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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Stimulation of immune responses by mutated transgenic self-products

Antoniou, Antony Nicodemus January 1995 (has links)
No description available.
2

The migration and function of dendritic leukocytes after transplantation

Larsen, Christian Peter January 1990 (has links)
No description available.
3

Effects of Irradiation on Grafted Skin : Vascular Changes after Irradiation

OKA, TOHRU, KANEDA, TOSHIO, UEDA, MINORU, SUMI, YASUNORI 01 1900 (has links)
No description available.
4

Experts' Assessment of Color in Burn-Wound Photographs As a Predictor of Skin Graft

Baker, Rose Ann Urdiales 01 July 2011 (has links)
No description available.
5

Comparison of two treatments for fingertip amputation: A retrospective cohort study

Olson, Karen 01 June 2007 (has links)
Purpose: To compare the costs and length of disability for conservative treatment versus skin grafting of distal finger and thumb tip amputations. Methods: Thirty-five zone I finger or thumb tip amputations in thirty-five workers in the Southeastern United States were included in this study. Twenty-four were treated with conservative treatment (bandaging to protect the wound). Eleven were treated with skin grafting. The total cost of medical care, total cost including wage replacement, and the length of disability were compared between the two groups. Impairment at the end of treatment was considered. Results: Even when the cost of wage replacement was taken into account, the total cost for skin graft treatment for these injuries is significantly higher. The length of disability was not statistically different between the two treatment groups. There was not a significant difference in impairment reported at the end of treatment. Conclusion: This study did not demonstrate any economic or medical advantage for treating zone I finger or thumb tip amputations with skin grafts. The size of the defect in the skin graft group was significantly larger, though, and the results obtained in this comparison may not allow us to draw valid conclusions about the comparison of these two treatments.
6

Studies on Mechanisms of Skin Graft Rejection: Examination of Effector Cells and Molecules Required for Destruction of Epithelial Tumours

Mrs Rachel De Kluyver Unknown Date (has links)
No description available.
7

CD4+ T cells provide help to CD8+ T cells in immune recall responses in skin.

Jennifer Broom Unknown Date (has links)
Immune responses to antigens presented at skin, or other epithelial surfaces such as the cervix, are important for the clearance of viral infections, such as human papillomavirus (HPV) that infect epithelial cells [13]. Elucidation of the components of an effective immune response to antigens presented in this manner will potentially aid in design of immune modulatory techniques or therapeutic vaccine strategies to treat conditions such as cervical cancer. This thesis addresses the role of CD4+ T lymphocytes in immune responses to antigens presented in skin. CD4+ T cells have a well established role in the priming of CD8+ T cells, such that priming without help results in defective CD8+ T cell memory response [15]. The role of CD4+ T cells in the immune response subsequent to priming is less well delineated [15, 16]. Murine skin grafting is a model of antigen presented at an epithelial surface. The model used in this thesis utilises grafts transgenically expressing neo-antigens (human growth hormone=hGH, ovalbumin=OVA) under the control of a keratin promoter (K14 or K5) in the graft. The corresponding mice are termed K14hGH and K5mOVA. With hGH as the antigen, rejection of such skin grafts were shown to require CD4+ T cells [1]. The most surprising finding was that this requirement for CD4+ T cells was maintained even in an antigen-experienced host (in the recall immune response to hGH). CD4+ T cells are required by graft-primed recipients to reject hGH-expressing grafts, but are not required to reject grafts expressing alternative antigens such as OVA. In an adoptive transfer model into lymphopaenic hosts, when high numbers of CD8+ T cells were transferred, any addition of CD4+ T cells was superfluous. However, with low numbers of OVA-specific CD8+ T cells, the addition of CD4+ T cells resulted in a significantly faster rate of K5mOVA skin graft rejection. This helper enhancement of K5mOVA skin graft rejection is maintained, even 7 when CD8+ T cells were previously activated to a memory phenotype prior to transfer, indicating that CD4+ T cells do have effects after CTL priming in vivo. The requirement for CD4+ T cells in the rejection of C57.K14hGH grafts is abrogated by the addition of a local inflammatory stimulus (TLR7 agonist, imiquimod). This is a local rather than systemic effect, suggesting an influence on trafficking or local effector function. Administration of agonist anti-CD40 antibody also partially abrogates the need for CD4+ T cells in rejection of C57.K14hGH grafts by primed hosts. Although CD40 has a well established role in priming of naïve CTL responses, our findings indicate that CD40 can alter events after priming, and suggests a possible mechanism for the role of CD4+ T cells in this system. With these data, we speculate that CD4+ T cells may provide help by altering the state of APC cross-presenting antigen to experienced CD8+ T cells, and that this can be substituted by TLR or CD40 mediated activation of APC. The result may be an increased number of effector CD8+ T cells, as we demonstrate that high numbers of antigen-specific CD8+ T cells can abrogate this effect.
8

Studies on Mechanisms of Skin Graft Rejection: Examination of Effector Cells and Molecules Required for Destruction of Epithelial Tumours

Mrs Rachel De Kluyver Unknown Date (has links)
No description available.
9

CD4+ T cells provide help to CD8+ T cells in immune recall responses in skin.

