医学硕士论文参考文献格式一
[1]党静霞.肌电图诊断与临床应用[M].北京:人民卫生出版社,2005.
[2]刘雅丽,高伟,黄晓琳等.脊髓损伤患者与正常人F波的差异性研究[J].中国康复,2006, 21(1): 23—25.
[3]Musaev AV,Guseinova S G, Imamverdieva SS. The use ofpulsedelectromagnetic fields with complex modulation inthe treatment of patients withdiabetic polyneur 0 pathy[J]. Neurosci Behav Physiol,2003, 33(8): 745-752.
[4]张丼,肌电图F波检查对腰慨神经根病辅助诊断的临床使用[J].检验医学与临床,2 0 1 3. 10(17) :.2350-2351.
[5]刘青荡,梅风君,赵静霞等.F波在临床神经电生理中的应用.中华物理医学与康复杂志,1996,21: 180-182.
[6]Fisher MA. F-response analysis of motor disorders of central origin J NeurolSci,1983,62; 13-22.
[7]Fisher MA. Hreflexes and F-waves : physiology and clinical indications.Muscle Nerve, 1992, 15: 1223-1233.
[8]SchiHerHH,Stalberg E. F-responses studied with single fiber EMG innormalsubjects and spastic patients. J Neurol Neurosurg Psychi, 1978,41: 45-53.
[9]汤晓芙.临床肌电图学.北京:北京医科大学中国协和医科大学联合出版社,1995. 114—120, 126—128.
[l0]Milanov IG . Evaluation of the presynaptic inhibitionby comparing theamplitudes of Hreflexes and F-waves . Is it possible Electromyogr ClinNeurophyaiol2000. 40(8): 491-495.
[11]PanizzaM, Balbi P. Russo G, et alH-Reflex recoverycurve and reciprocalinhibition of the upper limbs in padents with spasticity secondary to stroke. Am JPhysMed Rehabil. 1995. 74; 357—363.
[12]尹明浩,朴仁范.中国朝医基础学[M].北京:中国中医药出版社,2010.
[13]尹明浩,朴仁范.中国朝医体质学[M].北京:中国中医药出版社,2010.
[14]李根陪.论朝医学四象体质病理[J].中国民族医药杂志,2009,15(8):7-8.
[15]金明玉.朝医辨象法特点的研究[J].中国民族医药杂志,2004,3(3):1.
[16]馬場正之,金春玉,沈正男.本邦健常成人6腓骨神経Ai>T[J].臨床,2007,49(6): 369-372.
[17]金春玉,王蓉,马场正之.关于健康成人左右运动神经传导参数的比较[J].现代生物医学进展,2011,11 (5): 815-818.
[18]卢祖能,曾庆杏等.实用肌电图学[M].北京:人民卫生出版社,2000.
[19]汪飞,程小华,叶梦鹤,等.上下肢神经F波在糖尿病周围神经病变中的诊断价值[J].鲜博医学院学报,2012,37(9): 1040-1042.
[20]周方,严莉,汪仁斌,等.腔神经H反射与F波诊断腰骶神经根病的敏感性比较[J].中日友好医院学报,2008,22(5): 270-272.
[21]张淑平,冯立群,曲秋菊.F波在糖尿病周围神经病中的诊断价值[J].中国神经免疫学和神经病学杂志,2011, 18(3): 211-213.
[22]罗芳,谢炳灼,宋毅军.慢性酒精中毒性周围神经病患者F波和神经传导速度的变化[J].山东医药,2012, 52(41): 52-53.
[23]卢祖能,李竟,董红娟,等.F波对糖尿病周围神经病的早期评估[J].中国?临床康复杂志,2005,9(17): 202-204.
[24]刘雅丽,尤春景,黄晓琳,等.脊髓损伤患者下肢腔神经H反射和F波的临床观察[J].中国康复,2003,18(5): 278-280.
[25]OkunoS, Kobayashi T, Orito K.F-wave conduction velocity, persistence,andamplitude for the tibial nerve in clinically normal cats [J]. Am J Vet Res,2008,69(2):261-264.
