绵羊羊膜上皮细胞治疗兔桡骨缺损模型的研究

为了确定绵羊羊膜上皮细胞在体内向骨组织的分化能力,实验在分离培养绵羊羊膜上皮细胞并对其进行干细胞特性的鉴定的基础上,制作新西兰大白兔桡骨13mm骨缺损模型,随机分组对其进行注射绵羊羊膜上皮细胞实验。高剂量组:移植细胞5×107个;低剂量组:移植细胞5×106个;对照组:生理盐水。细胞移植后2、4、8周拍摄X光片观察骨缺损部位的缺损修复情况;相应时段取骨缺损部位新生骨进行组织学观察:分析骨小梁生成数量和骨的改建时期。实验结果显示,高剂量实验组在移入细胞第8周,骨缺损完全修复,且同期高剂量组新骨生成的数量和质量明显高于低剂量组,低剂量组优于对照组。由此可见,绵羊羊膜上皮细胞不仅可以在不同种动物间进行移植,而且对骨缺损有良好的修复能力。     

利用聚己内酯/羟基磷灰石复合支架修复犬胸骨缺损

目的：探讨利用生物可降解支架修复动物胸骨缺损,为临床手术治疗提供新的可行性方法。方法：对于12只比格犬进行手术切除部分胸骨,并利用聚己内酯/羟基磷灰石（PCL/HA）复合支架,并制备出与临床相似的胸骨缺损模型。实验动物分成2组,分别是：空白对照组和PCL/HA支架组。分别于术后第4、12周进行胸部CT扫描,并对胸廓进行三维重建,观察胸骨缺损部位的修复情况,并在第12周取胸骨缺损部位组织进行硬组织切片,苦味酸-品红染色,观察缺损部位的骨组织修复情况,并利用软件进行骨组织比率分析,评估修复情况。结果：通过检查发现空白对照组的胸骨缺损部位未见明显骨连接,胸廓的骨性结构有明显畸形,PCL/HA支架组能很好地维持胸廓的完整性,组织学检查发现PCL/HA支架组的缺损部位有明显新生骨形成,通过软件分析可发现支架组的骨组织比率较空白组的高（P〈0.05）。结论：这些结果表明采用PCL/HA复合材料支架能很好地修复胸骨缺损。     

国产多孔钽材料修复兔胫骨缺损的实验研究

摘要 目的：研究国产多孔钽材料能否在兔胫骨缺损模型中顺利实现骨长入,用于修复胫骨缺损。方法：在36只新西兰大白兔双侧胫骨骨干处建立骨缺损模型,每只动物左右侧缺损随机分组,分别进入实验组(植入多孔坦材料)和对照组（不植入多孔坦材料）。植入后4周、8周和12周取材,通过X线检测以及硬组织切片苏木精伊红染色,检测多孔钽材料与骨界面的骨整合情况。采用推出实验检测多孔钽材料与骨界面的结合强度。结果：将术后不同时间点取得的胫骨标本作X射线拍片分析,4周时,骨缺损端与材料结合部位有骨质生成,在8周时材料表面有骨形成现象,逐渐完全覆盖材料表面,在12周时骨量继续增加,形成覆盖材料并桥接骨缺损断端的骨痂。样本行硬组织切片并行HE染色后检测,植入4周后实验组材料两端被新生骨所覆盖,材料深部的孔隙中也可见少量骨组织长入;植入8周后发现实验组材料与骨组织生长良好,多孔钽材料表面和两端材料孔隙内均有骨组织长入,材料孔隙与组织紧密连接,有骨小梁长入;植入12周时两端骨组织长入深度没有明显变化,但材料表面骨组织继续长入,并完全嵌入圆柱体材料内。材料植入后4周与8周比较差异无统计学意义（P＞0.05）,材料植入后8周与12周比较差异有统计学意义（P<0.05）。将植入4周、8周和12周后含材料样本置于动态疲劳试验机上进行推出实验,随时间延长所需推出力明显增加,植入后4周和8周相比,虽然后者所需推力较大,但两者比较差异无统计学意义（P＞0.05）,而8周和12周比较则差异有统计学意义（P<0.05）。结论：国产多孔坦材料能在胫骨缺损中实现与骨整合,能用于皮质骨缺损修复。     

