Chronic thromboembolic disease among patients undergoing surgical pulmonary embolectomy for acute pulmonary embolism.

BACKGROUND: This study aimed to assess the prevalence of chronic thromboembolic lesions in the pulmonary arteries among patients undergoing pulmonary embolectomy for acute pulmonary embolism and their impact on treatment outcomes. METHODS: We conducted a retrospective, single-center analysis of consecutive patients undergoing emergency pulmonary embolectomy for acute pulmonary embolism between 2013 and August 2021. According to European Society of Cardiology guidelines, the diagnosis was based on clinical presentation, imaging studies and laboratory tests. Surgery was selected as the optimal treatment modality within the Pulmonary Embolism Response Team. Based on the intraoperatively identified chronic lesions patients were divided into two groups: acute only and acute/chronic. The analysis comprised history, laboratory and imaging studies, early and long-term mortality, and postoperative complications. We determined predictive factors for chronic thromboembolic lesions and risk factors for death. RESULTS: The analysis included 33 patients. Intraoperatively, 42% (14) of patients had chronic lesions. Predictive factors for these lesions are the duration of symptoms >1 week (OR=13.75), pulmonary artery dilatation >3.15 cm (OR=39.00) and right ventricle systolic pressure >52 mmHg (OR=29.33). No hospital deaths occurred in the acute only group and two in the acute/chronic group (0% vs. 14.3%; P=0.172). Risk factors for death are the duration of symptoms >3 weeks (HR=7.35) and postoperative use of extracorporeal membrane oxygenation (HR=7.04). CONCLUSIONS: Acute thromboembolic disease overlapping chronic clots is relatively common among patients undergoing pulmonary artery embolectomy. A detailed evaluation of the patient's medical history and imaging studies can identify these patients, as they require special attention when making treatment decisions. Surgical treatment in a center of expertise in pulmonary endarterectomy seems reasonable.

Risk stratification using serum lactate in patients undergoing surgical pulmonary embolectomy.

BACKGROUND: Surgical pulmonary embolectomy (SPE) has been around since the early days of cardiac surgery. But with the increase in thrombolytic and intervention options, indications of SPE have been limited. Literature suggests that risk stratification has been a key step in getting good results. We are analyzing serum lactate levels for risk stratification in massive and submassive pulmonary embolism (PE). METHODS: This study is a retrospective analysis of 82 cases that underwent SPE between January 1997 and January 2020. Patients were divided into two groups stratified by venous serum lactate levels on the first admission (Group I: normolactatemia <2 mmol/L, Group II: hyperlactatemia, >2 mmol/L). Primary endpoints were all-cause in-hospital mortality and secondary endpoints were cardiopulmonary bypass time, extracorporeal membrane oxygenator (ECMO) insertion, low cardiac output, blood product use, and right ventricular functions in the follow-up. RESULTS: Our study had an overall follow-up of 23 years with a median of 3.18 years. Overall, the in-hospital mortality rate was 8.54%. Group II had a higher mortality rate (P = .015) and morbidity incidences like cardiopulmonary bypass time (P = .008), ECMO insertion (P = .036), and open chest after surgery (P = .015). Although 5-year survival was better in group I a compared to group II (81%, 95% CI, 69%-93% vs 65%, 95% CI, 46%-84%), the log rank test showed no statistical survival difference among both groups on long-term follow-up. CONCLUSIONS: Long term survival after SPE is good and these results can further be improved by proper PE risk stratification. Alongside computed tomography and echocardiography, the importance of biomarkers like serum lactate can be explored in the PE management algorithm.

Contemporary Management of Acute Pulmonary Embolism.

Multiple treatment options beyond anticoagulation exist for massive and submassive pulmonary embolism to reduce mortality. For some patients, systemic thrombolytics and catheter-directed thrombolysis are appropriate interventions. For others, surgical pulmonary embolectomy can be life-saving. Extracorporeal life support and right ventricular assist devices can provide hemodynamic support in challenging cases. We propose a management algorithm for the treatment of massive and submassive pulmonary embolism, in conjunction with a multidisciplinary pulmonary embolism response team, to guide clinicians in individualizing treatment for patients in a timely manner.

