砄bjective: To study the relationship between respiratiory mode and dental occlusion. Methods: UI SN, LI MP, UI LI, OB, OJ and M1～M2 were measured with cephalometric technic in 34 oral breathing children and 34 nasal breathing children (aged 11～14 years) . Results: UI LT and OB in the children with oral breathing were smaller than those in the children with nasal breathing( P 0.05). Conclusion: The children with oral breathing may have smaller oberbite and more proclined dental arch.

Objective To investigate the properties of hind foot motion and it's changes in ankle or subtalar joint arthrodesis. Methods Eight fresh frozen adult leg-foot specimens were mounted in a coordinated system, a Steinmann pin was perforated across the calcaneus as a marker. The displacements of the marked points in the coordinated system were recorded when subtalar or ankle joint was fixed respectively. Through matrix translation and Euler equation, the angle of the calcaneus rotation were calculated, representing the motion of the subtalar and ankle joints in different condition, Statistical analysis were also taken between different conditions. Results Three dimensional (3-D) motion was observed in hind foot motion. The range of motion with ankle joint fixation was: inversion 15.99??2.81?, eversion 8.62??1.90?, dorsiflexion 3.70??1.00?, plantar flexion 5.87??1.39?, adduction 7.64??2.04?, and abduction 3.99??1.78?. When subtalar joint was fixed, they were: 7.13??1.07?, 5.52??0.85?, 17.09??2.87?, 30.75??5.04?, 10.77??1.56?, and 6.54??1.88? respectively. While they were 22.62??3.21?, 40.88??5.77?, 18.87??3.89?, 9.12??2.05?, 17.48??2.26? and 11.47??2.29?, when no joint was fixed. Arthrodeses of ankle or subtalar joint would affect the hindfoot motion significantly (P

Objective:To investigate therapeutic effect and toxici ti es of neoadjuvant chemotherapy(NACT) with Carboplatin(CBP) and 5-Fluorouracil (5-FU) for the patients with oral squamous cell carcinoma(OSCC)by chronomodul ated administration. Methods:73 patients with T3 and T4 OSCC, ad mitted from March 2002 to April 2004, were randomly divided into two groups,37 c ases were in chrono-chemotherapy group (groupⅠ) and 36 cases in routine-chemo therapy group (group Ⅱ). Therapeutic effects and side effects between tw o groups were compared.Results:After two NACT courses, the effec tive rate in group Ⅰ and group Ⅱ was 75.68% and 52.78%respectively (P

Objective:To compare the morphology of dental arch and base bone between oral breathing and nasal breathing children.Methods: A simultaneous measurement system was applied to test oral and nasal respiration.34 oral breathing children and 34 nasal breathing children aged 11 to 14 years old were selected.The parameters of the morphology of dental arch a nd base bone were measured on the record models.Results:① The oral breathing children showed higher palatal vault,and narrower maxillary b ase bone.The configurations of maxillary base bone were comparatively narrower a nd longer.②The oral breathing children's medial and posterior parts of arches o f maxilla were longer,and the configurations of maxillary arch were comparativel y narrower and longer.The configurations of mandible posterior arch were compara tively narrower and longer too.Conclusion:Oral breathing m ay lead to morphological changes in dental arch and base bone in children.

Objective To study the value of three dimensional contrast enhanced subtraction MRA(3D CES MRA)in the diagnosis of body and lower extremity blood vessel disease Methods Eighteen cases were studied by 3D ECS MRA and proved by operationResults 3D CES MRA images were of diagnostic quality without ghost for all 18 patients.3D CES MRA clearly showed normal vascular anatomy and various disorders.According to surgery,the sensitivity and specificity of 3D CES MRA in the diagnosis of body and lower extremity blood vessel diseases were both 100%.Conclusion 3D CES MRA is a new technique in diagnosing of body and lower extremity blood vessel diseases.It is proved to be a simple,noninvasive and commercial method in diagnosing blood vessel diseases.

