Objective To investigate the protective effect of high-pressure carbon monoxide for preservation of ex vivo rabbit heart graft in comparison with the conventional HTK cardioplegic solution preservation. Methods Heart grafts isolated from 85 New Zealand rabbits were randomly divided into Naive group (n=5), HTK group (n=40) and CO group (n=40). The grafts underwent no preservation procedures in Naive group, preserved at 4 ℃ in HTK cardioplegic solution in HTK group, and preserved at 4℃in a high-pressure tank (PO2:PCO=3200 hPa:800 hPa) in CO group with Krebs-Henseleit solution perfusion but without cardioplegic solution. After preservation for 2, 4, 6, 8, 10, 14, 18, and 24 h, 5 grafts from the two preservation groups were perfused for 30 min with a modified Langendorff apparatus and examined for left ventricular systolic pressure (LVSP), left ventricular diastolic pressure (LVDP), arrhythmia score (AS), myocardial ultrestructure, and cardiac enzyme profiles. Results After preservation for 6 to 24 h, the cardiac enzyme profiles and systolic and diastolic functions were significantly better in CO group than in HTK group, but these differences were not obvious between the two groups after graft preservation for 2 to 4 h. Significant changes in the myocardial ultrastructures occurred in the isolated hearts after a 24-h preservation in both CO and HTK groups, but the myocardial damages were milder in CO group. Conclusion Preservation using high-pressure carbon monoxide can better protect isolated rabbit heart graft than the conventional HTK preservation approach especially for prolonged graft preservation.

Objective To investigate the protective effect of high-pressure carbon monoxide for preservation of ex vivo rabbit heart graft in comparison with the conventional HTK cardioplegic solution preservation. Methods Heart grafts isolated from 85 New Zealand rabbits were randomly divided into Naive group (n=5), HTK group (n=40) and CO group (n=40). The grafts underwent no preservation procedures in Naive group, preserved at 4 ℃ in HTK cardioplegic solution in HTK group, and preserved at 4℃in a high-pressure tank (PO2:PCO=3200 hPa:800 hPa) in CO group with Krebs-Henseleit solution perfusion but without cardioplegic solution. After preservation for 2, 4, 6, 8, 10, 14, 18, and 24 h, 5 grafts from the two preservation groups were perfused for 30 min with a modified Langendorff apparatus and examined for left ventricular systolic pressure (LVSP), left ventricular diastolic pressure (LVDP), arrhythmia score (AS), myocardial ultrestructure, and cardiac enzyme profiles. Results After preservation for 6 to 24 h, the cardiac enzyme profiles and systolic and diastolic functions were significantly better in CO group than in HTK group, but these differences were not obvious between the two groups after graft preservation for 2 to 4 h. Significant changes in the myocardial ultrastructures occurred in the isolated hearts after a 24-h preservation in both CO and HTK groups, but the myocardial damages were milder in CO group. Conclusion Preservation using high-pressure carbon monoxide can better protect isolated rabbit heart graft than the conventional HTK preservation approach especially for prolonged graft preservation.

OBJECTIVETo discuss the surgical skill, treatment effect and indications for reconstruction of vertebral lamina with skull titanium plate and autograft in the treatment of thoracolumbar vertebrae fracture.

METHODSFrom March 1999 to April 2007, 33 patients with thoracolumbar vertebrae fracture combined nerve injury were treated by reconstruction of vertebral lamina with skull titanium plate and autograft including 30 males and 3 females with an average age of 41 years ranging from 21 to 66. The fracture involved 3 cases in T11, 9 in T12, 16 in L1, 3 in L2 and 2 in L3. There were 12 cases with flexion fracture, 8 with extension fracture, and 13 with burst fracture. Five cases performed emergency operation and in the others the time from injury to operation was 5 to 12 days. GSS fixation was applied in 25 cases and AF in 8. The volume of vertebral canal, the stability of the spine, the height of vertebrae, and the nerve function were observed before and after operation.

RESULTSThese 33 patients were followed up for 1 to 3 years (means 25 months). The height of anterior column of the involved vertebrae changed from 58% to 96%, the cobb angle return from average of 26 degree to 2 degree, the volume of vertebral canal extended from 43% to 92%, respectively, when compared between preoperatively and postoperatively.

CONCLUSIONReconstruction of vertebral lamina with skull titanium plate and autograft which is a simple and safe treatment for thoracolumbar vertebrae fracture can increase the stability of spine and avoid second canal stenosis.

Adult ; Aged ; Bone Transplantation ; Female ; Fracture Fixation, Internal ; methods ; Humans ; Lumbar Vertebrae ; injuries ; Male ; Middle Aged ; Reconstructive Surgical Procedures ; Spinal Fractures ; surgery ; Thoracic Vertebrae ; injuries ; Titanium ; pharmacology ; Transplantation, Autologous ; methods ; Young Adult

ObjectiveTo explore the effective components， targets， and mechanism of Houttuynia cordata against lung cancer by means of systems pharmacology and further to provide a reference for the further development and clinical application of this medicinal. MethodChemical components of H. cordata were retrieved from Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform （TCMSP） and the active components were screened based on oral bioavailability （OB） and drug-likeness （DL）. Then the potential targets were predicted， followed by enrichment analysis. Finally， sodium houttuyfonate （SH） was selected for verifying the anti-tumor mechanism. Cell counting kit-8 （CCK-8） assay was used to evaluate the effect of SH on the in vitro proliferation of two lung cancer cell lines： A549 and LLC， and the regulation of tumor-related proteins by SH was verified by Western blot. ResultA total of 7 active compounds and 352 targets of the active components were screened out. According to the enrichment analysis of targets， H. cordata had potential therapeutic effects on cancer. SH had inhibitory effect on both A549 and LLC. Western blot results showed that G₁/S-specific Cyclin D₁， E₁ and cyclin-dependent kinase （CDK）2， CDK4 all tended to be down-regulated， and Janus kinase 2 （JAK2）/signal transducer and activator of transcription 3 （STAT3） also changed significantly. ConclusionH. cordata has the potential anti-tumor effects by arresting the tumor cells in the G₁ phase through the JAK2/STAT3 pathway.