X-ray based machine vision system for distal locking of intramedullary nails

In surgical procedures for femoral shaft fracture treatment, current techniques for locking the distal end of intramedullary nails, using two screws, rely heavily on the use of two-dimensional X-ray images to guide three-dimensional bone drilling processes. Therefore, a large number of X-ray images are required, as the surgeon uses his/her skills and experience to locate the distal hole axes on the intramedullary nail. The long-term effects of X-ray radiation and their relation to different types of cancer still remain uncertain. Therefore, there is a need to develop a surgical technique that can limit the use of X-rays during the distal locking procedure. A Robotic-Assisted Orthopaedic Surgery System has been developed at Loughborough University named Loughborough Orthopaedic Assistant System (LOAS) to assist orthopaedic surgeons during distal-locking of intramedullary nails. It uses a calibration frame and a C-arm X-ray unit. The system simplifies the current approach as it uses only two near-orthogonal X-ray images to determine the drilling trajectory of the distal-locking holes, thereby considerably reducing irradiation to both the surgeon and patient. The LOAS differs from existing computer-assisted orthopaedic surgery systems, as it eliminates the need for optical tracking equipment which tends to clutter the operating theatre environment and requires care in maintaining the line of sight. Additionally use of optical tracking equipment makes such systems an expensive method for surgical guidance in distal-locking of intramedullary nails. This study is specifically concerned with the improvements of the existing system. [Continues.

Patient-Specific Implants in Musculoskeletal (Orthopedic) Surgery

Most of the treatments in medicine are patient specific, aren’t they? So why should we bother with individualizing implants if we adapt our therapy to patients anyway? Looking at the neighboring field of oncologic treatment, you would not question the fact that individualization of tumor therapy with personalized antibodies has led to the thriving of this field in terms of success in patient survival and positive responses to alternatives for conventional treatments. Regarding the latest cutting-edge developments in orthopedic surgery and biotechnology, including new imaging techniques and 3D-printing of bone substitutes as well as implants, we do have an armamentarium available to stimulate the race for innovation in medicine. This Special Issue of Journal of Personalized Medicine will gather all relevant new and developed techniques already in clinical practice. Examples include the developments in revision arthroplasty and tumor (pelvic replacement) surgery to recreate individual defects, individualized implants for primary arthroplasty to establish physiological joint kinematics, and personalized implants in fracture treatment, to name but a few

Pain Management

Pain Management - Current Issues and Opinions is written by international experts who cover a number of topics about current pain management problems, and gives the reader a glimpse into the future of pain treatment. Several chapters report original research, while others summarize clinical information with specific treatment options. The international mix of authors reflects the "casting of a broad net" to recruit authors on the cutting edge of their area of interest. Pain Management - Current Issues and Opinions is a must read for the up-to-date pain clinician

Epidemiology of injuries in high-level youth sport in Luxembourg [Abstract]

peer reviewe

The use of health economics in the early evaluation of regenerative medicine therapies

The aim of this thesis is to help the RM industry avoid misguidedly investing in technologies that are unlikely to be cost-effective and reimbursed by healthcare providers. Health economics provides the tools to demonstrate value for money. These tools are typically used by healthcare providers to drive demand side decisions. However, they can be used by manufacturers to inform the supply side. I propose a simple approach, termed the headroom method. This ‘back of the envelope’ calculation is based on estimates of effectiveness of the proposed treatment towards the upper end of the plausible range. The method can be used either to inform an intuitive decision to continue or abandon development, or as a screening test to decide if more elaborate models are justified. One problem I encountered was the development of technologies without clearly defining the clinical problem. In particular, the marginal gain in benefit over alternative treatments is frequently overlooked. A large part of this thesis is therefore concerned with the clinical epidemiology of the conditions at which treatment is targeted. In this way, it was found, for example, the headroom for health gain from new treatment for inguinal hernia was much smaller than that for incisional hernias.EThOS - Electronic Theses Online ServiceGBUnited Kingdo