Objective: To summarize experiences in 136 cases of retroperitoneal laparoscopic surgery. Methods:From April 1997 to May 2002, retroperitoneal laparoscopic surgery were performed for 136 cases of adrenal dis-eases. There were 63 aldosterone- producing adenoma, 22 adrenalcortical adenoma, 39 nonfunctional adrenal tu-mor, 7 adrenal cyst and 5 phenochromocytoma. Results: Except for one case converts to open surgery, success hasbeen achieved in all cases without major complications. Intraoperative blood loss was 76 + 32ml without blood trans-fusion. Postoperative hospital stay was 6 + 3 days. There were statistical differences among these indices when com-paring to those of open surgery for 126 cases with adrenal diseases( P ＜ 0.05). But operative time was little longer inlaparoscopic group than in group of open surgery(P＜0.05) ,whereas it has been changed to similar in those recentcases. Conclusion:Retroperitoneal laparoscopic surgery was less traumatic to the patients, with less postoperative dis-comfort and quicker recovery and should be considered the first choice of therapy for adrenal disorders.

Objective:To establish a soft tissue 3-dimension(3D)finite element model of human palate.Methods:Based on the intrinsic finite element model of human maxilla,palatal mucoperiosteum flap with the thickness of 3.06 mm was added on the oral side of the plate model by ANSYS software,material property of the soft tissue was loaded,the soft tissue 3D finite element model of the palate was established.Results:By applying finite element method,the established 3D finite element model could reflect biomechani-cal properties of the soft tissue of the palate on computer.Conclusion:The 3D finite element model of the soft tissue of human palate provides the foundation for further study.

Objective:To study the impact of palatal scar force on the maxilla with unilateral cleft palate by finite element model. Methods:A 3-dimension finite element model of maxilla with cleft palate containing soft tissue was established,the soar force on the maxilla was analyzed by ansys.Results:Cleft area was identified as the center of rotation,cleft side of the maxilla reflected clock-wise rotation and non-cleft side anticlockwise rotation.The maxilla moved from outside to inside in cross section and front to back in the sagittal plane,and the former was greater than the latter.The outside of alveolar process was subjected to stress of mainly drawing force,the inside to stress of mainly compressive force.The deformation of maxilla was mainly in the front-end.Deformation of the alveolar was greater than that of maxilla body.Among deformations of three dimensions,the width was the largest,the length was the smallest,and the height was between both above.Conclusion:Along with the rotation of the maxilla,cleft area becomes gradually smaller.Among the three dimensions,the width is the largest,the length is the smallest and the height is between the both.The af-fect on maxilla is mainly in the front-end.The affect on the alveolar is greater than that on the maxilla body.