续骨丹外敷疗法对大鼠胫骨缺损模型血清BMP-2的影响

为观察续骨丹外敷疗法对大鼠胫骨缺损模型血清骨形态发生蛋白-2(BMP-2)表达的影响。给70只SD大鼠右侧胫骨制备1个4 mm缺损,用0.8 mm克氏针内固定。造模1个月后符合标准的大鼠随机分为实验组(药物治疗组)、对照组a(脉冲磁场治疗组)、对照组b(面粉干扰组)和空白组。在干预前、2周、4周后对大鼠右胫骨行X线检查,然后处死动物,收获骨样本,做苏木素-伊红(HE)染色和血清BMP-2检测。干预前,实验组、对照组a、对照组b和空白组,4组大鼠血清BMP-2的含量没有明显差异;干预至第2周时,4组大鼠血清BMP-2的含量与干预前比较均下降,但组间差异均无统计学意义(p0.05);干预4周后,实验组大鼠血清BMP-2的含量高于对照组a、b和空白组,差异均有统计学意义(p0.05),对照组a中BMP-2的含量高于对照组b和空白组,差异均有统计学意义(p0.05),对照组b与空白组比较,差异无统计学意义(p0.05)。4组大鼠血清BMP-2的含量在干预前、2周和4周后的变化趋势是:实验组和对照组a先降后升,对照组b和空白组一直下降。续骨丹外敷疗法和脉冲电磁场疗法在实验干预至第4周时均能上调骨缺损大鼠BMP-2的表达,有利于骨缺损的愈合,但续骨丹外敷疗法对BMP-2的调节作用上明显优于脉冲电磁场。     

低强度脉冲超声波辐照与泡沫TiC/Ti对犬节段性骨缺修复的促进作用

目的探讨低强度脉冲超声波辐照对节段性骨缺损修复效果的影响。方法将直径12 mm长20mm泡沫TiC/Ti植入6只Beagle犬的左侧胫骨节段性骨缺损区。随机分为超声组和对照组,超声组采用低强度脉冲超声波辐照（频率1.5 MHz、强度30 mW/cm2、脉冲宽度200μs、脉冲周期1 kHz、20 min/次、1次/d）,对照组为不开功率源的假辐照,术后4、8周后分别行X线检查及骨密度测定,观察及分析材料周围骨愈合情况。结果 6只beagle犬均进入结果分析。术后4周超声组骨早期成熟度优于对照组,表现在材料周围骨痂影密度增高,骨痂影由两端向中央生长;对照组仅见骨痂区密度低,还可见部分骨痂缺如。术后8周超声组新生骨痂面积优于对照组,骨干结构相对稳定;对照组骨缺损区未闭合,在骨干两侧看到少量骨痂,愈合较差。骨密度测定结果显示,4周时超声组高于对照组,两组间存在统计学差异;8周时超声组略高于对照组,但两组间没有统计学差异。结论通过联合应用低强度脉冲超声波辐照与人工骨材料修复可提高新骨形成速度及骨组织密度,缩短节段性骨缺损的骨愈合时间。     

骨诱导无机材料BAM 修复牙种植体周围骨缺损的实验研究

目的:评价骨诱导磷酸钙生物陶瓷(BAMOICPC)与可吸收胶原膜(BME-10X医用胶原膜)在牙种植体周围骨缺损中的修复能力。方法:在兔股骨上植入羟基磷灰石涂层BLB种植体,然后在其侧壁制造高4 mm、宽3 mm、深2 mm的骨缺损。对照组为单纯侧壁骨缺损,实验A组骨缺损区仅覆盖BME-10X膜,B组骨缺损区植入BAMOICPC,C组骨缺损区植入BAMOICPC并加盖BME-10X膜。于术后6个月取带种植体的骨段,通过HE染色和扫描电镜(SEM)分析。结果:对照组骨缺损区种植体表面见纤维包裹,实验A组骨缺损边界区少许骨质移行覆盖,实验B组下半部分缺损区新生骨覆盖。C组新生骨完全覆盖骨缺损区,且较B组硬度高,扫描电镜见与种植体结合更紧密。组织学观察B、C两实验组新生骨均可见比较成熟的哈弗氏管系统。结论:骨诱导磷酸钙生物陶瓷BAMOICPC是一种较理想的骨替代材料,联合运用胶原膜修复种植体周骨缺损效果佳。     

