BACKGROUND:How to repair bone defect has been a clinical problem for a long time.The effective ingredients of traditional Chinese medicine have good biological activity and therapeutic effect,and the combination of effective ingredients of traditional Chinese medicine and tissue engineering materials has a broad prospect in the field of bone repair.The combination of different effective ingredients of traditional Chinese medicine and scaffolds has similarities in their functional relationships. OBJECTIVE:To collect the cases of the combinations of effective ingredients of traditional Chinese medicine and scaffolds,then analogize tissue engineering scaffolds and effective ingredients of traditional Chinese medicine into two types of traditional Chinese medicine that generate compatibility relationships based on the inspiration of the compatibility of seven emotions and summarize the relationship between the two based on their functional relationships. METHODS:Relevant articles from January 1998 to January 2024 were searched in PubMed and China National Knowledge Infrastructure(CNKI),using English search terms"traditional Chinese medicine,Chinese medicine,traditional Chinese medicine monomers,bone defect,bone repair,bone tissue engineering,tissue engineering,scaffold"and Chinese search terms"traditional Chinese medicine,effective ingredients of traditional Chinese medicine,traditional Chinese medicine monomers,bone tissue engineering,bone tissue engineering scaffold,scaffold,tissue engineering,bone defect,bone repair."A total of 88 articles were included for review and analysis. RESULTS AND CONCLUSION:(1)Both tissue engineering scaffold materials and active ingredients of traditional Chinese medicine have been widely used in the field of bone repair.Although they have obvious advantages in osteogenesis,there are still many shortcomings.Many studies are dedicated to preparing composite materials from the two,hoping to exert a detoxification and synergism through the interaction between the two.(2)Some drugs and materials can promote each other in osteogenesis,antibacterial,and promoting angiogenesis,enhancing their original effects.Inspired by the traditional concept of prescription compatibility,this article summarized it as a"Mutual promotion"relationship and provided examples to support it.(3)Some drugs can enhance the strength of materials,while some materials can achieve sustained release and controlled release effects,increase drug loading and stability,or achieve targeted delivery of drugs loaded on them.The article summarized this unilateral enhancement effect as a"Mutual assistance"relationship.(4)The combination of some traditional Chinese medicine and materials can reduce the toxic side effects of the other party.The article summarizes this detoxification relationship as"Mutual restraint and detoxification."(5)The article provided a new perspective on traditional Chinese medicine composite scaffolds,inspired by the seven emotions compatibility relationship and based on the classification of action relationships.It introduced traditional Chinese medicine concepts into the field of tissue engineering,providing new research ideas for subsequent researchers of composite scaffolds,and providing certain convenience in material selection and matching.

BACKGROUND:At present, finite element analysis technology can set up the model, predict diagnosis, treatment design, as wel as surgical plan, and can be used in the treatment of necrosis of femoral head. OBJECTIVE:To sum and discuss recent progress in clinical and experimental research regarding biomechanical study in osteonecrosis of femoral head by using finite element analysis. METHODS:A computer-based retrieval was performed by the authors (Hong Guo-ju and Zhou Guang-quan) in PubMed, Google, SpringerLink, ChinaNational Knowledge Infrastructure databases for literatures published from January 2010 to December 2015. The key words were“(finite element analysis OR finite element) AND (osteonecrosis OR osteonecrosis of femoral head)”. Inclusive criteria:studies with contents closely related to this paper;original papers with reliable topics and evidence;or papers with clear points and al-round analysis and both studies in vitro and in vivo. RESULTS AND CONCLUSION:A total of 27 studies were included. The articles in the latest five years related to femoral head osteonecrosis and finite element analysis application were concentrated on. We summarized the latest research progress and problems, including the applied research carried out in the femoral head osteonecrosis clinical cases, innovational skil s, so as to point out the direction of future research in the finite element analysis.

Objective To investigate CT and MRI findings of giant cell tumors of the temporal bone(GCTTB).Methods CT and MRI features of 5 cases pathologically proven GCTTB were retrospectively reviewed.The lesion characteristics,including location, size,shape,margin,attenuation on CT scans,signal intensity on MR images,and enhancement pattern were documented and analyzed.Results In all 5 patients,the lesions were located adj acent to the mandibular fossa.These lesions were round or oval in shape,predominantly demonstrated as expansive lytic bone destruction containing hyperattenuating septa,calcifications,non-sclerotic borders,and discontinuous bony shells,with“boundary angle”sign.No soft tissue masses were found around the lesions.These lesions with different content demonstrated various MRI signal intensity,and the solid component enhanced intensely.Conclusion GCTTB is rare.Features such as expansive growing pattern,discontinuous bony shell,intralesional septa,calcification,and “boundary angle”sign are common,which may help in the radiographic diagnosis of giant cell tumor.

