Mengfan Wu, Dany Y Matar, Zhen Yu, Ziyu Chen, Samuel Knoedler, Brian Ng, Oliver Darwish, Valentin Haug, Leigh Friedman, Dennis Paul Orgill, Adriana Panayi
{"title":"负压创面治疗对小鼠糖尿病切口愈合中淋巴管生成的调节作用。","authors":"Mengfan Wu, Dany Y Matar, Zhen Yu, Ziyu Chen, Samuel Knoedler, Brian Ng, Oliver Darwish, Valentin Haug, Leigh Friedman, Dennis Paul Orgill, Adriana Panayi","doi":"10.1089/wound.2022.0074","DOIUrl":null,"url":null,"abstract":"<p><p><b>Objective:</b> Despite the significant function of lymphatics in wound healing, and frequent clinical use of Negative Pressure Wound Therapy (NPWT), the effect of mechanical force application on lymphangiogenesis remains to be elucidated. We utilize a murine incisional wound healing model to assess the mechanisms of lymphangiogenesis following NPWT. <b>Approach:</b> Dorsal incisional skin wounds were created on diabetic mice (genetically obese leptin receptor-deficient mice [db/db]; <i>n</i> = 30) and covered with an occlusive dressing (Control, <i>n</i> = 15) or NPWT (-125 mmHg, continuous, 24 h for 7 days; NPWT, <i>n</i> = 15). The wounds were macroscopically assessed for 28 days. Tissue was harvested on day 10 for analysis. Qualitative functional analysis of lymphatic drainage was performed on day 28 using Evans Blue staining (<i>n</i> = 2). <b>Results:</b> NPWT increased lymphatic vessel density (40 ± 20 vs. 12 ± 6 podoplanin [PDPN]<sup>+</sup> and 25 ± 9 vs. 14 ± 8 lymphatic vessel endothelial receptor 1 [LYVE-1]<sup>+</sup>) and vessel diameter (28 ± 9 vs. 12 ± 2 μm). Western blotting verified the upregulation of LYVE-1 with NPWT. Leukocyte presence was higher with NPWT (22% ± 3.7% vs. 9.1% ± 4.1% lymphocyte common antigen [CD45]<sup>+</sup>) and the leukocytes were predominately B cells clustered within vessels (8.8% ± 2.5% vs. 18% ± 3.6% B-lymphocyte antigen CD20 [CD20]<sup>+</sup>). Macrophage presence was lower in the NPWT group. Lymphatic drainage was increased in the NPWT group, which exhibited greater Evans Blue positivity. <b>Innovation:</b> The lymphangiogenic effects take place independent of macrophage infiltration, appearing to correlate with B cell presence. <b>Conclusion:</b> NPWT promotes lymphangiogenesis in incisional wounds, significantly increasing the lymph vessel density and diameter. This study highlights the potential of NPWT to stimulate lymphatic drainage and wound healing of surgical incisions.</p>","PeriodicalId":7413,"journal":{"name":"Advances in wound care","volume":"12 9","pages":"483-497"},"PeriodicalIF":5.8000,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Modulation of Lymphangiogenesis in Incisional Murine Diabetic Wound Healing Using Negative Pressure Wound Therapy.\",\"authors\":\"Mengfan Wu, Dany Y Matar, Zhen Yu, Ziyu Chen, Samuel Knoedler, Brian Ng, Oliver Darwish, Valentin Haug, Leigh Friedman, Dennis Paul Orgill, Adriana Panayi\",\"doi\":\"10.1089/wound.2022.0074\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p><b>Objective:</b> Despite the significant function of lymphatics in wound healing, and frequent clinical use of Negative Pressure Wound Therapy (NPWT), the effect of mechanical force application on lymphangiogenesis remains to be elucidated. We utilize a murine incisional wound healing model to assess the mechanisms of lymphangiogenesis following NPWT. <b>Approach:</b> Dorsal incisional skin wounds were created on diabetic mice (genetically obese leptin receptor-deficient mice [db/db]; <i>n</i> = 30) and covered with an occlusive dressing (Control, <i>n</i> = 15) or NPWT (-125 mmHg, continuous, 24 h for 7 days; NPWT, <i>n</i> = 15). The wounds were macroscopically assessed for 28 days. Tissue was harvested on day 10 for analysis. Qualitative functional analysis of lymphatic drainage was performed on day 28 using Evans Blue staining (<i>n</i> = 2). <b>Results:</b> NPWT increased lymphatic vessel density (40 ± 20 vs. 12 ± 6 podoplanin [PDPN]<sup>+</sup> and 25 ± 9 vs. 14 ± 8 lymphatic vessel endothelial receptor 1 [LYVE-1]<sup>+</sup>) and vessel diameter (28 ± 9 vs. 12 ± 2 μm). Western blotting verified the upregulation of LYVE-1 with NPWT. Leukocyte