Determination of freeze-dried and irradiated porker dural resistant ability to collagenase digestion and biomechanics / 中国组织工程研究

ABSTRACT

BACKGROUND:Ideal dural substitute materials requires its good biomechanics properties,tenacity and elasticity.OBJECTIVE:To determine freeze-dried and irradiated porker dura's resistant ability,including type Ⅰ collagenase digestion,the biggest load and tensile strength,to assess the porker's dura irradiated and freeze-dried whether or not can satisfy the biomechanics requirment in dura draft.DESIGN,TIME AND SETTING:This controlled analysis experiment was performed at the Burn Institute,Nanchang University,Association Mechanics Laboratory,Nanchang University-New Sans Company,Chinese Crude Drug Solid Preparation Nation Project Research Center of Jiangxi Traditional Chinese Medical College and Jiangxi Tianzhao Technology Development Company from July 2007 to June 2008.MATERIALSSix healthy living pigs was used to sterilely obtain fresh dura mater.METHODS:After washing,pre-frozen,freeze-dried and radiation by Co ?-ray,we prepared fresh,freeze-dried,irradiated and 60 freeze-dried plus irradiated pig dura.MAIN OUTCOME MEASURES:5-mm wafer of four group dura were dealt with typeⅠcollagenase meanwhile,digested time was recorded.EMT color screen electronic testing machine was used to measure the biggest load and tensile strength of the porker dura in each group.RESULTS:Time of the dura resistance to collagenase digestion were respectively(8.3 ? 2.5),(7.6 ? 1.8),(23.6 ? 5.7)and(21.1 ? 5.3)minutes,and the largest load and tensile strength were(79.93 ? 4.36),(70.50 ? 5.97),(96.97 ? 4.84)N and(93.59 ? 4.61),(7.98?0.44),(7.05?0.60),(9.70?0.48)and(9.40?0.46)N/mm in the fresh,freeze-dried,irradiated,and freeze-dried plus irradiated pig dura groups.Compared with the fresh and freeze-dried pig dura groups,the time was longer in the irradiated and freeze-dried plus irradiated pig dura groups(P 0.05).CONCLUSION:Dural substitute materials irradiated by Co ?-ray enhanced the ability against enzymatic hydrolysis and 60 biomechanics.Irradiated and freeze-dried plus irradiated dural substitution can meet the requirements of the biomechanics in dura mater transplantation.