Presentation and Management of Arterial Thromboembolisms during Active Inflammatory Bowel Disease: Case Series and Literature Review.

BACKGROUND: Active inflammatory bowel disease (IBD) is associated with considerable risk for thromboembolism; however, arterial thromboembolism is rare and associated with considerable morbidity and mortality. Their management requires careful coordination between multiple providers, and as a consequence, much of the published literature is limited to case reports published across specialties. METHODS: We examined our recent institutional experience with aortoiliac, mesenteric, and peripheral arterial thromboembolisms in patients with either Crohn's disease or ulcerative colitis. To supplement our experience, a comprehensive literature review was performed using MEDLINE and EMBASE databases from 1966 to 2019. Patient demographics, flare/thromboembolism management, and outcomes were abstracted from the selected articles and our case series. RESULTS: Fifty-two patients with IBD, who developed an arterial thromboembolism, were identified (49 from published literature and 3 from our institution). More than 82% of patients presented during an active IBD flare. Surgical intervention was attempted in 77% of patients, which included open thromboembolectomy, catheter-directed thrombolysis, or bowel resection. Thromboembolism resolution was achieved in 76% of patients with comparable outcomes with either catheter-directed thrombolysis or open thrombectomy (83.3% vs. 68.2%). Nearly one-third of patients underwent small bowel resection or colectomy. In 2 patients, thromboembolism resolution was achieved only after total abdominal colectomy for severe pancolitis. Multiple thromboembolectomies were associated with higher risk for amputation. Overall mortality was 11.5% but was greatest for occlusive aortoiliac and mesenteric thromboembolism (14.3% and 57%, respectively). All survivors of occlusive superior mesenteric artery thromboembolism suffered short gut syndrome requiring small bowel transplant. CONCLUSIONS: Patients with IBD, who develop an arterial thromboembolism, can expect overall poor outcomes. Catheter-directed thrombolysis achieved comparable outcomes with open thromboembolectomy without undue bleeding risk. Total abdominal colectomy for moderate-to-severe pancolitis is an emerging strategy in the management of refractory arterial thromboembolism. Successful surgical management may include open thromboembolectomy, catheter-directed thrombolysis, and bowel resection when indicated.

Current Management of Acute Pulmonary Embolism.

PURPOSE: Acute pulmonary embolism (PE) remains a significant cause of morbidity and requires prompt diagnosis and management. While non-surgical approaches have supplanted surgery as primary treatment, surgical pulmonary embolectomy (SPE) remains a vital option for select patients. We review the current management of acute PE, with a focus on surgical therapy. METHODS: A PubMed search was performed to identify literature regarding PE and treatment. Results were filtered to include the most comprehensive publications over the past decade. RESULTS: PE is stratified based on presenting hemodynamic status or degree of mechanical pulmonary arterial occlusion. Although systemic or catheter-guided fibrinolysis is the preferred first-line treatment for the majority of cases, patients who are not candidates should be considered for SPE. Studies demonstrate no mortality benefit of thrombolysis over surgery. Systemic anticoagulation is a mainstay of treatment regardless of intervention approach. Following surgical embolectomy, direct oral anticoagulants (DOACs) have been shown to reduce recurrence of thromboembolism. CONCLUSIONS: Acute PE presents with varying degrees of clinical stability. Patients should be evaluated in the context of various available treatment options including medical, catheter-based, and surgical interventions. SPE is a safe and appropriate treatment option for appropriate patients.

Interventional Therapies for Acute Pulmonary Embolism: Current Status and Principles for the Development of Novel Evidence: A Scientific Statement From the American Heart Association.