Objective To investigate the early diagnosis value of MR by detecting spinal inflammatory lesions in ankylosing spon-dylitis (AS).Methods Forty patients were involved in this study,including 20 cases with short inflammatory back pain (IBP)histo-ry (duration ≤18 months)and 20 cases with long IBP history (duration ≥24 months).MR images were analyzed retrospectively. Results Patients with a short history of IBP had 7 lesions in vertebral bodies (anterior/posterior spondylitis and spondylodiscitis) and 33 lesions in posterior spinal structures (arthritis of costovertebral joints,costotransversal joints,zygapophyseal joints and en-thesitis of spinal ligaments).Patients with a long history of IBP had 27 lesions in vertebral bodies and 24 lesions in posterior spinal structures.Patients with a short history of IBP had significantly more lesions in posterior spinal structures than in vertebral bodies with 82.5% (33/40)vs 1 7.5% (7/40),respectively (P <0.01).In contrast,patients with a long history of IBP had significantly more inflammation in vertebral bodies with 79.4% (27/34)vs 20.6% (7/34),respectively (P <0.01).Conclusion Inflammatory spinal lesions in patients with a short history of IBP are seen more often in the posterior structures.Early detection of inflammatory spinal lesions by MRI is useful for early diagnosis of AS.

Objective To prepare dual?modality single?photon emission computed tomography (SPECT)?MRI molecular nanoprobes targeting HAb18G/CD147 expressed on breast cancer cell membranes and investigate the physicochemical and biological properties in vitro. Methods Superparamagnetic iron oxide nanoparticles (SPIOs) were prepared by one?pot reaction method as described. The single?chain antibody fragments HAb18F(ab')2 were conjugated to SPIOs via chemical method and then labeled with 125I using Iodogen method. The final 125I?SPIO?HAbF18(ab')2 nanoprobes were purified. SPIOs or 125I?HAb18F(ab')2 were used as control. We carried preliminary evaluation on their physicochemical properties and biological characteristics in vitro: transmission electron microscope (TEM) and dynamic light scattering (DLS) were used to measure these nanoparticle sizes and the hydrodynamic diameters. The MRI T2 transverse relaxation efficiency of these nanoprobes at different Fe2+concentrations were measured with 1.5 T clinical MR scanner. The 125I?SPIO?HAb18F(ab')2 and 125I?HAb18F(ab')2 radiochemical purity were measured by thin layer chromatography and the radio chemical yield was calculated. We also conducted stability tests in vitro and octanol/water partition coefficient experiments. Two breast tumor cell lines, MDA?MB?231 (HAb18G?overexpressing cells,experimental group) and MDA?MB?468 (control), were used for assessment of cells viability at different Fe2 + concentrations (1, 5, 10, 20, 40 μg/ml) by methyl thiazolyl tetrazolium assay. Specific binding experiments in vitro included two parts:magnetic resonance imaging and radionuclide tests, the above?mentioned breast cancer cell lines were incubated with 125I?SPIO?HAb18F(ab')2 nanoprobes respectively and took MDA?MB?231 cells which were not treated as blank group. First comparing the MR signal intensity differences among experimental group, the control group and blank group, then calculated the rate of MRI signal changes;Two breast tumor cell lines, MDA?MB?231 and MDA?MB?468 were incubated with 125I?SPIO?HAb18F(ab')2 nanoprobes too, then measured radioactivity counting byγcounter at different time and calculated the cell binding rates, and did statistical analysis by using one?way ANOVA. Results The SPIOs were fairly homogeneous with an average core size of (10.32±1.30) nm;the SPIO and 125I?SPIO?HAb18F(ab')2 hydrodynamic diameter of 44.80 and 52.64 nm, and MRI scanning showed that the transverse relaxation efficiency of SPIO and 125I?SPIO?HAb18F(ab')2 were 38.79 and 106.73 mM-1 · s-1, respectively. The radio chemical yield of 125I?SPIO?HAbF18(ab')2 and 125I?HAb18F(ab')2 were 41.90% and 85.50%, respectively. The radio chemical yield of the two groups were >95%, suggesting well stability in vitro. The lipo?hydro partition coefficient values were -0.99 ± 0.03 and-1.49 ± 0.08, respectively, which demonstrated that they were both water?soluble substances. Different Fe2+concentrations (1,5,10,20,40μg/ml) of 125I?SPIO?HAb18F(ab')2 on breast cancer cell lines MDA?MB?231 and MDA?MB?468 showed no significant inhibition of cell proliferation (F values were 0.78, 0.66; P values were 0.58, 0.66). The cell?specific binding experiment showed: MRI signal intensity values on experimental group, the control group and the blank group were (1 670 ± 5), (1 930 ± 8), (2 349 ± 14), respectively, significant differences existed among these groups (F=4 408.48,P=0.000), the rate of signal intensity change of experimental group and the control group were 28.87%,17.78%. SPECT:MDA?MB?231 could uptake 125I?SPIO?HAb18F(ab')2, the cell binding rates were (6.52 ± 0.60)% and (10.52 ± 2.04)% in 20 min and 4 h, respectively.Conclusions Our results suggested that the dual?modality SPECT?MRI nanoprobes 125I?SPIO?HAb18F(ab')2 were prepared successfully with good physicochemical properties and biological characteristics in vitro. These dual?modality molecular imaging nano?probes may have potential to improvearly detection and diagnosis of HAb18G/CD147?expressing cancers and to facilitate the development of HAb18G/CD147?directed interventions.

