Evaluation of pulmonary artery bleeding during thoracoscopic pulmonary resection for lung cancer.

BACKGROUND: Bleeding from the pulmonary artery (PA) can be fatal in video-assisted thoracoscopic surgery (VATS) for lung cancer. We evaluated intraoperative PA injury and assessed precautions for thoracoscopic anatomic pulmonary resection. METHODS: We retrospectively analyzed a total of 1098 patients who underwent radical surgery for lung cancer utilizing complete VATS from January 2010 to December 2021. RESULTS: A total of 16 patients (1.5%) had PA injury during VATS, while hemostasis was performed by conversion to thoracotomy in eight patients (50.0%). Although there was a significantly greater operation time and blood loss for patients in the PA injury group (318.4 vs. 264.9 min, p = 0.001; 550.3 vs. 60.5 g, p ≤ 0.001, respectively), there was no significant different for the chest tube insertion duration and length of postoperative hospital stay (4.9 vs. 7.8 days, p = 0.157; 10.6 vs. 9.9 days, p = 0.136, respectively). There was a significant difference observed for the surgical procedure related to the left upper lobectomy in the PA injury group (43.8 vs. 18.8%, p = 0.012), with the primary causative PA determined to be the left anterior segmental PA (A3 ) (31.3%). CONCLUSIONS: VATS is both feasible and safe for lung cancer treatment provided the surgeon performs appropriate hemostasis, although fatal vascular injury could potentially occur during VATS. Surgeons need to be aware of the pitfalls regarding PA dissection management.

Perforación iatrogénica de la arteria pulmonar por drenaje torácico en un paciente con Covid-19 / Iatrogenic Perforation of the Pulmonary Artery by Chest Drain in a Covid-19 Patient

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Repair of Pulmonary Vascular Injury: A Take-Home Low-Fidelity Simulator.

We present a low-cost, simple simulation model of major vascular injury repair for cardiothoracic trainees. This model uses commercially available orthopedic elastic bands to allow repetitive practice of the skills necessary during these rare but critical clinical scenarios. Practicing core skills in the simulation setting will help residents be better prepared when the situation arises.

Variations in the branching patterns of pulmonary artery during thoracoscopic pulmonary resection.

PURPOSE: The knowledge of variations in the branching patterns of pulmonary artery may have important clinical implications in the field of thoracic surgery. METHODS: At the Department of Thoracic Surgery of Monaldi Hospital in Naples, between January 2017 and December 2019, 569 anatomic pulmonary resections via video-assisted thoracic surgery, including lobectomy and segmentectomy, were performed. RESULTS: Among the 569 thoracoscopic pulmonary resections, 24 variations in the branching patterns of pulmonary artery were identified and documented. Anatomic variations on the left were more frequent than on the right. CONCLUSION: This paper, providing a summary of vascular anomalies identified during major lung resections, could help surgeons avoid intraoperative complications, especially during minimally invasive procedures where the visual field is more restricted than open surgery.

Potential damage in pulmonary arterial hypertension: An experimental study of pressure-induced damage of pulmonary artery.

Pulmonary arterial hypertension (PAH) is associated with elevated pulmonary arterial pressure. PAH prognosis remains poor with a 15% mortality rate within 1 year, even with modern clinical management. Previous clinical studies proposed wall shear stress (WSS) to be an important hemodynamic factor affecting cell mechanotransduction, growth and remodeling, and disease progress in PAH. However, WSS in vivo is typically at most 2.5 Pa and a doubt has been cast whether WSS alone can drive disease progress. Furthermore, our current understanding of PAH pathology largely comes from small animals' studies in which caliber enlargement, a hallmark of PAH in humans, is rarely reported. Therefore, a large-animal experiment on pulmonary arteries (PAs) is needed to validate whether increased pressure can induce enlargement of PAs caliber. In this study, we use an inflation testing device to characterize the mechanical behavior, both nonlinear elastic behavior and irreversible damage of porcine arteries. The parameters of elastic behavior are estimated from the inflation test at a low-pressure range before and after over-pressurization. Then, histological images are qualitatively examined for medial and adventitial layers. This study sheds light on the relevance of pressure-induced damage mechanism in human PAH.