[26]张嘉,孙太欣.A波和F波、H反射在腰骶神经根病诊断中的意义[J].癫痫与神经电生理学杂志,2012,21(1): 18-20.
[27]张锦华,周超彦,蒋红.等.A波在格林-巴利综合征的诊断中价值[J].中华物理医学与康复杂志,2007,29(7): 472-474
[28]朴仁范.东洋医学要论校译[M].延吉:延边人民出版社,2005.
[29]徐玉锦.甲印与朝医辨象方法初探[J].中国民族医药杂志,2010,16(3):29-30.
[30]金春玉,林长青,柳振宇.朝医四象人运动神经传导机能的研究[J].时珍国医国药,2012, 23 (3): 755-758.
[31]吴群励,梁晓春,姜楠,等.148例2型糖尿病患者运动神经传导速度分布及中医证候特征分析[J].中医杂志,2008,49(3); 251-254.
[32]崔兴燮,崔正植.朝医治疗少阳人体质胆囊炎的研宄[J].中国民族医药杂志,2004,2 (4): 9.
[33]Sima AA, Zhang W X,Tze W J, et al. Diabetic neuropathy in STZ-induceddiabetic rat and effect of allogeneic islet cell transplantation morphometricanalysisDiabetes 1998; 37(8): 1129-1136.
[34]NardoneA. Schieppati M Group II spindle fibres and afferent control of stance.Clues from diabetic neuropathy. Clin Neurophysiol 2004 ; 115(4):779-789.
[35]Oltman CL,Coppey LJ , Gellett JS . et al . Progression of vascular andneureldysfunction in sciatic nerves of Zucker diabetic fatty and Zucker rats. Am JPhysiol Endocrinol Metab 2005; 289(1); El 13-122.
[36]Tmjillo-Hemandez B, Huerta M, Trujillo X. F-wave and H-reflex alterationsinrecently diagnosed diabetic patients[J]J Clin Neurosci, 2005,12(7): 763-766.
[37]PuksaL,Stalberg E,Falck B.Occurrence of A-wave in F-wave studies ofhealthy nerves[J]. Muscle Nerve, 2003,28; 626-629.
[38]RowinJ,Meriggioli MN.Eleetrediagnestie significance of supramaximallystimulated A—wave[J]. Muscle Nerve,2000.23: 1117-1120
[39]Gozke E,Celebi D,Dortean N,et al .A~waves and eleetrophysiologicallyestablished diagnoses[J]. Electromyogr Clin Neurophysiol. 2003,43: 33-35.
[40]金春玉,马场正之.朝鲜族正常人下肢神经传导检查中检测A波的意义[J].延边大学医学学报,2009,32(3): 178-180.
医学硕士论文参考文献格式二
[1]Vargas HA, Akin 05 Zheng J,et al. The value of MR imaging when the site of uterinecancer origin is uncertain[J]. Radiology, 2011,258(3):785-792
[2]Hori M,Kim T,Onishi H,et al Uterine Tumors: Comparison of 3D versus 2DT2?weighted Turbo Spin-Echo MR Imaging at 3.0 T—Initial Experience 1 [J]. Radiology,2011,258(1):154-163.
[3]Subak LL,Hricak H,Powell CB? et al. Cervical carcinoma: computed tomographyand magnetic resonance imaging for preoperative staging[J]. Obstet Gynecol,1995,86(1):43-50.
[4]Mayr NA,Yuh WT, Zheng J, et al. Tumor size evaluated by pelvic examinationcompared with 3-D MR quantitative analysis in the prediction of outcome for cervicalcancer [J]. Int J Radiat Oncol Biol Phys, 1997,39(2):395-404
[5]Jensen RL,Mumert ML,Gillespie DL,et al. Preoperative dynamic contrast-enhancedMRI correlates with molecular markers of hypoxia and vascularity in specific areas ofintratumoral microenvironment and is predictive of patient outcome [J]. Neuro Oncol,2014,16(2):280-291.
[6]Jansen JF,SchSder H,Lee NY, et al. Noninvasive assessment of tumormicroenvironment using dynamic contrast-enhanced magnetic resonance imaging and18F-fluoromisonidazoIe positron emission tomography imaging in neck nodalmetastases[J], Int J Radiat Oncol Biol Phys, 2010,77(5):1403-1410.