组织工程化软骨与富血小板血浆复合可促进软骨缺损修复

为探讨组织工程化软骨与富血小板血浆复合修复软骨缺损的效果,本研究选取了8周龄健康新西兰兔24只,依据随机数表法分为观察组(组织工程化软骨与富血小板血浆复合)和对照组(单纯软骨缺损模型),发现术后4周、8周、12周,观察组实验动物的大体评分均明显高于对照组(p0.05)。观察组实验动物的Collagen TypeⅠ、Collagen TypeⅡ相对表达水平明显高于对照组(p0.05)。两组实验动物的Collagen TypeⅩ相对表达水平无显著差异(p0.05)。观察组实验动物的软骨缺损直径和缺损深度分别为(1.02±0.35)mm、(0.96±0.27)mm,对照组实验动物的软骨缺损直径和缺损深度分别为(4.27±1.09)mm、(5.43±1.85)mm(p0.05),表明组织工程化软骨与富血小板血浆复合修复软骨缺损效果明显,能够刺激软骨相关基因表达,缩小软骨缺损范围,促进缺损软骨愈合。     

多孔β-TCP用于构建长骨组织的实验研究

探索新型的多孔β-磷酸三钙(β-TCP)作为组织工程骨支架材料的应用效果。分别应用单纯β-TCP(对照组)和骨髓间质干细胞（bone marrow stem cells, BMSCs）、β-TCP复合物(实验组)修复狗尺骨2cm的骨缺损,术后通过X光片、核素扫描、大体观察和组织学观察判断长骨骨缺损的修复效果。X片观察：3月时,实验组尺骨缺损由内植物较好的桥接,内植物边缘模糊,管腔及内植物与缺损断端之间有新生骨形成;对照组尺骨缺损处的内植物明显变形,出现密度不均的裂解颗粒,其与缺损断端连接处有新生骨形成。6月时,实验组尺骨缺损被伴有骨髓腔的新生骨连接,有皮质骨形成;对照组尺骨缺损被高密度影连接,没有骨髓腔和明显皮质骨形成,尺骨远端直径明显细于实验组。核素扫描的延迟相骨显像：1月和2月时两组之间有显著性差异,3月时两组之间无显著性差异。大体观察：3月时可见,对照组尺骨直径明显小于实验组,实验组的骨缺损处新生物的体积明显大于对照组;对照组的内植物周围有纤维组织紧密包裹,难于分离。6月时可见,实验组新生骨色泽红白相间,明显已被塑形;对照组新生骨体积、形状不完整。HE观察：3月时,实验组β-TCP的孔隙中,可见新生骨在表面贴附生长;对照组β-TCP的孔隙中有类骨质形成,充填着大量核深染的巨核细胞和毛细血管。6月时,两侧的β-TCP都完全消失,都有新生骨形成,但对照组新生骨量和骨结构明显差于实验组。复合骨髓基质干细胞的多孔β-TCP能够修复长骨骨缺损。     

多孔n-HA/PA66支架复合rhBMP-2修复兔桡骨缺损的实验研究

目的 ：研究多孔纳米羟基磷灰石/聚酰胺66（nHA/PA66）骨修复材料作为骨组织工程支架复合基因重组人骨形态发生蛋白2（rhBMP2）后的成骨能力的变化,探讨加速nHA/PA66人工骨与受体骨愈合的方法。方法：选用新西兰大白兔双侧桡骨制作骨缺损模型,将nHA/PA66/rhBMP2复合材料植入左侧骨缺损处,右侧骨缺损以nHA/PA66植入作为实验对照,另做不植入任何材料的骨缺损空白对照。在1、2、4、8、12周各时相点分别进行大体观察、X线照片、组织学切片、免疫组化原位杂交进行检测图象分析。结果：nHA/PA66/BMP2与nHA/PA66组骨缺损均完全修复,而空白对照组骨缺损未见修复;2周时nHA/PA66与nHA/PA66/rhBMP2两组间原位杂交阳性细胞表达有统计学意义（ P<0.05）, 4周时nHA/PA66与nHA/PA66/rhBMP2两组间原位杂交阳性细胞表达无统计学意义（ P>0.05）,2周及4周实验和实验对照两组分别与空白对照组比较均无统计学意义（ P>0.05）,nHA/PA66/rhBMP2组较nHA/PA66组可加速人工骨/植入体/受体界面骨愈合。 结论：多孔nHA/PA66作为骨组织工程支架复合具有诱导成骨活性的rhBMP2后,增强了早期成骨能力,加速了其与受体骨的愈合。     