Pulmonary embolism (PE) represents the third leading cause of cardiovascular mortality. The technological landscape for management of acute intermediate- and high-risk PE is rapidly evolving. Two interventional devices using pharmacomechanical means to recanalize the pulmonary arteries have recently been cleared by the US Food and Drug Administration for marketing, and several others are in various stages of development. The purpose of this document is to clarify the current state of endovascular interventional therapy for acute PE and to provide considerations for evidence development for new devices that will define which patients with PE would derive the greatest net benefit from their use in various clinical settings. First, definitions and limitations of commonly used risk stratification tools for PE are reviewed. An adjudication of risks and benefits of available interventional therapies for PE follows. Next, considerations for optimal future evidence development in this field are presented in the context of the current US regulatory framework. Finally, the document concludes with a discussion of the pros and cons of the rapidly expanding PE response team model of care delivery.

Endovascular therapy for acute severe pulmonary embolism.

Acute pulmonary embolism (PE) is a major public health problem and accounts for 100,000-180,000 deaths per year in the United States. Current prognostic stratification separates acute PE into massive, submassive, and low-risk by the presence or absence of sustained hypotension, RV dysfunction, and myocardial necrosis. Massive, submassive and low-risk PE have mortality rates of 25-65%, 3%, and < 1%, respectively. In this review we will focus on therapies currently available to manage acute massive and submassive PE.

Twenty-year results of surgical pulmonary thromboembolectomy in acute pulmonary embolism.

BACKGROUND: Acute massive pulmonary embolism is often a life-threatening condition and should be treated immediately. The aim of this study was to investigate risk factors and clinical outcomes of patients undergoing emergency pulmonary embolectomy for acute massive pulmonary embolism. METHODS: We evaluated 49 patients undergoing emergency pulmonary embolectomy in our institution between 1995 and 2015, retrospectively. We reviewed preoperative conditions and risk factors, surgical complications, postoperative courses, predictors of mortality and long-term survival. RESULTS: At the time of presentation, the median patients' age was 58 years. Preoperatively, seven (14%) individuals had cardiac arrest and required cardiopulmonary resuscitation. At the time of surgery, other 23 (47%) patients presented with cardiogenic shock. The most common risk factor for development of pulmonary embolism was major surgery in the last 30 days (29%, n = 14). Five (10%) patients received systemic thrombolysis preoperatively. The median cardiopulmonary bypass (CPB) time was 82 minutes. The median length of stay in the intensive care unit and in hospital were 1 and 14 days, respectively. Postoperative complications included revision as a consequence of mediastinal bleeding (6%, n = 3), stroke (2%, n = 1), and acute renal failure requiring temporary dialysis (4%, n = 2). The 30-day mortality was 29% (n = 14) with four (8%) cases of death during the surgery. The one-, five- and 15-year survival rates were 65%, 63%, and 57%, respectively. CONCLUSION: Pulmonary embolectomy can be performed in high-risk patients with massive pulmonary embolism with acceptable clinical outcome and good long-term survival.

Diagnosis and Treatment of Aortic Saddle Embolism.

BACKGROUND: Acute aortic occlusion is a rare but life-threatening medical condition that can result from aortic saddle embolism, thrombosis of an atherosclerotic aorta, or aortic dissection. Herein are described the diagnostic and therapeutic characteristics for a series of patients with aortic saddle embolism. METHODS: A retrospective review of medical records was performed for patients receiving treatment for aortic saddle embolism at a university hospital in China between January 2001 and September 2017. Demographic, clinical, ancillary testing, treatment, and outcome data were collected and analyzed. RESULTS: Eighteen patients (10 women and 8 men) with a mean age of 53.8 years were included. The most commonly associated cardiac diseases were atrial fibrillation or atrial flutter (89%); rheumatic heart disease, valvular heart disease, or both (72%); and congestive heart failure (56%). Rest pain was present in all patients, and sensory or motor deficits were present in 12 patients (67%). Computed tomography (CT) angiography was performed for all patients. Seventeen patients (94%) presented with aortic embolism below the renal arteries. Fifteen patients (83%) underwent bilateral transfemoral embolectomy, and 3 patients (17%) received no intervention. Fasciotomy was performed for 9 patients in 14 limbs. The overall mortality rate was 33%, with a postprocedure mortality rate of 20%. Major morbidity occurred in 60% of patients. Six lower extremities were amputated in 4 patients, and acute renal failure developed in 4 patients. The incidence of postembolectomy internal iliac artery embolism was 58% (11 of 19 iliac arteries), and pelvic ischemia developed in 1 young patient. CONCLUSIONS: Aortic saddle embolism is uncommon but associated with high morbidity and mortality. CT angiography is recommended for diagnosis, and bilateral transfemoral embolectomy is the preferred treatment. Postembolectomy internal iliac artery embolism was common, and prevention of pelvic ischemia should be considered for young patients.

