In Vivo Evaluation of a Novel Oriented Scaffold-BMSC Construct for Enhancing Full-Thickness Articular Cartilage Repair in a Rabbit Model

Tissue engineering (TE) has been proven usefulness in cartilage defect repair. For effective cartilage repair, the structural orientation of the cartilage scaffold should mimic that of native articular cartilage, as this orientation is closely linked to cartilage mechanical functions. Using thermal-induced phase separation (TIPS) technology, we have fabricated an oriented cartilage extracellular matrix (ECM)-derived scaffold with a Young''s modulus value 3 times higher than that of a random scaffold. In this study, we test the effectiveness of bone mesenchymal stem cell (BMSC)-scaffold constructs (cell-oriented and random) in repairing full-thickness articular cartilage defects in rabbits. While histological and immunohistochemical analyses revealed efficient cartilage regeneration and cartilaginous matrix secretion at 6 and 12 weeks after transplantation in both groups, the biochemical properties (levels of DNA, GAG, and collagen) and biomechanical values in the oriented scaffold group were higher than that in random group at early time points after implantation. While these differences were not evident at 24 weeks, the biochemical and biomechanical properties of the regenerated cartilage in the oriented scaffold-BMSC construct group were similar to that of native cartilage. These results demonstrate that an oriented scaffold, in combination with differentiated BMSCs can successfully repair full-thickness articular cartilage defects in rabbits, and produce cartilage enhanced biomechanical properties.     

Matrix-assisted Autologous Chondrocyte Transplantation for Remodeling and Repair of Chondral Defects in a Rabbit Model

Articular cartilage defects are considered a major health problem because articular cartilage has a limited capacity for self-regeneration ¹. Untreated cartilage lesions lead to ongoing pain, negatively affect the quality of life and predispose for osteoarthritis. During the last decades, several surgical techniques have been developed to treat such lesions. However, until now it was not possible to achieve a full repair in terms of covering the defect with hyaline articular cartilage or of providing satisfactory long-term recovery ^2-4. Therefore, articular cartilage injuries remain a prime target for regenerative techniques such as Tissue Engineering. In contrast to other surgical techniques, which often lead to the formation of fibrous or fibrocartilaginous tissue, Tissue Engineering aims at fully restoring the complex structure and properties of the original articular cartilage by using the chondrogenic potential of transplanted cells. Recent developments opened up promising possibilities for regenerative cartilage therapies.The first cell based approach for the treatment of full-thickness cartilage or osteochondral lesions was performed in 1994 by Lars Peterson and Mats Brittberg who pioneered clinical autologous chondrocyte implantation (ACI) ⁵. Today, the technique is clinically well-established for the treatment of large hyaline cartilage defects of the knee, maintaining good clinical results even 10 to 20 years after implantation ⁶. In recent years, the implantation of autologous chondrocytes underwent a rapid progression. The use of an artificial three-dimensional collagen-matrix on which cells are subsequently replanted became more and more popular ^7-9.MACT comprises of two surgical procedures: First, in order to collect chondrocytes, a cartilage biopsy needs to be performed from a non weight-bearing cartilage area of the knee joint. Then, chondrocytes are being extracted, purified and expanded to a sufficient cell number in vitro. Chondrocytes are then seeded onto a three-dimensional matrix and can subsequently be re-implanted. When preparing a tissue-engineered implant, proliferation rate and differentiation capacity are crucial for a successful tissue regeneration ¹⁰. The use of a three-dimensional matrix as a cell carrier is thought to support these cellular characteristics ¹¹.The following protocol will summarize and demonstrate a technique for the isolation of chondrocytes from cartilage biopsies, their proliferation in vitro and their seeding onto a 3D-matrix (Chondro-Gide, Geistlich Biomaterials, Wollhusen, Switzerland). Finally, the implantation of the cell-matrix-constructs into artificially created chondral defects of a rabbit''s knee joint will be described. This technique can be used as an experimental setting for further experiments of cartilage repair.     