presence was higher with NPWT (22% ± 3.7% vs. 9.1% ± 4.1% lymphocyte common antigen [CD45]<sup>+</sup>) and the leukocytes were predominately B cells clustered within vessels (8.8% ± 2.5% vs. 18% ± 3.6% B-lymphocyte antigen CD20 [CD20]<sup>+</sup>). Macrophage presence was lower in the NPWT group. Lymphatic drainage was increased in the NPWT group, which exhibited greater Evans Blue positivity. <b>Innovation:</b> The lymphangiogenic effects take place independent of macrophage infiltration, appearing to correlate with B cell presence. <b>Conclusion:</b> NPWT promotes lymphangiogenesis in incisional wounds, significantly increasing the lymph vessel density and diameter. 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引用次数: 1
摘要
目的:尽管淋巴管在伤口愈合中的重要作用,临床经常使用负压伤口治疗(NPWT),但机械力施加对淋巴管生成的影响仍有待阐明。我们利用小鼠切口伤口愈合模型来评估NPWT后淋巴管生成的机制。方法:在糖尿病小鼠(遗传性肥胖瘦素受体缺陷小鼠[db/db];n = 30),并覆盖闭塞敷料(对照组,n = 15)或NPWT (-125 mmHg,连续,24小时,持续7天;NPWT, n = 15)。对伤口进行28天的宏观评估。第10天采集组织进行分析。第28天采用Evans Blue染色对淋巴引流液进行定性功能分析(n = 2)。结果:NPWT增加淋巴管密度(40±20比12±6 podoplanin [PDPN]+, 25±9比14±8淋巴管内皮受体1 [LYVE-1]+)和血管直径(28±9比12±2 μm)。Western blotting证实了NPWT对LYVE-1的上调作用。NPWT的白细胞含量较高(22%±3.7% vs. 9.1%±4.1%淋巴细胞共同抗原[CD45]+),白细胞主要是聚集在血管内的B细胞(8.8%±2.5% vs. 18%±3.6% B淋巴细胞抗原CD20 [CD20]+)。NPWT组巨噬细胞含量较低。NPWT组淋巴引流增加,表现出更大的Evans Blue阳性。创新:淋巴管生成作用独立于巨噬细胞浸润发生,似乎与B细胞的存在相关。结论:NPWT促进切口创面淋巴管生成,显著增加淋巴管密度和淋巴管直径。本研究强调了NPWT刺激淋巴引流和外科切口伤口愈合的潜力。
Modulation of Lymphangiogenesis in Incisional Murine Diabetic Wound Healing Using Negative Pressure Wound Therapy.
Objective: Despite the significant function of lymphatics in wound healing, and frequent clinical use of Negative Pressure Wound Therapy (NPWT), the effect of mechanical force application on lymphangiogenesis remains to be elucidated. We utilize a murine incisional wound healing model to assess the mechanisms of lymphangiogenesis following NPWT. Approach: Dorsal incisional skin wounds were created on diabetic mice (genetically obese leptin receptor-deficient mice [db/db]; n = 30) and covered with an occlusive dressing (Control, n = 15) or NPWT (-125 mmHg, continuous, 24 h for 7 days; NPWT, n = 15). The wounds were macroscopically assessed for 28 days. Tissue was harvested on day 10 for analysis. Qualitative functional analysis of lymphatic drainage was performed on day 28 using Evans Blue staining (n = 2). Results: NPWT increased lymphatic vessel density (40 ± 20 vs. 12 ± 6 podoplanin [PDPN]+ and 25 ± 9 vs. 14 ± 8 lymphatic vessel endothelial receptor 1 [LYVE-1]+) and vessel diameter (28 ± 9 vs. 12 ± 2 μm). Western blotting verified the upregulation of LYVE-1 with NPWT. Leukocyte presence was higher with NPWT (22% ± 3.7% vs. 9.1% ± 4.1% lymphocyte common antigen [CD45]+) and the leukocytes were predominately B cells clustered within vessels (8.8% ± 2.5% vs. 18% ± 3.6% B-lymphocyte antigen CD20 [CD20]+). Macrophage presence was lower in the NPWT group. Lymphatic drainage was increased in the NPWT group, which exhibited greater Evans Blue positivity. Innovation: The lymphangiogenic effects take place independent of macrophage infiltration, appearing to correlate with B cell presence. Conclusion: NPWT promotes lymphangiogenesis in incisional wounds, significantly increasing the lymph vessel density and diameter. This study highlights the potential of NPWT to stimulate lymphatic drainage and wound healing of surgical incisions.
期刊介绍:
Advances in Wound Care rapidly shares research from bench to bedside, with wound care applications for burns, major trauma, blast injuries, surgery, and diabetic ulcers. The Journal provides a critical, peer-reviewed forum for the field of tissue injury and repair, with an emphasis on acute and chronic wounds.
Advances in Wound Care explores novel research approaches and practices to deliver the latest scientific discoveries and developments.
Advances in Wound Care coverage includes:
Skin bioengineering,
Skin and tissue regeneration,
Acute, chronic, and complex wounds,
Dressings,
Anti-scar strategies,
Inflammation,
Burns and healing,
Biofilm,
Oxygen and angiogenesis,
Critical limb ischemia,
Military wound care,
New devices and technologies.