Right Heart Thrombi: Patient Outcomes by Treatment Modality and Predictors of Mortality: A Pooled Analysis.

RATIONALE: Right heart thrombi (RiHT) is characterized by the presence of thrombus within the right atrium or right ventricle (RV). Current literature suggests pulmonary embolism (PE) with RiHT carries a high mortality. Guidelines lack recommendations in managing RiHT. We created a pooled analysis on RiHT and report on our institutional experience in managing RiHT. We aimed to evaluate whether patient characteristics and differing treatment modalities predict mortality. METHODS: We created a pooled analysis of case reports and series of patients with RiHT and PE between January 1956 and 2017. We also reviewed a series of consecutive patients with RiHT identified from our institutional PE registry. Age, shock, RV dysfunction, clot mobility, treatment modality, and hospital outcome had to be reported. RESULTS: We identified 316 patients in our pooled analysis. Patients received the following therapies: no treatment 15 (5%), systemic anticoagulation 73 (23%), systemic thrombolysis 108 (34%), surgical embolectomy 101 (32%), catheter-directed therapy 11 (3%), and systemic thrombolysis with surgery 8 (3%). In-hospital mortality was 18.7%. Univariate analysis showed age and shock reduced odds of survival. Multivariate analysis showed shock reduced odds of survival (odds ratios [OR] 0.36, 95% confidence interval [CI]: 0.19-0.72, P ≤ .01) while age, RV dysfunction, and clot-mobility did not affect mortality. In a reduced multivariate analysis adjusting for shock, treatment modality, and clot location alone, systemic thrombolysis increased odds of survival when compared to systemic anticoagulation (OR 2.72, 95% CI: 1.11-6.64, P = .02). Our institutional series identified 18 patients, where in-hospital mortality was 22.2%, 18 (100%) had RV dysfunction, and 5 (28%) had shock. Patients received the following therapies: systemic anticoagulation 8 (44.4%), systemic thrombolysis 4 (22.2%), surgical embolectomy 4 (22.2%), and catheter-directed thrombolysis 2 (11.1%). CONCLUSION: Presence of shock in RiHT is an independent predictor of mortality. Systemic thrombolysis may offer increased odds of survival when compared to systemic anticoagulation. Our findings should be interpreted with caution as they derive from retrospective reports and subject to publication bias.

Surgical pulmonary embolectomy and catheter-based therapies for acute pulmonary embolism: A contemporary systematic review.

