骨折电流疗法的改良

目的:针对电流治疗骨折等疾病时存在的问题,提出相应的改进方法。方法:分析以往使用电流对骨折等疾病进行治疗时存在的电化学副作用、创口易于感染、重复施术不便等问题,提出相应的诸如使用溶液导电、隔离电解物、使电极与创口闭合生长等改进方法;并提出将电流治疗与药物治疗相结合的骨科疾病电流疗法改良方案。结果:将电流与药物相结合治疗骨折等疾病是很有可行性的治疗方法,本法不仅克服了已往疗法存在的一些问题,还为骨伤药物直接进入病患部位提供了有效的平台,使骨折、骨不连等疾病能够快速愈合。今后应加强研究骨折愈合各阶段所需的直接注射药物及其配比。完善电流—药物复合电极使用方法,以便与本法尽快进入临床实践。结论:将电流与药物相结合治疗骨折等疾病是很有可行性的治疗方法。     

骨组织工程基质材料现状及展望

骨组织工程是目前公认的最有可能在临床取得实际效益的研究领域之一,而细胞外基质材料的选取又是骨组织工程的关键。本文从材料的选择,制备方法以及临床应用等方面的研究现状进行了较系统的综述,并对当前基质材料研究所面临的问题以及未来的研究方向进行了分析。     

Proteomics strategy based on liquid-phase IEF and 2-D DIGE: application to bone marrow mesenchymal progenitor cells

Global comparative proteomics is a promising new approach with broad application in basic and clinical biological science. Recent advances include the development of 2-D DIGE, a proteomic equivalent to mRNA differential display, in which differentially labeled samples are multiplexed and analyzed by high-resolution 2-DE. This study presents a new 2-D DIGE protocol, in which complex protein samples from normal and leukemic human bone marrow mesenchymal progenitor cells were used as model samples for a novel combination of liquid-phase IEF with 2-D DIGE. Using liquid-phase IEF, the normal and leukemic cells were pre-fractionated into five subproteomes after multiplexing but prior to DIGE. Under these conditions, 2-D DIGE resolved >5000 protein-containing spots within the pH range 4.6-7.0. Differential labeling combined with subsequent MALDI-MS/MS identified proteins that were differentially expressed in leukemic cells. This analysis mapped protein identities to 128 mesenchymal progenitor cell proteins with at least one unique peptide match at >95% confidence. Of these proteins, 72 (56%) were expressed more than 1.25-fold higher or lower in leukemic cells compared with normal cells (p<0.05). These data were used to infer gene ontology biological processes that may be altered in leukemic bone marrow mesenchymal progenitor cells.     

Modelling external bone adaptation using evolutionary structural optimisation

External remodelling is significant in the bone healing process, and it is essential to predict the bone external shape in the design of artificial bone grafts. This paper demonstrates the effectiveness of the evolutionary structural optimisation (ESO) method for the simulation of bone morphology. A two-dimensional ESO strategy is developed which is capable of finding the modified bone topology beginning with any geometry under any loading conditions. The morphology of bone structure is described by the quantitative bone adaptation theory, which is integrated with the finite element method. The evolutionary topology optimisation process is introduced to find the bone shape. A rectangle, which occupies a larger space than the external shape of the bone structure, is specified as a design domain; the evolutionary process iteratively eliminates and redistributes material throughout the domain to obtain an optimum arrangement of bone materials. The technique has been tested on a wide range of examples. In this paper, the formation of trabecular bone architecture around an implant is studied; as another example, the growth of the coronal section of a vertebral body is predicted. The examples support the assertion that the external shape of bone structure can be successfully predicted by the proposed ESO procedure.     

