Biography
我是一名生物力学工程师,擅长骨科生物力学. 我在本科时就对生物力学产生了兴趣, 当我了解到工程师可以帮助临床医生更好地了解人体,以改善残疾患者的治疗结果.
Education Background
Bioengineering Ph.D. - 2008 Univeristy of Pittsburgh
Mechanical Engineering M.S. - 2003 Cornell University
Engineering Mechanics B.S. - 2001 Michigan State University
Music B.A. - 2001 Michigan State University
Courses Taught
- ES/ME380 - Biomechanics
- ES220 - Statics
- ES223 - Rigid Body Dynamics
Research Interests
Dr. Kuxhaus在骨科生物力学领域的广泛研究包括骨科创伤和修复的离体模型, 以及在日常生活中常见和特殊活动中上肢功能的测量. 过去的工作主要集中在上肢,特别强调肘关节及其关节刚度. 其他过去的项目包括测量和模型拇指力生产能力在受损和未受损的个人, quantification of ankle proprioception, 以及两种不同髋关节植入物设计的性能比较. 她目前的研究包括实验和理论模型,利用固体力学原理来研究骨科. 在她的实验室设计了一种新型髓内钉. 使用鹿离体模型创建了椎环突骨折, 目的是防止这些使人衰弱的伤害. 正在进行的工作也量化了松质骨的材料和微结构特性. Dr. 库克斯豪斯还在积极的学习环境中esball国际app物力学的教学法.
Patents
Kuxhaus L可调长度矫形装置." USPTO US 9,161,790 B2. Approved 10/20/15
Publications
- Kuxhaus L and Troy KL. (2018)《伤到骨头:开放性生物力学课堂项目的多层面丰富.” J Biomech Eng.; 140(8):081008-081008-5. doi:10.1115/1.4040293. TIMES CITED: 0 Gale
- NC†(Corbiere), Zeigler SL, Towler CD, Mondal S, Issen KA, Mesfin A, Michalek AJ, Kuxhaus L. (2018)“低角度导致腰椎松弛增加, 低负荷循环屈曲易导致急性损伤. 2018;e1038. http://doi.org/10.1002/jsp2.1038 TIMES CITED: 0 Michalek AJ, Kuxhaus
- L., Jaremczuk D‡, Zaino NL‡(2018)“蛋白聚糖有助于局部肿胀压力, but not compressive mechanics, in intact cervine medial meniscus.” J Biomech, 74, p. 8691. doi: http://doi.org/10.1016/j.jbiomech.2018.04.[23]引用:2 Hedgeland MJ†,Ciani MJ, Clark AM,
- Michalek AJ, Kuxhaus L. (2017)“近端可调可变长度髓内钉:离体准静态和循环载荷评估”.” ASME J Med Dev, 11(4), 045001(1-7) doi: 10.1115/1.4037260 TIMES CITED: 0
- Zaino NL‡,Hedgeland MJ†,Ciani MJ, Clark AM, Kuxhaus L, Michalek AJ. (2017)“白尾鹿离体膝关节模型:关节形态测量和前交叉韧带断裂强度”.生物医学工程年鉴,45(4),1093-1100. doi:10.1007/s10439-016-1746-8 TIMES CITED: 2
- Cassidy E, McCullom SB, Parnes N, Kuxhaus, L, Ciani MJ. (2016). 颈动脉系统的形态变异增加了中枢神经系统缺血的风险.” Clinical Medicine Reviews in Vascular Health, 8, 1-5. doi: 10.4137/CMRVH.S38902.
- Corbiere NC, Zeigler SL, Issen KA, Michalek AJ, Kuxhaus L. (2016)《低负荷低角度重复性屈曲诱发颈牛离体模型环形骺骨折》 J Biomech, 49(9):1477-81. doi: 10.1016/j.jbiomech.2016.03.022.
- Kuxhaus L, Corbiere NC. (2016)“课堂期刊俱乐部:生物力学课堂当代初级文献的协同研究”.” J Biomech Eng, 138(7), 070801 (5 pages). doi: 10.1115/1.4032802.
- McDonald LT, Corbiere NC, DeLisle JA, Clark AM, Kuxhaus L. (2016) "Winning the war on postoperative pain: a multimodal strategy to reduce pain and narcotic pain medication usage after total joint arthroplasty." AORN Journal, 103(6): 606-613. http://dx.doi.org/10.1016/j.aorn.2016.04.003 这篇文章被选为继续教育学分,附带一个小测验.
