Swimming-Induced Pulmonary Edema Masquerading as Acute Respiratory Distress Syndrome: A Case Report.

Immersion pulmonary edema, also known as swimming-induced pulmonary edema (SIPE), manifests with cough, dyspnea, hemoptysis, and hypoxemia from flash pulmonary edema after surface swimming, often in healthy young individuals with no predisposing conditions. SIPE commonly resolves spontaneously within 24-48 hours but can be fatal. Post-mortem findings demonstrate heavy, edematous lungs and frothy airways. Although these pathologic findings are like those seen in patients with drowning, SIPE, by definition, is associated with pulmonary edema that develops with a closed glottis without drowning/aspiration. However, patients who develop SIPE during swimming could lose consciousness and drown. Its pathophysiology is poorly understood, and the medical literature infrequently describes SIPE. Due to the multifactorial and complex pathophysiology and the scarcity of medical literature describing SIPE, the diagnosis could be difficult at presentation. This case report elaborates on diagnosing and treating swimming-induced pulmonary edema in a hypertensive and obese female who presented to our emergency room with an acute onset of shortness of breath after recreational swimming in a pool.

Anesthetic management of a severely obese patient (body mass index 70.1 kg/m2) undergoing giant ovarian tumor resection: a case report.

BACKGROUND: Giant ovarian tumors are rarely seen with severe obesity. There are few reports of perioperative management of giant ovarian tumors and severe obesity. Here, we report the perioperative management of physiological changes in massive intraabdominal tumors in a patient with severe obesity. CASE PRESENTATION: A 46-year-old Japanese woman (height 166 cm, weight 193.2 kg; body mass index 70.1 kg/m2) was scheduled to undergo laparotomy for a giant ovarian tumor. The patient was placed in the ramp position. Preoxygenation was performed using a high-flow nasal cannula, and awake tracheal intubation was performed using a video laryngoscope. Mechanical ventilation using a limited tidal volume with moderate positive end-expiratory pressure was applied during the surgical procedure. The aspiration speed for 15 L of tumor aspirate was set to under 1 L/minute, and the possibility of reexpansion pulmonary edema was foreseen by conventional monitoring. CONCLUSIONS: We successfully completed anesthetic management in a patient with concomitant severe obesity and giant ovarian tumors.

A case of reexpansion pulmonary edema and acute pulmonary thromboembolism associated with diffuse large B-cell lymphoma treated with venovenous extracorporeal membrane oxygenation.

A 37-year-old man diagnosed with diffuse large B-cell lymphoma two weeks previously, visited our emergency department with sudden dyspnea. He had a severe respiratory failure with saturated percutaneous oxygen at 80% (room air). Chest radiography showed a large amount of left pleural effusion. After 1000 mL of the effusion was urgently drained, reexpansion pulmonary edema (RPE) occurred. Despite ventilator management, oxygenation did not improve and venovenous extracorporeal membrane oxygenation (VV-ECMO) was initiated in the intensive care unit. The next day, contrast-enhanced computed tomography showed a massive thrombus in the right pulmonary artery, at this point the presence of pulmonary thromboembolism (PTE) was revealed. Fortunately, the patient's condition gradually improved with anticoagulant therapy and VV-ECMO support. VV-ECMO was successfully discontinued on day 4, and chemotherapy was initiated on day 8. We speculated the following mechanism in this case: blood flow to the right lung significantly reduced due to acute massive PTE, and blood flow to the left lung correspondingly increased, which could have caused RPE in the left lung. Therefore, our observations suggest that drainage of pleural effusion when contralateral blood flow is impaired due to acute PTE may increase the risk of RPE. .

Reexpansion pulmonary edema after drainage of pneumothorax.

Reexpansion pulmonary edema is a rare complication of thoracocentesis with mortality rates as high as 20%. It presents with tachycardia, hypotension, and hypoxemia within hours after thoracocentesis. The exact pathophysiology is not known. The risk factors for the same should be carefully assessed and considered before chest tube drainage. The treatment is supportive. A case of ipsilateral reexpansion pulmonary edema after chest tube drainage of spontaneous pneumothorax is described and illustrated. He was managed with noninvasive ventilation, inotropes, and other supportive treatment and recovered completely.

Reexpansion pulmonary edema: A rare complication of pneumothorax drainage.

