molecular mechanisms contributing to lung graft injury will be critical to improve outcomes. Advances in this field have been hampered by the lack of a mouse model of lung transplantation. Here, we report a mouse model of vascularized aerated single lung transplantation utilizing cuff techniques. We show that syngeneic grafts have normal histological appearance with minimal infiltration of T lymphocytes. Allogeneic grafts show acute cellular rejection with infiltration of T lymphocytes and recipient-type antigen presenting cells. Our data show that we have developed a physiological model of lung transplantation in the mouse, which provides ample opportunity for the study of nonimmune and immune mechanisms that contribute to lung allograft injury.",

keywords = "Lung transplantation, Mice, Surgical technique",

author = "M. Okazaki and Krupnick, {A. S.} and Kornfeld, {C. G.} and Lai, {J. M.} and Ritter, {J. H.} and Richardson, {S. B.} and Huang, {H. J.} and Das, {N. A.} and Patterson, {G. A.} and Gelman, {A. E.} and D. Kreisel",

year = "2007",

month = jun,

doi = "10.1111/j.1600-6143.2007.01819.x",

language = "English",

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journal = "American Journal of Transplantation",

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AU - Okazaki, M.

AU - Krupnick, A. S.

AU - Kornfeld, C. G.

AU - Lai, J. M.

AU - Ritter, J. H.

AU - Richardson, S. B.

AU - Huang, H. J.

AU - Das, N. A.

AU - Patterson, G. A.

AU - Gelman, A. E.

AU - Kreisel, D.

PY - 2007/6

Y1 - 2007/6

N2 - Outcomes after lung transplantation are markedly inferior to those after other solid organ transplants. A better understanding of cellular and molecular mechanisms contributing to lung graft injury will be critical to improve outcomes. Advances in this field have been hampered by the lack of a mouse model of lung transplantation. Here, we report a mouse model of vascularized aerated single lung transplantation utilizing cuff techniques. We show that syngeneic grafts have normal histological appearance with minimal infiltration of T lymphocytes. Allogeneic grafts show acute cellular rejection with infiltration of T lymphocytes and recipient-type antigen presenting cells. Our data show that we have developed a physiological model of lung transplantation in the mouse, which provides ample opportunity for the study of nonimmune and immune mechanisms that contribute to lung allograft injury.

AB - Outcomes after lung transplantation are markedly inferior to those after other solid organ transplants. A better understanding of cellular and molecular mechanisms contributing to lung graft injury will be critical to improve outcomes. Advances in this field have been hampered by the lack of a mouse model of lung transplantation. Here, we report a mouse model of vascularized aerated single lung transplantation utilizing cuff techniques. We show that syngeneic grafts have normal histological appearance with minimal infiltration of T lymphocytes. Allogeneic grafts show acute cellular rejection with infiltration of T lymphocytes and recipient-type antigen presenting cells. Our data show that we have developed a physiological model of lung transplantation in the mouse, which provides ample opportunity for the study of nonimmune and immune mechanisms that contribute to lung allograft injury.

KW - Lung transplantation

KW - Mice

KW - Surgical technique

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A mouse model of orthotopic vascularized aerated lung transplantation

Abstract

Keywords

ASJC Scopus subject areas

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