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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. 13, Issue 2 | Pages 8 - 12
1 Apr 2024
Craxford S


Bone & Joint 360
Vol. 12, Issue 3 | Pages 8 - 9
1 Jun 2023
Stringer H


Bone & Joint 360
Vol. 9, Issue 2 | Pages 3 - 6
1 Apr 2020
Myint Y Ollivere B


Bone & Joint 360
Vol. 7, Issue 4 | Pages 3 - 8
1 Aug 2018
White TO Carter TH


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


Bone & Joint 360
Vol. 7, Issue 2 | Pages 2 - 7
1 Apr 2018
Das A Giddie J Ollivere B


Bone & Joint 360
Vol. 7, Issue 1 | Pages 3 - 7
1 Feb 2018
Donnelly TD Woolf DK Farrar NG


Bone & Joint 360
Vol. 5, Issue 5 | Pages 2 - 7
1 Oct 2016
Forward DP Ollivere BJ Ng JWG Coughlin TA Rollins KE

Rib fracture fixation by orthopaedic and cardiothoracic surgeons has become increasingly popular for the treatment of chest injuries in trauma. The literature, though mainly limited to Level II and III evidence, shows favourable results for operative fixation. In this paper we review the literature and discuss the indications for rib fracture fixation, surgical approaches, choice of implants and the future direction for management. With the advent of NICE guidance and new British Orthopaedic Association Standards for Trauma (BOAST) guidelines in production, the management of rib fractures is going to become more and more commonplace.


Bone & Joint 360
Vol. 4, Issue 4 | Pages 2 - 7
1 Aug 2015
Nicol S Jackson M Monsell F

This review explores recent advances in fixator design and used in contemporary orthopaedic practice including the management of bone loss, complex deformity and severe isolated limb injury.


Bone & Joint 360
Vol. 5, Issue 1 | Pages 2 - 8
1 Feb 2016
Bryson D Shivji F Price K Lawniczak D Chell J Hunter J


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 6 - 14
1 Jun 2013
Wallace WA

In the UK we have many surgeon inventors – surgeons who innovate and create new ways of doing things, who invent operations, who design new instruments to facilitate surgery or design new implants for using in patients. However truly successful surgeon inventors are a rare breed and they need to develop additional knowledge and skills during their career in order to push forward their devices and innovations. This article reviews my own experiences as a surgeon inventor and the highs and lows over the whole of my surgical career.


Bone & Joint 360
Vol. 1, Issue 5 | Pages 2 - 7
1 Oct 2012
Belmont Jr PJ Hetz S Potter BK

We live in troubled times. Increased opposition reliance on explosive devices, the widespread use of individual and vehicular body armour, and the improved survival of combat casualties have created many complex musculoskeletal injuries in the wars in Iraq and Afghanistan. Explosive mechanisms of injury account for 75% of all musculoskeletal combat casualties. Throughout all the echelons of care medical staff practice consistent treatment strategies of damage control orthopaedics including tourniquets, antibiotics, external fixation, selective amputations and vacuum-assisted closure. Complications, particularly infection and heterotopic ossification, remain frequent, and re-operations are common. Meanwhile, non-combat musculoskeletal casualties are three times more frequent than those derived from combat and account for nearly 50% of all musculoskeletal casualties requiring evacuation from the combat zone.