1.The Application of Puncture Biopsy under Ultrasound Guidance in Diagnosis of Bone Tumor
Yingzhi LI ; Zhongli GAO ; Hui WANG ; Jianlin ZUO ; Xuehui WANG
Journal of Practical Radiology 2001;0(07):-
Objective To identify the application of puncture biopsy under ultrasound guidance in diagnosis of bone tumor.Methods The results of ultrasonic puncture biopsy were comparatively analysed with that of imaging diagnosis and postoperative-pathological diagnosis in 17 patients with bone tumors.Results The giant cell tumor of bone were diagnosed by puncture biopsy in 8 cases,by imaging in 12 cases and by pathology,postoperation in 9 cases,the corresponding rate was 66.7% and 88.9% respectively.Bone cyst in 2 cases,fibrous dysplasia in 2 cases,metastasis from lung carcinoma in one case,osteosarcoma in 2 cases were confirmed by both pathology and puncture biopsy.The aneurysmal bone cyst in one case was diagnosed by imaging,but no blood-like fluid was harvested in puncture,one case of metastasis in proximal femur,one case of fibrous dysplasia and one case of osteosarcoma were diagnosed by imaging,while one case,2 cases and one case diagnosed by puncture respectively.One case of bone cyst was confirmed by imaging,puncture biopsy and pathology.Conclusion The puncture biopsy under ultrasound guidance is of high diagnostic rate in bone tumors,it is a good choice for the diagnosis of bone tumor.
2.Fibrin glue,a three-dimensional scaffold for rabbit bone marrow stromal cells cultured in vitro
Han WU ; Chunqiu ZHANG ; Jingchun SUN ; Changyue GU ; Jianlin ZUO
Chinese Journal of Tissue Engineering Research 2009;13(21):4089-4092
BACKGROUND: In tissue engineering, three-dimensional biodegradable scaffolds are generally used as a basic structure for cell anchorage, proliferation. Currently, no perfect scaffold is available. OBJECTIVE: To observe the growth of rabbit bone marrow stromal cells (BMSCs) cultured in different-intensity three-dimensional fibrin glue in vitro, and to discuss the feasibility of fibrin glue used as a scaffold material of bone tissue engineering. DESIGN, TIME AND SETTING: The single sample observational study was performed at the China-Japan Union Hospital of Jilin University and School of Mechanical Engineering of Tianjin University of Technology from September 2007 to January 2008. MATERIALS: Fibrinogen and thrombin were mixed at various proportions, and prepared into different intensity fibrin glue. A month-old male New Zealand white rabbits, weighing 0.25 kg was used in this study. METHODS: Rabbit BMSCs were cultured and serial subcultivation in a CO2 incubator. And then the amplified BMSCs were collected and continue to be cultured in different intensity fibrin glue for 4 weeks. MAIN OUTCOME MEASURES:Observation of growing BMSCs is performed using the phase contrast microscope. The activity of BMSCs in fibrin glue at different stages was observed using hematoxylin-eosin staining. The ultrastructural changes of BMSCs were observed which had been cultivated in fibrin glue for 4 weeks. RESULTS: After growing in fibrin glue for 4 weeks, BMSCs showed strongly active status in low intensity fibrin glue and growing slowly or dying in high intensity fibrin glue. Under the electron microscope, BMSCs following 4 weeks culture in fibrin glue (proportation of fibrinogen and thrombin was 4:1) were found, with visible cellular organs, and BMSCs had good activities. CONCLUSION: BMSCs can spread and proliferate quickly in low intensity fibrin glue. The optimal proportion of fibrinogen and thrombin is 4: 1.