OBJECTIVES: Mortality in acute pulmonary embolism (PE) is believed to be principally due to the subgroup of PEs that are massive. Systemic thrombolysis is the therapeutic mainstay for acute massive PE, despite evidence suggesting limited survival benefits. Both catheter-based therapies (CBT) and surgical pulmonary embolectomy (SE) are well-accepted alternatives to treat acute PE. However, the comparative effectiveness of these approaches is difficult to study. We conducted a systematic review of CBT and SE for acute PE. METHODS: The PubMed database was queried for CBT- and SE-related publications between January 1998 and June 2017. A minimum of 10 patients undergoing intervention(s) was required for inclusion, and studies must not have excluded patients with massive PE. End points examined included hospital mortality, and additionally for CBT, procedural success rate. RESULTS: A total of 75 studies (41 of CBT, 34 of SE) were identified, with 1650 patients undergoing CBT and 1101 undergoing SE. Patients undergoing SE were more critically ill than those undergoing CBT (massive PE, 545 out of 975 [55.9%] for SE vs 742 out of 1553 [47.8%] for CBT). Cardiopulmonary resuscitation (CPR) was required in 217 out of 1015 patients undergoing SE (21.4%) versus 38 out of 983 patients undergoing CBT (4.0%). The hospital mortality of SE was 14.0%, versus 5.6% for CBT, in the entire patient group. However, the hospital mortality of SE in patients with pre-SE CPR was 46.3%, whereas it was 6.8% in those patients without pre-SE CPR. Although CPR was associated with an increased risk of mortality both for CBT and SE, it accounted for all of the mortality effect on SE (the adjusted odds ratio for CPR in a random effects model with treatment considered was 9.79 (95% confidence interval, 4.98-19.17; P < .0001). The adjusted odds ratio for mortality for SE relative to CBT was 1.36 (95% confidence interval, 0.80-2.32; P = .84). Moreover, CBT was associated with a procedural failure rate of 8.3%. CONCLUSIONS: Both CBT and SE were associated with satisfactory published outcomes. SE is associated with greater absolute postprocedure mortality than CBT, but has been undertaken in more critically ill populations. The markedly higher incidence of CPR in SE accounts for the differential mortality between the patients undergoing SE and those undergoing CBT. Decision making with respect to best therapy must take into account potential needs for periprocedure artificial mechanical right ventricle and lung support, institutional experience and outcomes, anticipated therapeutic efficacy and benefit, and approach-specific risks.

Outcomes of Pulmonary Embolectomy for Acute Pulmonary Embolism.

BACKGROUND: Acute pulmonary embolism (PE) is a major threat to the health and lives of hospitalized patients. This study was conducted to clarify the real-world outcomes of pulmonary embolectomy.Methods and Results:Retrospective investigation of 355 patients who underwent pulmonary embolectomy for acute PE was conducted using the Japanese Cardiovascular Surgery Database. Risk factors for operative death within 30 days after pulmonary embolectomy and major adverse cardiovascular events (MACE), including operative death, postoperative stroke and postoperative coma, were analyzed. Cardiopulmonary resuscitation (CPR) was required preoperatively in 27.6%, and preoperative veno-arterial extracorporeal membrane oxygenation was performed in 26.5%. Urgent or emergency operation was performed in 93% of patients. Operative mortality rate was 73/355 (20.6%). Incidence of MACE was 97/355 (27.3%). In univariate analysis, preoperative predictors of death were obesity, renal dysfunction, chronic obstructive pulmonary disease, liver injury, recent myocardial infarction, shock, refractory shock, CPR, heart failure, inotrope use, poor left ventricular function, preoperative arrhythmia and tricuspid regurgitation. In multivariate analysis, independent risk factors for operative death were heart failure (P=0.013), poor left ventricular function (P=0.007), and respiratory failure (P=0.001). Poor left ventricular function (P=0.033), preoperative CPR (P=0.002) and respiratory failure (P=0.007) were independent risk factors for MACE. CONCLUSIONS: The outcomes of pulmonary embolectomy were acceptable, considering the urgency and preoperative comorbidities of patients. Early triage of patients with hemodynamically unstable PE is important.

Peripheral Distribution of Thrombus Does Not Affect Outcomes After Surgical Pulmonary Embolectomy.

BACKGROUND: Thrombus located distal to the main or primary pulmonary arteries has been previously viewed as a relative contraindication to surgical pulmonary embolectomy. We compared outcomes for surgical pulmonary embolectomy for submassive and massive pulmonary embolism (PE) in patients with central vs peripheral thrombus burden. METHODS: All consecutive patients (2011 to 2016) undergoing surgical pulmonary embolectomy at a single center were retrospectively reviewed. Computed tomography angiography of each patient was used to define central PE as any thrombus originating within the lateral pericardial borders (main or right/left pulmonary arteries). Peripheral PE was defined as thrombus exclusively beyond the lateral pericardial borders, involving the lobar pulmonary arteries or distal. The primary outcome was in-hospital and 90-day survival. RESULTS: We identified 70 patients: 52 (74%) with central PE and 18 (26%) with peripheral PE. Preoperative vital signs and right ventricular dysfunction were similar between the two groups. Compared with the central PE cohort, operative time was significantly longer in the peripheral PE group (191 vs 210 minutes, p < 0.005). Median right ventricular dysfunction decreased from moderate dysfunction preoperatively to no dysfunction at discharge in both groups. Overall 90-day survival was 94%, with 100% survival in patients with submassive PE in both cohorts. CONCLUSIONS: This single-center experience demonstrates excellent overall outcomes for surgical pulmonary embolectomy, with resolution of right ventricular dysfunction and comparable morbidity and mortality for central and peripheral PE. In an experienced center and when physiologically warranted, surgical pulmonary embolectomy for peripheral distribution of thrombus is technically feasible and effective.

