Mechanisms of lymphatic regeneration after tissue transfer Journal Article
| Authors: | Yan, A.; Avraham, T.; Zampell, J. C.; Aschen, S. Z.; Mehrara, B. J. |
| Article Title: | Mechanisms of lymphatic regeneration after tissue transfer |
| Abstract: | Introduction: Lymphedema is the chronic swelling of an extremity that occurs commonly after lymph node resection for cancer treatment. Recent studies have demonstrated that transfer of healthy tissues can be used as a means of bypassing damaged lymphatics and ameliorating lymphedema. The purpose of these studies was to investigate the mechanisms that regulate lymphatic regeneration after tissue transfer. Methods: Nude mice (recipients) underwent 2-mm tail skin excisions that were either left open or repaired with full-thickness skin grafts harvested from donor transgenic mice that expressed green fluorescent protein in all tissues or from LYVE-1 knockout mice. Lymphatic regeneration, expression of VEGF-C, macrophage infiltration, and potential for skin grafting to bypass damaged lymphatics were assessed. Results: Skin grafts healed rapidly and restored lymphatic flow. Lymphatic regeneration occurred beginning at the peripheral edges of the graft, primarily from ingrowth of new lymphatic vessels originating from the recipient mouse. In addition, donor lymphatic vessels appeared to spontaneously re-anastomose with recipient vessels. Patterns of VEGF-C expression and macrophage infiltration were temporally and spatially associated with lymphatic regeneration. When compared to mice treated with excision only, there was a 4-fold decrease in tail volumes, 2.5-fold increase in lymphatic transport by lymphoscintigraphy, 40% decrease in dermal thickness, and 54% decrease in scar index in skin-grafted animals, indicating that tissue transfer could bypass damaged lymphatics and promote rapid lymphatic regeneration. Conclusions: Our studies suggest that lymphatic regeneration after tissue transfer occurs by ingrowth of lymphatic vessels and spontaneous re-connection of existing lymphatics. This process is temporally and spatially associated with VEGF-C expression and macrophage infiltration. Finally, tissue transfer can be used to bypass damaged lymphatics and promote rapid lymphatic regeneration. © 2011 Yan et al. |
| Keywords: | controlled study; protein expression; unclassified drug; nonhuman; lymphoscintigraphy; protein function; protein localization; mouse; animal tissue; cell infiltration; green fluorescent protein; animal experiment; histology; transgenic mouse; vasculotropin c; lymph vessel; lymphangiogenesis; scar formation; autograft; full thickness skin graft; lymph flow; skinfold thickness; lymph protein; protein lyve 1; tissue transplantation |
| Journal Title: | PLoS ONE |
| Volume: | 6 |
| Issue: | 2 |
| ISSN: | 1932-6203 |
| Publisher: | Public Library of Science |
| Date Published: | 2011-02-17 |
| Start Page: | e17201 |
| Language: | English |
| DOI: | 10.1371/journal.pone.0017201 |
| PROVIDER: | scopus |
| PMCID: | PMC3040774 |
| PUBMED: | 21359148 |
| DOI/URL: | |
| Notes: | --- - "Export Date: 23 June 2011" - "Art. No.: e17201" - "Source: Scopus" |
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