Among all the noncardiac causes of pulmonary edema, unilateral reexpansion pulmonary edema is one of the rarest complication of expansion of a collapsed lung. It is largely unknown and a potentially fatal complication. We present the case of a 51-year-old gentleman who presented to our emergency department with shortness of breath. X-ray revealed significant right-sided pneumothorax with associated collapse of the right lung. An intercostal tube was inserted into the right 5th intercostal space and a repeat X-ray revealed well-expanded lung field. Soon, the patient developed increased shortness of breath and hypoxia. Repeat X-ray was suggestive of pulmonary edema. He was started on noninvasive positive pressure ventilation and responded well to it. Emergency physicians should have a high index of suspicion and initiate early management of reexpansion pulmonary edema in patients suffering from pneumothoraces which have undergone drainage.

Giant mediastinal liposarcoma resected by median sternotomy: a case report.

Liposarcoma is a type of common tumor in soft tissue, but liposarcoma originating in the mediastinum is rare. Here, we report a case of the anterior mediastinal liposarcoma resected by a median sternal incision and complicated with reexpansion pulmonary edema after surgery. A 68-year-old female patient with chest tightness and shortness of breath for more than 2 years, recently presents with increased chest tightness and shortness of breath, as well as right upper extremity and lower back pain. Enhanced chest CT scan showed an uneven and low-density mass in the anterior mediastinum with clear border. Most of the mass showed fat density, the anterior part of the mass was solid, and the liquid density was seen in the pericardial cavity. Surgery was performed with a median sternal incision, and part of the pericardium and the innominate vein wall were removed during the removal of the entire liposarcoma. The size of the tumor was about 20 cm × 10 cm × 8 cm. The patient developed a reexpansion pulmonary edema after the giant mediastinal liposarcoma resection, but she was discharged successfully on the 10th postoperative day with the treatment by anti-glucocorticoids and diuretics. Postoperative pathology showed well-differentiated liposarcoma. Now within the half-year follow-up, the patient remained well and there is no sign of recurrence. Median sternotomy is considered to be a good surgical procedure for giant mediastinal liposarcomas. Attention should be given to prevent reexpansion pulmonary edema after surgery.

Incidence of reexpansion pulmonary edema in minimally invasive cardiac surgery.

Minimally invasive cardiac surgery requires fewer blood transfusions and mediastinitis is less frequently observed compared to conventional median sternotomy surgical intervention, and it leads to earlier recovery and discharge. However, once reexpansion pulmonary edema occurs, the patient requires long-term management in the intensive care unit. This retrospective study was performed to investigate the incidence of reexpansion pulmonary edema in minimally invasive cardiac surgery. Patients who underwent minimally invasive cardiac valve surgery using cardiopulmonary bypass and port-access by a minimal right lateral thoracic incision between January 2010 and January 2018 were enrolled in this single-center retrospective study, which was approved by the institutional review board of Japanese Red Cross Nagoya Daiichi Hospital (Nagoya, Japan), and the requirement for written informed consent was waived. All data were collected from electronic charts. The primary outcome was the incidence rate of reexpansion pulmonary edema in patients undergoing minimally invasive cardiac surgery. A total of 662 patients underwent minimally invasive cardiac surgery, and we analyzed 651 of these cases. No case of reexpansion pulmonary edema was observed in this study. The statistically-calculated incidence rate of reexpansion pulmonary edema was less than 0.6% (95% confidence interval: 0.0-0.6). The incidence of cerebral infarction was 0.92% (n = 6). Intensive care unit stay days, hospital stay days after surgery, and the death rate after 30 days were 1.5 ± 2.0 days, 9.6 ± 3.9 days, and 0.15%, respectively. Although there was no incidence of clinical reexpansion pulmonary edema in this study, the predicted incidence of reexpansion pulmonary edema by statistical analysis was less than 0.6%.

Reexpansion pulmonary edema after surgery for spontaneous pneumothorax in a patient with anorexia nervosa.

INTRODUCTION: Several adverse effects on the pulmonary system in patients with anorexia nervosa (AN) have been reported. We present a case of AN who presented with a complicated reexpansion pulmonary edema (RPE) after video-assisted thoracic surgery (VATS) for spontaneous pneumothorax. PRESENTATION OF CASE: A 23-year-old woman with severe anorexia nervosa (weight: 25 kg, body mass index: 8.96 kg/m(2)) underwent VATS for spontaneous pneumothorax. Five hours after the surgery, she immediately presented acute cardiorespiratory insufficiency. Chest radiography showed an infiltrating shadow in the entire right lung. She was diagnosed with reexpansion pulmonary edema that was treated with methylprednisolone pulse therapy and mechanical ventilation. She recovered and was extubated on postoperative day 4. The chest drain tube was removed on postoperative day 5. DISCUSSION: Bullectomy or ligation of bullae for spontaneous pneumothorax in a patient with AN has never been reported. In our case, bullae were identified in preoperative CT and we chose ligation of the bullae instead of the bullectomy using automatic suture device because of poor wound healing concerned. CONCLUSION: We present a case of RPE after VATS for spontaneous pneumothorax in a patient with AN. Malnutrition owing to AN results in critical complications such as RPE.

