When pericardial tamponade occurs to the left ventricular assist device (LVAD) implanted patients, typical hemodynamic signs of tamponade such as tachycardia and pulsus paradoxus may be masked by LVAD action. For those with normal heart, anesthetic management during pericardial tamponade operation before drainage is to restrict fluid administration and maintain perfusion pressure with vasopressor are recommended. But the things to concern are different in cases of patient with LVAD. Here, we describe a case of performing anesthesia with LVAD implanted patient for pericardial tamponade operation. A 58-year-old male with HeartWare™ (Medtronic, Framingham, MA, USA) LVAD implant was referred for cardiac tamponade surgery. After the induction of general anesthesia, his mean arterial pressure (MAP) decreased to 38 mmHg with device flow 1.8 L/min and device power 2.4 Watts at pump speed 2,400 RPM. Norepinephrine and Epinephrine infusion were initiated. MAP recovered to 70mmHg with device flow 3.7 L/min and power 3.0 Watts after the drainage of 1,200 cc of pericardial fluid. Cardiac tamponade with LVAD implanted patient present with decreased peak flow, mean flow and decreased pulsatility. LVAD flow depends on pump rotation, preload and afterload. In order to maintain flow in these patients, prevention of preload reduction is important. Since LVAD implantation becoming more popular as Bridge to transplantation and destination therapy, it is important for anesthesiologist to understand the LVAD parameters and factors that affect.
Anesthesia ; Anesthesia, General ; Arterial Pressure ; Cardiac Tamponade ; Drainage ; Epinephrine ; Heart ; Heart-Assist Devices ; Hemodynamics ; Humans ; Male ; Masks ; Middle Aged ; Norepinephrine ; Perfusion ; Pericardial Fluid ; Tachycardia

A 13-year-old spayed female Miniature Schnauzer was presented with complaints of intermittent syncope. Pericardial effusion was confirmed based on the physical examination, thoracic radiographs and echocardiography. Subsequently, prompt pericardiocentesis was performed. Clinical abnormalities were immediately improved after pericardiocentesis. However, the clinical signs associated with acute collapse recurred. After the second pericardiocentesis, thoracic radiographs revealed pleural effusion, and the clinical signs resolved rapidly. The dog underwent pleural aspiration. Analysis of pleural fluid revealed almost similar features as the previous pericardial fluid. It was possible that a pericardial-pleural fistula was created during the pericardiocentesis. The pericardial and pleural effusion disappeared after the procedures.
Adolescent ; Animals ; Cardiac Tamponade ; Dogs ; Echocardiography ; Female ; Fistula ; Humans ; Pericardial Effusion ; Pericardial Fluid ; Pericardiocentesis ; Physical Examination ; Pleural Effusion ; Syncope ; Thoracentesis

Pericardial drainage is an important diagnostic and therapeutic option in the symptomatic patient with large amount of pericardial effusion (PE). However, when the amount of PE is relatively small, physicians are often reluctant to perform the invasive drainage of the fluid due to the increased risk of causing myocardial injury during the procedure. Even in some cases of suspected pericarditis with small amount PE, an initial empirical anti-inflammatory therapy is often recommended. A 65-year-old woman presented with mild dyspnea for two weeks. The echocardiography revealed small amount of PE. A careful fluoroscopy-guided pericardiocentesis, subsequent pericardial fluid cytology, and thorough whole body check-up demonstrated adenocarcinoma with no proven primary site. After the palliative chemotherapy, she had survived for 15 months until her death due to asphyxia. Although pericardiocentesis is considered dangerous in small amount of PE, a prompt and careful drainage may provide early detection of hidden malignancy and better survival outcome.
Adenocarcinoma* ; Aged ; Asphyxia ; Drainage ; Drug Therapy ; Dyspnea ; Echocardiography ; Female ; Humans ; Pericardial Effusion* ; Pericardial Fluid ; Pericardiocentesis* ; Pericarditis

Bacterial culture and identification are both useful in the clinical and forensic fields, although the postmortem changes in human microbiology are poorly understood. This study aimed to identify bacteria that were considered normal flora in postmortem body fluid samples. Bacterial culture and identification testing were performed for 336 body fluid samples (e.g., cardiac blood, peripheral blood, pericardial fluid, pleural fluid, peritoneal fluid, cerebrospinal fluid, and urine) from 129 forensic autopsy cases. Bacteria were identified using both genetic and biochemical methods, and testing for C-reactive protein (CRP) was used to identify the presence of antemortem inflammation. Among the 129 autopsy cases, 79 cases (69.3%) were negative for CRP, and bacterial culture and identification testing were performed for 185 samples from those 79 cases. Bacteria that were considered both normal flora and pathogens were identified in the CRP-negative cases. Therefore, the results from postmortem bacterial culture and identification testing should be interpreted in the context of other postmortem examination, including CRP testing. Furthermore, case selection, postmortem testing, and interpretations of the results should be performed by both clinical bacteriologists and forensic pathologists. To best of our knowledge, this is the first study to examine normal flora in various postmortem body fluid samples form Korean autopsy cases.
Ascitic Fluid ; Autopsy ; Bacteria* ; Body Fluids* ; C-Reactive Protein ; Cerebrospinal Fluid ; Humans ; Inflammation ; Pericardial Fluid ; Postmortem Changes