Outcomes after surgical pulmonary embolectomy for acute submassive and massive pulmonary embolism: A single-center experience.

OBJECTIVES: Ideal treatment strategies for submassive and massive pulmonary embolism remain unclear. Recent reports of surgical pulmonary embolectomy have demonstrated improved outcomes, but surgical technique and postoperative outcomes continue to be refined. The aim of this study is to describe in-hospital survival and right ventricular function after surgical pulmonary embolectomy for submassive and massive pulmonary embolism with excessive predicted mortality (≥5%). METHODS: All patients undergoing surgical pulmonary embolectomy (2011-2015) were retrospectively reviewed. Patients with pulmonary embolism were stratified as submassive, massive without arrest, and massive with arrest. Submassive was defined as normotensive with right ventricular dysfunction. Massive was defined as prolonged hypotension due to the pulmonary embolism. Preoperative demographics, intraoperative variables, and postoperative outcomes were compared. RESULTS: A total of 55 patients were identified: 28 as submassive, 18 as massive without arrest, and 9 as massive with arrest. All patients had a right ventricle/left ventricle ratio greater than 1.0. Right ventricular dysfunction decreased from moderate preoperatively to none before discharge (P < .001). In-hospital and 1-year survival were 93% and 91%, respectively, with 100% survival in the submassive group. No patients developed renal failure requiring hemodialysis at discharge or had a postoperative stroke. CONCLUSIONS: In this single institution experience, surgical pulmonary embolectomy is a safe and effective therapy to treat patients with a submassive or massive pulmonary embolism. Although survival in this study is higher than previously reported for patients treated with medical therapy alone, a prospective trial comparing surgical therapy with medical therapy is necessary to further elucidate the role of surgical pulmonary embolectomy in the treatment of pulmonary embolism.

Risk factors analysis of thromboembolectomy for acute thromboembolic lower extremity ischemia in native arteries.

BACKGROUND: Aim of this study is to report the results of thromboembolectomy (ThEmb) for acute thromboembolic lower limb ischemia (ATLI) in native arteries and to create a predictive score for amputation-free survival (AFS) at 30 days. METHODS: It is a single center, retrospective analysis of a four years period. All patients had ThEmb: adjunctive procedures included femoral and/or popliteal endarterectomy in 30 (18.3%) cases, PTA-stent in 24 (14.6%), and femoral endarterectomy plus PTA-stent in 12 (7.3%). Fasciotomies were performed in 6 (3.6%) patients. Predictors of AFS identified on univariate screen (inclusion threshold, P<.20) were included in a multivariable model. The resulting significant predictors were assigned an integer score to stratify patients into risk groups. RESULTS: Authors analyzed 164 limbs in 164 patients. Mean age was 80±10 years (range, 40-99). In-hospital mortality was 9.8% (N.=16); AFS at 30 days was 84.7% (N.=139). The anatomic level (iliac vs. femoropopliteal vs. infrapopliteal) of the occlusion did not affect AFS (P=.326). Multivariable analysis identified six significant predictors of AFS at 30 days: age >85 (P=0.050), chronic obstructive pulmonary disease (P=0.008), chronic renal insufficiency (P=0.019), late (>6 hours) onset (P=0.004), the presence of major neurologic deficit (P=0.023), and an increased (>800IU/L) level of creatine phosphokinase (P=0.001). An integer score generated two risk groups (low-risk 0-2 [70.1% of cohort], and high-risk ≥3 [29.9% of cohort]): stratification of the patients according to risk category yielded significantly different AFS at 30 days (low-risk 5.2% vs. high-risk 38.8%, P<0.0001). CONCLUSIONS: Among patients selected to undergo ThEmb for ATLI in native arteries, this risk score identified a group of patients with a 40% chance of death or major amputation at 30 days. The score can help to optimize the operative strategy, but further prospective validation is needed.

