Diagnostic Performance of Ultrasound for Primary Survey of Traumatic Long Bone Fractures
NCT ID: NCT05742048
Last Updated: 2023-02-27
Study Results
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Basic Information
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UNKNOWN
190 participants
OBSERVATIONAL
2023-03-01
2024-07-01
Brief Summary
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The diagnosis of long bone fractures is traditionally accomplished through plain radiographs taken at perpendicular angles to each other.
Because of the resources required for radiographic capability, X-ray can be inaccessible in rural or remote areas, or in hospital during break time, In settings where a radiography technologist is not present on-site or in patient have conditions do for him limitations movement Using ultrasound machines to do patient examination can be performed earlier of assessment, and at the bedside, reducing diagnostic delays and time to initiation of management. Additional Advantages of Ultrasound include its simplicity, portability, repeatability, and its lack of ionizing radiation. Using ultrasound technology don't need equipment for lead protectors on health care providers, as well as the harmful effects to patients of ionizing radiation and safe to use with pregnant patients in the first and second trimester.
However, this technique can be impractical because the training necessary for the use of this technology Diagnosis of long bone fractures in primary assessment can decrease risk of complications such as shock, bleeding, swelling, embolism compartment syndrome, vascular or neurological damage and patient's transposition related change shape and type of a fracture. that complications can lead to life-threatening conditions up to death specifically in geriatric and paediatric Patients
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Detailed Description
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A- Airway with cervical spine precautions /or protection: This assessment is of the patency of the patient's airway.
B- Breathing and Ventilation: This assessment is performed first by inspection. C- circulation with hemorrhage control: Adequate circulation is required for oxygenation to the brain and other vital organs. Blood loss is the most common cause of shock in trauma patients.
D- Disability (assessing neurological status): A rapid assessment of the patient's neurologic status is necessary on arrival in the emergency department.
E- Exposure and Environmental Control: The patient should be completely undressed and exposed to ensure no injuries are missed.
Adjuncts to the Primary Survey:After the ABCDEs of the primary survey, several adjuncts assist in the evaluation of other life-threatening processes:
ECG Urinary Catheters Gastric catheters FAST Examination:"Focused Assessment with Sonography in Trauma"
Long bone ultrasound scan:
To exclude risk of harm from long bone fractures, do Examination of the upper and lower extremities to verify direct hit or fall within have evidence of pain, tenderness, redness, swelling or any sign of trauma on the patient's extremities? After identifying the suspected suffering places, The ultrasound probe placed the lateral surface of the bone transversely and longitudinally, and the cortex section is examined.
First, the probe placement transversely onto the surface of the bone to examine the presence of skip.
Longitudinal and transverse scans should be coupled in each patient to confirm the focal interruption of the hyperechoic cortical bone. The longitudinal scan allows a panoramic view of the cortical irregularity while the transverse scan often guarantees a better visualization of the shift/rotation of the pathological bony fragment Bone fractures can be visualized as a cortical contour interruption, imaging also allows the identification of surrounding hematoma and the evaluation of bone callus during its different phases In the next step (secondary survey), standard bone radiography x-ray will be performed, anteroposterior and lateral to compare between the results.
After bone sonography scan in patients suspected to have upper and lower limb trauma, The Ultrasound probe will be placed over the area of maximum pain to find any abnormality suspected in soft tissue, vascular supplies, muscle and tendon health.
2.4.5 -Research outcome measures:
a. Primary (main): Number of patients diagnosed to have a long bone fracture by using ultrasound. Number of patients diagnosed to have a long bone fracture by using x-ray . Comparison between Ultrasound bone scan result and X-ray imaging accuracy and sensitivity.
Secondary (subsidiary):
The skin, soft tissue, and most parts of the musculoskeletal system are relatively the superficial anatomical structures it's ideal targets for ultrasound examination, Such as soft tissue abnormalities, vascularity and muscle state in traumatic patients. Distinguishing flexibility positioning of the part without making the patient too uncomfortable adds to the list advantages of this modality.
Conditions
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Study Design
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CASE_ONLY
PROSPECTIVE
Study Groups
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traumatic patient suspect to have long bone fracture between 18 - 65 years old
traumatic patient suspect to have long bone fracture between 18 - 65 years old
Number of patients diagnosed to have a long bone fracture by using ultrasound. Number of patients diagnosed to have a long bone fracture by using x-ray . Comparison between Ultrasound bone scan result and X-ray imaging accuracy and sensitivity.
Interventions
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traumatic patient suspect to have long bone fracture between 18 - 65 years old
Number of patients diagnosed to have a long bone fracture by using ultrasound. Number of patients diagnosed to have a long bone fracture by using x-ray . Comparison between Ultrasound bone scan result and X-ray imaging accuracy and sensitivity.
Eligibility Criteria
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Inclusion Criteria
Exclusion Criteria
* Previously diagnosed patient with long bone fractures.
* Critically injured patients
* Obese patient (BMI) \> 35
18 Years
65 Years
ALL
No
Sponsors
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Assiut University
OTHER
Responsible Party
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Khaled Abdelbaky Abdelrahman
Clinical Professor
Locations
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Assiut university
Asyut, , Egypt
Countries
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References
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O'Brien AJ, Moussa MA. Using ultrasound to diagnose long bone fractures. JAAPA. 2020 Feb;33(2):33-37. doi: 10.1097/01.JAA.0000651736.02537.ef.
Nicholson JA, Makaram N, Simpson A, Keating JF. Fracture nonunion in long bones: A literature review of risk factors and surgical management. Injury. 2021 Jun;52 Suppl 2:S3-S11. doi: 10.1016/j.injury.2020.11.029. Epub 2020 Nov 11.
Chartier LB, Bosco L, Lapointe-Shaw L, Chenkin J. Use of point-of-care ultrasound in long bone fractures: a systematic review and meta-analysis. CJEM. 2017 Mar;19(2):131-142. doi: 10.1017/cem.2016.397. Epub 2016 Dec 5.
Gharahbaghian L, Anderson KL, Lobo V, Huang RW, Poffenberger CM, Nguyen PD. Point-of-Care Ultrasound in Austere Environments: A Complete Review of Its Utilization, Pitfalls, and Technique for Common Applications in Austere Settings. Emerg Med Clin North Am. 2017 May;35(2):409-441. doi: 10.1016/j.emc.2016.12.007.
Related Links
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Use of point-of-care ultrasound in long bone fractures: a systematic review and meta-analysis Lucas B Chartier et al. CJEM. 2017 Mar.
Mitchell C. World Radiography Day: two-thirds of the world's population has no access to diagnostic imaging,
Other Identifiers
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Long bone sonography
Identifier Type: -
Identifier Source: org_study_id
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