外源性β-NGF调节骨改建过程中的可能作用机制

目的探讨外源性的β-NGF在骨缺损愈合过程中对骨改建可能作用机制。方法利用外科手术方法切取SD大鼠颅骨顶部左右两侧的骨质,建立配对大鼠颅骨标准骨缺损局部持续灌注β-NGF给药模型。通过免疫组织化学技术检测骨缺损区组织中BMP-2的表达水平以及特殊染色技术(TRAP染色)检测骨缺损区组织中抗酒石酸碱性磷酸酶的表达水平,通过图像处理软件IPP6.0分别测定两者积分光密度值(IOD),以探讨BMP-2与破骨细胞活性在β-NGF调节新骨形成和改建过程中的可能作用机制。结果实验组BMP-2免疫组化染色阳性表达水平在14 d时IOD值明显高于对照组,且差异有显著性(P0.05);TRAP染色结果显示:实验组骨吸收的活性在第7,21,28天三个时间点上明显低于对照组,且差异有显著性(P0.05)。结论外源性的β-NGF在骨缺损修复过程中具有重要的调节作用,其可能是通过促进BMP-2表达和抑制破骨细胞的活性以抑制骨吸收。     

应用3D适形打印制备网状复合体对兔颅骨缺损的修复作用及安全性研究

目的:探讨采用3D适形打印技术制备的羟基磷灰石/聚乳酸网状复合体在兔颅骨缺损中的修复作用及安全性。方法:以24只新西兰兔为研究对象,以羟基磷灰石/聚乳酸为材料,采用3D适形打印技术制备网状复合体,于兔颅骨顶部制成两个颅骨全层缺损,分别为孔A(左)和孔B(右),孔A(阳性对照组)以自体颅骨为修复材料,孔B(实验组)以复合体为修复材料,观察缺损修复区域的形态学、影像学(X线及CT扫描)及组织学检查结果。结果:植入后24周时,形态学显示:阳性对照组可见致密的骨组织修复,与缺损边缘界限不清,实验组中支架孔隙内纤维组织由新生骨质取代,且新生骨成熟度较提高,材料表面有部分吸收。CT扫描观察显示:冠状面上,阳性对照组缺损修复区域与周围正常骨组织融合为一体,实验组修复材料与缺损边缘融合紧密,与周围正常骨组织结合良好,部分边缘结合不连贯。组织学观察显示:实验组材料部分降解,材料间隔可见新生骨小梁。研究中无实验动物死亡,皮肤切口处缝合良好,无皮下积液,无移植物脱出、红肿感染等情况出现。结论:以3D适形打印技术制备的羟基磷灰石/聚乳酸复合体对兔颅骨缺损有较好的修复作用,能促进缺损区域新骨的形成和生长,且安全性较高。     

Evaluating the bone regeneration in calvarial defect using osteoblasts differentiated from adipose-derived mesenchymal stem cells on three different scaffolds: an animal study

The aim of this study was to investigate the effect of three different scaffolds on the viability and differentiation of adipose-derived mesenchymal stem cells (ADMSCs) to osteoblast for bone regeneration of calvarial defect in rabbit model. Adipose was harvested from the nape of 12 rabbits by direct surgery or hollow-tip cannula. Two standardized circular calvarial defects (case and control), 8 mm in diameter each, were created in all the animals. The animals were divided into 3 different groups. In group 1 (G1), the defect was filled with polyamide + ADMSC. In group 2, poly lactic-co-glycolic acid + ADMSC was used. In group 3, decellularized amniotic membrane + ADMSC was applied. In the control defect, the non-seeded scaffolds were applied for filling the defect. Decellularized pericardial scaffolds were used as a membrane on the scaffolds. The animals were euthanized 2, 4, and 8 weeks of operation and new bone formation was assessed by different analyses. Immunohistochemical (IHC) staining with osteopontin and osteocalcin antibodies was also performed. After 2 weeks of wound healing, minimal bone regeneration was detected in all groups. Almost complete defect closure was observed in all experimental groups after 8 weeks of operation, with the greatest defect closure in the animals treated with polyamide scaffolds as compared to biopsies obtained from control defects and other experimental groups. The maximal tensile load was higher in G1, 4 and 8 weeks postoperatively, suggesting the usefulness of polyamide + ADMSC for bone regeneration in calvarial defects. Results of the IHC staining demonstrated a significant difference between seeded and non-seeded scaffold in both short- and long-term follow-ups (P < 0.05). In addition, a significant difference was observed in enhancement of IHC staining of both markers in polyamide group (seeded or non-seeded) 4 and 8 weeks postoperatively in comparison with other scaffolds. It was concluded that bone regeneration in critical calvarial defect was more successful in seeded polyamide.     