负压封闭引流术治疗犬胸壁全层缺损的实验研究

目的:探讨不同负压大小下的封闭负压引流术(vacuum sealing drainage,VSD)在治疗犬胸壁全层缺损创面愈合的效果。方法:25只健康成年犬的右胸壁制作3cm×4cm大小的全层缺损,随机分为5组,所有胸壁缺损处安装一次性封闭式负压吸引器,手动抽吸负压排出胸膜腔气体产生负压,致伤24小时后复查CT观察气胸情况;然后按照压力表显示调节负压至60kpa,40kpa,20kpa,10kpa,0kpa吸引胸壁,比较五组1d,3d,5d的伤口液体引流量,胸膜闭合时间;5d时伤口取材做HE染色及CD34免疫组化染色观察伤口愈合情况。结果:在60kpa和40kpa负压吸引下,1天引流液体量最多,分别为77.6±6.62 ml,77.8±4.97 ml;胸膜闭合最快,分别为3.2±1.30天,3.6±0.55天,但是60kpa组有一只犬血气分析显示为Ⅰ型呼吸衰竭;HE染色和CD34免疫组化染色显示各组均有肉芽组织增生及血管新生,且40kpa和60kpa负压组肉芽组织和血管密度明显多于其他组,二者之间无明显差异。结论:封闭负压吸引器对胸壁全层缺损创面有明显治疗作用,并且在40kpa负压下治疗效果最好而且安全。     

A New Method for Xenogeneic Bone Graft Deproteinization: Comparative Study of Radius Defects in a Rabbit Model

Background and Objectives

Deproteinization is an indispensable process for the elimination of antigenicity in xenograft bones. However, the hydrogen peroxide (H₂O₂) deproteinized xenograft, which is commonly used to repair bone defect, exhibits limited osteoinduction activity. The present study was designed to develop a new method for deproteinization and compare the osteogenic capacities of new pepsin deproteinized xenograft bones with those of conventional H₂O₂ deproteinized ones.

Methods

Bones were deproteinized in H₂O₂ or pepsin for 8 hours. The morphologies were compared by HE staining. The content of protein and collagen I were measured by the Kjeldahl method and HPLC-MS, respectively. The physical properties were evaluated by SEM and mechanical tests. For in vivo study, X-ray, micro-CT and HE staining were employed to monitor the healing processes of radius defects in rabbit models transplanted with different graft materials.

Results

Compared with H₂O₂ deproteinized bones, no distinct morphological and physical changes were observed. However, pepsin deproteinized bones showed a lower protein content, and a higher collagen content were preserved. In vivo studies showed that pepsin deproteinized bones exhibited better osteogenic performance than H₂O₂ deproteinized bones, moreover, the quantity and quality of the newly formed bones were improved as indicated by micro-CT analysis. From the results of histological examination, the newly formed bones in the pepsin group were mature bones.

Conclusions

Pepsin deproteinized xenograft bones show advantages over conventional H₂O₂ deproteinized bones with respect to osteogenic capacity; this new method may hold potential clinical value in the development of new biomaterials for bone grafting.     

The Repair Response to Osteochondral Implant Types in a Rabbit Model

Current treatments for damaged articular cartilage (i.e., shaving the articular surface, perforation or abrasion of the subchondral bone, and resurfacing with periosteal and perichondrial resurfacing) often produce fibrocartilage, or hyaline-appearing repair that is not sustained over time (Henche 1967, Ligament and Articular Cartilage Injuries. Springer-Verlag, New York, NY, pp. 157–164; Insall 1974, Clin. Orthop. 101: 61–67; Mitchell and Shepard 1976, J. Bone Joint Surg. [Am.] 58: 230–233; O’Driscoll et al. 1986, J. Bone Joint Surg. [Am.] 68: 1017–1035; 1989, Trans. Orthop. Res. Soc. 14: 145; Kim et al. 1991, J. Bone Joint Surg. [Am.] 73: 1301–1315). Autologous chondrocyte transplantation, although promising, requires two surgeries, has site-dependent and patient age limitations, and has unknown long-term donor site morbidity (Brittberg et al. 1994, N Engl. J. Med. 331: 889–895; Minas 2003, Orthopedics 26: 945–947; Peterson et al. 2003, J. Bone Joint Surg. Am. 85-A(Suppl. 2): S17–S24). Osteochondral allografts remain a widely used method of articular resurfacing to delay arthritic progression. The present study compared the histological response to four types of osteochondral implants in a rabbit model: autograft, frozen, freeze-dried, and fresh implants. Specimens implanted in the femoral groove were harvested at 6 and 12 weeks. Results showed similar restoration of the joint surface regardless of implant type, with a trend toward better repair at the later timepoint. As has been observed in other studies (Frenkel et al. 1997, J. Bone Joint Surg. 79B: 281–286; Toolan et al. 1998, J. Biomed. Mater. Res. 41: 244–250), each group in this study had at least one specimen in which a healthy-appearing surface on the implant was not well-integrated with host tissues. Although the differences were not statistically significant, freeze-dried implants at both timepoints had the best histological scores. The osteochondral grafts tested successfully restored the gross joint surface and congruity. At 12 weeks, no significant differences were observed between the various allografts and autologous osteochondral grafts.     

