A retrospective multi-centre study of splenic volumes measured by CT following splenic artery angioembolisation for high-grade blunt splenic injuries in adults.

INTRODUCTION: Splenic artery embolisation is a recognised modality in the management of high grade blunt splenic injury. The impact of embolisation on the spleen in terms of volume and function remains unclear. This results in a lack of clarity regarding post embolisation vaccination policy. METHODS: This was a two-centre, retrospective observational study over a 24-month period involving all patients who underwent splenic artery embolisation for high grade blunt splenic trauma (AAST grades III-V). Splenic volumes were calculated from an initial CT and a repeat CT at 6 months post embolisation. Subgroup analysis was performed analysing the location of embolisation, AAST grading, and evidence of splenic dysfunction as defined by the presence of altered red cell morphology. RESULTS: Thirty patients achieved successful splenic salvage with angioembolisation. Mean volume loss was 44.14 cm3 (P = 0.038), with decreased volumes for distal embolisation and increased volumes for proximal embolisation. Three patients had altered red cell morphology; two demonstrated recovery at 6 months, with the third lost to follow up. There were significant associations between, initial splenic volume, AAST grade of injury, and altered red cell morphology. There was no significant association between location of embolisation, initial splenic volumes, or percentage volume change. CONCLUSION: This study demonstrated a statistically significant change in splenic volume post angioembolisation in trauma, which was associated with AAST grading but not location of embolisation. The low rate of altered red cell morphology appears transient.

Three-dimensional volume-rendered computed tomography application for follow-up fracture healing and volume measurements pre-surgical rib fixation and post-surgical rib fixation.

BACKGROUND: Surgical rib fixation (SRF) is being used increasingly in trauma centers for stabilization of chest wall injuries, in line with new and evolving surgical techniques. Our institution has developed a pathway for the management of chest wall injuries and SRF, which includes a follow-up low-volume, noncontrast computed tomography (CT) scan at 12 months. METHODS: This study was a single-center retrospective study conducted on 25 consecutive patients who underwent SRF between February 2019 and February 2020. All CT measurements were done by a CT radiographer under the supervision of a board-certified radiologist and included the use of three-dimensional volume-rendered images. RESULTS: There were no patients with SRF who experienced hardware failure at 12 months in either flail or nonflail groups. For fractured ribs treated with SRF, complete or partial union occurred in 75 of 76 ribs plated (98.7%). The median ratio for improvement in lung volumes was 1.71 for flail SRF and 1.69 for nonflail SRF in our study. CONCLUSION: Three-dimensional volume-rendered CT at 12 months post-SRF showed good alignment (no hardware failure) and fracture healing of fixed ribs in both flail and nonflail groups. Lung volumes also improved pre-SRF and post-SRF for both flail and nonflail patients. More studies are needed to define how the pattern of rib fracture healing of fixed and nonfixed ribs affects lung volumes. LEVEL OF EVIDENCE: Therapeutic, Level V.