海藻酸钙对骨质疏松症大鼠骨骼肌SDF-1含量和骨密度的影响

摘要 目的：探讨海藻酸钙对骨质疏松症大鼠骨骼肌基质细胞衍生因子-1（Stromal Cell-derived Factor-1,SDF-1）含量和骨密度的影响。方法：骨质疏松症大鼠（n=48）随机平分为三组-模型组、尼尔雌醇组与海藻酸钙组,在建模后1周后三组分别给予双蒸水、0.1 mg/100 g尼尔雌醇与37.5 mg/mL海藻酸钙/枸杞多糖凝胶微球水溶液灌胃治疗,1 次/d,检测大鼠骨骼肌SDF-1含量和骨密度变化情况。结果：（1）尼尔雌醇组与海藻酸钙组给药第4周与第8周的血清钙离子含量高于模型组（P<0.05）,磷离子含量低于模型组（P<0.05）,尼尔雌醇组与海藻酸钙组对比差异有统计学意义（P<0.05）;（2）尼尔雌醇组与海藻酸钙组给药第4周与第8周的骨骼肌SDF-1含量低于模型组（P<0.05）,海藻酸钙组低于尼尔雌醇组（P<0.05）;（3）尼尔雌醇组与海藻酸钙组给药第4周与第8周的腰椎和股骨骨密度高于模型组（P<0.05）,海藻酸钙组低于尼尔雌醇组（P<0.05）;（4）尼尔雌醇组与海藻酸钙组给药第4周与第8周的股骨最大载荷、最大应力高于模型组(P<0.05),海藻酸钙组高于尼尔雌醇组（P<0.05）;（5）海藻酸钙组造血细胞数量较多,骨皮质结构较完整,致密均匀粗壮,小梁数目明显增多,骨髓腔变小。结论：海藻酸钙在骨质疏松症大鼠的应用能抑制骨骼肌SDF-1的释放,有助于提高骨密度,改善骨生物力学指标,提高血清钙离子含量,降低磷离子含量。     

Opportunities for biomineralization research using multiscale computed X-ray tomography as exemplified by bone imaging

Biominerals typically have complex hierarchical structures traversing many length scales. This makes their structural characterization complicated, since it requires 3D techniques that can probe full specimens at down to nanometer-resolution, a combination that is difficult – if not impossible – to achieve simultaneously. One challenging example is bone, a mineralized tissue with a highly complex architecture that is replete with a network of cells. X-ray computed tomography techniques enable multiscale structural characterization through the combination of various equipment and emerge as promising tools for characterizing biominerals. Using bone as an example, we discuss how combining different X-ray imaging instruments allow characterizing bone structures from the nano- to the organ-scale. In particular, we compare and contrast human and rodent bone, emphasize the importance of the osteocyte lacuno-canalicular network in bone, and finally illustrate how combining synchrotron X-ray imaging with laboratory instrumentation for computed tomography is especially helpful for multiscale characterization of biominerals.     

Effects of a tongue training program in Parkinson's disease: Analysis of electrical activity and strength of suprahyoid muscles

ObjectiveTo assess the electrical activity of the suprahyoid muscle and the tongue pressure in a two-wing program of tongue strengthening in individuals with Parkinson's disease (PD).MethodsA pre-post-detraining design study included sixty PD patients assigned to two groups randomly. The experimental group (EG) performed tongue isometric pressure exercises using the Iowa Oral Performance Instrument with an increasing scheme of 5% load weekly and traditional tongue therapy for 8 weeks. The control group (CG) performed only traditional therapy. The electrical activity of suprahyoids was measured using surface electromyography (sEMG) during tongue-to-palate pressure. Four selected domains of the Swallowing Quality of Life Questionnaire (SWAL-QOL) mostly related to tongue strength were considered.ResultsThe experimental group showed increased sEMG values of suprahyoid muscles reaching statistically significant difference at the fourth week of tongue training, while the control did it at the eighth week. Experimental group showed significant improvements in tongue strength (d = 2.128; p = 0.000). Only controls showed detraining effect. Statistically significant difference within groups were found in one and three dimensions of the SWAL-QOL in the CG and EG, respectively.ConclusionAnalysis of electrical activity on suprahyoids muscles provided a better understanding of the changes underlying the outcomes of tongue strength gains obtained through a combined tongue strengthening exercises protocol in PD. Such protocol led not only to increased tongue strength but also to a better perceived swallowing function in PD subjects.     

