微弧氧化和碱处理技术在多孔钽修复兔颅骨缺损中的应用

目的观察微弧氧化和碱处理对多孔钽表面性状、生物相容性和成骨能力的影响。方法微弧氧化和碱处理多孔钽片后,扫描电镜观察表面微孔数量、表面钙磷沉积和接触角。植入钽片修复兔颅骨缺损模型,在4周和12周观察骨愈合情况。结果扫描电镜显示处理组表面有更多的微孔和钙磷沉积以及更小的接触角(P<0.05)。植入多孔钽片后,所有动物均生长良好,伤口愈合佳。CT观察多孔钽片和周围骨组织耦合良好;钙黄绿素标记检测显示12周时有新生骨长入多空钽材料内部;扫描电镜观察发现4周时多空钽材料内部有新生血管,12周时有骨小梁长入材料内部。结论微弧氧化和碱处理能改变多孔钽材料表面形状,处理后多孔钽片具有良好的生物相容性和成骨能力。     

新型多孔生物活性玻璃修复羊腔隙性骨缺损的实验研究

目的:评价新型多孔生物活性玻璃修复羊腔隙性骨缺损的能力.方法:12只成年绵羊L3-L5,共36个椎体均建立8mm× 15mm腔隙性骨缺损模型,实验组为Macro Porous Putty(MPS)和Injectable Putty(INJ),对照组为Nova Bone Putty(NBP).按照随机区组设计,随机分配每只羊的三个椎体缺损分别填充NBP、MPS、INJ材料.每种材料均填充12个椎体.术后6周、12周取材,通过术后一般状况、标本大体观察、X线平片以及组织病理学结果评价新型多孔生物活性玻璃的成骨作用.结果:①术后各组动物进食及粪便均正常,对外界刺激反应性良好.术后切口均一期愈合.②大体观察未发现缺损处有异常纤维组织包块及材料漏出.③术后6周和12周,MPS组和INJ组Lane-Sandhu X射线评分大于NBP组(P＜0.05).④组织学切片VG染色结果显示,术后6周和12周,MPS组和INJ组新生骨量多于NBP组(P＜0.05).MPS组和INJ组成骨性能相当(P＞0.05).术后12周和术后6周比较,NBP、MPS、INJ三种材料新生骨量均明显增多(P＜0.01).结论:新型多孔生物活性玻璃材料MPS和INJ具有可靠的骨缺损修复能力,比传统的NBP材料成骨能力更佳,具有良好的应用前景.     

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。     

不同剂量rhBMP-2/CPC 体内骨诱导活性的比较研究*

目的:对比不同剂量rhBMP-2与多孔CPC复合后的诱导成骨效应,探讨与多孔CPC复合后的rhBMP-2的量效关系.方法:将0.5 mg/ml、1 mg/ml、2 mg/ml、3 mg/ml 4种不同剂量的rhBMP-2与多孔CPC材料复合后,植入36只小鼠双侧股部肌肉内,分别于术后1周、2周及4周取材,通过大体观察、组织学分析、形态计量学分析、荧光双标测定,观察4组诱导成骨情况.结果:植入1周,rhBMP-2与多孔CPC材料复合表现出了较明显的剂量依赖性,含有较多rhBMP-2的材料内诱导形成的骨组织也较多,但骨组织的增加并未随着rhBMP-2剂量的增加而连续递增,2 mg组和3 mg组新生骨组织含量无明显差异(P＞0.05).植入4周,新生骨组织向材料内部生长,但此时的新生骨组织面积较2周增加不显著(P＞0.05).0.5 mg组新生骨组织含量仍处于最低水平,而其它三组之间却无明显差异(P＞0.05).结论:在0.5 mg/ml-2.0 mg/ml剂量范围,与多孔CPC复合的rhBMP-2诱导成骨量与其剂量成正比,最佳剂量为2 mg/ml.     