Objective To evaluate the treatment of acute cholecystitis patients through laparoscopic cholecystectomy (LC). Methods 387 cases of acute cholecystitis patients who underwent LC were studied retrospectively . Results Of the 387 cases, there were 359 cases of calculus incarcerated cholecystitis , 152 cases of cholecystitis with acute inflammatory symptoms for 72 h or more, 10 cases were converted to Laparotomy (2.6%).The operations lasted for 30~200 min(63.09 ±26.62 min on average),with blood loss about 10~500 mL(51.41 ±32.41 mL on average),and drainage was adopted in 183 cases.No complications developed fol-lowing the surgeries in 3 to 24 months, indicating a 100% cure rate. Conclusion If with good command of rules and techniques during LC operations , It is both safe and feasible to treat acute cholecystitis patients through LC operations .

Objective To develop an MR optical dual-modality probe targeting angiogenesis of gastric cancer and to study its physical characteristics , in vitro cytotoxicity and magnetic effects of different pulse sequences on 3 T clinical MR scanner.Methods We conjugated GX1-Cy5.5, a novel gastric cancer neo-vasculature targeted peptide labeled with Cy 5.5, to the surface functionalized magnetic nanoparticles according to different molecular weights (1∶100, 1∶500),resulting in dual-modality probe DPs100 and DPs500 (named DPs).The hydrodynamic size and zeta potential of DPs and DPs 500 were analyzed by nano-ZS.The human umbilical vein endothelial cells (HUVECs) and BGC-823 cells were treated with DPs for 24 h, and methyl thiazol tetrazolium ( MTT) method was used to detect the survival rate of cells.DPs with different concentrations were scanned on different MR sequences , and then the relative signal intensity was observed.The absorbance of HUVECs and BGC823 cells treated with DPs of different concentration (0.00, 1.25, 2.50, 15.00, 50.00, 100.00 and 150.00 μg/ml) were compared with single factor analysis of variance.Relative signal intensity of different MR sequences was compared using a paired Wilcoxon signed-rank test.Results The dual-modality probe targeting angiogenesis of gastric cancer was successfully constructed.The hydrodynamic size of iron oxide nanoparticles , DPs100 and DPs500 was (35.23 ±0.07), (39.49 ±0.16) and (40.43 ±1.70) nm and the Zeta potential was (0.31 ±0.20), ( -4.15 ±0.79) and ( -10.51 ± 2.37) mV.The coupled rates of DPs 100 and DPs500 with polypeptide were 92%and 94% respectively.The absorbance of HUVECs and BGC823 cells treated with DPs of different concentrations were 0.76 ±0.04, 0.80 ±0.03, 0.79 ±0.05, 0.75 ±0.06, 0.74 ±0.05, 0.77 ±0.01,0.71 ±0.04 and 0.38 ±0.04, 0.43 ±0.04, 0.41 ±0.03, 0.43 ±0.07, 0.44 ±0.04, 0.41 ±0.07 and 0.40 ±0.04, there was no statistical significance ( F=0.94, 0.51;P>0.05).The signal intensity increased first and then decreased following the increasing concentrations of DPs on T 1WI,especially on FSPGR T1WI (Z =-3.294,P <0.05), while the signal intensity decreased on T2WI or T2*WI.There was no significant differences in signal intensity on FSE T2 WI and SSFSE T2*WI with iron concentration >10μg/ml( Z=-7.110,P>0.05).With iron concentration≤10 μg/ml,the signal intensity on SSFSE T 2*WI was significantly decreased compared to FSE T2 WI ( Z =-2.023, P <0.05 ) .Conclusions DPs may be potential dual-modal probes for characterization of tumor angiogenesis by MR and optical imaging noninvasively , without causing significant effects on the cell activity in vitro , and SSFSE T2*WI may be the most sensitive sequence for DPs evaluation on MR.