Computational analysis of glenohumeral joint growth and morphology following a brachial plexus birth injury

Children affected with brachial plexus birth injury (BPBI) undergo muscle paralysis. About 33% of affected children experience permanent osseous deformities of the glenohumeral joint. Recent evidence suggests that some cases experience restricted muscle longitudinal growth in addition to paralysis and reduced range of motion at the shoulder and elbow. It is unknown whether altered loading due to paralysis, muscle growth restriction and contracture, or static loading due to disuse is the primary driver of joint deformity after BPBI. This study uses a computational framework integrating finite element analysis and musculoskeletal modeling to examine the mechanical factors contributing to changes in bone growth and morphometry following BPBI. Simulations of 8 weeks of glenohumeral growth in a rat model of BPBI predicted that static loading of the joint is primarily responsible for joint deformation consistent with experimental measures of bone morphology, whereas dynamic loads resulted in normal bone growth. Under dynamic loading, glenoid version angle (GVA), glenoid inclination angle (GIA), and glenoid radius of curvature (GRC) (−1.3°, 38.2°, 2.5 mm respectively) were similar to the baseline values (−1.8°, −38°, 2.1 mm respectively). In the static case with unrestricted muscle growth, these measures increased in magnitude (5.2°, −48°, 3.5 mm respectively). More severe joint deformations were observed in GIA and GRC when muscle growth was restricted (GVA: 3.6°, GIA: −55°, GRC: 4.0 mm). Predicted morphology was consistent with literature reports of in vivo glenoid morphology following postganglionic BPBI. This growth model provides a framework for understanding the most influential mechanical factors driving glenohumeral deformity following BPBI.     

Modification of the bone marrow MSC population in a xenograft model of early multiple myeloma

Multiple myeloma (MM) is a hematological malignancy characterized by clonal proliferation of abnormal plasma cells. MM dysregulates the homeostasis of the bone niche cells like osteoclasts and osteoblasts, responsible for the bone maintenance leading to bone loss and hypercalcemia, as well as the normal immune cells leading to immunodeficiency and anemia. Osteoblasts are part of the cell population differentiating from mesenchymal stem cells (MSC). MSC also gives rise to other cell types such as adipocytes and chondrocytes. It has been observed that adipocytes support MM growth by increasing its survival and chemo-resistance. As adipocytes originate from MSC, the understanding of early modifications in the MSC population during the disease progression is of paramount importance and may help for early diagnosis of MM. Herein, we have evaluated the modification of the MSC population in the bone niche in an in vivo model of MM. Our results showed that before an observable engraftment of MM in the bone niche, the proportion of MSC population is significantly decreased, while a significant increase in adipocyte related genes such as PPARγ and CEBPα expression appears, with no difference in osteogenic differentiation. These results suggest that the bone niche is switching to a “fatty” marrow which would create an adequate microenvironment for MM. This led us to screen for and identify modulated adipokines in the sera of this in vivo MM-mice model. Such changes could reflect early signs of MM and potentially be exploited as detection biomarkers of the disease.     

Local cryostimulation acutely preserves maximum isometric handgrip strength following fatigue in young women

Several types of cryostimulation have been recently proposed to rapidly lower skin temperature therefore gaining a possible neuro/muscular recovery after strenuous exercise or, more generally, in sports. Local cryostimulation may be a viable and relatively portable tool to obtain physiological benefits in previously-efforted muscular districts. However, cohesive and standardized cryo-exposure protocols are lacking as well as the righteous procedure to efficaciously combine duration, treatments and temperature in relation to desirable effects on muscular strength. In this randomized-controlled study, fifty young women were tested for maximum isometric handgrip strength, before and after exhausting contractions.Following the fatiguing protocol, the intervention group (cryo, n = 25, 24.7 ± 2.5 years, BMI 21.7 ± 1.8 kg/m²) underwent a 6-min local cryostimulation (−160 °C) on the extensor-flexor muscles of the dominant arm, while control-matched peers sat rested in a thermo-neutral room (22 ± 0.5 °C). Handgrip tests were repeated at baseline (T0), after cryostimulation (T1), and 15 min after T1 (T2). Throughout the protocol, the AUC of the strength performance was significantly higher in the cryo- compared to control group (P = 0.006). In particular, following fatigue and cryostimulation, the cryo group preserved higher strength at T1 with respect to controls (26.8 ± 2.8 vs 23.9 ± 2.8 kg, Bonferroni's post-hoc, P < 0.01). Likewise, ventral and dorsal temperature, recorded with a thermal camera, were lower in cryo- than control group (P < 0.0001).In conclusion, a brief session of local cryostimulation may acutely preserve maximal isometric force in young women following a fatiguing protocol. These findings may have implications in orchestrating strategies of district muscular recovery.