纳米珍珠粉/壳聚糖-透明质酸支架修复兔股骨远端骨缺损的实验研究

通过体内实验探讨纳米珍珠粉/壳聚糖-透明质酸(NPP/C-HA)复合支架的促成骨能力。采用双侧兔股骨远端骨缺损模型(直径7 mm,深度10 mm),通过大体标本、影像学检查、分子生物学检查及组织学检查来观察骨缺损的修复效果。发现各组均未出现明显不良组织反应;随观察时间增加实验组骨缺损区范围最小,在第8周和第12周数据的差异存在统计学意义(P<0.05);在第4周、6周、8周时实验组BALP含量与其他组比较P<0.05;实验组缺损区边缘出现更多的新生骨,但在骨质成熟度上未见明显差异。结果表明NPP/C-HA支架具有良好的生物相容性及促成骨作用,为进一步研究NPP/C-HA在骨组织工程中的作用提供了实验和理论基础。     

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。     

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。     

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。     

树鼩背部肌肉植入多孔复合材料HAPw/n-ZnO的体内生物学性能

目的 初步探讨多孔复合材料HAPw/n-ZnO的体内生物学性能。方法 选用树鼩15只,雌雄不限,每只背部肌肉均植入多孔复合材料HAPw/n-ZnO、Bio-Oss骨粉、ATLANTIK人工骨、国产金世植骨灵人工骨,多孔复合材料HAPw/n-ZnO为实验组,其余为对照组。术后进行动物大体观察及手术部位观察,4周、8周、12周每次随机抽取4只动物处死,进行埋植部位肌肉组织病理学观察、碱性磷酸酶活性(ALP)及钙含量测定。结果 HE染色显示实验HAPw/n-ZnO组与各对照组肌间质内均可见钙化灶,实验组肌肉可见炎症细胞明显聚集;Masson染色显示实验组与各对照组植入材料周边均可见绿染的胶原纤维;碱性磷酸酶活性及钙含量测定实验组与金世植骨灵组及Bio-Oss骨粉组的差异有统计学意义,金世植骨灵组及Bio-Oss骨粉组优于实验组,与ATLANTIK人工骨组差异无统计学意义。结论 多孔复合材料HAPw/n-ZnO在植入树鼩背部肌肉后有成骨活性但未异位成骨,且引起炎症反应。     

两种壳聚糖仿生复合材料对家兔桡骨骨缺损修复的实验研究

目的:评价壳聚糖/碳酸钙三维复合材料(CS/CaCO3)和壳聚糖/羟基磷灰石复合材料(CS/HA)用于骨缺损修复的可行性.方法:家兔24只,随机分为对照、CS/CaCO3、CS/HA三组.左前肢去毛后,2%巴比妥钠(30mg/kg,iv)麻醉,距桡骨远端3cm处截骨1cm,形成骨缺损,分别植入相应材料.术后4w、8w、12w分别处死动物,X线摄片后,取骨缺损标本,进行大体与组织学观察.结果:术后4周植入块颜色变红,周围有较多量的新生骨样组织包裹,骨痂增多,向植入块内移行;术后8周,植入块周围有明显新骨生成,将材料分隔包围,新骨中央区可见材料呈蜂窝状残留.术后12周缺损区大部分编织骨被成熟的板层骨组织替代,并形成髓腔.结论:CS/CaCO3和CS/HA两种仿生复合材料能明显促进兔桡骨骨缺损修复,诱导骨痂生成.     

PRP 与CPC 应用于拔牙后种植位点保存的实验研究

目的:探讨磷酸钙骨水泥(CPC)与富血小板血浆(PRP)混合物应用于拔牙后种植位点保存的可行性。方法:拔除6只犬下颌双侧第三切牙与一侧第一切牙,并于每只犬的3个拔牙窝颊舌侧骨壁分别制造2 mm×2 mm×3 mm缺损,随机在两个牙槽窝内分别植入CPC或CPC与PRP的混合物,第三个不加处置作对照,在术后4、8、12周各处死两只动物,行大体、X线、显微镜观察,比较各组的新骨生成情况。结果:术后4周时CPC/PRP混合物组骨形成早于其他组,8、12周时CPC/PRP混合物组新骨生成明显优于CPC组和对照组。结论:CPC混合PRP可促牙槽窝新骨生成并能保证成骨的高度和颊舌向宽度,从而为后期种植义齿修复提供了必要的条件。     

Histomorphometric evaluation of bone ingrowth of porous titanium by a computer-assisted analyzing system]

The objective of this study was to evaluate the bone ingrowth of a new vacuum plasma sprayed titanium surface (vps-ti) in comparison to cs-titanium implants in a g?ttinger minipig model. Fifteen g?ttinger minipigs each received the two implants, vacuum plasma sprayed titanium with a porosity of 50% and a pore size of 200 microm (vps-ti) and an implant with a similar porosity but a different pore size 500 microm (cs-ti), at the proximal femur metaphysis by press-fit technique. The pigs were euthanized at three different postsurgical periods: 4, 8 and 12 weeks. Each femur was harvested and qualitative (macroscopic and microscopic) and quantitative (histomorphometric) histological analysis was done on histological slides. The results indicated that there was a difference in bone ingrowth between the two implants, whereas the bone ingrowth of vps-ti was superior to cs-ti after 4 and 8 weeks healing time. 12 weeks post implantationem no statistiscal difference was evident. The pore size of 200 microm seemed superior to a pore size of 500 microm. Whether or not these effects lead to a better mechanical stability remains unanswered.     