Objective To find the expression level and the role of ENST00000460164 in luminal A breast cancer.Methods The expression level of ENST00000460164 in breast cancer tissues was detected by RT-qPCR.pll3.7-ENST00000460164-shRNA and empty vector,pll3.7,were transfected into MCF-7 cells.Cell cycle was measured by flow cytometry.Western blot was used to detect the expression of P16INK4A and cyclinD1.Results ENST00000460164 was highly expressed in luminal A breast cancer tissues as compared to the adjacent non-cancer tissues.The knockdown of ENST00000460164 resulted in the G1 cell-cycle arrested,cyclin D1 downregulated and P16INK4A upregulated in MCF-7 cells.Conclusions ENST00000460164 is overexpressed in luminal A breast cancer.ENST00000460164 may control G1/S transition by regulating P16INK4A or cyclin D1 expression.

Arterio-Arterial Fistula ; therapy ; Cardiac Catheterization ; Coronary Vessels ; Female ; Heart Septal Defects, Ventricular ; therapy ; Heart Ventricles ; abnormalities ; Humans

Amifostine ; pharmacology ; Anemia, Aplastic ; chemically induced ; pathology ; prevention & control ; Animals ; Benzene ; toxicity ; Dose-Response Relationship, Drug ; Male ; Mice

OBJECTIVE: To study the causes of false-positive hyoid fractures and forensic identification. METHODS: Twelve cases of false-positive hyoid fractures were collected and analyzed. RESULTS: Improper dissection technique (4 cases) and congenital separation (8 cases) were the main reasons for false-positive hyoid fractures. CONCLUSION True fractures can be differentiated from false-positive hyoid fractures. False-positive hyoid fracture caused by improper dissection technique can be identified through examination of peripheral muscle, soft tissue hemorrhage, and the characteristics of fracture end.
Autopsy ; Cell Differentiation ; Diagnostic Errors ; Fractures, Bone/diagnosis* ; Humans ; Hyoid Bone/injuries* ; Muscles

The mechanism of oxidative refolding of proteins was elucidated in more detail from the intensive and extensive studies in the past decades. 1. Most of the proteins examined so far proceed oxidative refolding via multiple pathways rather than a single and specific pathway. This is consistent with the folding energy landscape theory. 2. It is the native interactions rather than the non-native interactions that direct the folding process. This is not necessarily incompatible with the importance of the non-native disulfide intermediates in the bovine pancreatic trypsin inhibitor (BPTI) pathway, which are just a chemical necessity in the intramolecular arrangement to facilitate native disulfide formation. 3. Based on the BPTI refolding it was suggested that disulfide bonds have a stabilizing effect on the native state without determining either the folding pathway or the final three-dimensional structure of the protein. This point of view is not applicable to other proteins. Studies on the refolding of prochymosin unequivocally demonstrated that the formation of native disulfides is the prerequisite to the recovery of the native conformation. It is more likely that the interdependence between the native disulfide formation and the formation of native structure is a general rule. 4. At the early stage of oxidative refolding disulfide formation is essentially a random process, with the progress of refolding further disulfide formation is increasingly dependent on the conformations of the intermediates. Enhancing the renaturation yield of recombinant proteins is a major challenge in biotechnology. In addition to aggregation, the formation of species with mispaired disulfide bonds is a leading cause of decreased yield. Progress in understanding the mechanism of oxidative refolding has provided insight into how to solve this problem. As described above, at the later stage of refolding disulfide formation depends on the conformations of intermediates. The intermediates with native-like and flexible structure favourable for native disulfide formation and correct refolding are productive intermediates, while the unproductive intermediates tend to adopt stable conformations, which render the thiol groups and disulfide bond(s) inaccessible and further folding unfavourable energetically. Therefore, the principle to enhance the renaturation yield of disulfide-containing proteins is to cause the productive intermediates to predominate by destabilizing the unproductive intermediates. To approach this, alkaline pH, low temperature, labilizing agents, protein disulfide isomerase and its analogues and alteration of primary structure have been proved useful to adjusting the structure of the unproductive intermediates so as to facilitate thiol/disulfide interchange and in turn the native disulfide formation. The prospects for the oxidative refolding of proteins both in basic and applied researches are discussed in this review article.
Animals ; Biotechnology ; Disulfides ; chemistry ; Humans ; Oxidation-Reduction ; Protein Folding ; Proteins ; chemistry ; genetics ; metabolism