牙源性干细胞复合微渠多孔羟基磷灰石支架成骨性能研究*

目的: 探讨牙源性干细胞复合微渠多孔羟基磷灰石支架(grooved porous hydroxyapatite scaffolds, HAG支架)的成骨性能,为骨缺损修复治疗提供新手段。方法: 从健康成人第三磨牙中提取牙周膜干细胞(periodontal ligament stem cells, PDLSCs)及牙髓干细胞(dental pulp stem cells, DPSCs)分别接种于HAG支架上,进行多向分化鉴定及碱性磷酸酶(alkaline phosphatase,ALP)活性测定;并通过CCK-8检测细胞增殖能力;逆转录聚合酶链反应(qRT-PCR)检测骨形态发生蛋白2(bone morphogenetic protein 2, BMP-2)、骨钙素(osteocalcin, OCN)和骨桥蛋白(osteopontin, OPN)等成骨相关基因的表达。体内研究中将搭载PDLSCs和DPSCs的HAG支架移植到裸鼠的背部皮下,8周后取材,组织切片后采用苏木精-伊红(HE)染色观察新骨形成,提取组织蛋白采用Western blot检测ALP、OCN等成骨相关蛋白的表达。结果: 体外研究中DPSCs复合HAG支架组的细胞增殖能力、ALP活性,以及成骨相关基因ALP、BMP2、OCN等的表达均高于PDLSCs复合HAG支架组。体内研究中HE染色显示,PDLSCs复合HAG支架组及DPSCs复合HAG支架组均较空白HAG支架组有更多细胞生长区、纤维细胞增生及骨基质形成,且DPSCs复合HAG支架组的骨基质面积更大,成纤维细胞数量更多;PDLSCs复合HAG支架组及DPSCs复合HAG支架组成骨相关蛋白的表达量均高于空白HAG组,且DPSCs复合HAG支架组中ALP蛋白表达量显著高于PDLSCs复合HAG支架组。结论: PDLSCs、DPSCs复合HAG支架在体内外均表现出良好的成骨性能,其中DPSCs复合HAG支架的成骨性能更为优异。     

The process of bone regeneration from devitalization to revitalization after pedicle freezing with immunohistochemical and histological examination in rabbits

The pedicle freezing procedure by liquid nitrogen is a method for the reconstruction of tumor-bearing bone after malignant tumor resection. However, the regenerative mechanism of bone after the pedicle freezing procedure is unclear. We investigated the complete process from devitalization to revitalization of bone after the pedicle freezing procedure in 13 rabbits. After osteotomy the 5 mm distal femurs were immersed in liquid nitrogen, and the specimens were divided into frozen area and sub-frozen area. The bilateral femurs were harvested for evaluation of bone regeneration by histological and immunohistochemical examination (VEGF, CD31, BMP-2 and Runx2) from 1 week to 52 weeks. The diameter of operating femurs was compared with contralateral femurs from 6 weeks to 52 weeks.No viable cells could be found from 1 to 8 weeks in the frozen area, and a mean 1.83 cm necrotic range were detected in the sub-frozen area. The periosteal reaction, massive fibrous tissue and immature bone matrix invaded from the normal area to the necrotic area from 12 weeks. Subsequently, the necrotic bone was gradually replaced by newly formed bone by creeping substitution, with endochondral and intramembrane bone formation. The diameter of frozen femurs was significantly larger than the contralateral femur at the same period from 8 weeks to 52 weeks (P < 0.01). All immunohistochemical factors were positively expressed in both areas at different time points. The active osteoblasts and microvessel migrated from marrow cavity and periosteum into dead bone. This study suggested that the frozen bone not only provides a scaffold but also possesses excellent osteoinductive properties.     

