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Bone & Joint 360
Vol. 8, Issue 5 | Pages 4 - 10
1 Oct 2019
Tsoi K Samuel A Jeys LM Ashford RU Gregory JJ


Bone & Joint 360
Vol. 8, Issue 4 | Pages 5 - 13
1 Aug 2019
Middleton R Khan T Alvand A


Bone & Joint 360
Vol. 8, Issue 2 | Pages 2 - 8
1 Apr 2019
Shivji F Bryson D Nicolaou N Ali F


Bone & Joint 360
Vol. 8, Issue 3 | Pages 3 - 7
1 Jun 2019
Patel NG Waterson HB Phillips JRA Toms AD


Bone & Joint 360
Vol. 8, Issue 1 | Pages 3 - 7
1 Feb 2019
Eames N Golash A Birch N


Bone & Joint 360
Vol. 6, Issue 4 | Pages 2 - 7
1 Aug 2017
Titchener AG Tambe AA Clark DI


Bone & Joint 360
Vol. 5, Issue 3 | Pages 2 - 6
1 Jun 2016
Raglan M Scammell B


Bone & Joint 360
Vol. 5, Issue 4 | Pages 4 - 15
1 Aug 2016
Sehat K

Anatomical total knee arthroplasty alignment versus conventional mechanical alignment; or a combination?


Bone & Joint 360
Vol. 5, Issue 2 | Pages 3 - 6
1 Apr 2016
Patel M Eastley N Ashford R

This paper aims to provide evidence-based guidance for the general orthopaedic surgeon faced with the presentation of a potential soft tissue sarcoma in an extremity.


Bone & Joint 360
Vol. 3, Issue 3 | Pages 9 - 13
1 Jun 2014
Waterson HB Philips JRA Mandalia VI Toms AD

Mechanical alignment has been a fundamental tenet of total knee arthroplasty (TKA) since modern knee replacement surgery was developed in the 1970s. The objective of mechanical alignment was to infer the greatest biomechanical advantage to the implant to prevent early loosening and failure. Over the last 40 years a great deal of innovation in TKA technology has been focusing on how to more accurately achieve mechanical alignment. Recently the concept of mechanical alignment has been challenged, and other alignment philosophies are being explored with the intention of trying to improve patient outcomes following TKA.

This article examines the evolution of the mechanical alignment concept and whether there are any viable alternatives.


Bone & Joint 360
Vol. 2, Issue 1 | Pages 6 - 11
1 Feb 2013
Saw K Jee CS

Modern athletes are constantly susceptible to performance-threatening injury as they push their bodies to greater limits and endure higher physical stresses. Loss of performance and training time can adversely and permanently affect a sportsperson’s career. Now more than ever with advancing medical technology the answer may lie in biologic therapy. We have been using peripheral blood stem cells (PBSC) clinically and have been able to demonstrate that stem cells differentiate into target cells to enable regenerative repair. The potential of this technique as a regenerative agent can be seen in three broad applications: 1) articular cartilage, 2) bone and 3) soft tissue. This article highlights the successful cases, among many, in all three of these applications.


Bone & Joint 360
Vol. 2, Issue 1 | Pages 2 - 5
1 Feb 2013
Khan M Roberts S Richardson JB McCaskie A

Stem cells are a key component of regenerative medicine strategies. Particular areas of musculoskeletal application include cartilage and bone regeneration in arthritis and trauma. There are several types of stem cell and this article will focus on the adult derived cells. The review includes current issues and future developments.


Bone & Joint 360
Vol. 1, Issue 3 | Pages 2 - 4
1 Jun 2012
Cobb JP Andrews BL

In a global environment of rising costs and limited funds, robotic and computer-assisted orthopaedic technologies could provide the means to drive a necessary revolution in arthroplasty productivity. Robots have been used to operate on humans for 20 years, but the adoption of the technology has lagged behind that of the manufacturing industry. The use of robots in surgery should enable cost savings by reducing instrumentation and inventories, and improving accuracy. Despite these benefits, the orthopaedic community has been resistant to change. If the ergonomics and economics are right, robotic technology just might transform the provision of joint replacement.