In vivo bone formation by human bone marrow stromal cells: effect of carrier particle size and shape

Successful closure of bone defects in patients remains an active area of basic and clinical research. A novel and promising approach is the transplantation of human bone marrow stromal cells (BMSCs), which have been shown to possess a significant osteogenic potential. The extent and quality of bone formation by transplanted human BMSCs strongly depends on the carrier matrix with which cells are transplanted; to date, hydroxyapatite/tricalcium phosphate (HA/TCP) supports far more osteogenesis than any other matrix tested. In order to further improve the technique of BMSC transplantation, we studied whether commercially available HA/TCP particles, clinically approved as an osteoconductive material and commercially available as particles measuring 0.5-1.0 mm diameter, is an optimum matrix for promoting bone development by BMSCs. HA/TCP and HA particles of varying size were sieved into a variety of size ranges, from <0.044 mm to 1.0-2.0 mm. Transplants were formed by mixing 40 mg aliquots of particles with cultured passaged human BMSCs. They were placed in subcutaneous pockets in immunocompromised Bg-Nu-XID mice and harvested 4 or 10 weeks later. The transplants were examined histologically; the presence of bone within each transplant was evaluated using histomorphometry or blindly scored on a semiquantitative scale. Transplant morphology and the amount of new bone varied in a consistent fashion based on particle size and shape. Transplants incorporating HA/TCP particles of 0.1-0.25 mm size demonstrated the greatest bone formation at both 4 and 10 weeks; larger or smaller particles were associated with less extensive bone formation, while a size of 0.044 mm represented a threshold below which no bone formation could be observed. Flat-sided HA particles measuring 0.1-0.25 mm formed no bone. The differences in bone formation were not attributable to the differences in cell attachment among the groups. Instead, the size and spatial and structural organization of the particles within BMSC transplants appear to determine the extent of bone formation. These findings provide necessary information for the successful clinical application of BMSC transplantation techniques.     

利用共振频率分析牙种植体骨愈合期稳定性变化 与早期边缘骨吸收的关系

目的:利用共振频率测量仪(Osstell)连续监测骨愈合期种植体稳定性变化与早期边缘骨吸收的关系。方法:本研究于2010-2011年期间根据纳入及排除标准连续纳入32名成年男性患者作为实验对象共植入45枚Strauman种植体,每名患者选择一颗(4.8mm×10mm)种植体,共计32颗种植体,种植区位于下颌后牙(骨质均为Ⅱ或Ⅲ类骨)。利用共振频率分析仪(Osstell)测量种植体的稳定性,测量时间点为植入时以及术后第1,2,3,4,6,8,12周。另外,影像学分析测量32颗种植体12周时的边缘骨吸收;结果:本实验中所有种植体在12周均实现骨结合,并成功完成种植修复。通过重复性方差分析,见表1,在种植体植入时,初期稳定系数(ISQ)均值为(79.03±6.756)。术后一周,种植体稳定系数(ISQ)均值均呈下降趋势,至术后第2周时达到最低点,与植入时稳定性有统计学差异(P<0.05)。从术后第3周开始种植体稳定系数(ISQ)均值逐渐上升。其中,稳定系数(ISQ)均值在第6周时与第12周无统计学差异,已达到延期稳定期。32颗种植体在第12周的边缘骨吸收均值为(0.86±0.068mm),而在第12周的种植体的稳定系数均值与种植体植入时的稳定系数均值无统计学差异。结论:本实验通过共振频率测量仪(OsstellTM)连续监测,目前的结果认为种植体愈合期边缘骨吸收对种植体愈合期稳定性变化没有影响。     