Jennifer Broom Unknown Date (has links)
Immune responses to antigens presented at skin, or other epithelial surfaces such as the cervix, are important for the clearance of viral infections, such as human papillomavirus (HPV) that infect epithelial cells [13]. Elucidation of the components of an effective immune response to antigens presented in this manner will potentially aid in design of immune modulatory techniques or therapeutic vaccine strategies to treat conditions such as cervical cancer. This thesis addresses the role of CD4+ T lymphocytes in immune responses to antigens presented in skin. CD4+ T cells have a well established role in the priming of CD8+ T cells, such that priming without help results in defective CD8+ T cell memory response [15]. The role of CD4+ T cells in the immune response subsequent to priming is less well delineated [15, 16]. Murine skin grafting is a model of antigen presented at an epithelial surface. The model used in this thesis utilises grafts transgenically expressing neo-antigens (human growth hormone=hGH, ovalbumin=OVA) under the control of a keratin promoter (K14 or K5) in the graft. The corresponding mice are termed K14hGH and K5mOVA. With hGH as the antigen, rejection of such skin grafts were shown to require CD4+ T cells [1]. The most surprising finding was that this requirement for CD4+ T cells was maintained even in an antigen-experienced host (in the recall immune response to hGH). CD4+ T cells are required by graft-primed recipients to reject hGH-expressing grafts, but are not required to reject grafts expressing alternative antigens such as OVA. In an adoptive transfer model into lymphopaenic hosts, when high numbers of CD8+ T cells were transferred, any addition of CD4+ T cells was superfluous. However, with low numbers of OVA-specific CD8+ T cells, the addition of CD4+ T cells resulted in a significantly faster rate of K5mOVA skin graft rejection. This helper enhancement of K5mOVA skin graft rejection is maintained, even 7 when CD8+ T cells were previously activated to a memory phenotype prior to transfer, indicating that CD4+ T cells do have effects after CTL priming in vivo. The requirement for CD4+ T cells in the rejection of C57.K14hGH grafts is abrogated by the addition of a local inflammatory stimulus (TLR7 agonist, imiquimod). This is a local rather than systemic effect, suggesting an influence on trafficking or local effector function. Administration of agonist anti-CD40 antibody also partially abrogates the need for CD4+ T cells in rejection of C57.K14hGH grafts by primed hosts. Although CD40 has a well established role in priming of naïve CTL responses, our findings indicate that CD40 can alter events after priming, and suggests a possible mechanism for the role of CD4+ T cells in this system. With these data, we speculate that CD4+ T cells may provide help by altering the state of APC cross-presenting antigen to experienced CD8+ T cells, and that this can be substituted by TLR or CD40 mediated activation of APC. The result may be an increased number of effector CD8+ T cells, as we demonstrate that high numbers of antigen-specific CD8+ T cells can abrogate this effect.
10

CD4+ T cells provide help to CD8+ T cells in immune recall responses in skin.

Jennifer Broom Unknown Date (has links)
Immune responses to antigens presented at skin, or other epithelial surfaces such as the cervix, are important for the clearance of viral infections, such as human papillomavirus (HPV) that infect epithelial cells [13]. Elucidation of the components of an effective immune response to antigens presented in this manner will potentially aid in design of immune modulatory techniques or therapeutic vaccine strategies to treat conditions such as cervical cancer. This thesis addresses the role of CD4+ T lymphocytes in immune responses to antigens presented in skin. CD4+ T cells have a well established role in the priming of CD8+ T cells, such that priming without help results in defective CD8+ T cell memory response [15]. The role of CD4+ T cells in the immune response subsequent to priming is less well delineated [15, 16]. Murine skin grafting is a model of antigen presented at an epithelial surface. The model used in this thesis utilises grafts transgenically expressing neo-antigens (human growth hormone=hGH, ovalbumin=OVA) under the control of a keratin promoter (K14 or K5) in the graft. The corresponding mice are termed K14hGH and K5mOVA. With hGH as the antigen, rejection of such skin grafts were shown to require CD4+ T cells [1]. The most surprising finding was that this requirement for CD4+ T cells was maintained even in an antigen-experienced host (in the recall immune response to hGH). CD4+ T cells are required by graft-primed recipients to reject hGH-expressing grafts, but are not required to reject grafts expressing alternative antigens such as OVA. In an adoptive transfer model into lymphopaenic hosts, when high numbers of CD8+ T cells were transferred, any addition of CD4+ T cells was superfluous. However, with low numbers of OVA-specific CD8+ T cells, the addition of CD4+ T cells resulted in a significantly faster rate of K5mOVA skin graft rejection. This helper enhancement of K5mOVA skin graft rejection is maintained, even 7 when CD8+ T cells were previously activated to a memory phenotype prior to transfer, indicating that CD4+ T cells do have effects after CTL priming in vivo. The requirement for CD4+ T cells in the rejection of C57.K14hGH grafts is abrogated by the addition of a local inflammatory stimulus (TLR7 agonist, imiquimod). This is a local rather than systemic effect, suggesting an influence on trafficking or local effector function. Administration of agonist anti-CD40 antibody also partially abrogates the need for CD4+ T cells in rejection of C57.K14hGH grafts by primed hosts. Although CD40 has a well established role in priming of naïve CTL responses, our findings indicate that CD40 can alter events after priming, and suggests a possible mechanism for the role of CD4+ T cells in this system. With these data, we speculate that CD4+ T cells may provide help by altering the state of APC cross-presenting antigen to experienced CD8+ T cells, and that this can be substituted by TLR or CD40 mediated activation of APC. The result may be an increased number of effector CD8+ T cells, as we demonstrate that high numbers of antigen-specific CD8+ T cells can abrogate this effect.

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