1.Vacuum sealing drainage combined with iodophor douche for the prosthesis infection after artificial joint replacement
Yangchun ZHANG ; Jianhong XIAO ; Ziji ZHANG ; Xing YANG ; Shiming YU ; Puyi SHENG
Chinese Journal of Tissue Engineering Research 2016;20(44):6549-6556
BACKGROUND:Periprosthetic infection after artificial joint replacement is a disastrous complication for a patient. Currently, during treating for the periprosthetic infection, most of patients need two-stage revision, which bring about enormous physical and psychological pain for patients, and a heavy burden for the families and society. To make matters worse, the effect is not very perfect, and some of these cases require multi-stage revision, even amputation. OBJECTIVE:To investigate the therapeutic effect of vacuum sealing drainage combined with iodophor douche for the infection after artificial joint replacement. METHODS:Nine cases (six knees and three hips) of infection after artificial joint replacement were col ected, with an average age of 63.4 years. Infection occurred at 7 days-14 months, and a median time of 1 month after replacement. Al patients suffered from purulent or purulent blood secretion. Fistula formed in two cases and incision and drainage sites were not healed in one case. According to the bacterial culture results, above symptoms were accorded with clinical diagnosis of prosthesis infection. The prosthesis was remained for debridement. Vacuum sealing drainage was performed. Iodophor douche (30-50 mL) was conducted every day. The drainage tube at proximal end was occluded for 30 minutes, and then vacuum sealing drainage was performed. Al patients were regularly fol owed up to assess the therapeutic effects of vacuum sealing drainage combined with prosthesis infection after replacement. RESULTS AND CONCLUSION:(1) Except that one case was stil in treatment, one case was dead, and one case of tumor prosthesis was failure and final y amputated, the remaining six patients were healed. (2) The time of vacuum sealing drainage and iodophor douche was 10 to 84 days, with the median time of 57 days. No adverse reactions or complications occurred. Al healed patients were fol owed up for 12-60 months, without recurrence. (3) These results indicated that vacuum sealing drainage combined with iodophor douche retained the prosthesis to the greatest degree, is simple, safe, and effective for the infection after artificial joint replacement, needs a low cost, and is a kind of therapy for prosthesis infection after artificial joint replacement.
2.Advanced glycation end products modulate osteoclastic acidification by inhibiting the expression of V-ATPase a3 and CIC-7
Haixing WANG ; Ziqing LI ; Yinbo XIAO ; Ziji ZHANG ; Yangchun ZHANG ; Xing YANG ; Chaohong LI ; Puyi SHENG
Chinese Journal of Tissue Engineering Research 2017;21(12):1826-1832
BACKGROUND:The effect of advanced glycation end products (AGEs) on bone resorption is controversial. Our previous study has shown that bone resorption is significantly inhibited when AGEs present with pre-osteoclast cells RAW 264.7, while the effect of AGEs on osteoclastic acidification remains unknown. OBJECTIVE:To investigate the effect of AGEs on osteoclastic acidification and the underlying mechanism. METHODS:RAW 264.7 cells were induced by RANKL (15μg/L;normal group) to generate osteoclasts, and AGEs (50-400 mg/L;experimental group) or bovine serum albumin (100 mg/L;control group) were added at the beginning of the induction. The effect of AGEs on bone resorption was evaIuated by anaIyzing the area of bone resorption on the Osteo Assay Surface plates, and the effect of AGEs on osteoclastic acidification was evaluated by acridine orange staining. Furthermore, the expression levels of V-ATPase a3 and CIC-7 were detected to investigate the underlying mechanism. RESULTS AND CONCLUSION:The bone resorption area in the AGEs group was significantly decreased compared with the normal group (P<0.05). Acridine orange staining reveaIed that the red fluorescence (620 nm) intensity in the AGEs group was significantly decreased compared with the normal group (P<0.05), and this inhibitory effect became obvious with the increase of AGEs concentration. Immunocytochemistry, western blot assay and PCR findings showed that the expression levels of V-ATPase a3 and CIC-7 in the AGEs group were decreased significantly compared with the normal group (P<0.05). To conclude, AGEs exert inhibitory effect on osteoclastic acidification, probably by inhibiting the expression of V-ATPase a3 and CIC-7.