[7]Kim S,Loevner LA, Quon H, et al. Prediction of response to chemoradiation therapyin squamous cell carcinomas of the head and neck using dynamic contrast-enhanced MRimaging[J]. AJNR Am J Neuroradiol, 2010, 31(2):262-268.
[8]Jia Z,Geng D, Xie T,et al. Quantitative analysis of neovascular permeability inglioma by dynamic contrast-enhanced MR imaging [J]. J Clinl Neurosci, 2012,19(6):820-823.
[9]Yao WW,Zhang H,Ding B, et al. Rectal cancer: 3D dynamic contrast-enhanced MRI;correlation with microvascular density and clinicopathological features[J]. Radiol Med,2011,116(3):366-374.
[10]Ozduman K,Yildiz E,Dinner A,et al. Using intraoperative dynamiccontrast-enhanced T1-weighted MRI to identify residual tumor in glioblastomasurgery [J]. JNeurosurg,2014, 120(1):60-66.
[11]OfConnor JP,Tofts PS, Miles KA, et al. Dynamic contrast-enhanced imagingtechniques: CT and MRI[J]. Br J Radiol,2011,84(2): 112-120.
[12]Jackson A, Jayson GC, Li KL, et al. Reproducibility of quantitative dynamiccontrast-enhanced MRI in newly presenting glioma[J]. Br J Radiol, 2003,76(903):153-162.
[13]Sevcenco S,Ponhold L,Javor D,et al. Three-Tesla dynamic contrast-enhanced MRI:a critical assessment of its use for differentiation of renal lesion subtypes [J]. World JUrol, 2014,32(1):215-220.
[14]Ren J5 Huan Y,Wang H,et al Dynamic contrast-enhanced MRI of benign prostatichyperplasia and prostatic carcinoma: correlation with angiogenesis[J], Clin Radio, 2008,63(2):153-159.
[15]Shukla - Dave A, Hricak H. Role of MRI in prostate cancer detection[J]. NMRBiomed, 2014, 27(1):16-24.
[16]de Rooij M,Hamoen EH, Futterer JJ,et al. Accuracy of Multiparametric MRI forProstate Cancer Detection: A Meta-Analysis[J]. AJR Am J Roentgenol, 2014,202(2):343-351.
[17]Wang XH,Peng WJ5 Xin C, et al. [Value of dynamic contrast-enhanced MRI inassessment of early response to neoadjuvant chemotherapy in breast cancer][J].Zhonghua Zhong Liu Za Zhi [Chinese journal of oncology], 2010, 32(7):539-543.
[18]Tan SL, Rahniat K,Rozalli FI,et al. Differentiation between benign and malignantbreast lesions using quantitative diffusion-weighted sequence on 3T MRI [J], Clin Radio,2014,69(1):63-71.
[19]Yopp AC,Schwartz LH,Kemeny N, et al. Antiangiogenic therapy for primary livercancer: correlation of changes in dynamic contrast-enhanced magnetic resonanceimaging with tissue hypoxia markers and clinical response[J]. Ann Surg Oncol, 2011,18(8):2192-2199.
[20]Armbruster M, Sourbron S,Haug A,et al. Evaluation of Neuroendocrine LiverMetastases: A Comparison of Dynamic Contrast-Enhanced Magnetic Resonance Imaging紐 d Positron Emission Tomography/Computed Tomography [J], Invest Radiol, 2014,49(1):7-14.
[21]Tappouni R,ElKady RM,Sarwani N et al. Comparison of the accuracy ofdiffusion-weighted imaging versus dynamic contrast enhancement magnetic resonanceimaging in characterizing focal liver lesions[J]. J Comput Assist Tomogr,2013,37(6):995-1001.
[22] Folkman J. Tumor angiogenesis: therapeutic implications[J]. N Engl J Med,1971,285(21):1182-1186.
[23]Hawighorst H,Knapstein PG, Knopp MV,et al. Cervical carcinoma: standard andpharmacokinetic analysis of time-intensity curves for assessment of tumor angiogenesisand patient survival[J]. MAGMA, 1999,8(1):55-62.