ß-arrestin1 inhibits hypoxic injury-induced autophagy in human pulmonary artery endothelial cells via the Akt/mTOR signaling pathway.

Autophagy has been greatly implicated in injured endothelial cells during pulmonary arterial hypertension (PAH). ß-arrestin1, a multifunctional cytoplasmic protein, has attracted considerable attention as an essential protective factor in PAH. However, its role in autophagy of injured pulmonary arterial endothelial cells (PAECs) remains to be determined. Here, we investigated the potential effects of ß-arrestin1 on autophagy and apoptosis in human PAECs (hPAECs) under hypoxic stress. Hypoxic stimuli increases autophagy and decreases the level of ß-arrestin1 in hPAECs. Furthermore, pathologic changes, namely increased proliferation, migration, and apoptosis resistance, are observed after hypoxia exposure. These are reversed after ß-arrestin1 overexpression (ß-arrestin1-OV) or treatment with 3-MA, an autophagy inhibitor. Finally, ß-arrestin1 suppresses the increase in autophagy and apoptosis resistance of hypoxic hPAECs. Mechanistically, ß-arrestin1 upregulates the activity of the Akt/mTOR signaling pathway and downregulates the expression of BNIP3 and Nix after hypoxic stress. Collectively, we have demonstrated, for the first time, that ß-arrestin1 reduces excessive autophagy and apoptosis resistance by activating the Akt/mTOR axis in hypoxic hPAECs. This knowledge suggests a promising therapeutic target for PAH.

Pulmonary artery perforation caused by a left atrial appendage closure device.

We describe a female patient who received hybrid catheter intervention and occlusion of the patent ductus arteriosus (PDA) and left atrial appendage (LAA). Four hours after the procedure, pericardial tamponade suddenly occurred. Surgical exploration of the heart found that a fixation hook of the WATCHMAN device, had protruded through the LAA wall and tore the dilated pulmonary artery (PA). This is the first case report to describe PA perforation caused by barbs of the WATCHMAN device, and more attention should be paid to the relationship between the LAA and its adjacent structures before LAA closure.

Hemoptisis masiva como complicación de cateterismo derecho con catéter de Swan-Ganz / Massive hemoptisis as complication of cathetering right with Swan-Ganz catheter

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Outcomes of completion lobectomy long after segmentectomy.

BACKGROUND: Completion lobectomy long after segmentectomy in the same lobe is extremely difficult because of severe adhesions around hilar structures, especially in cases involving video-assisted thoracoscopic surgery (VATS) completion lobectomy. We report and compare the surgical outcomes of patients who underwent VATS or thoracotomy completion lobectomy long after radical segmentectomy for lung cancer. METHODS: We retrospectively evaluated the surgical outcomes of completion lobectomies performed at our institute long after radical segmentectomies for lung cancer in the same lobe. The efficacy and safety of VATS completion lobectomy was compared to that of thoracotomy completion lobectomy. RESULTS: Ten of 228 patients who underwent radical segmentectomy for lung cancer between 2009 and 2018 underwent completion lobectomy at least a month after segmentectomy; five patients underwent VATS completion lobectomy. None of the patients underwent VATS left upper completion lobectomy, and conversion to thoracotomy was required in one patient. There were no significant differences between VATS and thoracotomy completion lobectomies in the median operative times (VATS 295 min, thoracotomy 339 min, p = 0.55), intraoperative blood loss volumes (VATS 350 mL, thoracotomy 500 mL, p = 0.84), intervals between initial segmentectomy and completion lobectomy (VATS 40 months, thoracotomy 48 months, p = 0.55), and number of patients with pulmonary artery injury (VATS 1, thoracotomy 2, p = 0.49). There was no operation-related mortality. CONCLUSIONS: VATS completion lobectomy long after segmentectomy for lung cancer could be performed without fatal complications unless severe adhesions are observed around each main pulmonary artery.

Targeting mitochondria-associated membranes as a potential therapy against endothelial injury induced by hypoxia.

