參考文獻 |
[1] Jennifer M.H. and Charles G.H. “Projections of US prevalence of arthritis and associated activity limitations.” Arthritis & Rheumatism, Vol. 54(1), pp. 226–229, 2006.
[2] Perruccio A.V., Power J.D. and Badley E.M. “Revisiting arthritis prevalence projections--it′s more than just the aging of the population.” The Journal of Rheumatology, vol. 33(9), pp. 1856-1862, 2006.
[3] Power J.D., Badley E.M., French M.R., Wall A.J. and Hawker G.A. “Fatigue in osteoarthritis: a qualitative study.” BMC Musculoskeletal Disorders, Vol. 9, pp. 63-70, 2008.
[4] Turkiewicz A., Petersson I.F., Björk J., Hawker G., Dahlberg L.E., Lohmander L.S. and Englund M. “Current and future impact of osteoarthritis on health care: a population-based study with projections to year 2032.” Osteoarthritis and Cartilage, Vol. 22(11), pp. 1826–1832, 2014.
[5] Maloney W.J., Schmalzried T. and Harris W.H. “Analysis of long-term cemented total hip arthroplasty retrievals,” Clinical Orthopaedics & Related Research, Vol. 405, pp. 70-78, 2002.
[6] Chen W.P., Tai C.L., Lee M.S., Lee P.C., Liu C.P. and Shih C.H. “Comparison of stress shielding among different cement fixation modes of femoral stem in total hip arthroplasty – A three-dimensional finite element analysis,” Journal of Medical and Biological Engineering, Vol. 24, pp. 183-187, 2004.
[7] Padgett D.E. and Warashina H. “The unstable total hip replacement,” Clinical Orthopaedics & Related Research, Vol. 420, pp. 72-79, 2004.
[8] Shih C.H., Chen W.P., Tai C.L., Kuo R.F., Wu C.C. and Chen C.H. “New concepts-biomechanical studies of a newly designed femoral prosthesis (cervico-trochanter prosthesis),” Clinical Biomechanics, Vol. 12, pp. 482-490, 1997.
[9] Tai C.L., Shih C.H., Chen W.P., Lee S.S., Liu Y.L., Hsieh P.H. and Chen W.J. “Finite element analysis of the cervico-trochanteric stemless femoral prosthesis,” Clinical Biomechanics, Vol. 18, pp. S53-S58, 2003.
[10] Chen T.H., Lung C.Y. and Cheng C.K. “Biomechanical comparison of a new stemless hip prosthesis with different shapes-a finite element analysis,” Journal of Medical and Biological Engineering, Vol. 29, pp. 108-113, 2009.
[11] 錢本文,保留股骨頸的人工髖關節置換術,中華創傷骨科雜誌,2007。
[12] 呂文源,「陶瓷球頭人工髖關節之磨耗性質分析」,國立陽明大學,碩士論文,1998年。
[13] 許世昌,新編解剖學,1996。
[14] 實用骨科解剖圖譜(下肢):股骨頸的內傾角與股骨頸的前傾角,取自http://yxsj.baiduyy.com/gukejinping/a3/lower1.htm
[15] John W. Hole, Jr., Karen A. Koos., Human Anatomy,胡明一、孫穆乾、陳懿慧等譯,藝軒圖書,民國八十四年。
[16] Anatomy & Physiology 2100 with Ritucci/miska at Wright State University,取自https://www.studyblue.com/notes/note/n/chapter-8/deck/8056904
[17] 醫學知識庫:多針固定術,取自http://pmmp.cnki.net/Operation/Details.aspx?id=1491
[18] Duda G.N., Schneider E. and Chao Y.S. ”Internal forces and moments in the femur during walking.” Journal of Biomechanics, Vol. 30, pp.933-941, 1997.
[19] Stansfield B.W. and Nicol A.C. ”Hip joint contact forces in normal subjects and subjects with total hip prostheses: walking and stair and ramp negotiation.” Clinical Biomechanics, Vol. 17, pp.130-139, 2002.
[20] Hurwitz D.E., Foucher K.C. and Andriacchi T.P. ”A new parametric approach for modeling hip forces during gait.” Journal of Biomechanics, Vol. 36, pp.113-119, 2003.