Acute on chronic limb ischemia: From surgical embolectomy and thrombolysis to endovascular options.

After the invention of the balloon catheter by Fogarty in 1963, surgical thromboembolectomy was considered the gold standard treatment for many years in patients with acute lower limb ischemia (ALLI). ALLI is a dramatic event, carrying a high risk of amputation and perioperative morbidity and mortality. The evolution of endovascular technologies has resulted in a variety of therapeutic options to establish arterial patency. In the 1970s, Dotter first introduced the idea of clot lysis in the treatment of ALLI, which was modified to catheter-directed thrombolysis, and now clot aspiration techniques. Currently, the majority of ALLI (about 70%) is arterial thrombosis, which generally occurs in the setting of preexisting vascular lesion. This condition is very common in patients with diabetes. Clinical presentation in case of thrombosis on atherosclerotic stenosis (so called "acute on chronic ischemia") may be less severe, but treatment is generally more challenging than ALLI due to embolism, considering the complexity in device trackability through the diseased vessels, potential vessel injury, incomplete revascularization, and need of correction of underlying vascular lesions. Although surgery is still a treatment option, especially for ALLI, endovascular interventions have assumed a prominent role in restoring limb perfusion. In this review, the treatment options for ALLI are detailed from surgical thromboembolectomy to thrombolysis and current endovascular techniques, including mechanical fragmentation, rheolytic thrombectomy, and aspiration thrombectomy. The evolution to endovascular therapies has resulted in improved clinical outcomes and lower rates of morbidity.

Clinical features and surgical outcomes of pulmonary artery sarcoma.

OBJECTIVE: Pulmonary artery sarcoma is an exceedingly rare malignancy. There is a lack of consensus regarding its diagnosis and treatment. We reviewed our experience in the surgical management of pulmonary artery sarcoma over an 11-year period. METHODS: From January 2005 to February 2016, 12 patients with pulmonary artery sarcoma (age 51 ± 14 years, 5 male) underwent surgical treatment at our center. Nine patients (75%) exhibited pulmonary trunk involvement on computed tomography angiography. Six patients (50%) were initially misdiagnosed with pulmonary embolism. RESULTS: Ten patients underwent pulmonary endarterectomy, and 3 of these patients required additional unilateral pneumonectomy. The remaining 2 patients underwent exploratory thoracotomy. One patient (8.3%) died in the hospital. The median length of postoperative intensive care unit and hospital stay were 1 day (range, 1-15 days) and 8 days (range, 5-21 days), respectively. The median postoperative survival of the total series was 18 months. Patients who received postoperative combined chemo- and radiotherapy were associated with improved survival compared with those who had isolated adjuvant therapy or surgery alone (median survival 28 vs 8 months, P = .042). CONCLUSIONS: Although pulmonary artery sarcoma has a very poor prognosis, surgical treatment offers a chance for symptom relief and better long-term outcome. Aggressive postoperative adjuvant treatment may be necessary to improve survival.

Surgical Embolectomy for Massive and Submassive Pulmonary Embolism and Pulmonary Thromboendarterectomy for Chronic Thromboembolic Pulmonary Hypertension.

Surgical therapy for massive acute pulmonary embolism has improved with the use of rapid response teams and selective bedside extracorporeal membrane oxygenation initiation. The chronic consequence of unresolved pulmonary embolism is a treatable form of pulmonary hypertension. Pulmonary thromboendarterectomy is a curative operation in selected cases, operated upon in an experienced center with the multidisciplinary team including imaging, pulmonary medicine, and cardiothoracic surgery.