[24]Franiel T,Hamm B, Hricak H. Dynamic contrast-enhanced magnetic resonanceimaging and pharmacokinetic models in prostate cancer[J]. Eur Radiol, 2011, 21(3):616-626.
[25]Tofts PS,Brix G,Buckley DL,et al. Estimating kinetic parameters from dynamiccontrast-enhanced T1-weighted MRI of a diffusible tracer: standardized quantities andsymbols[J]. J Magn Reson Imaging, 1999,10(3):223-232.
[26]Alonzi R,Padhani AR, Allen C. Dynamic contrast enhanced MRI in prostatecancer [J]. Eur J Radiol, 2007,63(3):335-350.
[27]Ellingsen C,Egeland TA,Gulliksrud K, et al. Assessment of hypoxia in humancervical carcinoma xenografts by dynamic contrast-enhanced magnetic resonanceimaging[J]. Int J Radiat Oncol Biol Phys? 2009, 73(3):838-845.
[28]Seeber L,Horree N,Vooijs MA, et al. The role of hypoxia inducible factor-1 alphain gynecological cancer[J], Crit Rev Oncol Hematol,2011,78(3):173-184.
[29]Purdie TQ Henderson E,Lee TY. Functional CT imaging of angiogenesis in rabbitVX2 soft-tissue tumour[J]. Phys Med Biol, 2001, 46(12):3161-3175.
[30]Fidler IJ. Angiogenic heterogeneity: regulation of neoplastic angiogenesis by theorgan microenvironment[J]. J Natl Cancer Inst, 2001,93(14):1040-1041.
[31]田丽,刘立志,范卫君.鼻咽癌MRI动态增强参数与微血管密度和血管内皮生长因子表达的相关性研究[J].中山大学学报(医学科学版),2009, 30(3):336-340.
[32]于德新,马祥兴,魏华刚,等.肝细胞癌微血管及成熟血管对MR增强表现特征的影响[J].实用放射学杂志,2009,25(3):351-355.
[33]Donaldson SB,West CM, Davidson SE,et al. A comparison of tracer kinetic modelsfor T1 - weighted dynamic contrast - enhanced MRI: Application in carcinoma of thecervix [J]. Magn Reson Med, 2010,63(3):691-700.
[34]Veeravagu A, Hou LC,Hsu AR,et al. The temporal correlation of dynamiccontrast-enhanced, magnetic resonance imaging with tumor angiogenesis in a murineglioblastoma model[J]. Neurol Res,2008,30(9):952-959.
[35]Harrer JU, Parker GJ,Haroon HA, et al. Comparative study of methods fordetermining vascular permeability and blood volume in human gliomas[J]. J Magn ResonImaging,2004,20(5):748-757.
[36]Zaharchuk G. Theoretical basis of hemodynamic MR imaging techniques to measurecerebral blood volume, cerebral blood flow, and permeability [J]. AJNR Am JNeuroradiol, 2007,28(10):1850-1858,
[37]McDonald DM, Baluk P. Significance of blood vessel leakiness in cancer [J]. CancerRes,2002,62(18):5381-5385.
[38]McDonald DM, Choyke PL. Imaging of angiogenesis: from microscope to clinic [J].Nat Med, 2003,9(6):713-725.
[39]Michel CC,Curry FE. Microvascular permeability [J]. Physiol Rev, 1999,79(3):703-761.
[40]Yang C,Stadler WM, Karczrnar GS,et al. Comparison of quantitative parameters incervix cancer measured by dynamic contrast-enhanced MRI and CT[J]. Magn ResonMed, 2010,63(6):1601-1609.
医学硕士论文参考文献格式三
[1]吴海树.齿科激光煌接理论与实践[M].大连:大连海事大学出版社,2002:49-50.
[2]J.A. Atoui, D.N.B. Felipucci, V.O. Pagnano, et al. Tensile and flexural strength ofcommercially pure titanium submitted to laser and tungsten inert gas welds[J].Brazilian dental journal,2013,24(6):630-634.