3.Marrow stromal cells cultured in a composite scaffold of fibrin glue and xenogeneic inorganic bone
Han WU ; Jincheng WANG ; Chunqiu ZHANG ; Jingchun SUN ; Jianlin ZUO
Chinese Journal of Tissue Engineering Research 2009;13(16):3016-3019
BACKGROUND: A superior composite scaffold hopes be constructed to resolve adhesion between seed cell and scaffoldmaterial.OBJECTIVE: To construct composite scaffolds with fibrin glue and xenogeneic inorganic bone and to explore the three-dimensional culture of rabbit marrow stromal cells (MSCs).DESIGN, TIME AND SETTING: Observational experiment was performed at the Department of Orthopedics of China-Japan Union Hospital and the Department of Mechanical Engineering, College of Mechanical Engineering of Jilin University from November 2007 to March 2008.MATERIALS: Fibrin glue was made by a certain ratio of fibrinogen and thrombin; bovine cancellous bone following defatting and deproteinization was mixed with fibrin glue to establish composite scaffold.METHODS: Rabbit MSCs were cultured in v#ro and transferred, and the MSCs were collected for three-dimensional culture withcombined scaffolds made of xenogeneic inorganic bone and fibrin glue.MAIN OUTCOME MEASURES: The growth and proliferation of MSCs were examined by phase-contrast microscope andtransmission electron microscopy.RESULTS: Phase contrast microscope showed that the MSCs could spread evenly in the combined scaffolds. After cultured 4 weeks, the MSCs formed into densely three-dimensional net. It could be observed under the transmission electron microscopethat there were micro-protrusions in local stromal cells at 4 weeks after culture, and the mitochondrion as well as ribosomes wasobserved in the cytoplasm with rough endoplasmic reticulum.CONCLUSION: The MSCs cultured in the combination of fibrin glue and xenogeneic inorganic bone scaffolds show a betteractivity, and they can proliferate rapidly.
4.Three dimensional reconstruction and measurement of the proximal femur in adult developmental dysplasia of the hip.
Shuanglu LIU ; Lanbo LIU ; Jianlin ZUO ; Jianlin XIAO ; Yuhui YANG ; Zhongli GAO
Chinese Journal of Surgery 2016;54(4):264-269
OBJECTIVETo investigate characteristics and the differences of the anatomical parameters of the proximal femur of the developmental dysplasia of the hip (DDH).
METHODSA total of 38 patients(47 hips) diagnosed as DDH with CT scan data and the pelvis radiograph from January 2012 to December 2014 in China-Japan Union Hospital of Jilin University were retrospectively analyzed. All the hips were divided into 3 groups according to Crowe classification method. Thirty normal hips were selected as controls who admitted at the same time. CT data of the patients were imported into Mimics 17.0. The three-dimensional models of the proximal femur were then reconstructed, and the following parameters were measured: neck-shaft angle, neck length, offset, height of the centre of femoral head, height of the isthmus, height of greater trochanter, the medullary canal diameter of isthmus (Di), the medullary canal diameter 10 mm above the apex of the lesser trochanter (DT+ 10), the medullary canal diameter 20 mm below the apex of the lesser trochanter (DT-20), and then DT+ 10/Di, DT-20/Di and DT+ 10/DT-20 were calculated.Variance discrepancy analysis was used to compare the difference among the four groups, and LSD method was used to compare the difference between either two groups.
