Patel Vikas V, Zhao Li, Wong Pamela, Pradhan Ben B, Bae Hyun W, Kanim Linda, Delamarter Rick B
The Spine Institute at St. John's Hospital, 1301 20th Street, Suite 400, Santa Monica, CA 90404, USA.
Spine J. 2006 Jul-Aug;6(4):397-403; discussion 404. doi: 10.1016/j.spinee.2005.11.006.
Recombinant human bone morphogenetic protein-2 (rh-BMP2) has become popular for augmenting spine fusion in the lumbar and cervical spine. Concerns exist, however, over bone morphogenetic protein (BMP)-stimulated soft-tissue swelling and bone growth stimulation in areas where bone is not desired, especially as the material "leaks" into such spaces. The most detrimental effects of such leakage might be airway compromise, while heterotopic bone formation into the spinal canal has been reported in animal and human studies. Fibrin glue has been used as a carrier of many osteoinductive materials; however, its efficacy at modulating the clinical effects of BMP are not known. The amorphous nature of fibrin glue makes it a candidate to control diffusion of BMP and possibly limit bone formation by limiting BMP diffusion to areas where such bone is not desired.
To evaluate the use of fibrin glue to limit BMP diffusion and BMP-stimulated bone growth.
STUDY DESIGN/SETTING: This is an in vitro basic science study and an in vivo prospective randomized animal study.
Eighteen Lewis rats.
In vitro study: Enzyme-linked immunosorbent assay measurement of rh-BMP2 concentration in saline. In vivo study: At day 60, rats were evaluated for neurologic deficits before sacrifice. Spines were harvested, and the following studies were performed: 1) manual testing for fusion and bone growth; 2) X-ray evaluation; 3) Micro-computed tomography (micro-CT) scans.
In vitro study: Collagen sponges soaked with BMP at two different concentrations were incubated in saline solution with and without encapsulation by fibrin glue. Saline BMP concentrations were measured at consecutive time points. In vivo study: A rat fusion model using rh-BMP2 for fusion has been developed and tested with resultant100% fusion in over 100 rats. Lewis rats were divided into two groups and treated as follows: I: Exposure of L4-L5 transverse processes, decortication, and placement of BMP sponge in the lateral intertransverse space. II: Exposure and decortication as above and placement of fibrin glue before BMP sponge placement.
In vitro study: Peak rh-BMP2 concentrations in saline were 20% and 45% of the maximum possible for fibrin glue encapsulated sponges and controls, respectively, with a more gradual increase to peak concentration in samples encapsulated in fibrin glue. In vivo study: No rats exhibited any neurologic deficits. X-rays revealed at least partial bone formation in all rats. Manual testing of intertransverse fusion spines revealed 100% fusion in rats treated with BMP only, whereas rats treated with fibrin glue before placement of BMP sponges revealed only one possible fusion. Posterior-lateral bone formation was present on X-ray in both groups, and micro-CT imaging revealed bridging bone from transverse processes to the BMP-stimulated bone in the control groups. In spines treated with fibrin glue before rh-BMP2 placement, bone formation could still be seen within the soft tissues; however, bridging bone connecting to the transverse processes was either significantly decreased or not present.
Fibrin glue can limit rh-BMP2 diffusion. Also, because it limited bone formation at the transverse processes, it can be inferred that fibrin glue can limit bone formation when used to separate areas of desired bone formation from areas where bone formation is not desired.
重组人骨形态发生蛋白-2(rh-BMP2)已广泛应用于促进腰椎和颈椎的脊柱融合。然而,人们担心骨形态发生蛋白(BMP)会刺激软组织肿胀,并在不需要骨生长的区域刺激骨生长,尤其是当材料“渗漏”到这些间隙时。这种渗漏最有害的影响可能是气道受压,而动物和人体研究均报道了椎管内异位骨形成的情况。纤维蛋白胶已被用作多种骨诱导材料的载体;然而,其调节BMP临床效果的功效尚不清楚。纤维蛋白胶的无定形性质使其成为控制BMP扩散并可能通过将BMP扩散限制在不需要骨生长的区域来限制骨形成的候选材料。
评估纤维蛋白胶限制BMP扩散和BMP刺激骨生长的作用。
研究设计/地点:这是一项体外基础科学研究和一项体内前瞻性随机动物研究。
18只Lewis大鼠。
体外研究:采用酶联免疫吸附测定法测量盐水中rh-BMP2的浓度。体内研究:在第60天,处死大鼠前评估其神经功能缺损情况。取出脊柱,进行以下研究:1)手动检测融合和骨生长情况;2)X线评估;3)微型计算机断层扫描(micro-CT)。
体外研究:将浸泡有两种不同浓度BMP的胶原海绵分别置于有或无纤维蛋白胶包裹的盐溶液中孵育。在连续时间点测量盐水中BMP的浓度。体内研究:已建立并测试了使用rh-BMP2进行融合的大鼠融合模型,超过100只大鼠实现了100%融合。将Lewis大鼠分为两组,治疗如下:I组:暴露L4-L5横突,进行去皮质处理,并在横突间外侧间隙放置BMP海绵。II组:如上所述暴露和去皮质处理,并在放置BMP海绵前先放置纤维蛋白胶。
体外研究:纤维蛋白胶包裹海绵组和对照组盐水中rh-BMP2的峰值浓度分别为最大可能浓度的20%和45%,纤维蛋白胶包裹样本中rh-BMP2浓度达到峰值的过程更为平缓。体内研究:所有大鼠均未出现任何神经功能缺损。X线显示所有大鼠均至少有部分骨形成。对横突间融合脊柱进行手动检测发现,仅接受BMP治疗的大鼠融合率为100%,而在放置BMP海绵前先使用纤维蛋白胶治疗的大鼠仅出现1例可能的融合。两组X线均显示后外侧有骨形成,micro-CT成像显示对照组横突与BMP刺激形成的骨之间有桥接骨。在rh-BMP2放置前用纤维蛋白胶处理的脊柱中,软组织内仍可见骨形成;然而,连接横突的桥接骨明显减少或未出现。
纤维蛋白胶可限制rh-BMP2的扩散。此外,由于其限制了横突处的骨形成,可以推断,当用于将期望骨形成区域与不期望骨形成区域分隔开时,纤维蛋白胶可限制骨形成。