[21] Stansfield B.W., Nicol A.C., Paul J.P., Kelly I.G., Graichem F. and Bergmann G. ”Direct comparison of calculated hip joint contact forces with those measured using instrumented implants. An evaluation of a three-dimensional mathematical model of the lower limb.” Journal of Biomechanics, Vol. 36, pp.929-936, 2003.
[22] 韓毅雄,骨頭肌肉系統之生物力學,華杏出版社,1983。
[23] Johnston R.C. and Smidt G.L. ”Measurement of hip-joint motion during walking.Evaluation of an electrogoniometric method.” The Journal of Bone and Joint Surgery American, Vol. 51, pp.1083, 1969.
[24] 劉華昌,基本骨科學,合記圖書出版社,1988。
[25] 林天祐,骨科學,台灣商務印書館,1988。
[26] 髖關節解剖特點,取自http://www.zd444.com/xinwendongtai/299.html
[27] English T.A. and Kilvington M. “In vivo records of hip loads using a femoral implant with telemetric output (a prelimary report).” Journal of Biomedical Engineering, Vol. 1(2), pp. 111–115, 1979.
[28] Draganich L.F., Andriacchi T.P., Strongwater A.M. and Galante J.O. “Electronic measurement of instantaneous foot-floor contact patterns during gait.” Journal of Biomechanics, Vol. 13(10), pp. 875–880, 1980.
[29] Debra E.H., Kharma C.F. and Thomas P.A. “A new parametric approach for modeling hip forces during gait.” Journal of Biomechanics, Vol. 36(1), pp. 113–119, 2003,
[30] Heller M.O., Bergmann G., Kassi J.-P., Claes L., Haas N.P. and Duda G.N. “Determination of muscle loading at the hip joint for use in pre-clinical testing.” Journal of Biomechanics, Vol. 38(5), pp. 1155–1163, 2005.
[31] Kotzar G.M., Davy Dr.D.T., Goldberg V.M., Heiple K.G., Berilla J., Heiple Jr. K.G., Brown R.H. and Burstein A.H. “Telemeterized in vivo hip joint force data: A report on two patients after total hip surgery.” Journal of Orthopaedic Research, Vol. 9(5), pp. 621–633, 1991.
[32] Bergmann G., Graichen F. and Rohlmann A. “Is staircase walking a risk for the fixation of hip implants?” Journal of Biomechanics, Vol. 28(5), pp. 535–553, 1995.
[33] Margareta Nordin,骨骼肌肉系統基礎生物力學,林燕慧譯,LIPPINCOTT WILLIAMS & WILKINS出版社,2013
[34] 實用骨科解剖圖譜(下肢):骨小梁系統,取自http://yxsj.baiduyy.com/gukejinping/a3/lower1.htm
[35] Terrier A. 「Adaptation of bone to mechanical stress: theoretical model, experimental identification and orthopedic application. Swiss Federal Institute of Technology. 」 PhD Thesis, 1999.
[36] Thomas N.H. and Vicente G. “Evaluation of cortical bone by computed tomography.” Journal of Bone and Mineral Research, Vol. 11(10), pp. 1518–1525, 1996.
[37] Dieter C.W., Norbert S., Thomas P., Klaus R., Dieter W. and Raimund F. “Critical evaluation of known bone material properties to realize anisotropic FE-simulation of the proximal femur.” Journal of Biomechanics, Vel. 33(10), pp. 1325-1330, 2000.
[38] Peter Z., Richard B.C. and John R.H. “Some basic relationships between density values in cancellous and cortical bone.” Journal of Biomechanics, Vel. 41(9), pp. 1961-1968, 2008.
[39] Cowin S.C. and Hegedus D.H. “Bone remodeling I: theory of adaptive elasticity.” Journal of Elasticity, Vol. 6, pp. 313-326, 1976.
[40] Reilly D.T. and Burstein A.H. “The elastic and ultimate properties of compact bone tissue.” Journal of Biomechanics, Vol. 8, pp. 393-405, 1975.
[41] Ford C.M. and Keaveny T.M. “The dependence of shear failure properties of trabecular bone on apparent density and trabecular orientation.” Journal of Biomechanics, Vol. 29(10), pp. 1309-1317, 1996.