3.Effects of pelvic orientation on the anteveration measurement of simulated acetabular cup
Xuejun DU ; Weiming LIAO ; Ming FU ; Aishan HE ; Zibo YANG ; Yan KANG ; Peihui WU ; Hao ZHANG ; Ziji ZHANG
Chinese Journal of Tissue Engineering Research 2010;14(9):1581-1585
BACKGROUND: Acetabular cup orientation using a standard radiograph of the pelvis is quite common method to assess artificial hip replacement nowadays. Non-standardization of pelvic orientation affected accuracy of measurement results, and it is difficult to compare. OBJECTIVE: To make sure how pelvis tilting affect the anteveration of the cup and to elevate clinical accuracy and compare study comparability. METHODS: Designed a simulated acetabular cup with serial concentric circles which pass through the same polars and represent anteveration of 0°, 10°, 20°, 30°, 40°, Loaded the simulated acetabular cup at an inclination of 35°, 40°, 45°, 50°, 55° to6 cadaver pelves, Made the pelves tilt around the frontal axis and sagittal axis with 5° each time in a scope of+30°. Takestandard radiograph of the pelvis accordingly. Radiograph was photographed end frontal angle of dip was measured. RESULTS AND CONCLUSION: Pelvic tilt of about 1° causes measuring errors of anteveration 0. 61 °-0. 73°. The anteveration decreased at both acetabular cups when pelvic posterior tilt and at the acetabular cup that near the X-ray source as pelvic lateral tilt. The anteveration rose at both acetabular cups when pelvic anterior tilt and at the acetabular cup that away from the X-ray source as pelvic lateral tilt. During clinical evaluation, pelvic orientation effects on measurement results should be considered.
4.Resisin stimulates the expression of CCL3 and CCL4 in chondrocytes
Ziji ZHANG ; Yan KANG ; Zibo YANG ; Changhe HOU ; Guangxin HUANG ; Weishen CHEN ; Puyi SHENG ; Aishan HE ; Ming FU ; Weiming LIAO ; Zhiqi ZHANG
Chinese Journal of Tissue Engineering Research 2015;(15):2297-2304
BACKGROUND:Previous studies have indicated that resistin stimulates a large set of chemokines in chondrocytes that are known to be important in inflammatory joint lesions.
OBJECTIVE:To further investigate the mechanism of co-regulation roles of transcription and post-transcription in the up-regulation of two chemokine genes CCL3 and CCL4 in chondrocytes in response to resistin.
METHODS:Human chondrocytes, T/C-28a2 and ATDC5 cels were cultured. The function of resistin on the chemokine genes, and the expression of C/EBPβ, nuclear factor-κB isoforms and chondrogenic specific miRNAs were tested by qPCR. The co-regulation of C/EBPβ and nuclear factor-κB was investigated by nuclear factor-κB inhibitor (IKK-NBD) and C/EBPβ inhibitor (SB303580) treatments, and subcelular localization was detected with or without resistin stimulation.
RESULTS AND CONCLUSION:Resistin could increase the expression of chemokine genes independently. Chondrocytes reacted in a non-restrictedly cel-specific manner to resistin; C/EBPβ inhibitor, nuclear factor-κB and some chondrogenic specific miRNAs in a combinatorial manner regulated chemokine gene expression. The activity of C/EBPβ was augmented by a transient increase in activity of nuclear factor-κB, and both transcription factors acted independently on the chemokine genes, CCL3 and CCL4.
