Hympanova Lucie, Mori da Cunha Marina Gabriela Monteiro Carvalho, Rynkevic Rita, Zündel Manuel, Gallego Monica Ramos, Vange Jakob, Callewaert Geertje, Urbankova Iva, Van der Aa Frank, Mazza Edoardo, Deprest Jan
Centre for Surgical Technologies, KU Leuven, Leuven, Belgium; Department of Development and Regeneration, KU Leuven, Leuven, Belgium; Institute for the Care of Mother and Child, Charles University, Prague, Czech Republic.
Centre for Surgical Technologies, KU Leuven, Leuven, Belgium; Department of Development and Regeneration, KU Leuven, Leuven, Belgium.
J Mech Behav Biomed Mater. 2017 Oct;74:349-357. doi: 10.1016/j.jmbbm.2017.06.032. Epub 2017 Jun 27.
Electrospun meshes may be considered as substitutes to textile polypropylene implants. We compared the host response and biomechanical properties of the rat abdominal wall following reinforcement with either polycaprolactone (PCL) modified with ureidopyrimidinone-motifs (UPy) or polypropylene mesh.
First we measured the response to cyclic uniaxial load within the physiological range both dry (room temperature) and wet (body temperature). 36 rats underwent primary repair of a full-thickness abdominal wall defect with a polypropylene suture (native tissue repair), or reinforced with either UPy-PCL or ultra-light weight polypropylene mesh (n = 12/group). Sacrifice was at 7 and 42 days. Outcomes were compliance of explants, mesh dimensions, graft related complications and semi-quantitative assessment of inflammatory cell (sub) types, neovascularization and remodeling.
Dry UPy-PCL implants are less stiff than polypropylene, both are more compliant in wet conditions. Polypropylene loses stiffness on cyclic loading. Both implant types were well incorporated without clinically obvious degradation or herniation. Exposure rates were similar (n = 2/12) as well as mesh contraction. There was no reinforcement at low loads, while, at higher tension, polypropylene explants were much stiffer than UPy-PCL. The latter was initially weaker yet by 42 days it had a compliance similar to native abdominal wall. There were eventually more foreign body giant cells around UPy-PCL fibers yet the amount of M1 subtype macrophages was higher than in polypropylene explants. There were less neovascularization and collagen deposition.
Abdominal wall reconstruction with electrospun UPy-PCL mesh does not compromise physiologic tissue biomechanical properties, yet provokes a vivid inflammatory reaction.
电纺网片可被视为纺织聚丙烯植入物的替代品。我们比较了用脲嘧啶酮基序(UPy)修饰的聚己内酯(PCL)或聚丙烯网片加强大鼠腹壁后的宿主反应和生物力学性能。
首先,我们在生理范围内测量了干态(室温)和湿态(体温)下对循环单轴载荷的反应。36只大鼠接受了用聚丙烯缝线进行的全层腹壁缺损一期修复(天然组织修复),或用UPy-PCL或超轻量聚丙烯网片加强(每组n = 12)。分别在7天和42天时处死大鼠。观察指标包括植入物的顺应性、网片尺寸、与移植物相关的并发症以及对炎症细胞(亚)类型、新生血管形成和重塑的半定量评估。
干态的UPy-PCL植入物比聚丙烯的硬度小,二者在湿态条件下都更具顺应性。聚丙烯在循环加载时会失去硬度。两种植入物类型都很好地整合,没有临床上明显的降解或疝形成。暴露率相似(n = 2/12),网片收缩情况也相似。在低负荷下没有加强作用,而在较高张力下,聚丙烯植入物比UPy-PCL硬得多。后者最初较弱,但到42天时其顺应性与天然腹壁相似。最终,UPy-PCL纤维周围有更多的异物巨细胞,但M1亚型巨噬细胞的数量高于聚丙烯植入物。新生血管形成和胶原沉积较少。
用电纺UPy-PCL网片进行腹壁重建不会损害生理组织的生物力学性能,但会引发强烈的炎症反应。