[42] Fyhrie D.P. and Vashishth D. “Bone stiffness predicts strength similarly for human vertebral cancellous bone in compression and for cortical bone in tension.” Bone, Vol. 26(2), pp. 169-173, 2000.
[43] Keaveny T.M., Wachtel E.F., Ford C.M. and Hayes W.C. “Differences between the tensile and compressive strengths of bovine tibial trabecular bone depend on modulus.” Journal of Biomechanics, Vol. 27(9), pp. 1137-1146, 1994.
[44] Kopperdahl D.L. and Keaveny T.M. “Yield strain behavior of trabecular bone.” Journal of Biomechanics, Vol. 31(7), pp. 601-608, 1998.
[45] Linde F., Hvid I. and Madsen F. “The effect of specimen geometry on the mechanical behaviour of trabecular bone specimens.” Journal of Biomechanics, Vol. 25(4), pp. 359-368, 1992.
[46] Morgan E.F. and Keaveny T.M. “Dependence of yield strain of human trabecular bone on anatomic site.” Journal of Biomechanics, Vol. 34(5), pp. 569-577, 2001.
[47] Wolff J.L. “The law of bone remodeling.” (Das Gesetz der Transformation der knochen, Kirschwald, 1982.) (Translated by Marquet P, Furlong R.) Springer, Berlin, 1986.
[48] Chamay A. and Tschantz P. “Mechanical influence in bone remodeling. Experimental research on Wolff’s law.” Journal of Biomechanics, Vol. 5, pp. 173-180, 1972.
[49] Lanyon L.E. “The measurement and biological significance of bone strain in vivo.” In: Cowin SC (ed) Mechanical properties of bone. ASME, New York, pp. 93-105, 1981.
[50] O′Conner J.A. and Lanyon L.E. “The effects of strain rate on mechanically adaptive bone remodeling.” 28th Annual Orthopaedic Research Society, New Orleans, LA. 1982.
[51] Burr D.B., Martin R.B., Schaffler M.B. and Radin E.L. “Bone remodeling in response to in vivo fatigue microdamage.” Journal of Biomechanics, Vol. 18(3), pp. 189-200, 1985.
[52] Barrett A.R.W., Davies B.L., Gomes M.P.S.F., Harris S.J., Henckel J., Jakopec M., Baena F.M.R. and Cobb J.P. “Preoperative planning and intraoperative guidance for accurate computer-assisted minimally invasive hip resurfacing surgery,” Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, Vel. 220, pp. 759-773, 2006.
[53] Mr. Stuart Edwards:Hip and Knee Surgeon,取自http://www.hipandkneesurgery.ie/hips-conditions.html
[54] Tulane Universty school of medicine, Department of Orthopaedics,取自http://tulane.edu/som/departments/orthopaedics/clinical-care/total-hip-replacement.cfm
[55] Steinberg M.E., Hayken G.D. and Steinberg D.R. “A Quantitative System For Staging Avascular.” The Journal of Bone and Joint Surgery, Vel. 77, pp.34-41, 1995.
[56] Siguier T., Siguier M. and Judet T. “Partial Resurfacing Arthroplasty of the Femoral Head in Avascular Necrosis.” Clinical Orthopaedics and Related Research, Vol. 386, pp. 85-92, 2001.
[57] Marvin E.S. and David R.S. “Classification systems for osteonecrosis: an overview.” The Orthopedic Clinics of North America, Vel. 35, pp.273-83, 2004.
[58] Michael A.M., German A.M. and Lynne C.J. “Systematic Analysis of Classification Systems for Osteonecrosis of the Femoral Head.” The Journal of Bone and Joint Surgery American, Vel. 88(3), pp. 16-26, 2006.
[59] 陳俊名,「客製化局部表面置換型人工髖關節的設計與分析」,國立中央大學,碩士論文,2009年。
[60] Stryker公司:對置換Cormet Hip Resurfacing System的病人進行術後追蹤,取自http://www.aboutstryker.com/hip/treating/hip-resurfacing.php
[61] 殷浩,無柄人工股骨頭的應用初探與比較,中國骨與關節損傷雜誌,2005。
[62] 林月秋,無柄人工髖關節置換40例,中華創傷骨科雜誌,2006。
[63] 孟林,無柄人工髖關節置換術研究進展,中醫正骨,2007。
[64] 馬洪,無柄解剖型人工髖關節全髖置換的療效觀察,中華中西醫學雜誌,2008。
[65] Isaac B., Vettivel S., Prasad R., Jeyaseelan L. and Chandi G. “Prediction of the femoral neck-shaft angle from the length of the femoral neck.” Clinical Anatomy, Vol. 10(5), pp. 318–323, 1997.
