Darrabie Marcus D, Kendall William F, Opara Emmanuel C
Department of Surgery, Duke University Medical Center, Durham, NC, USA.
Biomaterials. 2005 Dec;26(34):6846-52. doi: 10.1016/j.biomaterials.2005.05.009.
Poly-L-Lysine (PLL) is the most widely used biomaterial for providing perm-selectivity in alginate microcapsules for islet transplantation. We had previously reported that Poly-L-Ornithine (PLO) is less immunogenic than PLL, and in the present study, we have compared the physical characteristics of PLO- and PLL-coated hollow alginate microcapsules. Microspheres made with 1.5% alginate were divided into 2 groups that were first coated with either 0.1% PLO or PLL, followed by a second coating with 0.25% alginate. After liquefaction of the inner alginate core with sodium citrate, the microcapsules were washed with saline and used for experiments. Pore size exclusion studies were performed with FITC-labeled lectins incubated with encapsulated pig islets followed by examination for fluorescence activity. Mechanical strength was assessed by an osmotic pressure test and by 36 h of mechanical agitation of microcapsules with inert soda lime beads. The pore size exclusion limit of microcapsules after 20 min of coating was significantly smaller with PLO. While the mean +/- SEM diameter of PLL-coated microcapsules increased from 718+/-17 to 821 +/- 17 microm (p < 0.05) during 14 days incubation at 37 degrees C, the PLO group did not change in size. Also, PLL group had a higher percentage of broken capsules (52.7 +/- 4.9%) compared to 3.1 +/- 2.05% for PLO capsules (p < 0.0001,n = 6). We conclude that PLO-coated alginate microcapsules are mechanically stronger and provide better perm-selectivity than PLL-coated microcapsules.
聚-L-赖氨酸(PLL)是在胰岛移植的海藻酸盐微胶囊中提供渗透选择性时应用最广泛的生物材料。我们之前曾报道聚-L-鸟氨酸(PLO)的免疫原性低于PLL,在本研究中,我们比较了PLO包被和PLL包被的中空海藻酸盐微胶囊的物理特性。用1.5%海藻酸盐制成的微球分为两组,首先分别用0.1%的PLO或PLL包被,然后再用0.25%的海藻酸盐进行二次包被。在用柠檬酸钠使内部海藻酸盐核液化后,微胶囊用盐水洗涤并用于实验。通过将异硫氰酸荧光素(FITC)标记的凝集素与包封的猪胰岛一起孵育,然后检测荧光活性来进行孔径排阻研究。通过渗透压测试以及用惰性碱石灰珠对微胶囊进行36小时的机械搅拌来评估机械强度。包被20分钟后,PLO包被的微胶囊的孔径排阻极限明显更小。在37℃孵育14天期间,PLL包被的微胶囊的平均直径±标准误从718±17增加到821±17微米(p<0.05),而PLO组的尺寸没有变化。此外,PLL组的破裂微胶囊百分比更高(52.7±4.9%),而PLO微胶囊为3.1±2.05%(p<0.0001,n = 6)。我们得出结论,PLO包被的海藻酸盐微胶囊比PLL包被的微胶囊机械强度更高,并且提供更好的渗透选择性。