The model of knee OA (KOA) was established in our laboratory with three-dimensional (3D) reconstruction technique based on the CT data. We then designed the unicompartmental prosthesis matching KOA model with parametric software Pro/e 5. 0. Finally, the models were used to mimic the operation of knee unicompantment replacement and the model of unicompartmental knee athroplasty (UKA) was analyzed using 3D finite element method. The results indicates that the approach for designing the model by 3D parametric is effective and meets the need of automation and efficacy to design unicompartmental prosthesis. The results proves that the model is vivid and precise, and the 3D parameteric modeling method can provide biomechanical research of unicompantment replacement with model foundation and new experimental method. It can be widely utilized in the clinics and research.
Algorithms ; Arthroplasty, Replacement, Knee ; methods ; Computer-Aided Design ; Finite Element Analysis ; Humans ; Imaging, Three-Dimensional ; methods ; Knee Joint ; diagnostic imaging ; surgery ; Knee Prosthesis ; Prosthesis Design ; Tomography, X-Ray Computed

Objective To study the surgical strategies and techniques for the correction of congenital kyphoscoliosis with hemivertebra and evaluate the surgical results. Methods From June 2010 to June 2011,there were 6 congenital kyphoscoliostic patients with fully segmented hemivertebra were undergone hemivertebra resection through posterior approach, which included 4 males and 2 females with an average age of 15.7 years. The average Cobb angle of scoliosis was 73.4° (range, 52°~87°), the average Cobb angle of segmental kyphosis was 67.4° (range, 43°~89°) . The highest level of hemivertebrae was T9 and the lowest was L2. The surgical strategies were designed as followed:For the 2 cases without structural compensative curve, the posterior hemiverte-brae resection and short segmental internal fixation were performed. For the 4 cases with structural compensative curve, whose Risser signs were classified into 2-5, the hemivertebrae resection and long segmental internal fixa-tion were performed, and the compensative curve was included in the instrumentation level. Results The opera-tion time was 2.5~4.0 h (average,3.5 hours), the blood loss was 700-2 000 mL (mean,1 367 mL) . Numb-ness happened in one lower extremity postoperatively in 1 patient, and the symptom released in 1 month. The aver-age postoperative Cobb angle in coronal plane was 21.4° (11°~28°) with a correction rate of 67.9%. The aver-age postoperative Cobb angle in sagittal plane was 17.8° (12°~35°) with a correction rate of 75.2%. The fol-low-up period was from 26 months to 36 months (average, 26 months),no pseudoarthrosis,and obvious correc-tion loss either in coronal or sagittal plane was noted. Conclusion Hemivertebra resection and individualized oper-ation way has a good capability of correcting congenital kyphoscoliosis caused by hemivertebra.

This paper is aimed to acquire high Geometric similar Subject-specific three-dimensional (3D) finite element mesh model of hip joint containing necrotic femoral head according to individual patient's X-ray, CT and MRI by using the image registration and fusion technology. We selected a middle-aged female patient with osteonecrosis of femoral head, obtained the X-ray, CT and MRI images respectively. Then we established 3D solid model separately based on these image data by using Mimics 13. 1 and Pro/E 5.1 software. We confirmed the match points and then proceed the 2D image registration after image projection conversion. Finally we showed the 3D finite element mesh model. A highly geometric similar subject-specific 3D finite element mesh model for osteonecrosis of femoral head has been established, which included normal cortical bone, cancellous bone, articular cartilage and necrotic zone, fractured trabecular bone within the femoral head. The model truly reflects the morphological characteristics and relationship of hip joint with osteonecrosis of femoral head, provides a relatively ideal research platform for further biomechanical analysis and surgical simulation.
Female ; Femur Head Necrosis ; diagnostic imaging ; pathology ; Finite Element Analysis ; Humans ; Image Processing, Computer-Assisted ; methods ; Imaging, Three-Dimensional ; Magnetic Resonance Imaging ; Middle Aged ; Models, Anatomic ; Tomography, X-Ray Computed