Posters S15-S19 and 47-65
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S15) |
Soft tissue balancing using a navigation system with an offset type tensor in cruciate-retaining and posterior-stabilized total knee arthroplasty Matsumoto T, Kubo S, Muratsu H, Matsushita T, Tei K, Sasaki H, Kuroda R, Kurosaka M |
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S16) |
Combined anteversion of the THA implanted with image-free cup navigation and without stem navigation Fukunishi S, Fukui T, Nishio S, Fujihara Y, Okahisa S, Yoshiya S |
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S17) |
Leg length and offset measurements in navigated total hip replacement (THA) El Haj M, Mattan Y, Kandel L, Rivkin G, Lubovski O, Liebergall M |
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S18) |
Use of image-free navigation in determination of acetabular cup orientation: a comparison with a single X-ray image-based 2D/3D reconstruction method Franke J, Xie W, Von Recum J, Nolte LP, Grützner PA, Zheng G |
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S19) |
Can patient-specific mechanical navigation of cup implantation be performed based only on plain radiographs? Murphy WS, Steppacher SD, Kowal JH, Murphy SB |
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47) |
2D-fluoroscopic based navigation for percutaneous screw fixation of glenoid fractures Gras F, Marintschev I, Rausch S, Aurich M, Klos K, Hofmann GO |
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48) |
Computer-assisted to personalized resection of bone tumor and precise bone reconstruction Ding HW, Tu Q, Wang H, Zeng SL, Liu B, Shen JJ, Yi C |
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49) |
Comparison of the measurement of the anterior knee laxity by the GNRB system and by a navigation system Jenny JY, Arndt J |
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50) |
Early clinical and radiological outcomes of navigation-guided cruciate-retaining floating platform mobile-bearing total knee arthroplasty Han S, Lee D, Park S |
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51) |
Computerized three-dimensional templating for shoulder joint arthroplasty Jeong JY, Park JM |
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52) |
Alignment changes after fixation of implant and re-registration in imageless navigated total knee arthroplasty Jang J, Lee S, Lee JK, Roh YW, Chun SH, Seong SC, Lee MC |
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53) |
Use of intraoperative 3D volume visualization for navigated bone tumor resection: a report of two cases Smith EJ, Rudan JF, Bardana DD, Ellis RE |
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54) |
The results of robot-assisted unicompartmental knee arthroplasty Yoon SH, Lee CT, Hur JH, Kwon OM, Trabish M, Park JS, Lee HJ |
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55) |
Navigation does not improve radiographic sagittal alignment of a femoral component in TKA Chung BJ, Kang YG, Chang CB, Park YB, Seong SC, Kim TK |
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56) |
Non-invasive assessment of lower limb alignment is accurate for pre-operative planning and post-operative follow up Clarke JV, Picard F, Riches PE, Deakin AH |
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57) |
Navigation-assisted total knee arthroplasty with normal pressure drainage reduces blood loss – a prospective comparative study of three modalities Jih YK, Wen YC, To W, Feng SW, Ka KS |
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58) |
A novel and reproducible reference axis that indicates axial rotation of distal tibia Enomoto H, Nakamura T, Shimosawa H, Waseda A, Niki Y, Toyama Y, Suda Y |
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59) |
Does heat developed during robot-assisted THA affect the osteoblastic activity of cells on cutting surface? Chun YS, Cho YJ, Rhyu KH |
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60) |
Evaluation of imageless navigation system with computed tomography in total hip arthroplasty Taki N, Mitsugi N, Mochida Y, Aratake M, Ota H, Kobayashi H, Saito T |
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61) |
Computer navigation aided precision aggressive curettage for treating giant cell tumor of limbs Zhang Q, Niu X |
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62) |
Lateral approach of computer-aided robotic system for less-invasive total knee arthroplasty Huynh LM, Kim YH |
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63) |
Development of an orthopedic surgery planning system for implant positioning with user-definable constraints Park SY, Ha YC, Yeom JS, Kim NK |
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64) |
Custom made femoral component for total hip replacement: a clinical and technical challenge in nine cases Merloz P, Eid A, Tonetti J, Ruatti S |
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65) |
Limited flexion of the femoral component may serve as a tool to manage the flexion gap in navigated total knee arthroplasty Matziolis G, Perka C |