about
Wear of highly crosslinked polyethylene acetabular componentsReduced femoral component subsidence with improved impaction grafting at revision hip arthroplasty.Second-generation highly cross-linked X3™ polyethylene wear: a preliminary radiostereometric analysis study.Early migration characteristics of a hydroxyapatite-coated femoral stem: an RSA study.Stem micromotion after femoral impaction grafting using irradiated allograft bone: a time zero in vitro study.Does cup-cage reconstruction with oversized cups provide initial stability in THA for osteoporotic acetabular fractures?Wear of a 5 megarad cross-linked polyethylene liner: a 6-year RSA studyLow wear of a second-generation highly crosslinked polyethylene liner: a 5-year radiostereometric analysis study.Periprosthetic osteolysis after total hip replacement: molecular pathology and clinical management.Biomechanical methods for the assessment of fracture repair.Postoperative weight bearing and patient reported outcomes at one year following tibial plateau fractures.Early acetabular cartilage wear following hemiarthroplasty: An ovine model.Can tibial plateau fractures be reduced and stabilised through an angiosome-sparing antero-lateral approach?Effect of a novel interspinous implant on lumbar spinal range of motionThe accuracy and precision of radiostereometric analysis in monitoring tibial plateau fractures.Differentially loaded radiostereometric analysis to monitor fracture stiffness: a feasibility study.Collecting a comprehensive evidence base to monitor fracture rehabilitation: A case study.Emerging ideas: soft tissue applications of radiostereometric analysis.A comparison of radiostereometric analysis and computed tomography for the assessment of lumbar spinal fusion in a sheep model.The 6-year migration characteristics of a hydroxyapatite-coated femoral stem: a radiostereometric analysis study.Weight-bearing-induced displacement and migration over time of fracture fragments following split depression fractures of the lateral tibial plateau: a case series with radiostereometric analysis.Impaction bone grafting has potential as an adjunct to the surgical stabilisation of osteoporotic tibial plateau fractures: Early results of a case series.Proximal translation of > 1 mm within the first two years of revision total hip arthroplasty correctly predicts whether or not an acetabular component is loose in 80% of cases: a case-control study with confirmed intra-operative outcomes.The diagnostic performance of radiographic criteria to detect aseptic acetabular component loosening after revision total hip arthroplasty.The rate of wear of second-generation highly crosslinked polyethylene liners five years post-operatively does not increase if large femoral heads are used.The Wear Rate of Highly Cross-Linked Polyethylene in Total Hip Replacement Is Not Increased by Large Articulations: A Randomized Controlled Trial.The correlation of RANK, RANKL and TNFalpha expression with bone loss volume and polyethylene wear debris around hip implants.Accuracy of methods to measure femoral head penetration within metal-backed acetabular components.A preclinical study of stem subsidence and graft incorporation after femoral impaction grafting using porous hydroxyapatite as a bone graft extender.An evaluation of prosthetic femoral head impact on acetabular articular cartilage in