Plastic Repair Following the Removal of Large Desmoid Tumors of the Abdominal Wall

The case records of 100 patients over the age of 60 at the time of their admission to a state mental hospital in California were evaluated, using rigid criteria to determine whether the precipitating cause for their state hospitalization was due to a deterioration of their mental state or a change in their socio-environmental milieu. The results of the study indicated that 77 per cent of these patients were in hospital because of a deterioration in their own mental state while 23 per cent were there because of a deterioration in their socio-environmental milieu. The data also were indicative that the proportion of patients put in hospital because of a deterioration in their socio-environmental milieu might conceivably be higher than 23 per cent if subtle changes in family attitude towards the patient could be adequately evaluated.     

自体软骨细胞修复兔膝关节全层软骨缺损的实验研究

目的：研究自体软骨细胞复合于人脐带Wharton胶支架对兔膝关节全层软骨缺损的修复效果。方法：经自体关节软骨细胞 经体外培养后复合到制备人脐带Wharton 胶取向支架内构建细胞- 支架复合体,选取健康清洁新西兰兔23 只,雌雄不拘,体重 2.5-3.0 kg,取滑车沟中下部制作全层软骨缺损模型后随机分成A、B和C 组。A组(n= 10)：植入自体软骨细胞+人脐带Wharton 胶取向支架复合体;B组(n= 10)：植入单纯人脐带Wharton 胶取向支架;C组(n= 3)：不做任何处理正常兔。分别于术后3 个月和6 个月各处死后取材进行生物力学特性评估检测。结果：压痕实验显示在3 个月时A 和B 组修复区组织刚度分别达到正常软骨的 45.72%和25.25%,且A组刚度明显优于B组,均低于C组( P<0.05);到6 个月时各自达到正常软骨刚度的69.76%和35.14%,同 样A 组刚度明显优于B 组,均低于C 组( P<0.05)且在同期个各组之间均有显著性差异（F=80.309,P<0.05）。结论：体外培养的自 体软骨细胞与人脐带Wharton 胶复合在体内的微环境作用下修复软骨缺损效果良好,为软骨组织工程提供了一种新支架材料。     

小型猪腹壁拉链模型的建立

目的建立小型猪腹壁拉链模型并对其生物学特性进行研究,为教学和科研工作的开展提供便利的研究工具。方法通过外科手术的方法将定制的生物拉链固定于小型猪体表,建立小型猪腹壁拉链模型,观察小型猪的体征和精神状态,利用全自动血液分析仪及尿液分析仪对其血液和尿液生化指标进行动态检测。结果模型建立后7-49d小型猪的活动、精神状态良好,其生理生化指标表现稳定,与对照相比无显著变化。结论本课题组建立的小型猪腹壁拉链模型建立后7-49d体征、精神状况良好,生理生化指标稳定,可以推广应用于相关的科研、教学试验。     

脱细胞小肠黏膜下层与脱细胞心包修复大鼠腹壁缺损的对比研究

目的：观察小肠黏膜下层（small intestinal submucosa,SIS）和脱细胞心包（pericardium,PC）修复大鼠腹壁缺损的效果,比较两种生物材料相容性。方法：SD大鼠40只,体重200～250g,手术造成3 cm×2 cm全层腹壁缺损,随机分为二组（n=20）,分别采用相同面积的小肠黏膜下层（small intestinal submucosa,SIS）和脱细胞真皮基质（acellular dermal matr,ADM）补片进行修补。术后1、2、4和8周分批取出腹壁修复材料,行动物一般情况观察、腹腔内粘连情况评价、力学强度测定及组织学观察。结果：术后动物都成活,两种材料术后8周均无疝瘘发生,缺损得到完整修复。术后各期SIS组的腹腔粘连评分明显低于PC组。术后4、8周,SIS组力学强度强于PC组,有统计学意义;组织学观察两组未见明显免疫排斥反应,SIS组的组织再生和重塑、血管化优于PC组;术后炎症反应两组无明显差异。结论：SIS和PC均能修复大鼠腹壁全层缺损,SIS在生物相容性方面优于PC。     