- Hedgeland MJ, Libruk MA, Corbiere NC, Ciani MJ, Kuxhaus L. (2016) "The Odocoileus virginianus femur: mechanical behavior and morphology." PLoS ONE 11(1): e0146611. doi:10.1371/journal.pone.0146611 Data available at: doi:10.5061/dryad.59gg3.
- McDonald LT, Clark AM, Landauer AK, Kuxhaus L. (2015) "Winning the war on surgical site infection: the role of a preoperative evidence-based intervention bundle in total joint arthroplasty." AORN J, 102(2):182.e1-182.e11. doi: 10.1016/j.aorn.2015.06.007.
- Throop AD, Clark AM, Kuxhaus L. (2015) "An adjustable-length intramedullary nail: development and mechanical evaluation in cervine tibiae.” J Med Dev; 9(2):024503-024503-5. doi: 10.1115/1.4030152.
- Miller MC, Kuxhaus L, Cowgill ML, Cook HA, Druschel M, Palmer B, Baratz ME. (2015)“独特的模型唤起了Mason II型骨折后发现的旋后/旋前缺陷.” J Orthop Res, 33(3),343-8. doi: 10.1002/jor.22771.
- Throop AD, Landauer AK, Clark AM, Kuxhaus L. (2015) "Cervine tibia morphology and mechanical strength: a suitable tibia model?" J Biomech Eng, 137(3), 034503 (6 pages) doi: 10.1115/1.4029302.
- Landauer AK, Mondal S, Yuya PA, Kuxhaus L. (2014) "Cyclic cryopreservation affects the nanoscale material properties of trabecular bone." J Biomech 47, pp.3584-89 doi: 10.1016/j.jbiomech.2014.08.027.
- Corbiere NC, Lewicki KA, Issen KA, Kuxhaus L. (2014) "Creating physiologically realistic vertebral fractures in a cervine model." J Biomech Eng, 136, 064504-1 – 064504-4. doi: 10.1115/1.4027059.
- Kuxhaus L, Zeng S, Robinson CJ. (2014)“肘关节刚度测量对速度的依赖”, angle, and muscle contraction level.” J Biomech, 47(5):1234-7. doi: 10.1016/j.jbiomech.2013.12.008.
- Sotereanos NG, Wohlrab D, Hofer A, Kuxhaus L, Miller MC. (2013)“两个非骨水泥股骨干的沉降:一项体外研究”.”Proc Inst Mech Eng (H): J Eng Med. 227(10), 1067-1072. doi: 10.1177/0954411913493877.
- Tanaka M, Weisenbach CA, Miller MC, Kuxhaus L. (2011)“软质生物材料模型参数的连续计算方法”.” J Biomech Eng,133(7), 074502:1-7.
- Kuxhaus L, Schimoler PJ, Vipperman JS, Miller MC. (2009)“反馈控制肘关节模拟器设计的验证:肘关节肌肉力矩臂测量”.” J Med Dev,3(1), 021002:1-7. doi: 10.1115/1.3191725.
- Kuxhaus L, Schimoler PJ, Vipperman JS, Baratz ME, Miller MC. (2009)“运动捕捉系统中摄像机切换对精细精度的影响”.” J Biomech Eng, 131(1), 014502:1-6. doi: 10.1115/1.3002910.
- 孔蒂S,达森D,斯图尔特G,格林A,马丁R, Kuxhaus L, Miller, MC. (2008)“全踝关节置换术后的本体感觉”.” Foot and Ankle International, 29(11), 1069-1073. doi: 10.3113/FAI.2008.1069.
- Espiritu M, Kuxhaus L, Kaufman RA, Li ZM, Goitz RJ. (2005)“量化远端内松解术对近端指间关节屈曲的影响:一项尸体研究”.”J Hand Surg [Am] 30A(5), 1032-1038. doi: 0.1016/j.jhsa.2005.05.003.
- Kuxhaus L, Valero-Cuevas FJ, and Roach SS. (2005)“量化选择性麻痹引起的手指三维力能力缺陷:模拟尺神经麻痹拇指的应用”.”, J Biomech, 38(4), 725-736. doi: 10.1016/j.jbiomech.2004.05.010.
- Li ZM, Fisk JA, Kuxhaus L, Christophel TH. (2005)“腕屈伸与桡尺偏差的耦合”.” Clin Biomech, 20(2), 177-183. doi: 10.1016/j.clinbiomech.2004.10.002.