a hemiarthroplasty model.Peak loading during walking is not associated with fracture migration following tibial plateau fracture: A preliminary case series.The effect of hip position on the length of trochanteric muscles: potential implications for early postoperative management of hip arthroplastyAnatomy of piriformis, obturator internus and obturator externus: implications for the posterior surgical approach to the hipIs internal fixation alone advantageous in selected B2 periprosthetic fractures?Accuracy of EBRA-cup measurements after reconstruction of severe acetabular defects at revision THRA New Approach to Surgical Management of Tibial Plateau FracturesAll-polyethylene tibial components in young patients have stable fixation; a comparison RSA studyDoes nanoscale porous titanium coating increase lumbar spinal stiffness of an interbody fusion cage? An in vivo biomechanical analysis in an ovine modelObjectively measured 24-hour activity profiles before and after total hip arthroplastyVancouver B2 Peri-Prosthetic Fractures in Cemented Femoral Implants can be Treated With Open Reduction and Internal Fixation Alone Without Revision
P50
Q26999251-A052FB76-EDF0-41E4-975B-9281D2EBAFBFQ34283785-F678B27A-F20F-4F93-9929-74FB24B215DFQ34628038-9098608C-8BB9-4489-B6C4-02163A0F85DAQ34733691-EA355A58-4D9B-4792-B845-4B56D46C81ACQ34879117-49EC193F-F425-4586-8F65-E1EE22FEEB8FQ36226211-A640C5A7-CF2E-491A-B12E-528D4922E9EFQ36912976-2AFE43EB-1AF5-4571-8C9E-5103131A4CE9Q37219619-A4A26214-CE32-4C15-92DB-AF4008A0BCBBQ38152730-90728791-3719-411A-A359-1CFF7CD2875AQ38214249-0225DA2D-4E46-4A18-9690-C07BA5B08C6DQ38763167-90330256-C9AA-4E6B-BC5C-1B73C4B61C72Q38918613-33BFAE31-1982-4D80-B975-93298F64E700Q39281924-BA88EF76-D717-4CED-9655-3FD2BB87C558Q39689110-D5D7F5B3-6F32-4479-90F2-DB68F1A7BC80Q39873570-A6F322AC-794C-460C-BC9C-36810CC645CFQ42610877-77FC9F5F-90B7-43DE-8834-2BF21C4438D9Q42695698-9A6A637D-C57C-4557-ADBB-C2E606636D57Q42708685-F2BFB14F-6046-4225-BF47-E58E314BF775Q42873331-25B6B231-1DBC-4525-AACF-79B79E00624FQ45064004-DFF7234A-B375-424F-8A7C-65D3C4D436C0Q47376140-803D74F0-0F35-491D-B5FD-80C0E6BCE8BAQ48096248-B412E301-B946-45FB-9410-26E39B9856E1Q50927360-ED6E7977-D167-4094-B3F7-8DD232F4B9B1Q50927366-0B8CCBDF-DE5E-4317-BEB4-DA1030637215Q51089754-330FE1BA-6C72-4E41-B400-117555725D85Q51110810-963E3AC1-FBE5-4D33-8E16-1417D7EA667AQ51171484-D4E0A27F-5D3E-409A-A5FD-0DF33537C694Q51274784-B4250133-1507-4878-B84A-5511E699CC5CQ53210467-FFD3DBA8-A30A-47A6-BB77-CFFC272F4994Q53513887-744C8909-95A6-4AB5-9248-08C0ED1477A6Q53562798-0A6DAD02-9820-4D88-9AD5-B593A7331F17Q82353528-EC134F6A-6876-4257-A2B8-CAC0024C11C8Q84961340-885BAB2B-7595-4BA7-AEBD-0563C4F611E1Q85762521-ABE9547D-3A06-47B5-A7DC-A3FA74FDF223Q89624542-F10A2C16-3C96-4D22-943A-0AA43FC2E562Q89943936-B12F5E36-9225-4004-8BDF-C80B44C07DA9Q91027186-D4B92CEA-9B66-4E58-ABEF-DFBACF4C2C93Q92601155-AAFDFB2A-8DA8-4647-BACC-1A63ACE0A341Q92724096-FA7B4519-4841-4773-ACA2-2EBA334566B4Q92906594-04ACC93A-518F-4B4C-B4A7-2FA2E909AFB4
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Stuart A Callary
@nl
Stuart A Callary
@sl
Stuart A. Callary
@en
Stuart A. Callary
@es
type
label
Stuart A Callary
@nl
Stuart A Callary
@sl
Stuart A. Callary
@en
Stuart A. Callary
@es
prefLabel
Stuart A Callary
@nl
Stuart A Callary
@sl
Stuart A. Callary
@en
Stuart A. Callary
@es
P106
P1153
14041351000
P31
P496
0000-0002-2892-5238