[Objective]To investigate the role of CT measurement of distal femur rotational angle in total knee arthroplasty. [Methods]From April 1998 to April 2005,eighty-four patients(106 knees)underwent total knee arthroplasty(TKA),including 48 rheumatoid arthritis(RA)knees,and 67 osteoarthritis(OA) knees and one case of pigmented villonodullar synovitis.All the patients in the study were measured by computed tomographic scanning (CT). The examination was positioned in supination,or neutral position of the lower limbs.The distal femur was micro-scanned by 3 mm width.On the screen one line was made between the two hypocondyles of the femur,and another line was made between the medial epicondyle fossa and the external epicondyl fossa of the femur.The angles of the two lines were measured.The bone resection of femur antero-posterior condyle was performed according to the preoperatively measured angles.Six months after operation,the range-of-motion of knee was examined. A control group(49 knees in 40 patients) to the conventional TKA of the 3 degree external rotation bone resection was comparatively studied. All the operations were made by the same surgeon,and all the prostheseswere the type of PFC ( Press Fit Condyle).[Results]The results indicated that the rotational angles of the distal femur were above 3 degrees in north Chinece population with the male of 5.1 degrees (SD 1.7) and female of 5.8 degrees(SD1.5).[Conclusion]The rotational angler of the distal femur are above 3 degrees in north Chinece population. If the bone resection of femur was performed according to the preoperatively measured angles,the postoperative result is more favourable than the conventional bone resection according to the 3 degree external rotation.

The cloning and identification of frc gene from Oxalobacter formigenes in the intestines of Chinese people were conducted. The genomic DNA of Oxalobacter formigenes was extracted. frc gene fragment was amplified by polymerase chain reaction (PCR) and linked with pEGFP-C1. The recombinant plasmid was designated pEGFP-frc and was identified by restriction-enzyme digestion and sequencing. Human embryo kidney 293 cells were transfected with pEGFP-frc, then RT-PCR and Western blotting were performed to detect the expression of frc gene. The length of frc gene was found to be 1287 bp, and the homology of nucleotides and amino-acid residue with the sequence in GenBank was 95.88% and 99.07%. Bright green fluorescent light could be observed in 293 cells transfected with the pEGFP-frc. frc mRNA and fusion protein FCoAT-EGFP were detected in the cells. It is concluded that frc gene cloned from the Oxalobacter formigenes in the intestines of Chinese people can be expressed in eucaryotic 293 cells and keep its enzyme activity.

Objective To explore the regular progressive pattern of nontraumatic osteonecrosis of the femoral head (ONFH) in order to establish the reliable and convenient new classification of ONFH.Methods The coronal section of the femoral head was divided into three pillars (medial,central and lateral).The mid-coronal section of the femoral head on MRI was selected.The China-Japan Friendship Hospital (CJFH)classification of ONFH was established according to the site of necrotic focus in three pillars.A total of 153hips with ONFH were classified according to CJFH classification and Japanese Investigation Committee (JIC)classification,respectively.The collapse rate was observed and compared between both classifications of ONFH.Results The CJFH classification for ONFH consists of 3 types:type A,the medial pillar was involved; type B,the medial and central pillars were involved; type C,the lateral pillar was involved.According to site of necrosis focus in the lateral pillar,the type C was divided into 3 types:C1,there pillars were involved but there still was some normal tissue in lateral pillar;,C2,partial central pillar and all lateral pillar were involved; C3,the whole femoral head was involved.The natural history of the ONFH showed the collapse rate of type C2 and C3 in CJFH classification (95.3％) was higher than that (72.3％) of type C2 in JIC classification.Conclusion The CJFH classification of ONFH based on three pillars is more sensitive than JIC classification in predicting collapse of the femoral head.Moreover,the CJFH classification is convenient to use.

Purpose/Significance The recent applications of machine learning in epilepsy seizure prediction,diagnosis prediction,seizure detection,efficacy prediction of antiepileptic drugs,and epilepsy surgery prediction are summarized and analyzed.Method/Processs Literatures are searched through PubMed to summarize the performance of each machine learning model and the challenges exist-ing in machine learning technology.Result/Conclusion Machine learning plays an important role in the diagnosis and treatment of epi-lepsy,and can provide reference for clinical doctors'diagnosis and treatment work.

The cloning and identification of frc gene from Oxalobacter formigenes in the intestines of Chinese people were conducted. The genomic DNA of Oxalobacter formigenes was extracted. frc gene fragment was amplified by polymerase chain reaction (PCR) and linked with pEGFP-C1. The recombinant plasmid was designated pEGFP-frc and was identified by restriction-enzyme digestion and sequencing. Human embryo kidney 293 cells were transfected with pEGFP-frc, then RT-PCR and Western blotting were performed to detect the expression offrc gene. The length of frc gene was found to be 1287 bp, and the homology of nucleotides and amino-acid residue with the sequence in GenBank was 95.88% and 99.07%. Bright green fluorescent light could be observed in 293 cells transfected with the pEGFP-frc. frc mRNA and fusion protein FCoAT-EGFP were detected in the cells. It is concluded that frc gene cloned from the Oxalobacterformigenes in the intestines of Chinese people can be expressed in eucaryotic 293 cells and keep its enzyme activity.