RESULTSThe parameters of neck-shaft angle of DDH with Crowe I, Crowe II-III, Crowe IV and the control group were (131.8°±7.1°), (131.7°±6.5°), (122.8°±11.4°) and (131.8°±5.9°), respectively; the parameters of neck-shaft angle of DDH with Crowe IV was smaller than that of DDH with Crowe I, Crowe II-III and control group (all P<0.05). The parameters of the neck length of DDH with Crowe IV ((44.6±6.6) mm) was smaller than that of DDH with Crowe I ((48.6±6.7) mm), Crowe II-III ((50.4±4.7) mm) (all P<0.05). There is no statistic difference in the offset among the groups (F=2.392, P>0.05). The parameters of the height of greater trochanter of DDH with Crowe IV ((12.1±6.1) mm) was bigger than that of DDH with Crowe I ((8.9±7.2) mm), Crowe II-III ((7.5±3.3) mm) and control group ((6.1±3.9) mm) (all P<0.05). The parameters of the height of the centre of femoral head of DDH with Crowe I, Crowe II-III, Crowe IV were (39.6±6.5) mm, (39.1±4.2) mm, (38.8±8.6) mm, which were smaller than that of the control group ((46.5±6.2) mm) (all P<0.05). The parameters of Di of DDH with Crowe I, Crowe II-III, Crowe IV and the control group were (9.9±2.2) mm, (8.3±1.8) mm, (8.7±1.7) mm and (10.1±1.4) mm; the parameters of Di of DDH with Crowe II-III and Crowe IV were smaller than that of the control group (all P<0.05). The parameters of DT+ 10 ((17.2±5.3) mm) and DT-20 ((12.2±3.0) mm) of DDH with Crowe IV were smaller than that of DDH with Crowe I ((25.2±3.4) mm, (17.1±2.3) mm) and Crowe II-III ((21.9±4.2) mm, (16.3±3.2) mm) (all P<0.05). The parameter of the height of the isthmus of DDH with Crowe IV ((94.1±19.7) mm) was smaller than that of DDH with Crowe I ((106.2±13.8) mm), Crowe II-III ((108.8±10.5) mm) and control group ((116.5±10.6) mm), respectively (P=0.010, 0.008, 0.000). The parameters of DT+ 10/Di (2.0±0.4) and DT-20/Di (1.4±0.2) of DDH with Crowe IV were smaller than that of DDH with Crowe I (2.6±0.5, 1.8±0.3), Crowe II-III (2.7±0.60, 1.9±0.3) (all P<0.05).
CONCLUSIONSComparing to DDH with Crowe I-III and control group, DDH with Crowe IV has a dramatic change in the intramedullary and extramedullary parameters. The isthmus and the great trochanter are higher and there is apparent narrowing of the medullary canal around the level of the lesser trochanter.
Adult ; Analysis of Variance ; Case-Control Studies ; Femur ; abnormalities ; diagnostic imaging ; Hip Dislocation, Congenital ; classification ; diagnostic imaging ; Hip Joint ; diagnostic imaging ; Humans ; Retrospective Studies ; Tomography, X-Ray Computed
5.An anatomic study of glenoid regarding anchor insertion posion and direction.
Shengqun WANG ; Jiayin WANG ; Changyue GU ; Jianlin ZUO
Chinese Journal of Surgery 2015;53(2):90-94
OBJECTIVETo investigate normal bony anatomy of the glenoid rim, to measure inner glenoid rim angle and outer glenoid rim angle, and the angles for successful anchor insertion for arthroscopic labral repairs.
METHODSTwelve unpaired isolated human glenoids (6 right, 6 left) without any evidence of trauma were for studying. The glenoid specimens were scanned using 320-slice CT (Aquilion ONE), then reconstruction glenoid to a three dimensional model using materialise's interactive medical image control system (Mimics) and to obtain cross-sectional images in 6 different planes, mark the right glenoid rim with clockwise tag, the left with counterclockwise tag. Inner glenoid rim angle marked as angle α and outer glenoid rim angle marked as angle β were measured from the cross-sectional images of the glenoids at 8 positions: 2-, 3-, 4-, 5-, 6-, 7-, 8- and 9-o'clock positions. Glenoid morphology was noted for each position. Using 12 mm as radius, measured the minimum insertion angle of anchor, marked as angle γ. Normal distribution of the data was confirmed with Kolmogorov-Smirnov test. Paired t-test was performed to detect differences in the angles between two locations. Two independent samples t-test was performed to detect differences in the angles between same location of left and right. Analysis of variance (ANOVA) was performed to detect differences in the angles between right and left, and different locations of the glenoid rim.
