Pamela Wong

Intervariability and Intravariability of Bone Morphogenetic Proteins in Commercially Available Demineralized Bone Matrix Products

Study Design. Enzyme-linked immunosorbent assay was used to detect bone morphogenetic proteins (BMPs) 2, 4, and 7 in 9 commercially available (“off the shelf”) demineralized bone matrix (DBM) product formulations using 3 different manufacturer’s production lots of each DBM formulation. Objectives. To evaluate and compare the quantity of BMPs among several different DBM formulations (inter-product variability), as well as examine the variability of these proteins in different production lots within the same DBM formulation (intra-product variability). Summary of Background Data. DBMs are commonly used to augment available bone graft in spinal fusion procedures. Surgeons are presented with an ever-increasing variety of commercially available human DBMs from which to choose. Yet, there is limited information on a specific DBM product’s osteoinductive efficacy, potency, and constancy. Methods. There were protein extracts from each DBM sample separately dialyzed 4 times against distilled water at 4°C for 48 hours. The amount of BMP-2, BMP-4, and BMP-7 was determined using enzyme-linked immunosorbent assay. Results. The concentrations of detected BMP-2 and BMP-7 were low for all DBM formulations, only nanograms of BMP were extracted from each gram of DBM (20.2–120.6 ng BMP-2/ g DBM product; 54.2–226.8 ng BMP-7/ g DBM). The variability of BMP concentrations among different lots of the same DBM formulation, intra-product variability, was higher than the variability of concentrations among different DBM formulations, inter-product variability (coefficient of variation range BMP-2 [16.34% to 76.01%], P < 0.01; BMP-7 [3.71% to 82.08%], P < 0.001). BMP-4 was undetectable. Conclusions. The relative quantities of BMPs in DBMs are low, in the order of 1 × 10−9 g of BMP/g of DBM. There is higher variability in concentration of BMPs among 3 different lots of the same DBM formulation than among different DBM formulations. This variability questions DBM products’ reliability and, possibly, efficacy in providing consistent osteoinduction.

Controlling bone morphogenetic protein diffusion and bone morphogenetic protein-stimulated bone growth using fibrin glue.

Study Design. An in vitro and in vivo study. Objective. To evaluate the ability of fibrin glue to limit diffusion of recombinant human bone morphogenetic protein (rhBMP)-2 and its ability to protect spinal nerves from rhBMP-2 stimulated bone growth. Summary of Background Data. Studies have shown bone morphogenetic protein (rhBMP-2) stimulated bone growth can encroach on the spinal canal and nerves, causing neural compression. More recently, rhBMP-2 use in the cervical spine has been associated with life-threatening swelling. Fibrin glue has been used as a biologic carrier but has not been evaluated for its ability to limit rhBMP-2. Methods. In phase 1 of the study, rhBMP-2 soaked absorbable collagen sponges (ACS) were encapsulated in fibrin glue and immediately incubated in physiologic lactated ringers solution at 38°C. Samples of solution were tested for rhBMP-2 concentration. In phase 2 of the study, rats were surgically treated with laminectomy and placement of rhBMP-2/ACS versus laminectomy and placement of fibrin glue before placement of rhBMP-2/ACS. After 8 weeks, animals were euthanized and imaged using micro-computerized tomography. Results. The diffusion study showed a significant limitation in rhBMP-2 diffusion when encapsulated in fibrin glue. The laminectomy study revealed blockage of bone formation by fibrin glue and protection of the spinal canal. Conclusions. Fibrin glue can limit the diffusion of rhBMP-2, and, thus, it can be used to help protect the spinal canal and nerve roots from rhBMP-2 stimulated bone growth.

Bone marrow enhances the performance of rhBMP-2 in spinal fusion: a rodent model.

BACKGROUND Reliable and rapid bone formation is the goal of biologics and cell-based spinal fusion technologies. While no cell-based therapy alone has been successful, recombinant human bone morphogenetic protein-2 (rhBMP-2) has been successfully used in a wide spectrum of patients undergoing a variety of spinal fusion procedures since its approval by the United States Food and Drug Administration (FDA) in 2002. However, the question remains how to improve the biologic efficiency, or osteoinductivity, of rhBMP-2 for successful application in the most challenging patients undergoing spinal fusion or to reduce the doses currently required. The present study investigated how varying the cellular environments through the addition of freshly harvested bone marrow aspirate (BMA) modulates rhBMP-2 efficiency. METHODS An L4-L5 posterolateral intertransverse process spinal fusion procedure was performed in Lewis rats. The implants were a subeffective concentration of 0.006 mg/mL of rhBMP-2/two absorbable collagen sponges (ACS) plus directly applied fresh syngeneic BMA transplants (n = 18), 0.006-mg/mL rhBMP-2/two ACS/side (n = 12), 0.006-mg/mL rhBMP-2/one ACS/side (n = 12), or BMA/one ACS/side (n = 6). Rats were killed at eight weeks and were evaluated with use of manual palpation, radiographs, and biomechanical testing. RESULTS BMA plus 0.006-mg/mL rhBMP-2/ACS significantly increased the L4-L5 fusion rate to 89% (sixteen of eighteen) compared with a base fusion rate of 33% (four of twelve) to 50% (six of twelve) for rats implanted with rhBMP-2/ACS (p < 0.05), with no difference in strength or stiffness between conditions. No fusion or bone formation was observed in the six rats that received BMA/ACS alone. CONCLUSIONS Less rhBMP-2 was needed for effect when mixed with BMA. A nearly twofold increase in the fusion rate was found when BMA was mixed with a deliberate subeffective concentration of rhBMP-2. There was no improvement in terms of fusion strength or stiffness.