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dc.contributor.authorElzinga, Jennifer Lynn
dc.date.accessioned2014-05-29T22:10:03Z
dc.date.available2014-05-29T22:10:03Z
dc.date.issued2013-03en
dc.identifier.urihttp://hdl.handle.net/10675.2/317644
dc.description.abstractNecrosis of tissue due to trauma or a surgical procedure is a complication of wound healing. This necrosis, or tissue death, occurs when the vasculature is unable to perfuse involved tissue with the oxygen and nutrients necessary to maintain viability. To provide adequate access, reflecting a flap of tissue is often necessary in a variety of surgical procedures, including periodontal surgeries. The success of these procedures is limited by the development of tissue flap necrosis. The survival of these tissue flaps is dependent upon adequate perfusion by the blood vessel supply at the base of the flap, followed by the growth of new vascular channels from the recipient site. However, if angiogenesis does not promptly reach the distal extent of the flap, this portion becomes ischemic, leading to necrosis. Loss of the protective flap delays healing and increases the risk of scarring and infection. Necrosis of this distal region of a tissue flap begins as early as 24 hours following the surgical procedure and progresses rapidly until day 3 when the unaffected tissue begins to stabilize.1 A variety of pharmacological strategies to enhance tissue flap perfusion have been tested in an attempt to prevent necrosis. One such strategy is the administration of angiogenic growth factors such as vascular endothelial growth factor (VEGF). VEGF is known to stimulate the proliferation of endothelial cells from existing vasculature to create new blood vessels, thus enhancing 8 tissue survival.2-7 In addition, VEGF contributes to other aspects of wound healing, including inflammation, granulation tissue formation, reepithelialization, matrix formation, and remodeling.2 Administration of VEGF to wound healing models has shown promising results by increasing vascular formation, leading to enhanced tissue perfusion. However, its short duration of action and rapid dissipation from the target site reduces its effectiveness.8 Maintaining therapeutic concentrations of VEGF at the target site to maximize new vessel growth and reduce necrosis, either multiple applications or an extended-release delivery system is required. An ideal system would provide ease of use and delivery kinetics for sustained therapeutic dosing of VEGF to the wound environment for the duration of healing, thereby minimizing tissue necrosis. A variety of application methods and delivery systems are under investigation in the search to develop one that provides utility as well as improved clinical outcome.
dc.language.isoen_USen
dc.rightsCopyright protected. Unauthorized reproduction or use beyond the exceptions granted by the Fair Use clause of U.S. Copyright law may violate federal law.en_US
dc.subjectNecrosisen
dc.subjectWound Healingen
dc.subjectVascular Endothelial Growth Factoren
dc.subjectVEGFen
dc.subjectSkin Flapen
dc.subjectangiogenesisen
dc.titleSustained Release Formulation for Vascular Endothelial Growth Factoren
dc.typeThesisen
dc.contributor.departmentDepartment of Oral Biologyen
dc.description.advisorNot Listeden
dc.description.degreeMasters of Science (M.S.)en
dc.description.majorMasters of Science in Oral Biologyen
dc.description.committeePrasad, Balkrishna; Dixon, Colonel Doug; Dickinson, Douglas; Lewis, Jill; Johnson, Thomas; Messer, Reginaen
html.description.abstractNecrosis of tissue due to trauma or a surgical procedure is a complication of wound healing. This necrosis, or tissue death, occurs when the vasculature is unable to perfuse involved tissue with the oxygen and nutrients necessary to maintain viability. To provide adequate access, reflecting a flap of tissue is often necessary in a variety of surgical procedures, including periodontal surgeries. The success of these procedures is limited by the development of tissue flap necrosis. The survival of these tissue flaps is dependent upon adequate perfusion by the blood vessel supply at the base of the flap, followed by the growth of new vascular channels from the recipient site. However, if angiogenesis does not promptly reach the distal extent of the flap, this portion becomes ischemic, leading to necrosis. Loss of the protective flap delays healing and increases the risk of scarring and infection. Necrosis of this distal region of a tissue flap begins as early as 24 hours following the surgical procedure and progresses rapidly until day 3 when the unaffected tissue begins to stabilize.1 A variety of pharmacological strategies to enhance tissue flap perfusion have been tested in an attempt to prevent necrosis. One such strategy is the administration of angiogenic growth factors such as vascular endothelial growth factor (VEGF). VEGF is known to stimulate the proliferation of endothelial cells from existing vasculature to create new blood vessels, thus enhancing 8 tissue survival.2-7 In addition, VEGF contributes to other aspects of wound healing, including inflammation, granulation tissue formation, reepithelialization, matrix formation, and remodeling.2 Administration of VEGF to wound healing models has shown promising results by increasing vascular formation, leading to enhanced tissue perfusion. However, its short duration of action and rapid dissipation from the target site reduces its effectiveness.8 Maintaining therapeutic concentrations of VEGF at the target site to maximize new vessel growth and reduce necrosis, either multiple applications or an extended-release delivery system is required. An ideal system would provide ease of use and delivery kinetics for sustained therapeutic dosing of VEGF to the wound environment for the duration of healing, thereby minimizing tissue necrosis. A variety of application methods and delivery systems are under investigation in the search to develop one that provides utility as well as improved clinical outcome.


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