Objective To study the anatomical structure and the distribution of the right posterior sectional Glissonean pedicle so as to provide the anatomical basis for liver resection of the right posterior section.Method By studying the morphological features of the right posterior sectional Glissonean pedicle through peeling and dissecting 20 adult corpses without liver pathological.Result In 95％ of the right posterior sectional Glissonean pedicles there were shared branches.The angle between the GRL/GRA was 81.4° ± 13.8°.In 30％,the right posterior sectional Glissonean pedicle presented as a Y or a V.In a Y shaped,the angle between G6/G7 was 71 ° ±3.92°.The shapes of 70％ of the right posterior sectional Glissonean pedicle presented as a C.The number of branches at the tertiary level was between 3-8.Conclusion The distribution of the right posterior sectional of the Glissonean pedicle did not entirely fit the description of Couinaud's segments.Obvious individual differences existed.Under this circumstance,understanding the anatomy of the right posterior sectional Glissonean pedicle before carrying out partial hepatectomy would be helpful in reducing surgical risks and postoperative complications.

Objective To observe the anatomical symmetry of the structures and istribution of the Glissonean pedicle of the intrahepatic Glisson system ,integrating with embryology and comparative anatomy .Methods Morphology of the Glissonean pedicle of liver was examined through peeling and dissecting 20 adult corpses without liver pathological changes.The relevant data were collected and analyzed statistically .Meanwhile, we tried to elucidate elaborating the symmetry theory of liver anatomy through the dissection anatomy ,embryonic anatomy and comparative anatomy .Results The angle between main stem of Glisson system/left branch of Glisson system(GM/GL) was (76.7 ±17.36)°.The angle between GM/GR was (81.4 ±13.8)°.The length of the the Glisson pedicle of left hepatic was (3.1 ±0.76) cm.The length of the the Glisson pedicle of middle hepatic was ( 2.61 ±0.72 ) cm.The length of the the Glisson pedicle of right hepatic was (1.5 ±0.50)cm.The shapes of the Glissonean pedicle stem of the left hepatic presenting arch , the number of radial level 3 branches were between 2-8.The shapes of the Glissonean pedicle stem of the middle hepatic continuing the main of Glissonean pedicle , the number of radial level 3 branches were between 2-6.The shapes of 30%of the Glissonean pedicle of the right hepatic presenting Y and V , 70% of the Glissonean pedicle of the right hepatic presenting C , the number of radial level 3 branches were between 3-8.Conclusion In the light of morphology ,embryology and comparative anatomy, it is reasonable to divide the liver into left ,middle,right lobe by Glissonean pedicle of radial level 2 branches and the liver is an axiality and symmetry organ .

OBJECTIVETo summarize the imaging features of urinary dysfunction associated with ketamine abuse (KAUD) for imaging diagnosis of KAUD.

METHODSWe analyzed the imaging findings in 45 patients with KAUD, all having a history of ketamine abuse and presenting with severe lower urinary tract symptoms. The patients underwent imaging examinations with ultrasonography (n=45), X-ray (n=38), computed tomography (n=28), magnetic resonance imaging (n=10) or single photon emission computed tomography (n=25), and the results were classified and evaluated to identify the common imaging findings.

RESULTSThe imaging changes of KAUD were found primarily in the urinary and biliary system. The most common imaging characteristics included thickening of the bladder wall, contracture and decreased functional volume of the bladder, dilation of the ureter and hydronephrosis, stricture of the upper ureter, renal impairment, dilation of the biliary system, and inflammation or swelling of the adjacent organs and lymph nodes

CONCLUSIONKAUD presents with typical imaging changes. Radiologists should be aware of KAUD if the typical imaging features are detected, especially in cases with a history of ketamine abuse.

Adolescent ; Adult ; Female ; Humans ; Ketamine ; adverse effects ; Lower Urinary Tract Symptoms ; diagnosis ; diagnostic imaging ; Magnetic Resonance Imaging ; Male ; Retrospective Studies ; Substance-Related Disorders ; diagnosis ; diagnostic imaging ; Tomography, X-Ray Computed ; Young Adult