[66] Alonso C.G., Curiel M.D., Carranza F.H., Cano R.P. and Peréz A.D., “Femoral Bone Mineral Density, Neck-Shaft Angle and Mean Femoral Neck Width as Predictors of Hip Fracture in Men and Women.” Osteoporosis International, Vol. 11(8), pp. 714-720, 2000.
[67] Michael O., Edward T.D., Price A.M.G., James P.W. and Emil H.S. “The Reliability of Radiographic Assessment of Femoral Neck-Shaft and Implant Angulation in Hip Resurfacing Arthroplasty.” The Journal of Arthroplasty, Vol. 24(3), pp. 333–340, 2009.
[68] John A., Stephane G.B., Burton M., Raja C. and John R. “The Effect of the Cam Deformity on the Insertion of the Femoral Component in Hip Resurfacing.” The Journal of Arthroplasty, Vol. 26(3), pp. 458–466, 2011.
[69] Marmor M., Nystuen C., Ehemer N., McClellan R.T. and Matityahu A. “Accuracy of in situ neck-shaft angle and shortening measurements of the anatomically reduced, varus malreduced and shortened prox.” Injury, Vol. 43(6), pp. 846–849, 2012.
[70] Gilligan I., Chandraphak S. and Mahakkanukrauh P. “Femoral neck-shaft angle in humans: variation relating to climate, clothing, lifestyle, sex, age and side.” Journal of Anatomy, Vol. 223(2), pp. 133–151, 2013.
[71] Seamus O.B. “Femoral offset in total hip replacement: A study of anatomical offset in the Northern Ireland population.” International Journal of Orthopaedic and Trauma Nursing, Vol. 18(3), pp. 162–169, 2014.
[72] Trentani C. and Vaccarino F. “Complications in surface replacement arthroplasty of the hip: Experience with the Paltrinieri-Trentani Prosthesis.” International Orthopaedics(SICOT), Vol. 4, pp.247-252, 1981.
[73] Head W.C. ”Wagner surface replacement arthoplasty of the hip.” The Journal of Bone and Joint Surgery, Vol. 63-A, pp.420-427, 1981.
[74] Huiskes R., Strens P., Heck J.V. and Sloof T. ”Interface stress in the resurfaced hip.” Acta Orthopaedica Scandinavica, Vol. 56, pp.474-478, 1985.
[75] Munting E., and Verhelpen M. ”Fixation and effect on bone strain pattern of a stemless hip prosthesis.” Journal of Biomechanics, Vol. 28, pp.949-961, 1995.
[76] Makarand G.J., Suresh G.A., Freeman M. and Michael H.S., “Analysis of a femoral hip prosthesis designed to reduce stress shielding.” Journal of Biomechanics, Vol. 33, pp.1655-1662, 2000.
[77] Stem E., Duffy G., Blasser K. and Oconnor M.I., “Stem Fracture of Conserve Hemiarthroplasty.” The Journal of Arthroplasty, Vol. 19, pp.923-926, 2004.
[78] 錢本文,股骨頸保護裝置,2003
[79] 錢本文,十好無柄:革命性的世紀人工髖關節,中國醫療專題報導,2002。
[80] 劉玉軍,人工髖關節置換術及其併發症的防治,第二軍醫大學出版社,2007。
[81] 施魯孫,股骨頭置換模組及手術工具,2010
[82] Brekelmans, W.A.M., Poort, H.W., and Sloof, T.J.J.H. ”A new method to analyse the mechanical behavior of skeletal parts. “ Acta Orthopaedica Scandinavica, Vol 43, pp.301-317, 1972.