Reexpansion pulmonary edema: review of pediatric cases.

Reexpansion pulmonary edema (RPE) is an increased permeability pulmonary edema that usually occurs in the reexpanded lung after several days of lung collapse. This condition is recognized to occur more frequently in patients under the age of 40 years, but there has been no detailed analysis of reported pediatric cases of RPE to date. For this review, PubMed literature searches were performed using the following terms: 're(-)expansion pulmonary (o)edema' AND ('child' OR 'children' OR 'infant' OR 'boy' OR 'girl' OR 'adolescent'). The 22 pediatric cases of RPE identified were included in this review. RPE was reported in almost the entire pediatric age range, and as in adult cases, the severity ranged from subclinical to lethal. No specific treatment for RPE was identified, and treatment was administered according to the clinical features of each patient. Of the 22 reported cases, 10 occurred during the perioperative period, but were not related to any specific surgical procedures or anesthetic techniques, or to the duration of lung collapse. Pediatric anesthesiologists should be aware that pediatric RPE can occur after reexpansion of any collapsed lung and that some invasive therapies can be useful in severe cases.

Two Cases of Reexpansion Pulmonary Edema after Cardiac Surgery / 日本心臓血管外科学会雑誌

A 54-year-old man with ischemic mitral regurgitation underwent surgical ventricular restoration, mitral valve plasty and a coronary artery bypass. A chest X-ray 7 days later revealed pleural effusion on the right side. A chest tube was inserted and about 1,000 ml of fluid was drained. However, re-expansion pulmonary edema (RPE) occurred 2 h later. Positive pressure ventilation and intravenous infusion with a diuretic improved the RPE. He was resuscitated on the following day to receive percutaneous cardiopulmonary support (PCPS) for unstable hypoxemia and hypotension. Oxygenation improved, PCPS was withdrawn 2 days later, and the endotracheal tube was removed. Re-expansion pulmonard. He was resuscitated on the following day to receive percutaneous cardiopulmonary support (PCPS) for unstable hypoxemia and hypotension. Oxygenation improved, PCPS was withdrawn 2 days later, and the endotracheal tube was removed. Re-expansion pulmonary edema might cause fatal short-term cardio-respiratory failure. We considered that RPE requires appropriate early diagnosis, early treatment and aggressive therapy, including PCPS.

Ipsilateral Reexpansion Pulmonary Edema Developed after Decortication: A Case Report / 대한구급학회지

Reexpansion pulmonary edema (RPE) is a rare but sometimes fatal complication of the treatment of lung collapse secondary to pneumothorax, pleural effusion, or atelectasis. We experienced a case of RPE that developed following decortication. A 46 year-old female had a decortication for pyothorax under one-lung anesthesia. There was no event during the operation and results of arterial blood gas analysis were within normal limits. After the operation, tracheal extubation was performed and 100% oxygen saturation on a pulse oximeter (SpO2) was maintained with 100% O2, (8 L/min) via mask ventilation with self-respiration. The patient, with 50% Venturi mask, was transported to the intensive care unit (ICU). On arrival at the ICU, a SpO2 of 80% was detected and arterial blood gas analysis revealed hypoxemia with acute hypercapnic respiratory acidosis. Fortunately, reexpansion pulmonary edema was detected early and intensive treatment was performed using mechanical ventilation with positive end-expiratory pressure. Tracheal extubation was performed after 1 day of mechanical ventilation. The reexpansion pulmonary edema was successfully treated and the patient recovered without any complications.

A Case of Focal Reexpansion Pulmonary Edema after Chest Tube Insertion / 결핵및호흡기질환

Reexpansion pulmonary edema is not a common phenomenon after chest tube insertion but some reports from 0% to 14%. There are various resulting complications, including acute respiratory distress syndrome. We report a case of focal reexpansion pulmonary edema after chest tube insertion. A 49-year-old male came to the hospital due to ongoing dyspnea and left chest pain for 3 days. On chest X-ray, the patient had a left pneumothrax. We planned to insert a chest tube for symptom relief. To determine whether or not the chest had expanded as a result of the chest tube insertion, the patient underwent repeated chest X-rays the following day. The patient experienced brief respiratory symptoms upon initial suction; a chest PA showed patchy consolidated infiltration at the inserted site. After 5 days of conservative management, the recovered completely.

