Table 1.
Comparison of decellularized and DBM scaffolds.
| Comparison Category | Decellularized Bone Matrix Scaffold | DBM Scaffold |
|---|---|---|
| Preparation method | Physical methods (snap freezing, mechanical force and mechanical agitation, etc.) [25] | Treated with decalcification reagents (hydrochloric acid and EDTA-2Na, etc.) |
| Chemistry methods (alkaline solution, acid, nonionic detergents and Tritonn X-100, etc.) [26] | ||
| Enzymatic methods (exonucleases, endonucleases and trypsin, etc.) [27] | ||
| Characteristics | Effectively remove cells from host bone tissue | A complex consisting of collagen, non-collagen, and lower concentrations of growth factors |
| Advantages | Reduce or eliminate the antigenicity of bone | Decalcification exposes osteogenic factors |
| Suitable mechanical strength; better biocompatibility | Good biological properties, osteoinduction and bone conduction activity | |
| The same structure and composition as natural bone | Biodegradable | |
| Weak immunogenicity | ||
| Maintain natural bone-like pore structure and 3D structure | ||
| Disadvantages | Decellularization still causes damage to natural ECM components and microstructures | Low biomechanical strength |
| The difference in ECM from different donor sources is difficult to exclude | Not suitable for repairing bone defects in load-bearing defect models | |
| It is difficult to completely avoid inflammation and immune response |