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Bone & Joint 360
Vol. 11, Issue 3 | Pages 9 - 11
1 Jun 2022
Foxall-Smith M


Bone & Joint 360
Vol. 10, Issue 5 | Pages 7 - 10
1 Oct 2021
Morris DLJ Cresswell T Espag M Tambe AA Clark DI Ollivere BJ


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 1 | Pages 3 - 7
1 Feb 2019
Eames N Golash A Birch N


Bone & Joint 360
Vol. 7, Issue 6 | Pages 2 - 8
1 Dec 2018
Murray IR Safran MR LaPrade RF


Bone & Joint 360
Vol. 6, Issue 1 | Pages 3 - 6
1 Feb 2017
Horn A Eastwood D


Bone & Joint 360
Vol. 5, Issue 6 | Pages 8 - 12
1 Dec 2016
Kumar KHS Lawrence JE Khanduja V


Bone & Joint 360
Vol. 2, Issue 5 | Pages 2 - 7
1 Oct 2013
Penn-Barwell JG Rowlands TK

Blast and ballistic weapons used on the battlefield cause devastating injuries rarely seen outside armed conflict. These extremely high-energy injuries predominantly affect the limbs and are usually heavily contaminated with soil, foliage, clothing and even tissue from other casualties. Once life-threatening haemorrhage has been addressed, the military surgeon’s priority is to control infection.

Combining historical knowledge from previous conflicts with more recent experience has resulted in a systematic approach to these injuries. Urgent debridement of necrotic and severely contaminated tissue, irrigation and local and systemic antibiotics are the basis of management. These principles have resulted in successful healing of previously unsurvivable wounds. Healthy tissue must be retained for future reconstruction, vulnerable but viable tissue protected to allow survival and avascular tissue removed with all contamination.

While recent technological and scientific advances have offered some advantages, they must be judged in the context of a hard-won historical knowledge of these wounds. This approach is applicable to comparable civilian injury patterns. One of the few potential benefits of war is the associated improvement in our understanding of treating the severely injured; for this positive effect to be realised these experiences must be shared.


Bone & Joint 360
Vol. 2, Issue 3 | Pages 2 - 5
1 Jun 2013
McNamara K

According to a report by Millennium Research Group in January 2011, the US orthopaedic extremity device market will generate over $4.6 billion in revenue by 2015.1 With an ageing demographic and increasing demand for better quality of life into old age, there is clearly a commercial drive for the orthopaedic device community to develop new and innovative solutions to bone and joint problems. Devising such solutions is one thing; protecting them, so that research investment can be rewarded, is another. How is such protection achieved? The judicious use of intellectual property rights plays a key role, and this article aims to provide some information about the use of patents to protect innovation.


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 6 | Pages 2 - 7
1 Dec 2012
IJpma FFA ten Duis HJ van Gulik TM

A comprehensive study of osteology remains a cornerstone of current orthopaedic and traumatological education. Osteology was already established as an important part of surgical education by the 16th century. In order to teach anatomy and osteology, the corpses of executed criminals were dissected by the praelector anatomiae of the Amsterdam Guild of Surgeons. Magnificent anatomical atlases preserve the knowledge obtained from these dissections. We present an overview of the most authoritative works of Vesalius, Bidloo, Cheselden, and Albinus authored in the 16th, 17th and 18th centuries. At that time a knowledge of osteology was necessary to pass the ‘master-exam’ in order to become a surgeon, and anatomical teaching was traditionally based on the practice of dissection. In the modern era, anatomical dissection and illustrations are largely being replaced by three-dimensional imaging and computer simulations, with an unfortunate trend in current curricula away from the established teaching technique of dissection. Education through the practice of dissection, particularly for future surgeons, remains integral to the development of tissue handling techniques, understanding of anatomical variation, and furthering of spatial awareness skills. With this review, we seek to remind contemporary surgeons of the lessons we can learn from our predecessors who valued education through anatomical dissection.


Bone & Joint 360
Vol. 1, Issue 1 | Pages 2 - 6
1 Feb 2012
Hogervorst T

Osteoarthritis is extremely common and many different causes for it have been described. One such cause is abnormal morphology of the affected joint, the hip being a good example of this. For those joints with femoroacetabular impingement (FAI) or developmental dysplasia of the hip (DDH), a link with subsequent osteoarthritis seems clear. However, far from being abnormal, these variants may be explained by evolution, certainly so for FAI, and may actually be normal rather than representing deformity or disease. The animal equivalent of FAI is coxa recta, commonly found in species that run and jump. It is rarely found in animals that climb and swim. In contrast are the animals with coxa rotunda, a perfectly spherical femoral head, and more in keeping with the coxa profunda of mankind. This article describes the evolutionary process of the human hip and its link to FAI and DDH. Do we need to worry after all?