RESULTSThe smallest α was at the 4-o'clock position (right 50° ± 6°, left 52° ± 9°), significant difference were seen when compared with the 6-o'clock position (t = 10.466, P = 0.000) or the 5-o'clock position (t = 3.754, P = 0.003), no significant difference exist between 4-o'clock position and 3-o'clock posion (t = 0.926, P = 0.374). The smallest β was at the 3-o'clock position (right 50° ± 6°, left 53° ± 10°), significant difference were seen when compared with the 6-o'clock position (t = 9.862, P = 0.000) or the 5-o'clock position (t = 3.634, P = 0.003), no significant difference exist between 4-o'clock position and 3-o'clock posion (t = 0.697, P = 0.501). Asymmetric morphology of the glenoid was noted with an almost straight line extending medially from the rim at the 3-o'clock position, whereas a concave morthology was noted at the 9-o'clock position. Similary at the 4- and 5-o'clock position, the scapular bony surface did not curve toward the base as markedly as it did at the corresponding posterior 8- and 7-o'clock position. Angle γ from the 3-o'clock to the 9-o'clock were 25° ± 4°, 54° ± 6°, 83° ± 4°, 119° ± 2° at right side, 23° ± 4°, 57° ± 4°, 89° ± 7°, 119° ± 4° at left side. No significant difference of any angle at the same position was noted between left and right (α:t = 0.283-1.785, P > 0.05;β:t = 0.369-2.067, P > 0.05;γ:t = 0.145-0.492, P > 0.05).
CONCLUSIONSThe available bone mass for the anchor insertion is found to vary depending on the position of the glenoid rim. The smallest inner and outer glenoid rim angle are at the 4- and 3-o'clock position. The minimum insertion angles of anchor differ at different position. Both rim angle and glenoid morthology for each position must be considered when selecting the ideal anchor insertion angle for Bankart repair. Meanwhile, minimum insertion angle of anchor should also be considered before anchor insertion.
Cross-Sectional Studies ; Glenoid Cavity ; Humans ; Image Processing, Computer-Assisted ; Reconstructive Surgical Procedures ; Wound Healing
6.Discussion on delicacy management model of medical scientific research in traditional Chinese medicine hospital
Fajiang MAO ; Ling ZUO ; Wenyan SHI ; Jianlin REN
Chinese Journal of Medical Science Research Management 2018;31(4):316-319
Objective To analyze the experience of scientific research management in a Traditional Chinese medicine (TCM) hospitals.Methods We systematically summarized the experience of existing practices and established a TCM scientific research delicacy management model including project process management,funds management,personnel evaluation,institutional construction and output transfer.Results The scientific research management model was suitable for the hospital development,in accordance with daily medical and teaching practice.Conclusions Scientific research ability had gradually become an important indicator of TCM hospital evaluation.This management model could provide reference for related issues.
7.Problems and suggestions about traditional chinese medicine hospital scientific research management under the new situation
Fajiang MAO ; Ling ZUO ; Wenyan SHI ; Jianlin REN ; Jing CUI
Chinese Journal of Medical Science Research Management 2018;31(5):400,封3-封4,封2
Objective To explore the problems in traditional Chinese medicine (TCM) scientific research project management and provide possible countermeasures.Methods Through cluster sampling,all the scientific research administrators and staff in a hospital were selected.A questionnaire about TCM hospital scientific research management was designed and used in our study.Results The majority of participants were basically satisfied with current scientific research management in TCM.Problems were analyzed including complex project application,singular evaluating standard,inflexible fund management,and backward professional concept.Conclusions The management of scientific research projects in TCM should combine professional characteristics,innovatively and comprehensively improve management concept,system,team and method.
8.Research progress on artificial meniscus implants.
Jinge LI ; Jianlin XIAO ; Jianlin ZUO ; Xiaoniu YANG
Journal of Biomedical Engineering 2018;35(3):488-492
Meniscus injury has been one of the most common knee injuries in current society. The research on artificial meniscus implants as substitutes in meniscus reconstruction therapy has become global focus in order to solve clinical problems such as irreparable meniscus injury and symptoms after full or partial meniscectomy. At present, researches on artificial meniscus implants mainly focus on biodegradable meniscus scaffolds and non-biodegradable meniscus substitutes. Although the commercialized meniscal implants, such as CMI , Actifit and NUsurface , have been applied in the clinical, none of them can perfectively restore or permanently replace the natural meniscus tissue, effectively solve the symptoms after meniscectomy, and prevent cartilage degenerative diseases. The research progress, application, advantages and disadvantages of different kinds of artificial meniscus implants are reviewed in this manuscript, and the prospect is provided.