<i>Animal Models for the Molecular and Mechanistic Study of Lymphatic Biology and Disease</i>

Shin, William S.; Rockson, Stanley G.

doi:10.1196/annals.1413.005

Cited by 47 publications

(46 citation statements)

References 236 publications

(731 reference statements)

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“…This study introduces a nonsurgical model of systemic lymphatic vascular insufficiency, currently lacking in the field (46). Future studies with prolonged injury models, such as ischemia/reperfusion, irradiation, or dextran sodium sulfate-induced colitis, will be very informative.…”

Section: Discussionmentioning

confidence: 99%

Lymphatic deletion of calcitonin receptor–like receptor exacerbates intestinal inflammation

Davis¹,

Kechele²,

Blakeney³

et al. 2017

JCI Insight

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Section: Discussionmentioning

confidence: 99%

Lymphatic deletion of calcitonin receptor–like receptor exacerbates intestinal inflammation

Davis¹,

Kechele²,

Blakeney³

et al. 2017

JCI Insight

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“…Most previous reports of growth factor therapy in lymphedema are based on mouse or rabbit models, which have several limitations when considering their clinical translation to the therapy of human patients. 12,15,16,19,25,26,27 First, the hydrostatic conditions are dramatically different in mice because humans are considerably taller. This also means that the absolute lymphatic area damaged in humans is greater, and the regenerating lymphatic vessels must span a longer distance to form anastomoses with both the distal and proximal ends of the lymphatic vascular tree.…”

Section: Discussionmentioning

confidence: 99%

Growth Factor Therapy and Autologous Lymph Node Transfer in Lymphedema

et al. 2011

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Background— Lymphedema after surgery, infection, or radiation therapy is a common and often incurable problem. Application of lymphangiogenic growth factors has been shown to induce lymphangiogenesis and to reduce tissue edema. The therapeutic effect of autologous lymph node transfer combined with adenoviral growth factor expression was evaluated in a newly established porcine model of limb lymphedema. Methods and Results— The lymphatic vasculature was destroyed within a 3-cm radius around an inguinal lymph node. Lymph node grafts and adenovirally (Ad) delivered vascular endothelial growth factor (VEGF)-C (n=5) or VEGF-D (n=9) were used to reconstruct the lymphatic network in the inguinal area; AdLacZ (β-galactosidase; n=5) served as a control. Both growth factors induced robust growth of new lymphatic vessels in the defect area, and postoperative lymphatic drainage was significantly improved in the VEGF-C/D–treated pigs compared with controls. The structure of the transferred lymph nodes was best preserved in the VEGF-C–treated pigs. Interestingly, VEGF-D transiently increased accumulation of seroma fluid in the operated inguinal region postoperatively, whereas VEGF-C did not have this side effect. Conclusions— These results show that growth factor gene therapy coupled with lymph node transfer can be used to repair damaged lymphatic networks in a large animal model and provide a basis for future clinical trials of the treatment of lymphedema.

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“…3,25 While the ability of VEGF-C to augment post-natal lymphangiogenesis has not been universally observed, 9 both gene-and protein-mediated VEGF-C therapies seem potentially promising. [5][6][7]26 While the mechanism of the VEGF-C's therapeutic benefit cannot be definitively linked to well-established induction of new lymphatic vascular growth (therapeutic lymphangiogenesis), the ameliorative effect of VEGF-C augmentation is evident in the murine model under investigation.…”

Section: Discussionmentioning

confidence: 99%

Therapeutic Responses to Exogenous VEGF-C Administration in Experimental Lymphedema: Immunohistochemical and Molecular Characterization

Jin

Liu

et al. 2009

Lymphatic Research and Biology

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The postsurgical murine tail model of lymphedema closely simulates attributes of human lymphedema. The current series of investigations underscores the utility of the murine tail model to the preclinical and translational investigation of lymphedema. The derived insights continue to focus favorably upon the central role of the VEGFR-3 receptor and its ligands in the development and therapeutic resolution of lymphedema. Whole tissue transcriptional profiling continues to shed light on disease mechanisms and potential future targets for therapeutic intervention.

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Animal Models for the Molecular and Mechanistic Study of Lymphatic Biology and Disease

Cited by 47 publications

References 236 publications

Lymphatic deletion of calcitonin receptor–like receptor exacerbates intestinal inflammation

Lymphatic deletion of calcitonin receptor–like receptor exacerbates intestinal inflammation

Growth Factor Therapy and Autologous Lymph Node Transfer in Lymphedema

Therapeutic Responses to Exogenous VEGF-C Administration in Experimental Lymphedema: Immunohistochemical and Molecular Characterization

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