A new device to control mechanical environment in bone defect healing in rats

Mechanical conditions have a significant influence on the biological processes of bone healing. Small animal models that allow controlling the mechanical environment of fracture and bone defect healing are needed. The aim of this study was to develop a new animal model that allows to reliably control the mechanical environment in fracture and bone defect healing in rats using different implant materials. An external fixator was designed and mounted in vitro to rat femurs using four Kirschner-wires (titanium (T) or steel (S)) of 1.2mm diameter. The specimens were distracted to a gap of 1.5mm. Axial and torsional stiffness of the device was tested increasing the offset (distance between bone and fixator crossbar) from 5 to 15mm. In vivo performance (well-being, infection, breaking of wires and bone healing) was evaluated in four groups of 24 Sprague-Dawley rats varying in offset (7.5 and 15mm) and implant material (S/T) over 6 weeks. Torsional and axial stiffness were higher in steel compared to titanium setups. A decrease in all configurations was observed by increasing the offset. The offset 7.5mm showed a significantly higher torsional (S: p<0.01, T: p<0.001) and axial in vitro stiffness (S: p<0.001, T: p<0.001) compared to 15mm offset of the fixator. Although in vitro designed to be different in mechanical stiffness, no difference was found between the groups regarding complication rate. The overall-complication rate was 5.2%. In conclusion, we were able to establish a small animal model for bone defect healing which allows modeling the mechanical conditions at the defect site in a defined manner.     

Masquelet technique: The effect of altering implant material and topography on membrane matrix composition,mechanical and barrier properties in a rat defect model

The Masquelet technique is a surgical procedure to regenerate segmental bone defects. The two-phase treatment relies on the production of a vascularized foreign-body membrane to support bone grafts over three times larger than the traditional maximum. Historically, the procedure has always utilized a bone cement spacer to evoke membrane production. However, membrane formation can easily be effected by implant surface properties such as material and topology. This study sought to determine if the membrane’s mechanical or barrier properties are affected by changing the spacer material to titanium or roughening the surface finish. Ten-week-old, male Sprague Dawley rats were given an externally stabilized, 6 mm femur defect which was filled with a pre-made spacer of bone cement (PMMA) or titanium (TI) with a smooth (∼1 μm) or roughened (∼8 μm) finish. After 4 weeks of implantation, the membranes were harvested, and the matrix composition, tensile mechanics, shrinkage, and barrier function was assessed. Roughening the spacers resulted in significantly more compliant membranes. TI spacers created membranes that inhibited solute transport more. There were no differences between groups in collagen or elastin distribution. This suggests that different membrane characteristics can be created by altering the spacer surface properties. Surgeons may unknowingly effecting membrane formation via bone cement preparation techniques.     

Finite Element Analysis of Bone Stress around Micro-Implants of Different Diameters and Lengths with Application of a Single or Composite Torque Force

Background

Stress on the bone surrounding dental micro-implants affects implant success.

Purpose

To compare the stress on the bone surrounding a micro-implant after application of a single force (SF) of 200 g or a composite force (CF) of 200 g and 6 N.mm torque.

Materials and Methods

Finite element models were developed for micro-implant diameters of 1.2, 1.6, and 2.0 mm, and lengths of 6, 8, 10, and 12 mm and either a SF or CF was applied. The maximum equivalent stress (Max EQS) of the bone surrounding the micro-implant was determined, and the relationships among type of force, diameter, and length were evaluated.

Results

The Max EQS of the CF exceeded that of the SF (P< 0.05). The effect of force on stress was related to implant diameter, but not to implant length. The larger CF led to greater instability of the micro-implant and the effect was most pronounced at an implant diameter of 1.2 mm. The use of implant diameters of 1.6 mm and 2.0 mm produced no significant difference in implant stability when either a CF or SF was applied.

Conclusion

When considering the use of an implant to perform three-dimensional control on the teeth, the implant diameter chosen should be > 1.2 mm.     

Modulation of bone ingrowth of rabbit femur titanium implants by in vivo axial micromechanical loading.

