Leone Gemma, Torricelli Paola, Chiumiento Antonio, Facchini Alessandro, Barbucci Rolando
CRISMA, University of Siena, Via Aldo Moro 2, 53100 Siena, Italy.
J Biomed Mater Res A. 2008 Feb;84(2):391-401. doi: 10.1002/jbm.a.31334.
Degeneration of intervertebral discs is the most common cause of back pain. The first phase of this degenerative process involves the nucleus pulposus (NP). A rapid recovery of this structure can prevent further degradation of the annulus fibrosus. A new amidic derivative of alginate (AAA) was developed to obtain a polysaccharide possessing some of the physical-chemical properties of Hyal (i.e. viscosity) without losing the rigidity of the native alginate structure. The modified polysaccharide was crosslinked using 1.3 diaminopropane as crosslinking agent. The hydrogel obtained was characterized in terms of water uptake and rheological behavior. In particular, the viscoelastic behavior of the hydrogel was determined in shear stress under dynamic conditions and compared with the behavior of nondegenerated human lumbar NP. We then assessed the effect of the AAA hydrogel on NHC (Normal Human Chondrocyte) cell viability and on the production of important extracellular matrix factors, such as glycosaminoglycans and Type II collagen. In conclusion, the results achieved in this study demonstrated that the amidic alginate-based scaffold is a promising material to be utilized in the replacement of NP.
椎间盘退变是背痛最常见的原因。这种退变过程的第一阶段涉及髓核(NP)。该结构的快速恢复可防止纤维环进一步退化。开发了一种新型藻酸盐酰胺衍生物(AAA),以获得一种具有透明质酸(即粘度)某些物理化学性质且不丧失天然藻酸盐结构刚性的多糖。使用1,3 - 二氨基丙烷作为交联剂对改性多糖进行交联。对所得水凝胶的吸水性和流变行为进行了表征。特别地,在动态条件下测定了水凝胶在剪切应力下的粘弹性行为,并与未退变的人腰椎髓核的行为进行了比较。然后我们评估了AAA水凝胶对正常人软骨细胞(NHC)活力以及重要细胞外基质因子(如糖胺聚糖和II型胶原蛋白)产生的影响。总之,本研究取得的结果表明,基于酰胺化藻酸盐的支架是一种有前景的用于替代髓核的材料。