Mitochondrial dysfunction plays a principal role in hypoxia-induced endothelial injury, which is involved in hypoxic pulmonary hypertension and ischemic cardiovascular diseases. Recent studies have identified mitochondria-associated membranes (MAMs) that modulate mitochondrial function under a variety of pathophysiological conditions such as high-fat diet-mediated insulin resistance, hypoxia reoxygenation-induced myocardial death, and hypoxia-evoked vascular smooth muscle cell proliferation. However, the role of MAMs in hypoxia-induced endothelial injury remains unclear. To explore this further, human umbilical vein endothelial cells and human pulmonary artery endothelial cells were exposed to hypoxia (1% O2 ) for 24 hours. An increase in MAM formation was uncovered by immunoblotting and immunofluorescence. Then, we performed small interfering RNA transfection targeted to MAM constitutive proteins and explored the biological effects. Knockdown of MAM constitutive proteins attenuated hypoxia-induced elevation of mitochondrial Ca2+ and repressed mitochondrial impairment, leading to an increase in mitochondrial membrane potential and ATP production and a decline in reactive oxygen species. Then, we found that MAM disruption mitigated cell apoptosis and promoted cell survival. Next, other protective effects, such as those pertaining to the repression of inflammatory response and the promotion of NO synthesis, were investigated. With the disruption of MAMs under hypoxia, inflammatory molecule expression was repressed, and the eNOS-NO pathway was enhanced. This study demonstrates that the disruption of MAMs might be of therapeutic value for treating endothelial injury under hypoxia, suggesting a novel strategy for preventing hypoxic pulmonary hypertension and ischemic injuries.

Imaging of Cardiovascular Thoracic Emergencies: Acute Aortic Syndrome and Pulmonary Embolism.

Cardiovascular injuries represent the second most common cause of death among trauma victims in the United States. Motor vehicle collisions account for more than 80% of all blunt thoracic trauma. Given the nonspecific nature and variable severity of presenting symptoms, such as chest pain and shortness of breath, as well as confounding and overlapping clinical presentations in the setting of additional injuries, diagnosis of cardiovascular injuries can be challenging. This article reviews the clinical entities of acute aortic syndrome and pulmonary embolism, their imaging findings, and diagnostic challenges.

Left internal mammary artery to pulmonary artery fistula causing coronary steal syndrome: A review of literature on therapy, intervention, and management.

Coronary artery anomalies (CAA) are anatomical aberrations in the origin, structure, and course of the epicardial arteries. Literature has detailed common anomalies or fistulas formed because of coronary artery bypass grafting (CABG) manipulation of intrathoracic vessels. Despite the commonality of the CABG procedure, there are a few CAA and fistula findings which remain extremely rare. We present a case of left internal mammary artery to pulmonary artery fistula causing coronary steal syndrome that presented symptomatically as a malignant arrhythmia. Following a literature review of therapy, intervention, and management we recommend a team based approach when faced with this extremely rare case presentation. The goal of management should to reduce symptoms, and ischemia, by reducing or stopping flow through the fistula and out of the coronary blood supply.

Bomb blast shrapnel trauma to the main pulmonary artery: learning points to achieve a safe outcome.

A 47-year-old patient was injured in a bomb blast and sustained trauma due to multiple fragments of shrapnel from a terrorist explosive device. We report on the surgery required to safely remove a piece of shrapnel from the anterior wall of the main pulmonary artery (PA). A chest X-ray revealed a left-sided haemothorax. A computed tomography scan confirmed the trajectory and position of a metal bolt that had lodged between the main PA and the aortic arch. At surgery, a limited left anterior thoracotomy was performed initially. A significant quantity of blood was observed in the pericardium, and the incision was extended to perform a hemi-clamshell incision with a transverse division of the sternum. Cardiopulmonary bypass (CPB) was initiated before prizing the shrapnel from a haematoma involving the front wall of the main PA. The use of the CPB prevented uncontrolled haemorrhage, and the injury to the wall was successfully repaired. The patient subsequently developed acute respiratory distress syndrome and required a prolonged period of ventilation but made a full recovery after multiple further surgeries to remove the shrapnel from his neck and legs, having been injured by 11 pieces of the shrapnel in total.