[83] Yuichi W., Naoto S. and Shigeaki M. ” Biomechanical Study of the Resurfacing Hip Arthroplasty Finite Element Analysis of the Femoral Component”, The Journal of Arthroplasty, Vol. 15, No. 4, pp. 505-511, 2000.
[84] Gross S., Abel E.W., “A finite element analysis of hollow stemmed hipp rostheses as a means of reducing stress shielding of the femur.” Journal of Biomechanics, Vol. 34, pp.995–1003, 2001.
[85] Chae S.W., Lee J.H. and Choi H.Y. “Biomechanical Study on Distal Filling Effects in Cementless Total Hip Replacement.” JSME International Journal, Vol 49, No.1, pp.147-156, 2006.
[86] 戴久琳,「人工髖關節骨柄之設計與材質對近端股骨之生物力學的影響」,國立台灣科技大學,碩士論文,2006年。
[87] Little J.P., Taddei F. and Viceconti M. “Changes in femur stress after hip resurfacing Arthroplasty: Response to physiological loads.” Clinical Biomechanics, V 22 pp.440–448, 2007.
[88] Shih .S., Tseng C.S., Lee C.C. and Lin S.C. ” Influence of muscular contractions on the stress analysis of distal femoral interlocking nailing.” Clinical Biomechanics, Vol 23, pp.38–44, 2008.
[89] Carolina D.G., Andrew M.N. and Martin B. “Probabilistic finite element analysis of the uncemented hip replacement—effect of femur characteristics and implant design geometry.” Journal of Biomechanics, Vol. 43(3), pp. 512–520, 2010
[90] Nir T., Zohar Y., Christof W., Peter A. and Sebastian E. “Patient-specific finite element analysis of the human femur—A double-blinded biomechanical validation.” Journal of Biomechanics, Vol. 44(9), pp. 1666–1672, 2011.
[91] Alexander T., Kleovoulos A.s, Georgios M. and Nikolaos M. “Fracture risk in the femoral hip region: A finite element analysis supported experimental approach.” Journal of Biomechanics, Vol. 45(11), pp. 1959–1964, 2012.
[92] Kyle K.N., Seth G., Pierre G., Peter C. and Steven K.B. “Proximal femur bone strength estimated by a computationally fast finite element analysis in a sideways fall configuration.” Journal of Biomechanics, Vol. 46(7), pp. 1231–1236, 2013.
[93] Junga J.M. and Kim C.S. “Analysis of stress distribution around total hip stems custom-designed for the standardized Asian femur configuration.” Biotechnology & Biotechnological Equipment, Vol. 28(3), pp. 525-532, 2014.
[94] Tai C.L., Lee M.S., Chen W.P., Hsieh P.H., Lee P.C. and Shih C.H. “Biomechanical comparison of newly designed stemless prosthesis and conventional hip prosthesis – An experimental study.” Bio-Medical Materials and Engineering, Vol. 15, pp.239-249, 2005.
[95] Carolyn A., Bassam A.M., Jerome T., Antony J.H. and Nelson V.G. “Hip Resurfacing Femoral Neck Fracture Influenced by Valgus Placement.” Clinical Orthopaedics and Related Research, Vol. 465, pp. 71-79, 2007.
[96] Papini M., Zdero R. and Zalzal P. “The Biomechanics of Human Femurs in Axial and Torsional Loading:Comparison of Finite Element Analysis, Human Cadaveric Femurs, and Synthetic Femurs.” Transactions of the ASME, Vol. 129, pp.12-19, 2007.
[97] Deuel C.R., Jamali A.A., Stover S.M. and Hazelwood S.J. “Alterations in femoral strain following hip resurfacing and total hip replacement.” The Journal of Bone and Joint Surgery, Vol. 91-B, pp.124-130, 2009.
[98] Wik T.S., Ostbyhang P.O., Klaksvik J. and Aamodt A. “Increased strain in the femoral neck following insertion of a resurfacing femoral prosthesis.” The Journal of Bone and Joint Surgery, Vol. 91-B, pp.461-467, 2012.
[99] Engh C.A., Bobyn J.D. and Glassman A.H. “Porous-coated hip replacement. The factors governing bone ingrowth, stress shielding, and results.” Society of Bone and Joint Surgery – British Ed, Vol. 69-B, pp. 45-55, 1987.
