Clinical Trials Logo

Clinical Trial Summary

When assessing an injured child, doctors must decide whether or not there is an underlying bony fracture. The current way of doing this is by x-ray. In 2011, 46,000 children attended Sheffield Children's Hospital Emergency Department and 10,400 x-rays were taken - predominately for diagnosis of fractures. For foot and wrist, 2,215 x-rays were 'normal' with no fracture, at a cost of £119,610 (at a tariff of £54 per x-ray). Considering the cost and undesired effect of radiation exposure, a better way to discriminate those patients with fracture is needed. The non-invasive technique of thermal imaging holds promise as a putative technique. The investigators have earlier demonstrated the potential of thermal imaging for vertebral fractures, diagnosing limp and measuring respiration rate. This study investigates thermal imaging to screen for wrist fractures. The objectives are: (i) accurately identify fracture location, (ii) exclude cases that are sprain and thus reduce the need for their x-ray. The confirmation of a fracture would still require a x-ray. As the study is in collaboration with Sheffield Children's Hospital, only children will be included, however the findings will also be applicable to adults. Thermal imaging is a completely safe and harmless operation, as the camera is non-contact and emits no radiation. Any trauma, such as a wrist fracture, results in changes in blood flow that in turn affects the skin surface temperature of the skin overlying the injury. These changes affect the amount of emitted infrared radiation and will be recorded and explored to find a marker to differentiate fractures and sprains.


Clinical Trial Description

Thermal (IR) imaging is based on recording and processing of a part of electromagnetic spectrum below visible light, i.e. infrared band. Objects with a temperature above -273°C (- 459.67°F) emit thermal radiation. In thermography a camera that is sensitive to the mid (3-5 μm) and long (7-14 μm) infrared bands of the electromagnetic spectrum is used. The detection of an injury using thermal imaging relies on underlying physiology of temperature differentials. Dermal temperature differentials usually do not exceed 0.25°C, while differentials in excess of 0.65°C are consistently related to pathology. Therefore observation of a significant temperature differential is an indication of injury. The use of Infrared for musculoskeletal medical diagnosis and monitoring has been reported in many studies in children and adults. - Vertebral fractures were detected using thermal imaging • Thermal imaging assisted in diagnosis of the causes of limp including bone fracture. Thermography has detected a direct correlation between an increase in skin temperature and the existence of anterior) knee pain after implantation of artificial knee joints. It is suggested that thermal imaging is potentially valuable for a rapid, inexpensive and non-invasive diagnosis of pain and inflammation. Infrared spectroscopic analysis has been reported to be is a powerful tool for establishing the material properties that contribute to bone strength and so it thus has been helpful in improving the understanding of the changes in fragile bone. • The temperature of the bone during drilling could increase above 47oC. This can cause irreversible osteonecrosis. A study used infrared thermal imaging to determine spatial distribution of increase in bone temperature during drilling. Blood convection warms the skin by transfer of heat from the core and this process plays the major role in determining skin temperature. Skin's has a thermoregulation role, i.e. it generates, absorbs, conducts and radiates heat. Changes in the skin surface temperature are valuable in detecting physiological and pathological state such as inflammation. With recent developments in thermal imaging devices, the use of infrared imaging for injury examination is gaining a growing interest, with more evidence supporting its use. However, the data in children is limited, with the investigators' research group undertaking the majority of work in this field currently. In this study the infrared emission (characterised by heat radiation) from skin at the site of injury is imaged and analysed to differentiate between wrist fracture and sprain. The hypothesis is that the inflammation and blood perfusion in sprain and bone fracture at the site of injury are different leading to distinct temperature gradients at the site. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05892484
Study type Interventional
Source Sheffield Children's NHS Foundation Trust
Contact
Status Completed
Phase N/A
Start date March 13, 2019
Completion date November 13, 2019

See also
  Status Clinical Trial Phase
Recruiting NCT05555459 - Performance and Safety Evaluation of Inion CompressOn Screw in Foot and Ankle Surgeries. PMCF Investigation N/A
Completed NCT03147222 - Function Focused Care: Fracture Care at Home N/A
Completed NCT03506958 - Patient Satisfaction in Treatment of Non-complex Fractures and Dislocations in Hospitals vs General Practitioners
Completed NCT04426981 - Behavioral Activation in Orthopaedic Trauma Patients: A Pilot Study N/A
Recruiting NCT04389749 - Continuous Passive Motion Following Fixation of Pelvic and Knee Fractures N/A
Recruiting NCT05068180 - Low-dose Neuroleptanalgesia for Postoperative Delirium in Elderly Patients Phase 4
Recruiting NCT05594199 - Feasibility of a Virtual Smoking Cessation Program N/A
Completed NCT04514601 - A Quality Improvement Project to Assess and Refine the Handover Process at Morning Trauma Meetings
Completed NCT05138640 - Bone Strength and Physical Activity in Patients With a Recent Clinical Fracture
Completed NCT02272972 - Performance Improvement Program on Imaging II
Completed NCT04215315 - Fracture In Preterm Infants Study (FIPIN Study)
Completed NCT03219125 - Bone Marrow Adiposity and Fragility Fractures in Postmenopausal Women
Completed NCT04151732 - Factors Associated With Future Fractures in Middle-aged Men and Women
Terminated NCT05655130 - Distal Radius Steroid Phase 1
Completed NCT02714257 - Working to Increase Stability Through Exercise N/A
Completed NCT02428244 - Let's STOP Now Trial: Smoking in Trauma Orthopaedic Patients N/A
Recruiting NCT04501510 - Ultrasonography in Fracture Management
Completed NCT03852095 - Single Time Management Diseases in Pediatric Traumatology
Completed NCT04440631 - Gut Microbiome of Patients Undergoing Antibiotic Therapy for Orthopedic Device-related Infection
Completed NCT03370900 - Learning Retention in Radiograph Interpretation N/A