Device implant based on poly (lactic acid) with vitamin E for vaccine delivery system in Tilapia: Study for biocompatibility and biodegradation

IF 2.2 Q2 FISHERIES
Gabriel Conde , Mayumi Fernanda Aracati , Letícia Franchin Rodrigues , Susana Luporini de Oliveira , Camila Carlino da Costa , Ives Charlie-Silva , Thalles Fernando Rocha Ruiz , Sebastião Roberto Taboga , Marco Antonio de Andrade Belo
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引用次数: 2

Abstract

The use of Poly (lactic acid) (PLA) as a slow-release vehicle for vaccines has attracted the attention of researchers, since its insertion improves the uptake of them, and reduces side effects or by stimulating recruited defense cells, assisting immunity without the need for booster vaccine doses. Seeking to develop new strategies for the administration of drugs and vaccines in aquaculture, we evaluated the biocompatibility and biodegradation of polymeric PLA devices and PLA plus vitamin E devices, implanted through subcutaneous (SC) and intraperitoneal (IP) routes in Nile tilapia. To carry out this study, 84 male tilapia (initial 243.82 ± 56.74 g; final 400.71 ± 100.54 g) were randomly distributed in 3 tanks (n = 28 fish per treatment/tank). The devices were prepared in two formulations: neat PLA (containing 100% PLA) and PLAVE (PLA plus vitamin E) implanted using a commercial AnimalTag® applicator, and non-implanted fish (control). Fish were sampled 15, 30, 60, and 120 days post-implantation (DPI). Blood analysis was used to access blood cells and blood smear for differential leucocytes count. Serum biochemistry to evaluated changes in serum proteins and glycemia. Histopathological investigation using hematoxylin-eosin (H&E) was used to assess polymer-tissue interaction. Histochemistry and immunohistochemistry was used to detection immune cells and phagocytes in capsule, and analyses of melanomacrophage centers (MMCs) to morphometric evaluation and percentage amount of melanin, hemosiderin and lipofucsin pigments. Histopathological study revealed an increase of capsular formation and inflammatory cell infiltration in PLAVE-implanted tilapia through SC route (15 DPI). Tilapia implanted with PLAVE and PLA (SC) presented mast cells and eosinophilic granular cells during 15, 30, and 60 DPI, with a decrease in these cells in the fibrous capsule around the polymer at 120 DPI. PLAVE implanted tilapia SC at 60 DPI showed significantly phagocytosis points than other groups. Phagocytic cells (F4/80+) were observed near to biopolymers in phagocytosis sites. Lipofuscin at 120 DPI in spleen melanomacrophage centers were significantly high in PLAVE implanted tilapias when compared to fish with PLA implants and control. The serum biochemical study of tilapia did not reveal changes in cytotoxicity and liver function in implanted fish. The absence of side effects in hematological and biochemical findings, including the absence of mortality after device implantation, proves its clinical safety. PLA implants in tilapia have demonstrated biocompatibility, biodegradation, clinical safety, and excellent evolution of foreign body inflammatory responses.

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罗非鱼疫苗递送系统中基于聚乳酸和维生素E的植入装置:生物相容性和生物降解研究
聚乳酸(PLA)作为疫苗缓释载体的使用引起了研究人员的注意,因为它的插入提高了疫苗的吸收,减少了副作用,或者通过刺激招募的防御细胞,在不需要加强疫苗剂量的情况下帮助免疫。为了开发水产养殖中药物和疫苗管理的新策略,我们评估了通过皮下(SC)和腹腔(IP)途径植入尼罗罗非鱼的聚合物PLA装置和PLA加维生素E装置的生物相容性和生物降解性。为开展本研究,选取84尾公罗非鱼(初始243.82±56.74 g;最终400.71±100.54 g)随机分布在3个缸中(每个处理/缸n = 28只鱼)。该装置以两种配方制备:纯PLA(含100% PLA)和PLAVE (PLA加维生素E),使用商业AnimalTag®涂抹器植入,未植入鱼(对照)。分别在着床后15、30、60和120天取样。血液分析用于获取血细胞和血液涂片鉴别白细胞计数。血清生化以评估血清蛋白和血糖的变化。组织病理学研究采用苏木精-伊红(H&E)来评估聚合物与组织的相互作用。采用组织化学和免疫组织化学检测胶囊内免疫细胞和吞噬细胞,分析黑素巨噬细胞中心(melanomacrophage centers, MMCs)的形态测定和黑色素、含铁血黄素、脂褐素色素的百分比。组织病理学研究显示,通过SC途径植入plave的罗非鱼囊膜形成和炎症细胞浸润增加(15 DPI)。植入PLAVE和PLA (SC)的罗非鱼在15、30和60 DPI时呈现肥大细胞和嗜酸性颗粒细胞,在120 DPI时,聚合物周围纤维囊中的这些细胞减少。PLAVE植入罗非鱼SC在60 DPI时出现明显的吞噬点。吞噬部位生物聚合物附近可见吞噬细胞(F4/80+)。与PLA植入鱼和对照组相比,PLAVE植入罗非鱼脾脏黑素巨噬细胞中心120 DPI处的脂褐素显著升高。罗非鱼的血清生化研究未发现移植后细胞毒性和肝功能的变化。在血液学和生化检查中没有副作用,包括装置植入后没有死亡,证明其临床安全性。PLA植入罗非鱼具有良好的生物相容性、生物降解性、临床安全性和良好的体外炎症反应进化能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
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