Titanium implants commonly used in orthopedics and dentistry integrate into host bone by a complex and coordinated process. Despite increasingly well illustrated molecular healing processes, mechanical modulation of implant bone ingrowth is poorly understood. The objective of the present study was to determine whether micromechanical forces applied axially to titanium implants modulate bone ingrowth surrounding intraosseous titanium implants. We hypothesized that small doses of micromechanical forces delivered daily to the bone-implant interface enhance implant bone ingrowth. Small titanium implants were placed transcortically in the lateral aspect of the proximal femur in 15 New Zealand White rabbits under general anesthesia and allowed to integrate with the surrounding bone for 6 wk. Micromechanical forces at 200 mN and 1 Hz were delivered axially to the right femur implants for 10 min/day over 12 consecutive days, whereas the left femur implants served as controls. The average bone volume 1 mm from mechanically loaded implants (n = 15) was 73 +/- 12%, which was significantly greater than the average bone volume (52 +/- 21%) of the contralateral controls (n = 15) (P < 0.01). The average number of osteoblast-like cells per endocortical bone surface was 55 +/- 8 cells/mm(2) for mechanically loaded implants, which was significantly greater than the contralateral controls (35 +/- 6 cells/mm(2)) (P < 0.01). Dynamic histomorphometry showed a significant increase in mineral apposition rate and bone-formation rate of mechanically stressed implants (3.8 +/- 1.2 microm/day and 2.4 +/- 1.0 microm(3).microm(-2).day(-1), respectively) than contralateral controls (2.2 +/- 0.92 microm/day and 1.2 +/- 0.60 microm(3).microm(-2).day(-1), respectively; P < 0.01). Collectively, these data suggest that micromechanical forces delivered axially on intraosseous titanium implants may have anabolic effects on implant bone ingrowth.     

干湿交替对红河干旱河谷区土壤优先流形成特征的影响

为明确干旱河谷气候区干湿交替作用对土壤优先流形成的影响,本研究以红河干旱河谷区的荒草地为对象,通过模拟干湿交替的方法,基于染色示踪和水分穿透曲线试验并利用图像处理技术,对比分析模拟前后土壤优先流特征的差异性规律。结果表明: 模拟干湿交替条件下基质流发生区在0~10 cm土层,染色深度高达35 cm,其优先路径的水平宽度仅为3～10 cm,且染色面积曲线波动小。模拟干湿交替条件导致土壤稳定出流速率、大孔隙数量和大孔隙率明显增加,在0~20 cm土层,实施干湿交替后的土壤稳定出流速率较非干湿交替条件高约0.27 cm³·s^-1,染色区的大孔隙数量增加约1.4倍,大孔隙率则高13.4%。大孔隙数量与稳定出流速率呈极显著正相关,模拟干湿交替后大孔隙数量从大到小依次为: 0.6～0.8 mm＞0.8～1.0 mm＞1.0～1.5 mm＞1.5～2.0 mm＞2.0～3.7 mm,非干湿交替条件下为: 0.8～1.0 mm＞0.6～0.8 mm＞1.0～1.5 mm＞2.0～3.7 mm＞1.5～2.0 mm。各孔径范围的大孔隙数量与染色面积比呈极显著相关关系,经过模拟干湿交替处理后,其相关性增大,且影响优先流发生的主导因素由孔径1.5～2.0 mm的大孔隙数量变为孔径0.8～1.0 mm的大孔隙数量。干湿交替作用会通过影响大孔隙特征进而导致土壤更易发生优先流且程度增强。     

Effect of guided bone regeneration on bone quality surrounding dental implants

Bone quality as well as its quantity at the implant interface is responsible for determining stability of the implant system. The objective of this study is to examine the nanoindentation based elastic modulus (E) at different bone regions adjacent to titanium dental implants with guided bone regeneration (GBR) treated with DBM and BMP-2 during different post-implantation periods. Six adult male beagle dogs were used to create circumferential defects with buccal bone removal at each implantation site of mandibles. The implant systems were randomly assigned to only GBR (control), GBR with demineralized bone matrix (DBM), and GBR with DBM + recombinant human bone morphogenetic protein-2 (rhBMP-2) (BMP) groups. Three animals were sacrificed at each 4 and 8 weeks of post-implantation healing periods. Following buccolingual dissection, the E values were assessed at the defects (Defect), interfacial bone tissue adjacent to the implant (Interface), and pre-existing bone tissue away from the implant (Pre-existing). The E values of BMP group had significantly higher than control and DBM groups for interface and defect regions at 4 weeks of post-implantation period and for the defect region at 8 weeks (p < 0.043). DBM group had higher E values than control group only for the defect region at 4 weeks (p < 0.001). The current results indicate that treatment of rhBMP-2 with GBR accelerates bone tissue mineralization for longer healing period because the GBR likely facilitates a microenvironment to provide more metabolites with open space of the defect region surrounding the implant.