脱细胞小肠黏膜下层与脱细胞心包修复大鼠腹壁缺损的对比研究

目的:观察小肠黏膜下层(small intestinal submucosa,SIS)和脱细胞心包(pericardium,PC)修复大鼠腹壁缺损的效果,比较两种生物材料相容性。方法:SD大鼠40只,体重200～250g,手术造成3 cm×2 cm全层腹壁缺损,随机分为二组(n=20),分别采用相同面积的小肠黏膜下层(small intestinal submucosa,SIS)和脱细胞真皮基质(acellular dermal matr,ADM)补片进行修补。术后1、2、4和8周分批取出腹壁修复材料,行动物一般情况观察、腹腔内粘连情况评价、力学强度测定及组织学观察。结果:术后动物都成活,两种材料术后8周均无疝瘘发生,缺损得到完整修复。术后各期SIS组的腹腔粘连评分明显低于PC组。术后4、8周,SIS组力学强度强于PC组,有统计学意义;组织学观察两组未见明显免疫排斥反应,SIS组的组织再生和重塑、血管化优于PC组;术后炎症反应两组无明显差异。结论:SIS和PC均能修复大鼠腹壁全层缺损,SIS在生物相容性方面优于PC。     

A Preclinical Evaluation of Alternative Synthetic Biomaterials for Fascial Defect Repair Using a Rat Abdominal Hernia Model

Introduction

Fascial defects are a common problem in the abdominal wall and in the vagina leading to hernia or pelvic organ prolapse that requires mesh enhancement to reduce operation failure. However, the long-term outcome of synthetic mesh surgery may be unsatisfactory due to post-surgical complications. We hypothesized that mesh fabricated from alternative synthetic polymers may evoke a different tissue response, and provide more appropriate mechanical properties for hernia repair. Our aim was to compare the in vivo biocompatibility of new synthetic meshes with a commercial mesh.

Methods

We have fabricated 3 new warp-knitted synthetic meshes from different polymers with different tensile properties polyetheretherketone (PEEK), polyamide (PA) and a composite, gelatin coated PA (PA+G). The rat abdominal hernia model was used to implant the meshes (25×35 mm, n = 24/ group). After 7, 30, 60, 90 days tissues were explanted for immunohistochemical assessment of foreign body reaction and tissue integration, using CD31, CD45, CD68, alpha-SMA antibodies. The images were analysed using an image analysis software program. Biomechanical properties were uniaxially evaluated using an Instron Tensile® Tester.

Results

This study showed that the new meshes induced complex differences in the type of foreign body reaction over the time course of implantation. The PA, and particularly the composite PA+G meshes, evoked a milder early inflammatory response, and macrophages were apparent throughout the time course. Our meshes led to better tissue integration and new collagen deposition, particularly with the PA+G meshes, as well as greater and sustained neovascularisation compared with the PP meshes.

Conclusion

PA, PA+G and PEEK appear to be well tolerated and are biocompatible, evoking an overlapping and different host tissue response with time that might convey mechanical variations in the healing tissue. These new meshes comprising different polymers may provide an alternative option for future treatment of fascial defects.     

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。     

Effect of Transplanting Various Concentrations of a Composite of Human Umbilical Cord Blood-Derived Mesenchymal Stem Cells and Hyaluronic Acid Hydrogel on Articular Cartilage Repair in a Rabbit Model

BackgroundMesenchymal stem cells (MSCs) are known to have therapeutic potential for cartilage repair. However, the optimal concentration of MSCs for cartilage repair remains unclear. Therefore, we aimed to explore the feasibility of cartilage repair by human umbilical cord blood-derived MSCs (hUCB-MSCs) and to determine the optimal concentrations of the MSCs in a rabbit model.MethodsOsteochondral defects were created in the trochlear groove of femur in 55 rabbits. Four experimental groups (11 rabbits/group) were treated by transplanting the composite of hUCB-MSCs and HA with various MSCs concentrations (0.1, 0.5, 1.0, and 1.5 x 10⁷ cells/ml). One control group was left untreated. At 4, 8, and 16 weeks post-transplantation, the degree of cartilage repair was evaluated grossly and histologically.FindingsOverall, transplanting hUCB-MSCs and HA hydrogel resulted in cartilage repair tissue with better quality than the control without transplantation (P = 0.015 in 0.1, P = 0.004 in 0.5, P = 0.004 in 1.0, P = 0.132 in 1.5 x 10⁷ cells/ml). Interestingly, high cell concentration of hUCB-MSCs (1.5×10⁷ cells/ml) was inferior to low cell concentrations (0.1, 0.5, and 1.0 x 10⁷ cells/ml) in cartilage repair (P = 0.394,P = 0.041, P = 0.699, respectively). The 0.5 x 10⁷ cells/ml group showed the highest cartilage repair score at 4, 8 and 16 weeks post transplantation, and followed by 0.1x10⁷ cells/ml group or 1.0 x 10⁷ cell/ml group.ConclusionsThe results of this study suggest that transplantation of the composite of hUCB-MSCs and HA is beneficial for cartilage repair. In addition, this study shows that optimal MSC concentration needs to be determined for better cartilage repair.     

