Impact of Treatment Modalities on Discharge Disposition in Blunt Splenic Injuries.

BACKGROUND: Management of blunt splenic trauma has evolved over several decades, trending towards nonoperative management and splenic artery embolization. Extensive research has been conducted regarding the management of blunt splenic injuries, but there is little data on the association of treatment modality with discharge disposition. METHODS: This is an observational retrospective study conducted at a level-one trauma center with blunt splenic trauma patients of age ≥18 years between January 2010 and December 2021. The primary outcome of unfavorable discharge was defined as discharge to an acute care facility, intermediate care facility, long-term care facility, rehabilitation (inpatient) facility, or skilled nursing facility. RESULTS: Five hundred seventy-nine patients were included in the analysis, with 108 (18.7%) in the unfavorable group and 471 (81.3%) in the favorable group. Most patients were managed nonoperatively (69.3%), followed by splenectomy (25.0%) and embolization (5.7%). Due to the low number of embolizations performed during the study period, treatment modalities were grouped into two broad categories: intervention (embolization and splenectomies) and nonintervention. The treatment modality was found to have no significant impact on unfavorable discharge. Independent risk factors for unfavorable discharge included age >55 years, injury severity score (ISS) >15, hospital-acquired pneumonia, and in-hospital complications of sepsis. CONCLUSIONS: This study provides an understanding of specific demographic and clinical factors that may predispose blunt splenic injury trauma patients to an unfavorable discharge. Providers may apply these data to identify at-risk patients and subsequently adapt the care they provide in an effort to prevent the development of in-hospital pneumonia and sepsis.

Staged Repair of Primary Aortoesophageal Fistula.

Primary aortoenteric fistulas are rare with an incidence reported up to .07% at autopsy. Literature review yields few reported cases, and rarer still is a fistula between a normal thoracic aorta and the esophagus. Rather, 83% of cases are associated with an aneurysmal aorta and 54% involve the duodenum. Patients with aortoesophageal fistula (AEF) usually present with a triad of chest pain, dysphasia, and a herald bleed. Without treatment, AEFs will result in exsanguination and are universally fatal; even with traditional open surgical treatment, mortality is reported over 55%. The complex pathology of AEFs makes repair more challenging, given an infected field, friable tissue, and patients who are often hemodynamically unstable. Staged repair using endografts as initial treatment with the primary goal of controlling bleeding and preventing fatal exsanguination has been reported. We present a case where a descending thoracic aorta to esophageal fistula was repaired, and this strategy was utilized.

Thirty-Day Perioperative Clinical Outcomes of Transcarotid Artery Revascularization vs Carotid Endarterectomy in a Single-Center Experience.

BACKGROUND: Transcarotid artery revascularization (TCAR) has been proposed as a alternative to carotid endarterectomy (CEA) and transfemoral carotid artery stenting in high-risk patients. Recently Centers for Medicare and Medicaid Services expanded coverage for TCAR to include standard surgical risk patients within the Society of Vascular Surgery Vascular Quality Initiative TCAR Surveillance Project. Few single centers compared the clinical outcome of TCAR with CEA. This study compares 30-day perioperative clinical outcomes between TCAR and CEA. STUDY DESIGN: This is retrospective analysis of prospectively collected data from the TCAR Surveillance Project of TCAR patients enrolled in our institution and compared with CEAs done in the same time/with the same providers. The primary outcome was stroke and/or death. Secondary outcomes included stroke, death, MI, cranial nerve injury, bleeding, and others. Propensity matching was done to analyze outcomes. RESULTS: The study analyzed 501 patients (347 CEA, 154 TCAR). There were no significant differences in symptomatic status (43% for CEA vs 38% for TCAR, p = 0.303). TCAR had more patients with hypertension (p = 0.04), coronary artery disease (p = 0.028), and congestive heart failure (p = 0.039). The 30-day perioperative complication rates for CEA vs TCAR were as follows: stroke 1% vs 3% (p = 0.142), stroke/death 1% vs 3% (p = 0.185), MI 0.6% vs 0.7% (p = 1), death 0.6% vs 0% (p = 1), stroke/death/MI 2% vs 4% (p = 0.233), cranial nerve injury 4% vs 2% (p = 0.412), and major hematoma (requiring reintervention) 2% vs 3% (p = 1). After matching 154 CEA patients and 154 TCAR, 30-day perioperative complication rates were as follows: stroke 2% vs 3% (p = 0.723), stroke/death 3% vs 3% (p = 1), death 1.3% vs 0% (p = 0.498), MI 0.7% vs 0.7% (p = 1), and stroke/death/MI 3% vs 4% (p = 0.759). CONCLUSIONS: This study showed that using propensity match analysis, both CEA and TCAR have similar 30-day perioperative outcomes. Further long-term data are needed.

Critical analysis of vertebral artery flow patterns/subclavian steal detected by cerebrovascular duplex ultrasound examinations and its clinical implications.

