1.Effects of the Velvet Antler Polypeptides on Spinal Nerve Cell Apoptosis Induced by ?-amyloid Peptide
Xukai WANG ; Ying WANG ; Yougeng YANG
Journal of Zhejiang Chinese Medical University 2007;0(01):-
[Objective] To study effects of the velvet antler polypeptides on spinal nerve cell apoptosis induced by ?-amyloid peptide. [Method]Spinal nerve cells were performed serial subcultivation,and entered into experiment during the exponential phase of growth.The viability of spinal nervecells 24h after induction by ?-amyloid peptide with different concentrations were detected by MTT assay,percentages of the cell apoptosis and expression of casepase-3 were detected after induction by 25?mol/L ?-amyloid peptide.[Result]It was revealed that 24 h after treatment with ?-amyloid peptide of different concentrations,the viability of spinal nerve cells was significantly decreased in a dose-dependent manner(P
2.Percutaneous Laser Disc Decompression for Treatment of Lumbar Discogenic Pain
Xiansheng REN ; Yougeng YANG ; Jieping CHENG
Chinese Journal of Rehabilitation Theory and Practice 2007;13(11):1080-1081
Objective To investigate the therapeutic effect of percutaneous laser disc decompression on lumbar discogenic pain.Methods56 patients with lumbar discogenic pain were treated with percutaneous laser disc decompression with Nd:YAG laser(wavelength 1064 nm).They were followed up for more than 3 months with Macnab criteria.ResultsAll the patients were followed up.At the end point of postoperative 3 months,32 patients had an excellent outcome,20 were good,3 patients were fair,1 patient were poor.No complication(infection and nerve injury)had been observed.ConclusionPercutaneous laser disc decompression is a safe,little invasive and effective treatment modality for lumbar discogenic pain.
3.Changes of hemo-biochemistry indexes and bone mineral density in paraplegic rats
Yingzhi LI ; Haihong JIN ; Xiaoliang SHEN ; Yougeng YANG ; Zhizho LI
Journal of Jilin University(Medicine Edition) 2006;0(05):-
Objective To study the changes of biochemistry indexes in blood serum and bone mineral density (BMD) of secondary osteoporosis after spinal cord injury (SCI) in rats. Methods 120 male Wistar rats were divided randomly into 12 groups (n=10). The rats in control groups were only removed larmina with dura intact, without spinal cord injury at the level of the tenth thoracic vertebrae, the rats in experimental groups were also removed larmina, then paraplegic model was made by the method of Allen's (60gcm). The changes of biochemistry indexes in blood serum and BMD were observed. Results Compared with control groups, the concentrations of alkaline phophatase (ALP) were decreased at the 1st and the 3rd week in experimental groups (P0.05). BMD of tibia was decreased at the 7th and 11th week in experimental group (P
4.Experimental study of secondary osteoporosis of spinal cord injured rats
Yingzhi LI ; Yougeng YANG ; Yanbo YU ; Zhanjun LIU ; Chunhua XU ; Li CUI
Chinese Journal of Tissue Engineering Research 2005;9(43):172-174
BACKGROUND: Osteoporosis is one of the complications of spinal cord injury, but its mechanism is unclear, different scholars have different points about whether all bones above and below the level of trauma are affected after spinal cord injury (SCI).OBJECTIVE: To observe the ultrastructure of bone tissue of secondary osteoporosis after spinal cord injury and the change of serum biochemical indexes, to analyze the suffered condition and injured degree of the bones above and below the level of the trauma.DESIGN: Randomized controlled experimentSETTING: Laboratory of Animals, and Department of Laboratory Medicine of the Second Clinical Hospital of Jilin University; Transmission Electron Microscope Center, Norman Bethune Division of Medical Sciences of Jilin UniversityMATERIALS: This experiment was conducted at the Laboratory of Animals, Second Clinical Hospital of Jilin University from May 2002 to May 2003. Totally 110 male Wistar rats, aged 4 to 5 month-old, with the body mass of (300 -320)g were involved.METHODS: Ten rats were randomly chosen from 110 male Wistar rats and were set as 0 week blank control group, the ther rats were randomly divided into experimental group and control group, there were 10 rats in week 1, 2, 3, 7 and 11 control group and experimental group separately.1 mL/L of pentobarbital natrium was intraperitoneal injected to perform anesthesia, in the control group, lamina with dura