5.Preparation of progressive gradient-aperture osteochondral scaffold and its cytocompatibility evaluation
Hongli XIAO ; Jiang DENG ; Ziji HAN ; Wenliang HUANG ; Kun XIONG ; Yong ZHANG
Chinese Journal of Geriatrics 2020;39(4):456-461
Objective:To prepare a progressive gradient-aperture scaffold composed of silk fibroin(SF)-chitosan(CS)-nano-hydroxyapatite(nHAp)for osteochondral repair.Method:The SF solution, CS solution and nHA suspension were mixed in vitro at equal proportions.The progressive gradient osteochondral(OC)scaffold-1(2%), scaffold-2(3%)and scaffold-3(4%)was respectively prepared by using centrifugation, vacuum freeze-drying, chemical cross-linking and three shaping steps.General conditions, porosity, hot water dissolution rate, water swelling rate, compression water swelling rate, water swelling rate after dissolution, mechanical properties, internal structure observation and pore size were measured.Rat bone marrow mesenchymal stem cells(BMSCs)were cultured and the scaffold extract was prepared.The effect of scaffold extract on the proliferation of BMSCs was detected by the cell counting kit-8(CCK-8)method.BMSCs were co-cultured with the scaffold, and the distribution and morphology of the cells around the scaffold were observed.Results:The structure of scaffold was regular in each group and the porosity was more than 80%.Along with the increase of the material concentration, the water swelling rate of the scaffold was decreased gradually( P<0.05). Compared with before compression, the water swelling rate of scaffold-1 was decreased after compression( P<0.05). There was no significant difference in the hot water dissolution rate among all groups( all P>0.05), and the complete dissolution of the scaffold-1, scaffold-2 and scaffold-3 in vitro required 65.9, 60.9, and 73.9weeks, respectively.The elastic modulus of scaffolds in above three groups were 0.0955, 0.1762 and 0.3468 MPa, respectively.The examination results of scanning electron microscope(SEM)showed that the internal structure of scaffold was honeycomb in each group, the pore shape was regular, which showed an inter-connected pore network.The pore distribution was gradually dense and the pore diameter gradually decreased from the cartilage side to the osteogenic side( P<0.05), and the nHAp content increased gradually.The scaffold extract had no obvious toxicity to the growth and proliferation of BMSCs in each group.After BMSCs were seeded on scaffolds and co-cultured for 5 days, the cells grew well without obvious cell death or morphological abnormalities. Conclusions:In this study, a progressive gradient pore size OC scaffold is successfully prepared with good physical properties and biocompatibility, which is expected to be a new bio-mimetic composite scaffold material for repairing OC defects.
6.Oral pathogen aggravates atherosclerosis by inducing smooth muscle cell apoptosis and repressing macrophage efferocytosis.
Hanyu XIE ; Ziyue QIN ; Ziji LING ; Xiao GE ; Hang ZHANG ; Shuyu GUO ; Laikui LIU ; Kai ZHENG ; Hongbing JIANG ; Rongyao XU
International Journal of Oral Science 2023;15(1):26-26
Periodontitis imparting the increased risk of atherosclerotic cardiovascular diseases is partially due to the immune subversion of the oral pathogen, particularly the Porphyromonas gingivalis (P. gingivalis), by inducing apoptosis. However, it remains obscure whether accumulated apoptotic cells in P. gingivalis-accelerated plaque formation are associated with impaired macrophage clearance. Here, we show that smooth muscle cells (SMCs) have a greater susceptibility to P. gingivalis-induced apoptosis than endothelial cells through TLR2 pathway activation. Meanwhile, large amounts of miR-143/145 in P.gingivalis-infected SMCs are extracellularly released and captured by macrophages. Then, these miR-143/145 are translocated into the nucleus to promote Siglec-G transcription, which represses macrophage efferocytosis. By constructing three genetic mouse models, we further confirm the in vivo roles of TLR2 and miR-143/145 in P. gingivalis-accelerated atherosclerosis. Therapeutically, we develop P.gingivalis-pretreated macrophage membranes to coat metronidazole and anti-Siglec-G antibodies for treating atherosclerosis and periodontitis simultaneously. Our findings extend the knowledge of the mechanism and therapeutic strategy in oral pathogen-associated systemic diseases.
Animals
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Mice
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Endothelial Cells
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Toll-Like Receptor 2
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Macrophages
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Apoptosis
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Atherosclerosis
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Myocytes, Smooth Muscle
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MicroRNAs