BACKGROUND: The prevalence of subclavian steal (defined as retrograde/bidirectional vertebral artery flow) in the general population and in patients undergoing cerebrovascular duplex ultrasound (CDUS) examinations is variable. This is the largest study to date to analyze the incidence of duplex-suggested subclavian steal in 5615 CDUS examinations over a 1-year period and to examine its clinical implications. PATIENT POPULATION AND METHODS: All consecutive CDUS examinations performed over a 1-year period were analyzed for the presence of subclavian steal. Indications of testing, presence of posterior cerebral circulation/subclavian steal symptoms, and any interventions for subclavian steal were analyzed. RESULTS: A total of 171 of 5615 (3.1%) CDUS examinations were found to have subclavian steal (duplex-suggested). One hundred seventeen (2.1%) had retrograde flow and 54 (1%) had bidirectional flow. Of 171, 104 (60.8%) were left sided. Indications for CDUS were post-carotid endarterectomy/carotid artery stenting surveillance in 39 patients (22.8%), surveillance for progression of carotid stenosis in 76 patients (44.4%), transient ischemic attack/stroke in 26 patients (15%), asymptomatic screening/carotid bruit in 18 patients (10.5%), and isolated posterior cerebral circulation symptoms in 12 patients (7%). A total of 63% patients had associated >50% carotid stenosis. The mean arm Doppler pressure gradient was 32.2 mm Hg for asymptomatic patients vs 37 mm Hg for patients with posterior circulation symptoms (P = .3254). There were significant differences between the mean systolic arm pressure for patients with retrograde vs antegrade vs bidirectional flow (105 mm Hg vs 146 mm Hg vs 134 mm Hg, respectively, P < .0001). All patients with retrograde flow had >50% subclavian stenosis or occlusion (100 of 117 had subtotal/total occlusion) except for one patient. Meanwhile, 52 of 54 patients with bidirectional flow had >50% subclavian stenosis (6 of 54 with subtotal/total occlusion), whereas two patients were normal/<50% stenosis (P < .0001). Overall, 26 of 171 patients (15.2%) had interventions for disabling symptoms. Eleven of 26 of all interventions were for disabling arm claudication, and only 10 of 171 patients (5.8%) were intervened for disabling posterior circulation symptoms with complete resolution of symptoms in all except one. At a late follow-up with a mean of 18 months (range: 1-37 months), there was no late major stroke with only two lacunar infarcts (not subclavian steal related). There were also seven late deaths, none stroke related. CONCLUSIONS: The incidence of subclavian steal in patients who undergo CDUS is relatively rare. Most of these patients are asymptomatic and can be treated conservatively, and only a few may need intervention for disabling symptoms with good symptom resolution.

Rates of progression of carotid in-stent stenosis and clinical outcomes.

BACKGROUND: We previously reported the incidence of ≥50% and ≥80% carotid in-stent stenosis. In the present study, we analyzed the rate of progression of in-stent stenosis and clinical outcomes with longer follow-up. METHODS: We performed a retrospective analysis of prospectively collected data for 450 patients who had undergone transfemoral carotid artery stenting with longer follow-up (mean, 70 months). The progression of in-stent stenosis was defined as stenosis advancing to a higher severity of disease (ie, from <50% to ≥50% and from ≥50% to ≥80%). Kaplan-Meier analysis was used to estimate the rate of progression from <50% to ≥50% and ≥50% to ≥80%, the overall rates of ≥50% and ≥80% in-stent stenosis, and survival at 1, 3, 5, and 10 years. RESULTS: At a mean follow-up of 70.3 months (range, 1-222 months), 121 of 446 patients (27%) had had progression to ≥50% and 39 (8.7%) to ≥80% in-stent stenosis. Of the 406 patients whose first duplex ultrasound findings were normal or showed in-stent stenosis of <50%, 82 had had progression from normal or <50% to ≥50% in-stent stenosis at a mean of 51.7 months (range, 1-213 months). Of the 121 patients with ≥50% stenosis, 14 (11.6%) had experienced progression to ≥80% at a mean of 33.6 months (range, 6-89 months). Of the 82 patients with progression from <50 to ≥50%, 10 (12%) had experienced a neurologic event (eight transient ischemic attacks [TIAs] and two strokes). Of the 14 with progression from ≥50% to ≥80%, 2 (14.3%) had experienced a TIA, and the remaining patients were asymptomatic. Of the 39 patients with ≥80% in-stent stenosis, 9 (23%) had experienced a neurologic event (eight TIAs and one contralateral stroke). Overall, 13 of the 121 patients with late ≥50% restenosis (10.7%) had experienced a neurologic event (10 ipsilateral TIA, 2 ipsilateral stroke, and 1 contralateral stroke. Thus, 12 of 446 patients (2.7%) had experienced an ipsilateral TIA or stroke at a mean follow-up of 70 months. The rates of freedom from <50% to ≥50% in-stent stenosis progression were 93%, 85%, 78%, and 66% at 1, 3, 5, and 10 years. The rates of freedom from progression from ≥50% to ≥80% in-stent stenosis were 89%, 81%, and 77% at 1, 3, and 5 years, respectively. The overall rates of freedom from ≥50% in-stent stenosis and ≥80% in-stent stenosis were 86%, 77%, 71%, and 59% and 96%, 93%, 91%, and 84% at 1, 3, 5, and 10 years, respectively. Finally, the stroke survival rates were 95%, 80%, 63%, and 31% at 1, 3, 5, and 10 years, respectively. CONCLUSIONS: The rate of progression of carotid in-stent stenosis was modest, with a low incidence of stroke events. Therefore, the use of duplex ultrasound surveillance after carotid artery stenting should be selective and its benefits and utility perhaps reevaluated.