Open Abdomen Improves Survival in Patients With Peritonitis Secondary to Acute Superior Mesenteric Artery Occlusion.

BACKGROUND: Damage control surgery and open abdomen (OA) have been extensively used in the severe traumatic patients. However, there was little information when extended to a nontrauma setting. The purpose of this study was to evaluate whether the liberal use of OA as a damage control surgery adjunct improved the clinical outcome in acute superior mesenteric artery occlusion patients. STUDY DESIGN: A single-center, retrospective cohort review was performed in a national tertiary surgical referral center. RESULTS: Forty-four patients received OA (OA group) and 65 patients had a primary fascial closure (non-OA group) after diagnosed as peritonitis secondary to acute superior mesenteric artery occlusion from January, 2005 to June, 2016. Revascularization was achieved through endovascular aspiration embolectomy, open embolectomy, or percutaneous stent. No difference of bowel resection length was found between groups in the first emergency surgery. However, more non-OA patients (35.4%) required a second-look enterectomy to remove the residual bowel ischemia than OA patients (13.6%, P<0.05). OA was closed within a median of 7 days (4 to 15 d). There was a mean of 134 cm residual alive bowel in OA, whereas 96 cm in non-OA. More non-OA patients suffered from intra-abdominal sepsis (23.1% vs. 6.8%, P<0.01), intra-abdominal hypertension (31% vs. 0, P<0.01), and acute renal failure (53.8% vs. 31.8%, P<0.05) than OA group after surgery. Short-bowel syndrome occurred infrequently in OA than non-OA patients (9.1% vs. 36.9%, P<0.01). OA significantly decreased the 30-day (27.3% vs. 52.3%, P<0.01) and 1-year mortality rate (31.8 % vs. 61.5%, P<0.01) compared with non-OA group. CONCLUSIONS: Liberal use of OA, as a damage control adjunct avoided the development of intra-abdominal hypertension, reduced sepsis-related complication, and improved the clinical outcomes in peritonitis secondary to acute SMA occlusion.

Treatment options for severe pulmonary embolism during pregnancy and the postpartum period: a systematic review.

Essentials The evidence on how to manage life-threatening pregnancy-related pulmonary embolism (PE) is scarce. We systematically reviewed all available cases of (sub)massive PE until December 2016. Thrombolysis in such severe PE was associated with a high maternal survival (94%). The major bleeding risk was much greater in the postpartum (58%) than antepartum period (18%). SUMMARY: Background Massive pulmonary embolism (PE) during pregnancy or the postpartum period is a rare but dramatic event. Our aim was to systematically review the evidence to guide its management. Methods We searched Pubmed, Embase, conference proceedings and the RIETE registry for published cases of severe (submassive/massive) PE treated with thrombolysis, percutaneous or surgical thrombectomy and/or extracorporeal membrane oxygenation (ECMO), occurring during pregnancy or within 6 weeks of delivery. Main outcomes were maternal survival and major bleeding, premature delivery, and fetal survival and bleeding. Results We found 127 cases of severe PE (at least 83% massive; 23% with cardiac arrest) treated with at least one modality. Among 83 women with thrombolysis, survival was 94% (95% CI, 86-98). The risk of major bleeding was 17.5% during pregnancy and 58.3% in the postpartum period, mainly because of severe postpartum hemorrhages. Fetal deaths possibly related to PE or its treatment occurred in 12.0% of cases treated during pregnancy. Among 36 women with surgical thrombectomy, maternal survival and risk of major bleeding were 86.1% (95% CI, 71-95) and 20.0%, with fetal deaths possibly related to surgery in 20.0%. About half of severe postpartum PEs occurred within 24 h of delivery. Conclusions Published cases of thrombolysis for massive PE during pregnancy and the postpartum period suggest a high maternal and fetal survival (94% and 88%). In the postpartum period, given the high risk of major bleeding with thrombolysis, other therapeutic options (catheter [or surgical] thrombectomy, ECMO) may be considered if available.