A Resorbable Antibiotic-Eluting Polymer Composite Bone Void Filler for Perioperative Infection Prevention in a Rabbit Radial Defect Model

Nearly 1.3 million total joint replacement procedures are performed in the United States annually, with numbers projected to rise exponentially in the coming decades. Although finite infection rates for these procedures remain consistently low, device-related infections represent a significant cause of implant failure, requiring secondary or revision procedures. Revision procedures manifest several-fold higher infection recurrence rates. Importantly, many revision surgeries, infected or not, require bone void fillers to support the host bone and provide a sufficient tissue bed for new hardware placement. Antibiotic-eluting bone void fillers (ABVF), providing both osteoconductive and antimicrobial properties, represent one approach for reducing rates of orthopedic device-related infections. Using a solvent-free, molten-cast process, a polymer-controlled antibiotic-eluting calcium carbonate hydroxyapatite (HAP) ceramic composite BVF (ABVF) was fabricated, characterized, and evaluated in vivo using a bacterial challenge in a rabbit radial defect window model. ABVF loaded with tobramycin eliminated the infectious burden in rabbits challenged with a clinically relevant strain of Staphylococcus aureus (inoculum as high as 10⁷ CFU). Histological, microbiological, and radiographic methods were used to detail the effects of ABVF on microbial challenge to host bone after 8 weeks in vivo. In contrast to the HAP/BVF controls, which provided no antibiotic protection and required euthanasia 3 weeks post-operatively, tobramycin-releasing ABVF animals showed no signs of infection (clinical, microbiological, or radiographic) when euthanized at the 8-week study endpoint. ABVF sites did exhibit fibrous encapsulation around the implant at 8 weeks. Local antibiotic release from ABVF to orthopedic sites requiring bone void fillers eliminated the periprosthetic bacterial challenge in this 8-week in vivo study, confirming previous in vitro results.     

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.     

Identification of the DNA Repair Defects in a Case of Dubowitz Syndrome

Dubowitz Syndrome is an autosomal recessive disorder with a unique set of clinical features including microcephaly and susceptibility to tumor formation. Although more than 140 cases of Dubowitz syndrome have been reported since 1965, the genetic defects of this disease has not been identified. In this study, we systematically analyzed the DNA damage response and repair capability of fibroblasts established from a Dubowitz Syndrome patient. Dubowitz syndrome fibroblasts are hypersensitive to ionizing radiation, bleomycin, and doxorubicin. However, they have relatively normal sensitivities to mitomycin-C, cisplatin, and camptothecin. Dubowitz syndrome fibroblasts also have normal DNA damage signaling and cell cycle checkpoint activations after DNA damage. These data implicate a defect in repair of DNA double strand break (DSB) likely due to defective non-homologous end joining (NHEJ). We further sequenced several genes involved in NHEJ, and identified a pair of novel compound mutations in the DNA Ligase IV gene. Furthermore, expression of wild type DNA ligase IV completely complement the DNA repair defects in Dubowitz syndrome fibroblasts, suggesting that the DNA ligase IV mutation is solely responsible for the DNA repair defects. These data suggests that at least subset of Dubowitz syndrome can be attributed to DNA ligase IV mutations.     

兔在体心脏缺血再灌注模型的制作方法的改进

目的建立兔在体心脏缺血再灌注模型的新方法。方法40只新西兰大白兔随机分为缺血再灌注组（25只）,假手术组（15只）。缺血再灌注组采用＂二线二结＂法结扎心脏左前降支30 min,然后恢复心肌灌注3h;假手术组仅将线从左前降支周围心肌中穿过,但并不结扎。实验中连续描记心电图。两组分别于结扎（穿线）前和再灌注（穿线）后1 h从股静脉取血1 mL测定血清肌钙蛋白。实验结束时取心肌行2,3,5-氯化三苯基四氮唑和苏木精-伊红染色。结果缺血再灌注组心电图存在ST-T的动态演变,再灌注1 h后血清肌钙蛋白浓度明显高于术前（0.47±0.35 vs.0.33±0.31,P=0.002）。两种染色方法均证明存在心肌坏死。结论＂二线二结＂法能够既方便又成功地建立兔在体心脏缺血再灌注模型。