[3]R. Nomoto, Y. Takayama,F. Tsuchida,et al. Non-destructive three-dimensionalevaluation of pores at different welded joints and their effects on joint strength [J],Dental materials, 2010,26(12):246-252.
[4]F. Caiazzo, V. Alfieri,G, Corrado, et al. Investigation and Optimization of LaserWelding of Ti-6Al-4 V Titanium Alloy Plates[J]. Journal of ManufacturingScience and Engineering-transactions of the ASME,2013,135(6):452-463.
[5]S. Michio,Y. Satoshi, T. Misao, et al. Influence of irradiation conditions on thedeformation of pure titanium frames in laser welding [J], Dental Materials Journal,2009,28(2):243-247.
[6]H. Kikuchi, T. Kurotani, M. Kaketani, et al. Effect of laser irradiation conditionson the laser welding strength of cobalt-chromium and gold alloys.[J] Journal ofOral Science,2011,53(3):301-305.
[7]X.J. Cao,A.S.H. Kabir,P. Wanjara, et al. Global and Local Mechanical Propertiesof Autogenously Laser Welded Ti-6A1-4V[J]. Metallurgical and MaterialsTransaction A-Physical Metallurgy and Materials Science, 2014,45A(3):1258-1272.
[8]S. Viritpon, Y. Takayuki, K. Equo,et al. Comparative study on torsional strength,ductility and fracture characteristics of laser-welded a+P Ti-6Al-7Nb alloy, CPTitanium and Co-Cr alloy dental castings [J]. Dental Materials, 2008,24(6):839-845.
[9]J. Liu,V. Ventzke,P. Staron, et al. Effect of Post-weld Heat Treatment onMicrostructure and Mechanical Properties of Laser Beam Welded TiAl-basedAlloy[J]. Metallurgical and Materials Transaction A-Physical Metallurgy andMaterials Science, 2014,45A(l):16-28.
[10]K. Hisaji, K. Tomoko,K. Masahiro,et al. Effect of laser irradiation conditionson the laser welding strength of cobalt-chromium and gold alloys [J]. Journal ofOral Science, 2011, 53(3):301-305.
[11]崔广,宋应亮.不同杆圈接触形态对辉接面机械性能影响的研究[J].中国美容医学,2012,21(12):2227-2229.
[12]R.R. Wang, C.T. Chang. Thermal modeling of laser welding for titanium dentalrestorations[J]J Prosthet Dent, 1998,79(3):335-342.
[13]J.M.C. Nunez Pantoja,A.P. Farina,L.G. Vaz,et al. Fatigue strength: effect ofwelding type and joint design executed in Ti-6A1_4V structures [J].Gerodontology, 2012, 29(2):el005-el010.
[14]解光明,王前文,夏荣.激光辉接钛及钛合金腐蚀疲劳强度的研究[J].实用口腔医学杂志,2009,25(4):463-464.
[15]J.M.C. Nunez Pantoja,L.G. Vaz, M.A.A. Nobilo,et al. Effects of laser weldjoint opening size on fatigue strength of Ti-6A1-4V structures with severaldiameters [J], Journal of Oral Rehabilitation, 2011,38(3):196-201.
[16]LA. Orsi, L.B. Raimundo, O.L. Bezzon, et al. Evaluation of anodic behavior ofcommercially pure titanium in tungsten inert gas and laser welds [J]. Journal ofProsthodontics,2011,20(8):628-631.
[17]卢军霞,曹风华,郭天文等.激光燥和脉冲氩辉对铁耐腐烛性的影响[J].实用口腔医学杂志,2000,17(2):105-108.
[18]方洪渊.揮接结构学[M].北京:机械工业出版社,2008:109-127.
[19]G. Bussu, P.E. Irving. The role of residual stress and heat affected zoneproperties on fatigue crack propagation in friction stir welded 2024-T351aluminium joints[J]. International Journal of Fatigue, 2003,25(1):77-88.
[20]宋天民.燥接残余应力的产生与消除[M].北京:中国石化出版社,2005:13-17.
[21]I. Watanabe, C. Jennifer, Y. Chiu. Dimensional change of laser-welded goldalloy induced by heat treatment [J]. Basic Science Research, 2007,16(5):365-369.