[100] William D.B., William J.C., Engh C.A. and Charles A.E. “Long-term clinical consequences of stress-shielding after total hip arthroplasty without cement.” Journal of Bone and Joint Surgery, Vol. 79, pp.1007-1012, 1997.
[101] Tai C.L., Chen W.P., Lee M.S., Lee P.C. and Shih C.H. “Comparison of stress shielding between straight and curved stems in cementless total hip arthoplasty- an in vitro experimental study.” Journal of Medical and Biological Engineering, Vol. 24, pp. 177-181, 2004.
[102] Qian Q.R., Gou S.H., Huang G.F., Wu Y.L. and Shi L.S. “Clinical pathology analysis of patient treated with Bell-Shape Bone-Grow-In Hip Prosthesis.” Journal of Chinese Clinical Medicine, Vel. 4, pp. 11-14, 2003.
[103] Wang M.C., Zao Q., Wu W.C., Sun Y.B. and Gao F. “Clinical Report of Total Hip Arthroplasty by Stem-less Total Hip of Prosthesis.” Orthopaedic Biomechanice Material and Clinicl Study, Vel. 1, pp. 17-19, 2004.
[104] Qi J.R., Wu H., Yang X.P., He Z.M. and Hou X.L. “Clinical Basic Theory of Stemless Hip Prosthesis.” Chinese Journal of Clinical Medicine, Vel. 3, pp. 46-49, 2004.
[105] Adams D. and Quigley S.”Hip resurfacing: Past, present and future.” Journal of Orthopaedic Nursing, Vel. 9, pp. 87-94, 2005.
[106] Duan M.Q.L., Yin H., Liu X.G., Huang D.H. and Zhao Q.H. “Preliminary Investigate and Comparison of Stemless Hip Replacement.” Chinese Journal of Bone and Joint Injury, Vel. 20, pp. 342-343, 2005.
[107] Lin Y.Q., Xu Y.Q., Wang Y.S., Tang X., Ding J., Ruan M., Li C.X. and Qian B.W. “Clinical applocation of stemless hip replacement in 40 cases.” Chinese Journal of Trauma, Vel. 22, pp. 820-823, 2006.
[108] Amstutz H.C., Duff M.J.L., Campbell P.A. and Dorey F.J. “The Effects of Technique Changes on Aseptic Loosening of the Femoral Component in Hip Resurfacing.” The Journal of arthroplasty, Vel. 22, pp. 481-489, 2007.
[109] Huang C.Y., Luo L.J., Lee P.Y., Lai J.Y., Wang W.T. and Lin S.C. “Efficient segmentation algorithm for 3D bone models construction on medical images.” Journal of Medical and Biological Engineering, Vel. 31, pp. 375-386, 2010.
[110] Viceconti M., Testi D., Gori R., Zannoni C., Cappello A., Lollis A.D. “HIDE:a new hybrid environment for the design of custom-made hip prosthesis.” Computer Methods and Programs in Biomedicine, Vel. 64, pp. 137-144, 2001.
[111] Stryker公司:Gamma3 Hip Fracture System,取自:http://www.osteosynthesis.stryker.com/products/gamma3.php?tab=1&vis=hcp&loc=eur
[112] Zimmer公司:Natural Nail® System,取自:http://www.zimmer.com/medical-professionals/products/trauma/zimmer-natural-nail-system.html
[113] Kempf I., Grosse A., Taglang G. and Favreul E. “Gamma nail in the treatment of closed trochanteric fractures. Results and indications of 121 cases.” Orthopaedics & Traumatology: Surgery & Research, Vol. 100(1), pp. 75–83, 2014.
[114] Zimmer公司:Patient Specific Instruments,取自:http://www.zimmer.com/medical-professionals/products/knee/patient-specific-instruments.html
[115] 國航科技:UP! 3D Printer Plus 2,取自:http://www.idea-diy.com/product-2.php
[116] Sawbones,取自http://www.sawbones.com
[117] Brand R.A., Pedersen D.R. and Friederich J.A. “The sensitivity of muscle force predictions to changes in physiologic cross-sectional area,” Journal of Biomechanics, Vel. 19, pp. 589-596, 1986.
