1.Preliminary experimental study on the relationship among the spinous process shove off, lumbar facet joints, and the intervertebral foramen morphologic change
Xiaobo CHANG ; Yaping LUO ; Qingye WANG ; Zhongliang XU ; Tao WEI ; Xiaying FENG ; Bo NING
Journal of Chinese Physician 2013;(4):453-456
Objective To investigate the relationship among the spinous process open degree,the relative displacement of the lumbar facet joints(LFJ),and the morphologic change of the intervertebral foramina.Methods From Nov 2010 to Jun 2012,a total of 6 human fresh cadaveric spines was used in this study.All the ligaments were kept.The relative displacement of the corresponding segments LFJ,and the change of height and width of intervertebral foramen were measured through the corresponding open L3-4 and L4-5 spinous process,respectively.Results Lumbar degeneration was described with the following indices including the proliferation and displacement of LFJ,deformation of the intervertebral foramen morphogenesis,nerve root oppression,and lumbar intervertebral stenosis.When the interspinous process spacer was opened up to 2 mm,lumbar intervertebral foramen heights at the L3-4 and L4-5 [(15.62 ± 0.73) mm,(14.67 ± 0.75) mm] were significantly increased (t =26.00,16.02,P < 0.01) compared to the original state [(13.89 ± 0.77) mm,(12.48 ± 0.80)mm].When the interspinous process spacer was opened up to 4mm,lumbar intervertebral foramen heights at the L3-4 and L4-5 [(17.13 ± 0.78) mm,(16.74 ± 0.76) mm] were significantly increased (t =36.15,30.69,P < 0.01) compared to the original state.The foraminal height with a 4 mm distraction was significantly greater than the 2 mm distraction (t =20.82,21.72,P <0.01).When the interspinous distraction was 2 mm,L FJ displacement at the L3-4and L4-5 [(0.31 ±0.04) mm,(0.34 ± 0.07) mm] was significantly better than the original state [(0.63 ± 0.03) mm,(0.56±0.05)mm] (t =61.97,58.91,P <0.01).When the interspinous distraction was 4 mm,LFJ displacement at the L3-4 and L4-5 [(0.10 ±0.04) mm,(0.12 ±0.06) mm] was significantly better than the original state (t =18.69,18.88,P <0.01).No significant difference was found in the change of the intervertebral foramen width [(8.65 ± 0.38) mm,(7.78 ± 0.37) mm] at the 2 mm interspinous distraction compared to the original state(P > 0.05),but a statistically significant difference was found at the 4 mm interspinous distraction compared to the original state [(9.03 ± 0.41) mm,(8.05 ± 0.32) mm] (t =7.78,7.97,P < 0.01).Conclusions Spinous process shove off can effectively improve LFJ displacement,and increase the intervertebral foramen height,but the increase of its width needs to shove off enough distance.
2.Biomechanical properties of internal fixation plate for patellar fracture
Zhihai GUAN ; Qinye WANG ; Yijin WANG ; Yaping LUO ; Xiaobo CHANG ; Xiaying FENG
Chinese Journal of Tissue Engineering Research 2014;(4):559-564
BACKGROUND:There are currently various surgical methods of patel a fracture, and they have advantages and disadvantages, thus cannot wel meet the requirements of patients.
OBJECTIVE:To evaluate biomechanical properties of internal fixation plate to treat patel ar fracture and to provide theoretical evidence for clinical application.
METHODS:According to the statistics of patel a in the Chinese population, a titanium al oy spider internal fixation plate was designed and manufactured for the treatment of patel ar fractures. Knee joint specimens in six fresh cadavers were randomly divided into two groups and the comminuted fracture model of patel a were established. The models were fixed with internal fixation plate of patel a and NiTi patel ar concentrator. Biomechanical tests were carried out to compare the biomechanical properties.
RESULTS AND CONCLUSION:Both the two fixation methods could meet the 1-kN quadriceps femoris contraction. The internal fixation plate of patel a was superior to NiTi patel ar concentrator in the patel ar isolation shift, muscle strength and joint strength, as wel as mechanical properties of patel a-point surface. There were significant differences between the two groups (P<0.05). The internal fixation plate of patel a is designed in accordance with the anatomical and biomechanical properties of the patel a, the fixation strength can completely meet clinical requirement and deserve further application.
3.Baicalin induces ferroptosis in bladder cancer cells by downregulating FTH1.
Na KONG ; Xiaying CHEN ; Jiao FENG ; Ting DUAN ; Shuiping LIU ; Xueni SUN ; Peng CHEN ; Ting PAN ; Lili YAN ; Ting JIN ; Yu XIANG ; Quan GAO ; Chengyong WEN ; Weirui MA ; Wencheng LIU ; Mingming ZHANG ; Zuyi YANG ; Wengang WANG ; Ruonan ZHANG ; Bi CHEN ; Tian XIE ; Xinbing SUI ; Wei TAO
Acta Pharmaceutica Sinica B 2021;11(12):4045-4054
Ferroptosis is a non-apoptotic regulated cell death caused by iron accumulation and subsequent lipid peroxidation. Currently, the therapeutic role of ferroptosis on cancer is gaining increasing interest. Baicalin an active component in