[22]I. Watanabe, A.P. Beuson, k. Nguyen. Effect of heat treatment on jointproperties of laser-welded Ag-Au-Cu-Pd and Co-Cr alloys[J]. J Prosthedont,2005,14(3):170-174,
[23]I. Watanabe, J. Liu, M. Atsuta, et al. Effects of heat treatments on mechanicalstrength of laser-welded equi-atomic AuCu-6at% alloy[J]. J Dent Res,2001,80(9):1813-1817.
[24]X.S. Liu, H.Y. Fang,S.D. Ji,et al. Control of Titanium Alloy Thin PlateWelding Distortion by Trailing Peening[J]. Mater.Sci.Technol,2003,19(1):184-186.
[25]JJ. Xu,L.J. Chen,J.H. Wang. Prediction of welding distortion in multipassgirth-butt welded pipes of different wall thickness[J]. The International Journalof Advanced Manufacturing Technology, 2008,35(9-10):987-993.
[26]A.S. Munsi, A.J. Waddell, C.A. Walker. Vibratory stress relief-an investigationof the torsional stress effect in welded shafts[J]. Journal of strain Analysis, 2001,36(5):453-463.
[27]李占明,朱有利,王侃.超声波冲击处理对2A12招合金揮接接头组织的影响[J].金属热处理,2008,33(7):53-56.
[28]R.T. Huang, W.L. Huang, R,H. Huang, et al. Effects of microstructures on thenotch tensile fracture feature of heat-treated Ti-6Al-6V-2Sn alloy[J]. MaterialsScience and Engineering: A,2014,595: 297-305.
[29]T. Novoselova, S. Malinov, W.Sha. Experimental study of the effects of heattreatment on microstructure and grain size of a gamma TiAl alloy[J].Intermetallics, 2003,11(5):491-499.
[30]S.K. Nirmal, S. Rakesh, S.S.Vishal. Cryogenic Treatment of Tool Materials: AReview [J]. Materials and Manufacturing Processes,2010,25(10):1077-1100.
[31]V. Firouzdor,E. Nejati, F. Khomamizadeh. Effect of deep cryogenic treatmenton wear resistance and tool life of M2 HSS drill [J]. Journal of MaterialsProcessing Technology,2008,206(1-3):467-472.
[32]J.W. Kim,J.A. Griggs, J.D. Regan, et al. Effect of cryogenic treatment onnickel-titanium endodontic instruments[J]. International Endodontic Journal,2005,38(6):364-371.
[33]S. Yan,Y. Zhang, S.G. Shi,et al. Effect of two kinds of annealing methods onthe mechanical properties of dental titanium castings [J]. Journal of practicalstomatology,2010,26(4):465-468.
[34]闫澍,张玉梅,赵永庆等.热处理温度对牙科铸造纯铁拉伸性能的影响[J].实用口腔医学杂志,2008,24(1):74-77.
[35]A. Ebihara, Y. Yahata, K. Miyara,et al. Heat treatment of nickel-titanium rotaryendodontic instruments: effects on bending properties and shaping abilities[J].International Endodontic Joximal, 2011,44(9):843-849.
[36]OA. Cuoghi,G.R Kasbergen, P.H. Santos, et al. Effect of heat treatment onstainless steel orthodontic wires[J]. Braz Oral Res. 2011,25(2):128-134.
[37]S.S.D. Rocha,G.L. Adabo,L.G. Vaz,et al. Effect of thermal treatment on tensilestrength of commercially cast pure titanium and Ti-6AI-4V alloys [J], J Mater SciMater Med, 2005,16(8):59-66.
[38]梁锐英,赵艳萍,温黎明等.激光燥接新型钴络合金的力学性能[J].中国组织工程研究与临床修复,2011,15(38):7135-7138.
[39]刘亚俊,李勇,曾志新等.深冷处理提高硬质合金刀片耐磨性能的机理研究[J].工具技术,2001,35⑶:19-20.
[40]D.N. Collins. Deep cryogenic treatment of tool steels [J]. Heat Treatment ofMetals,1996,23(2):40-42.