RESUMEN
BACKGROUND:It is controversial to treat sacroiliac joint fracture.Some scholars advocated expectant treatment,and some others advocated surgery therapy.Pelvic stability was responsible for the scheme selection.Sacroiliac joint fracture-dislocation destroys pelvic stability,which easily induces instability and bone nonunion,resulting in sacroiliac joint pain,unequal size of lower limbs,sitting pain and dysfunction.Thus,prognosis of mental implant is significantly better than expectant treatment in treatment of unstable pelvic fracture.OBJECTIVE:To summarize the treatment of unstable pelvic fractures and their clinical application using various internal and external fixation of metal implants.METHODS:The computer-based research was done in Pubmed database (http://www.ncbi.nlm.nih.gov/PubMed) and Wanfang database (http://www.wanfangdata.com.cn) for articles published from January 1991 to December 2009 with the key words of "Pelvic fractures,instability,surgical treatment" by the first author.A total of 115 articles were retrieved,and those concerning characteristics and clinical application of implants in the treatment of unstable pelvic fracture.Articles addressing old and repetitive contents were excluded.Literatures of the same fields published in recent years or in authorized journals were selected.Finally,30 articles were included.RESULTS AND CONCLUSION:Sacroiliac joint fracture-dislocation is a severe,high-energy trauma,has been paid great attention in the therapy,particularly in unstable sacroiliac joint fracture-dislocation.A stable type of fracture and dislocation of the sacroiliac joint received a conservative treatment of unstable sacroiliac joint fracture-dislocation appropriate line of external fixation,internal fixation for reconstruction of pelvic stability and internal fixation treatment varied,but the therapeutic effect of internal fixation needs to be improved.What are bio-mechanical characteristics of various internal fixation methods,and how the timing of weight-bearing activities following various internal fixations require further basic and clinical studies.An unstable sacroiliac joint fracture-dislocation fixation has many ways,including the anterior and posterior fixed-fixed.Minim ally invasive therapy such as posterior CT guided sacroiliac joint lag screw is the developmental trend.
RESUMEN
BACKGROUND: Using low-intensity pulsed ultrasound (LIPU) to promote the repair of articular cartilage injury is very common,and we also have more options to choose the cytoskeleton, but the application conditions of LIPU and the appropriate cytoskeleton have not reached any consensus yet.OBJECTIVE: To investigate the feasibility of establishing tissue-engineered cartilage by cell-free allograft demineralized bone matrix (CFDBM) co-cultured with rabbit cartilage cells and bone marrow mesenchymal stem cells (BMSCs) in vitro, and to investigate the effect of LIPU on the cells in CFDBM.DESIGN, TIME AND SETTING: Multiple sample observation was performed at the Institute of Biomedical Engineering, Second Military Medical University of Chinese PLAfrom May to August 2009.MATERIALS: The CFDBM was prepared as modified Urist's method; the cartilage cells were obtained using mechanical disintegration and enzyme digestion; the BMSCs were separated using whole bone marrow rinsing method, purified, and amplified layer by layer.METHODS: As CFDBM With a composite of different cellular components, and whether applying LIPU stimulation, the samples were divided into four groups: chondrocyte group, BMSCs group, compound group (CFDBM was compounded with chondrocytes,BMSCs, and chondrocytes/BMSCs, respectively, without LIPU stimulation), and LIPU group (CFDBM was compounded with chondrocytes/BMSCs, and then the samples were stimulated with LIPU on the second day, 1.0 MHz frequency, 10 mW/cm~2 transient spatial intension, 20 min/d).MAIN OUTCOME MEASURES: ① the 2~(nd)-generation of cartilage cells and BMSCs were examined by immunohistochemical method; ② The CFDBM prepared as modified Urist's method was examined as HE staining; ③ The samples of four groups were examined by collagen II immunohistochemical staining on the 21~(st) day.RESULTS: ① The collagen II immunohistochemical staining of the second generation of the articular cartilage cells showed that the morphostructure was polygon, star or round, and pseudopodia extended, and the cells were rich in cytoplasm; the cytoplasm was brownish yellow, and the cell nuclear was round. ② The result of immunohistochemical staining of BMSCs showed that,CD34 was negative, CD44 and CD105 were positive. ③ In the center of CFDBM prepared as modified Urist's method, there was no obvious cell-like structure and the gap size was uniform. ④ On the 21~(st) day after combining CFDBM with cells, collagen II immunohistochemical staining demonstrated that BMSCs group was negative, chondrocyte group was weak positive, compoundgroup was positive, and the LIPU group was strongly positive.CONCLUSION: ① Biological property of the 1~(st)-3~(rd)-passage chondrocytes and BMSCs was similar to primary-cultured cells. ②Both chondrocytes and BMSCs had a highly proliferative ability in CFDBM. ③ 10 mW/cm~2 LIPU could not affect activity of BMSCs but could promote differentiation Into articular cartilage cells, and it also could not promote celt proliferation.