[118] Huiskes R. and Boeklagen R. “Mathematical shape optimization of hip prosthesis design,” Journal of Biomechanics, Vel. 22, pp. 793-804, 1989.
[119] Duda G.N., Brand D., Freitag S., Liers W. e and Schneider E. “Variability of femoral muscle attachments,” Journal of Biomechanics, Vel. 29, pp. 1185-1190, 1996.
[120] Taylor M.E., Tanner K.E., Freeman M.A.R. and Yettram A.L. “Stress and strain distribution within the intact femur: compression or bending?” Medical Engineering & Physics, Vel. 18, pp. 122-131, 1996.
[121] Simoes J.A., Vaz M.A., Blatcher S. and Taylor M. “Influence of head constraint and muscle forces on the strain distribution within the intact femur,” Medical Engineering & Physics, Vel. 22, pp. 453-459, 2000.
[122] SolidWorks Simulation 原廠教育手冊,SolidWizard 實威國際,2011。
[123] Chen W.P., Tai C.L., Shih C.H., Hsieh P.H., Leou M.C. and Lee M.S. “Selection of fixation devices in proximal femur rotational osteotomy: clinical complications and finite element analysis.” Clinical Biomechanics, Vol. 19, pp.255-262, 2004.
[124] 人體下肢的生物力學,取自http://goo.gl/0O65F8
[125] Chen C.M., Tsai W.C., Lin S.C. and Tseng C.S. “Effects of stemmed and nonstemmed hip replacement on stress distribution of proximal femur and implant.” BMC Musculoskeletal Disorders, Vol.15, pp. 312–320, 2014.
[126] Engh C.A., Bobyn J.D. and Glassman A.H. “Porous-coated hip replacement. The factors governing bone ingrowth, stress shielding, and results.” Journal of Bone and Joint Surgery, Vol. 69-B(1), pp.45-55, 1987.
[127] Asgari S.A., Hamouda A.M.S., Mansor S.B., Singh H., Mahdi E., Wirza R. and Prakash B., “Finite element modeling of a generic stemless hip implant design in comparison with conventional hip implants,” Finite Elements in Analysis and Design, Vel. 40, pp. 2027-2047, 2004.
[128] Waide V., Cristofolini L., Stolk J., Verdonschot N. and Toni A. “Experimental investigation of bone remodelling using composite femurs.” Clinical Biomechanics, Vel. 18, pp. 523-536, 2003.
[129] Chen C.M., Cheng C.T., Lin C.S., Lin S.C., Chiang C.C., Luo C.A. and Tseng C.S. “Biomechanical effects of bone-implant fitness and screw breakage on the stability and stress performance of the nonstemmed hip system.” Clinical Biomechanics, Vol. 29(2), pp. 161–169, 2014.
[130] Hitchon P.W., Brenton M.D., Coppes J.K., From A.M. and Torner J.C. “Factors Affecting the Pullout Strength of Self-Drilling and Self-Tapping Anterior Cervical Screws.” Spine, Vel. 28, pp. 9-13, 2003.
[131] Choi K. and Goldstein S.A. “A comparison of the fatigue behavior of human trabecular and cortical bone tissue.” Journal of Biomechanics, Vol. 25(12), pp. 1371–1381, 1992.
[132] Rho J.Y., Ashman R.B. and Turner C.H. “Young′s modulus of trabecular and cortical bone material: Ultrasonic and microtensile measurements.” Journal of Biomechanics, Vol. 26(2), pp. 111–119, 1993.
[133] Rho J.Y., Tsui T.Y. and Pharr G.M. “Elastic properties of human cortical and trabecular lamellar bone measured by nanoindentation.” Biomaterials, Vol. 18(20), pp. 1325–1330, 1997.
[134] Charles H.T., Jae R., Yuichi T., Ting Y.T. and George M.P. “The elastic properties of trabecular and cortical bone tissues are similar: results from two microscopic measurement techniques.” Journal of Biomechanics, Vol. 32(4), pp. 437–441, 1999.
[135] Harun H.B., Elise F.M., Glen L.N., Grayson E.M., Eric K.W. and Tony M.K. “Comparison of the elastic and yield properties of human femoral trabecular and cortical bone tissue.” Journal of Biomechanics, Vol. 37(1), pp. 27–35, 2004. |