Osteocutaneous flap prefabrication based on the principle of vascular induction: an experimental and clinical study

Conventional osteomyocutaneous flaps do not always meet the requirements of a composite defect. A prefabricated composite flap may then be indicated to custom create the flap as dictated by the complex geometry of the defect. The usual method to prefabricate an osteocutaneous flap is to harvest a nonvascularized bone graft and place it into a vascular territory of a soft tissue, such as skin, muscle, or omentum, before its transfer. The basic problem with this method is that the bone graft repair is dependent on the vascular carrier; the bone needs to be revascularized and regenerate. The bone graft may not be adequately perfused at all, even long after the transfer of the prefabricated flap. This study was designed to prefabricate an osteocutaneous flap where simply the bone nourishes the soft tissues, in contrast to the conventional technique in which the soft tissue supplies a bone graft. This technique is based on the principle of vascular induction, where a pedicled bone flap acts as the vascular carrier to neovascularize a skin segment before its transfer. Using a total of 40 New Zealand White rabbits, two groups were constructed as the experimental and control groups. In the experimental group, a pedicled scapular bone flap was induced to neovascularize the dorsal trunk skin by anchoring the bone flap to the partially elevated skin flap with sutures in the first stage. After a period of 4 weeks, the prefabricated composite flaps (n = 25) were harvested as island flaps pedicled on the axillary vessels. In the control group, nonvascularized scapular bone graft was implanted under the dorsal trunk skin with sutures; after 4 weeks, island composite flaps (n = 15) were harvested pedicled on the cutaneous branch of the thoracodorsal vessels. In both groups, viability of the bony and cutaneous components was evaluated by means of direct observation, bone scintigraphy, measurement of bone metabolic activity, microangiography, dye injection study, and histology. Results demonstrated that by direct observation on day 7, the skin island of all of the flaps in the experimental group was totally viable, like the standard axial-pattern flap in the control group. Bone scintigraphy revealed a normal to increased pattern of radionuclide uptake in the experimental group, whereas the bone graft in the control group showed a decreased to normal pattern of radioactivity uptake. The biodistribution studies revealed that the mean radionuclide uptake (percent injected dose of 99mTc methylene diphosphonate/gram tissue) was greater for the experimental group (0.49+/-0.17) than for the control group (0.29+/-0.15). The difference was statistically significant (p<0.01). By microangiography, the cutaneous component of the prefabricated flap of the experimental group was observed to be diffusely neovascularized. Histology demonstrated that although the bone was highly vascular and cellular in the experimental group, examination of the bone grafts in the control group revealed necrotic marrow, empty lacunae, and necrotic cellular debris. Circulation to the bone in the experimental group was also demonstrated by India ink injection studies, which revealed staining within the blood vessels in the bone marrow. Based on this experimental study, a clinical technique was developed in which a pedicled split-inner cortex iliac crest bone flap is elevated and implanted under the medial groin skin in the first stage. After a neovascularization period of 4 weeks, prefabricated composite flap is harvested based on the deep circumflex iliac vessels and transferred to the defect. Using this clinical technique, two cases are presented in which the composite bone and soft-tissue defects were reconstructed with the prefabricated iliac osteomyocutaneous flap. This technique offers the following advantages over the traditional method of osteocutaneous flap prefabrication. Rich vascularity of the bony component of the flap is preserved following transfer (i.e. (ABSTRACT     

Injectable Biocomposites for Bone Healing in Rabbit Femoral Condyle Defects

A novel biomimetic bone scaffold was successfully prepared in this study, which was composed of calcium sulfate hemihydrate (CSH), collagen and nano-hydroxyapatite (nHAC). CSH/nHAC was prepared and observed with scanning electron microscope and rhBMP-2 was introduced into CSH/nHAC. The released protein content from the scaffold was detected using high performance liquid chromatography at predetermined time interval. In vivo bone formation capacity was investigated by means of implanting the scaffolds with rhBMP-2 or without rhBMP-2 respectively into a critical size defect model in the femoral condyle of rabbit. The releasing character of rhBMP-2 was that an initial burst release (37.5%) was observed in the first day, followed by a sustained release and reached 100% at the end of day 20. The CSH/nHAC showed a gradual decrease in degradation with the content of nHAC increase. The results of X-rays, Micro CT and histological observation indicated that more new bone was formed in rhBMP-2 group. The results implied that this new injectable bone scaffold should be very promising for bone repair and has a great potential in bone tissue engineering.