ABSTRACT
Objective By combined application of endoscopic and microscopic vivisection-pronged approach,forms a three-dimensional morphological observation through focusing on an observation of structure of various signs, imaging features, morphology and measuring in vivo data, which are concerned with expansion of transsphenoidal approach. This will provide expansion of transsphenoidal approach with an intuitive morphological imagines,detailed anatomical parameters,accurate imaging data,viviperception and data measurement. Methods 80 patients were recruited for investigation, preoperative measurement of the size of the patient' s nose,height of nasal columella,the plane angle among bridge of nose,inner canthal of eyes and nose columella,and the length of bridge of nose.in the operation,measure the distance from nasal columella to aperture of sphenoidal sinus; observe the shape of aperture of sphenoidal sinus; measure the longest and the shortest distance between aperture of sphenoidal sinus; observe the shape of septum of sphenoidal sinus,three uplift and the relationship among them,as well as the color and texture of the tumor.Measure sphenoid sinus wall,screening room,sellar floor,extent of slope resection,operating space,as well as observation & study of selection and repairing of skull base reconstruction materials. Results The shape according to the discretion of the column is divided into butterfly saddle nose, normal nose, eagle nose and acromegaly hypertrophy nose.The nostrils shape is kidney form,ball form,snow humanoid formand triangle form.The butterfly saddle biggest digging distance:between the cavernous sinus is( 18.9±2.51 ) mm,from saddle nodules to slope is(19.2 ±2.67) mm.After tumor resection,the transsphenoidal observation space is forward to former group of ethmoid sinus,back to the slope. Conclusion The measurement data might be benefit for selecting of speculum, evalution of placing depth on speculum and operation position and sellar floor opening range. It would also make it possible for a safer, minimally invasive and effective surgery by avoid damage to the internal carotid artery,cavernous sinus or cranial nerve.
ABSTRACT
Objective To study the microsurgical anatomy of the extended transsphenoidal approach to the central skull base, and provide anatomical parameters for the surgical approach. Methods Forty wet skulls were dissected in detail via mimic extended transsphenoidal approaches under an operating microscope and an extended exposed operating microscope. Important structures and connections were observed, measured precisely and photographed. Dry skulls were used to observe and measure the osseous structures related to the approaches. Results The extended transsphenoidal approach can expand ahead, astern and laterally to the suprasellar intradural space by resecting bone and displaying the basafrontal lobe, pre-chaismatic space, optic chiasma cistern, anterior cerebral artery complex, the branches and cavernous sinus segment of the internal carotid artery, pons, basilar artery and its branches, posterior cerebral artery, and superior cerebellar artery. Conclusion The extended transsphenoidal approach can provide the new pathway for treating lesions of the central skull base.
ABSTRACT
Objective Finding out the kinds and activities in protease of brain,heart,lung,kidney,eyes,skin and muscle of Andrias davidianus. Methods Using protease returned electrophoresis technique(G-PAGE). Results 1.Activity of proteases in brain was weak at pH 4.5,and showed no activity at pH 7.0 and pH 9.5;2.Proteases of heart and lung had activities at pH 4.5 and pH 7.0;3.Activity of kidney proteases was strong at pH 4.5 and stronger at pH 7.0,and kinds of proteases were more at pH 7.0 than at pH 4.5;4.Proteases in eyes had no activity at pH 4.5 and pH 9.5;5.Activity of proteases in muscle was very strong at pH 7.0 and pH 9.5,and kinds of proteases were more at pH 7.0 than at pH 9.5;6.Activity of skin proteases was similar to that of muscle,but the former was weaker than the later. Conclusions Among the seven kinds of tissues and organs of Andrias davidianus,kinds and activities of kidney and muscle proteases were stronger and more than others;and the eyes showed almost no protease activity.The proteases-activity optimal pH of brain was acidic;The proteases-activity optimal pH of heart,lung and kidney was acid of neutral;and the proteases-activity optimal pH of skin and muscle was neutral.