Hydrothorax after Central Vein Catheterization for Right Internal Jugular Vein and Contralateral Reexpansion Pulmonary Edema after Right Chest Tube Insertion: A case report / 대한마취과학회지

Cannulation of a large central vein is the standard clinical method for mornitoring CVP and is also performed for a number of additional therapeutic interventions, such as providing secure vascular access for administration of vasoactive drugs or to initiate rapid fluid resuscitation in operation or for aspiration of air emboli. But there are many complications such as vessel injury, pneumothorax, nerve injury, arrhythmias, arteriovenus thrombus, pulmonary emboli, infection at insertion site, because there are major vessels, nerve and organs around of central veins. We report a case of Rt. Hydrothorax after internal jugular vein cannulation and a contralateral reexpansion pulmonary edema and pleural effusion after Rt. chest tube insertion for hydrothorax.

Reexpansion Pulmonary Edema Occurred after Evacuating the Hepatic Hydrothorax in a Liver Transplant Patient: A case report / 대한마취과학회지

A hepatic hydrothorax is a pleural effusion that develops in patients with cirrhosis and portal hypertension in the absence of cardiopulmonary disease. It is a complication of end-stage liver disease, and a liver transplant is the treatment of choice. In our case, a reexpansion pulmonary edema occurred after evacuating 4,250 ml of ascites and aspirating 3,600 ml of the pleural effusion within 15 minutes aimed at visually improving the surgical field in a 46-year-old male patient receiving a liver transplant. 1 hour 30 minutes after aspirating the pleural effusion, the level of oxygen saturation decreased from 100% to 95%, and serosanguinous fluid spilled over from the endotracheal tube. We inserted a double lumen endotracheal tube to both separate and protect the unaffected left lung, and applied CPAP 10 cmH2O at the affected right lung. The reexpansion pulmonary edema was successfully treated using this supportive management.

A Case of Focal Reexpansion Pulmonary Edema after Conventional Thoracentesis of Pleural Effusion / 결핵

A 60-year old male patient admitted with complaints of dyspnea and pleuritic chest pain. The chest X-ray demonstrated right pleural effusion. We planed to do the conventional thoracentesis to evaluate the characteristics of pleural effusion and to relieve the symptom of the patient. Focal reexpansion pulmonary edema was seen on the follow-up chest X-ray. After the 5-day conservative management, the patient recovered without any complications.

Edema pulmonar de reexpansão tratado com ventilação não invasiva: relato de caso / Reexpansion pulmonary edema treated with non-invasive ventilation: case report

The authors report a case of Reexpansion Pulmonary Edema (RPE) seen at Hospital de Pronto Socorro de Porto Alegre 3 hours after drainage of spontaneous pneumothorax. The patient presented a unilateral pneumothorax with one-week duration. After pleural drainage respiratory failure occured being managed at the Intensive Care Unit with non-invasive positive pressure ventilation through facial mask. The patient had favorable outcome and was discharged asymtomatic after 72 hours.

A Case of Bilateral Reexpansion Pulmonary Edema After Pleurocentesis / 결핵

Acute bilateral reexpansion pulmonary edema after pleurocentesis is a rare complication. In one case, bilateral reexpansion pulmonary edema after unilateral pleurocentensis in sarcoma was reported. Verious hypotheses regarding the mechanism of reexpansion pulmonary edema include increased capillary permeability due to hypoxic injury, decreased surfactant production, altered pulmonary perfusion and mechanical stretching of the membranes. Ragozzino et al suggested that the mechanism leading to unilateral reexpansion pulmonary edema involves the opposite lung when there is significant contralateral lung compression. Here we report a case of bilateral reexpansion pulmonary edema and acute respiratory distress syndrome after a unilateral pleurocentesis of a large pleural effusion with contralateral lung compression and increased interstitial lung marking underlying chronic liver disease.

Reexpansion Pulmonary Edema during Decortication Operation under General Anesthesia - A case report / 대한마취과학회지

We have experienced a reexpansion pulmonary edema(RPE) during general anesthesia. This patient has undertaken the decortication operation due to right sided massive pleural effusion and fibrothorax. Generally reexpansion pulmonary edema is believed to oceur only when a chronically collapsed lung is rapidly reexpanded by evacuation of large amount of air or fluid in pneumothorax and pleural effusion. The pathogenesis of RPE is unknown and is probably multifactorial. The implicated etiologies are chronicity of collapse, technique of reexpansion, increased pulmonary vascular permeability, airway obstruction, loss of surfactant and pulmonaty artery pressure changes. The outcome of RPE may be fatal, so physician treating lung collapse must be aware of the possible causes and endeavor to prevent the occurrence of this complieation.