Imaging of penetrating vascular trauma of the body and extremities secondary to ballistic and stab wounds

Gunshot injury to the left side of the neck with the lodged bullet in the carotid sheath: A case report

RATIONALE

Penetrating neck trauma involving the carotid artery is rare but highly lethal, requiring prompt and accurate diagnosis followed by immediate surgical intervention.

PATIENT CONCERNS

A 20-year-old male presented with a high-velocity gunshot wound to the left side of the neck. Despite the severity of the injury, the patient was asymptomatic and hemodynamically stable.

DIAGNOSE

Initial evaluation, including ultrasound imaging, revealed a bullet lodged within the left common carotid artery.

INTERVENTIONS

Due to the high risk of vascular complications, the patient underwent emergency surgery. The damaged artery segment was resected, and a primary end-to-end anastomosis was performed.

OUTCOMES

The patient recovered well and was discharged without neurological deficits.

LESSONS

Early diagnosis and intervention are crucial in carotid artery injuries. This case demonstrates the limitations of computed tomography angiography in the presence of metallic artifacts and highlights the effectiveness of ultrasound for accurate diagnosis. Although penetrating neck injury management protocols typically recommend conservative management for asymptomatic Zone 2 injuries, surgical intervention is necessary due to the high-risk features of similar cases when the foreign object remains inside, and there is a risk of movement and severe damage. Adaptation of protocols based on individual injury characteristics can enhance patient outcomes. Although this is a rare case, similar cases have been reported, and it highlights the need to update the penetrating neck injury management protocols for the management of similar cases.

The role of 3D cinematic rendering in the evaluation of upper extremity trauma

Traumatic upper extremity injuries are a common cause of emergency department visits, comprising between 10-30% of traumatic injury visits. Timely and accurate evaluation is important to prevent severe complications such as permanent deformities, ischemia, or even death. Computed tomography (CT) and CT angiography (CTA) are the favored non-invasive imaging techniques for assessing upper extremity trauma, playing a crucial role in both the treatment planning and decision-making processes for such injuries. In CT postprocessing, a novel 3D rendering method, cinematic rendering (CR), employs sophisticated lighting models that simulate the interaction of multiple photons with the volumetric dataset. This technique produces images with realistic shadows and improved surface detail, surpassing the capabilities of volume rendering (VR) or maximal intensity projection (MIP). Considering the benefits of CR, we demonstrate its use and ability to achieve photorealistic anatomic visualization in a series of 11 cases where patients presented with traumatic upper extremity injuries, including bone, vascular, and skin/soft tissue injuries, adding to diagnostic confidence and intervention planning.

Artificial intelligence in the detection of non-biological materials

Artificial Intelligence (AI) has emerged as a transformative force within medical imaging, making significant strides within emergency radiology. Presently, there is a strong reliance on radiologists to accurately diagnose and characterize foreign bodies in a timely fashion, a task that can be readily augmented with AI tools. This article will first explore the most common clinical scenarios involving foreign bodies, such as retained surgical instruments, open and penetrating injuries, catheter and tube malposition, and foreign body ingestion and aspiration. By initially exploring the existing imaging techniques employed for diagnosing these conditions, the potential role of AI in detecting non-biological materials can be better elucidated. Yet, the heterogeneous nature of foreign bodies and limited data availability complicates the development of computer-aided detection models. Despite these challenges, integrating AI can potentially decrease radiologist workload, enhance diagnostic accuracy, and improve patient outcomes.

Transarterial interventions in civilian gunshot wound injury: experience from a level-1 trauma center

PURPOSE

To assess the effectiveness of trans-arterial vascular interventions in treatment of civilian gunshot wounds (GSW).

MATERIALS AND METHODS

A retrospective review was performed at a level-1 trauma center to include 46 consecutive adults admitted due to GSW related hemorrhage and treated with endovascular interventions from July 2018 to July 2022. Patient demographics and procedural metrics were retrieved. Primary outcomes of interest include technical success and in-hospital mortality. Factors of mortality were assessed using a logistic regression model.

RESULTS

Twenty-one patients were brought to the endovascular suite directly (endovascular group) from the trauma bay and 25 patients after treatment in the operating room (OR group). The OR group had higher hemodynamic instability (48.0% vs 19.0%, p = 0.040), lower hemoglobin (12.9 vs 10.1, p = 0.001) and platelet counts (235.2 vs 155.1, p = 0.003), and worse Acute Physiology and Chronic Health Evaluation (APACHE) score (4.1 vs 10.2, p < 0.0001) at the time of initial presentation. Technical success was achieved in all 40 cases in which targeted embolization was attempted (100%). Empiric embolization was performed in 6/46 (13.0%) patients based on computed tomographic angiogram (CTA) and operative findings. Stent-grafts were placed in 3 patients for subclavian artery injuries. Availability of pre-intervention CTA was associated with shorter fluoroscopy time (19.8 ± 12.1 vs 30.7 ± 18.6 min, p = 0.030). A total of 41 patients were discharged in stable condition (89.1%). Hollow organ injury was associated with mortality (p = 0.039).

CONCLUSION

Endovascular embolization and stenting were effective in managing hemorrhage due to GSW in a carefully selected population. Hollow organ injury was a statistically significant predictor of mortality. Pre-intervention CTA enabled targeted, shorter and equally effective procedures.

Diagnostic Approaches to Vascular Injury in Polytrauma-A Literature Review

BACKGROUND

Polytrauma is understood as significant injuries, occurring at the same time, to two or more anatomical regions (the ISS regions) or organ systems, with at least one of the injuries considered as posing a threat to life. Trauma is the main cause of unexpected demise in individuals below the age of 44 years and represents a huge burden on society. Vascular injury is highly morbid; it can lead to rapid exsanguination and death, posing a threat to both life and the limb. Independent predictors of outcome include mechanism of injury, associated injuries, and time from injury to definitive care. The mechanisms of vascular injury in the setting of polytrauma are either blunt, penetrating or a combination of the two.

METHODS

Comprehensive literature review of current diagnostic approaches to traumatic vascular injury in the context of polytrauma. The factors influencing the diagnostic approach are highlighted. The focus is the epidemiology of vascular injury and diagnostic approaches to it in the context of polytrauma.

RESULTS

Traumatic vascular injuries are associated with limb loss or even death. They are characterised by multiple injuries, the dilemma of the diagnostic approach, timing of intervention and higher risk of limb loss or death. The systematic approach in terms of clinical diagnosis and imaging is crucial in order save life and preserve the limb. The various diagnostic tools to individualise the investigation are discussed.

CONCLUSION

This paper highlights the significance of timely and appropriate use of diagnostic tools for traumatic vascular trauma to save life and to preserve the limb. The associated injury also plays a crucial role in deciding the imaging modalities. At times, more than one investigation may be required.