intact of rats were removed only, without spinal cord injury at the level of tenth thoracic vertebrae. In the experimental group, lamina of rats was also removed, the spinal cord injury model of the rats were made by the method of Allen's.4 mL venous blood was collected from the animals at the end of postoperative week 0, week 1, week 2, week 3, week 7 and week 11, then the animals were put to death, perform blood centrifuging .We observe the change of serum concentration of calcium, phosphorus and alkaline phophatase (ALP) with 7170A HITACHI auto-biochemistry analyzer. Right side humerus, tibia in week 0 blank control group, week 7 experimental group and week 11 experimental group were chosen, then 25 mL/L ethylene dinitrilotetraacetic acid was used for decalcium for 1 month for preparingthe sections. We observe the change of ultrastructure of osteocytes at the sites of tibial plateau and the surgical neck of the humerus after stained by uranyl acetate and lead citrate under transmission electron microscope.biochemistry detection: the level of phosphorus at week 2 of the experiment was significantly lower in the control group than experiment group [(1.54±0.21),(2.76±0.16)mmol/L, (P < 0.01)]; the level of calcium at week 3 in the experiment group was significantly higher than in the control group [(2.52±0.06),(2.35±0.12)mmol/L, (P < 0.01)];the level of alkaline phophatase at week 7 in the experiment group was significantly higher than in the control group [(155.86±20.42), (129.25±7.30)Nμ/mg,operative week 7, the tibia sample showed that the osteocyte separated from the osseous lacuna, the nucleus showed anomaly, fluffed materials appeared. Mitochondrion swelled, rough endoplasmic hollowed; At week 11, osteocyte separated from the osseous lacuna. At postoperative 7 week,the humerus sample showed that osteocyte separated from osseous lacuna,some nucleus pycnosis and rough endoplasmic hollowed; At postoperative week 11, the above changes still were seen, but the degree of cellular swelling and hollowing were lighten.CONCLUSION: At the early stage of spinal cord injury, the activity of osteoclast is increased and the activity of osteoblast is decreased, which leads to the increase of bone absorption, the bone formation is largely weakened. The bones above and below the level of trauma are both affected after spinal cord injury, but different extents of osteoporosis can be seen in different bones .The change of ultrastructure of osteocytes is remarkable when osteoporosis has happened.
5.Experimental study on viscoelasticity of spinal lumbar vertebrae (T12-S1) by simulating the operation of excising intervertebral disc and planting bone on back route and the operation of excising intervertebral disc and inserting fusion cage.
Baolin ZHAO ; Jianing HE ; Hongshun MA ; Yougeng YANG ; Wenge YAO
Journal of Biomedical Engineering 2002;19(2):212-216
According to the physiological characteristics of lumbar vertebrae in Chinese, we designed and made a lumbar vertebral fusion cage of titanium and then engaged in its biomechanical test. T12-S1 of lumbar vertebrae from 18 fresh dead bodies were used. We measured the stress relaxation and the creep effects of the normal group (T12-S1 of intact lumbar vertebrae), the control group 1(simulating operation of excising intervertebral disc and planting bone on the back route) and the control group 2(simulating operation of excising intervertebral disc and inserting fusion cage). The data and stress, strain-time curves under the condition of constant stress and strain were obtained. Regression analysis yielded the reduced stress relaxation and creep functions. Finally, we analyzed and discussed the effects of the operation of excising intervertebral disc and planting bone on the back route and the operation of excising intervertebral disc and inserting fusion cage on the stability of spine.
Elasticity
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Humans
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Intervertebral Disc
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physiology
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surgery
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Lumbar Vertebrae
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physiology
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Spinal Fusion
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Spine
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Titanium