Stimulation of peri-implant vascularization with bone marrow-derived progenitor cells: monitoring by in vivo EPR oximetry.

Omar I Butt, Robert Carruth, Vijay K Kutala, Periannan Kuppusamy, Nicanor I Moldovan
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引用次数: 27

Abstract

The poorly vascularized fibrous capsule that develops around implantable biomedical devices (for drug delivery, biosensors, etc.) severely limits their applications. We tested the hypotheses that co-implantation of bone marrow-derived progenitor cells could stimulate the vascularization of implants. To assess the presence of functional peri-implant microvasculature, we developed a novel model of implanted device containing an oxygen (O(2))-sensing spin probe (detectable using electron paramagnetic resonance) placed inside a nanoporous filter-limited capsule. These devices were implanted subcutaneously in C57/Bl6 mice alone, with the addition of a Matrigel plug in front of the filter, or with the addition of Matrigel containing equal proportions of c-kit(+) and stem cell antigen-1(+) bone marrow-derived cells. Implants partial pressure of O(2) (pO(2)) were recorded non-invasively and periodically for up to 10 weeks. Tissue surrounding the implants was collected for immunohistochemistry. Initially, there were no differences in pO(2) between the experimental groups. After 3 weeks, the devices supplied with progenitor cells showed more than twice the O(2) concentrations as controls. This difference remained significant for 4 more weeks and then started to decrease slightly, still being 6 mmHg higher than in the controls at 10 weeks post-implantation. Collagen deposition was detected around the control implants, along with F4/80-positive macrophages and giant cells. In the plugs collected from the cell treatment group, we found an active process of adipogenesis, accompanied by neovascularization, and a highly vascularized adipose layer surrounding the implants. In conclusion, we successfully developed a cell therapy-type strategy to maintain vascularization around implanted devices using co-administration of bone marrow-derived progenitor cells, and we demonstrated a novel O(2)-sensing method to functionally monitor neovascularization in vivo.

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骨髓源性祖细胞刺激种植体周围血管化:体内EPR血氧仪监测。
植入式生物医学设备(用于药物输送、生物传感器等)周围血管化不良的纤维囊严重限制了它们的应用。我们验证了共同植入骨髓源性祖细胞可以刺激植入物血管化的假设。为了评估植入物周围功能性微血管的存在,我们开发了一种新型植入装置模型,该植入装置包含一个氧(O(2))感应自旋探针(使用电子顺磁共振检测),放置在纳米多孔过滤器限制的胶囊内。这些装置被单独植入C57/Bl6小鼠皮下,在过滤器前添加一个Matrigel塞,或者添加含有等比例的c-kit(+)和干细胞抗原-1(+)骨髓来源细胞的Matrigel。无创记录植入物O(2) (pO(2))的分压,并定期记录长达10周。收集植入物周围组织进行免疫组化。最初,实验组之间pO(2)没有差异。3周后,提供祖细胞的装置显示的O(2)浓度是对照组的两倍以上。这种差异持续了4周,然后开始略有下降,在植入后10周仍比对照组高6毫米汞柱。对照植入物周围有胶原沉积,f4 /80阳性巨噬细胞和巨细胞。在从细胞处理组收集的塞中,我们发现了一个活跃的脂肪形成过程,伴随着新生血管的形成,以及植入物周围高度血管化的脂肪层。总之,我们成功地开发了一种细胞治疗类型的策略,通过骨髓源性祖细胞的共同管理来维持植入装置周围的血管形成,并且我们展示了一种新的O(2)传感方法来功能监测体内的新生血管形成。
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Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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