We report on a rare case involving a 23-year-old female patient with mediastinal cystic mass complicated with acute pericarditis and cardiac tamponade. Pericardial fluid demonstrated lymphocyte-predominant exudate and the level of carcinoembryonic antigen (CEA) was unexpectedly elevated. Successive aspiration of mediastinal cystic mass revealed a very high level of CEA (>100,000 U/mL) and carbohydrate antigen 19-9 (>15,000 ng/mL). This patient was clinically diagnosed as an infected bronchogenic cyst complicated with pericarditis and cardiac tamponade. The treatment resulted in alleviation of her symptoms.
Bronchogenic Cyst* ; Carcinoembryonic Antigen ; Cardiac Tamponade ; Exudates and Transudates ; Female ; Humans ; Mediastinal Cyst ; Pericardial Effusion* ; Pericardial Fluid ; Pericarditis ; Young Adult

OBJECTIVE: Our objective was to determine the utility of point-of-care ultrasound (POCUS) to identify and guide treatment of tamponade or clinically significant pericardial effusions in the emergency department (ED). METHODS: This was a retrospective cohort study of non-trauma patients who were diagnosed with large pericardial effusions or tamponade by the ED physician using POCUS. The control group was composed of those patients later diagnosed on the medical wards or incidentally in the ED by other means such as a computed tomography. The following data were abstracted from the patient’s file: demographics, medical background, electrocardiogram results, chest radiograph readings, echocardiogram results, and patient outcomes. RESULTS: There were 18 patients in the POCUS arm and 55 in the control group. The POCUS arm had a decreased time to pericardiocentesis (11.3 vs. 70.2 hours, P=0.055) as well as a shorter length of stay (5.1 vs. 7.0 days, P=0.222). A decreased volume of pericardial fluid was drained (661 vs. 826 mL, P=0.139) in the group diagnosed by POCUS. CONCLUSION: This study suggests that POCUS may effectively identify pericardial effusions and guide appropriate treatment, leading to a decreased time to pericardiocentesis and decreased length of hospital stay. Pericardial tamponade or a large pericardial effusion should be considered in all patients presenting to the ED with clinical, radiographic, or electrocardiographic signs of cardiovascular compromise.
Arm ; Cardiac Tamponade ; Cohort Studies ; Demography ; Electrocardiography ; Emergencies* ; Emergency Service, Hospital* ; Humans ; Length of Stay ; Pericardial Effusion ; Pericardial Fluid ; Pericardiocentesis* ; Point-of-Care Systems* ; Radiography, Thoracic ; Reading ; Retrospective Studies ; Ultrasonography*

We report on a rare case involving a 23-year-old female patient with mediastinal cystic mass complicated with acute pericarditis and cardiac tamponade. Pericardial fluid demonstrated lymphocyte-predominant exudate and the level of carcinoembryonic antigen (CEA) was unexpectedly elevated. Successive aspiration of mediastinal cystic mass revealed a very high level of CEA (>100,000 U/mL) and carbohydrate antigen 19-9 (>15,000 ng/mL). This patient was clinically diagnosed as an infected bronchogenic cyst complicated with pericarditis and cardiac tamponade. The treatment resulted in alleviation of her symptoms.
Bronchogenic Cyst ; Carcinoembryonic Antigen ; Cardiac Tamponade ; Exudates and Transudates ; Female ; Humans ; Mediastinal Cyst ; Pericardial Effusion ; Pericardial Fluid ; Pericarditis ; Young Adult

We present an iatrogenic, pleuro-pericardial connection resulting from pericardiocentesis of a large, tuberculous, pericardial effusion. Recognition of this situation is paramount when one is unable to aspirate pericardial fluid after a successful, initial puncture. Such knowledge will help prevent myocardial or coronary artery injury with further attempts at aspiration.
Coronary Vessels ; Echocardiography ; Pericardial Effusion* ; Pericardial Fluid ; Pericardiocentesis ; Pleural Cavity ; Punctures ; Tuberculosis

In the critically injuried and hemodynamically unstable patient, extended focused assessment with sonography for trauma (E-FAST) examination can be performed for a rapid assessment of peritoneal and/or pericardial fluid. We report a case of traumatic tricuspid regurgitation that was missed in the emergency department by E-FAST and identified by intraoperative transesophageal echocardiography.
Echocardiography ; Echocardiography, Transesophageal* ; Emergency Service, Hospital ; Humans ; Pericardial Fluid ; Thoracic Injuries ; Tricuspid Valve ; Tricuspid Valve Insufficiency*

SYNOPSIS: Cardiac tamponade among systemic lupus erythematosus (SLE) patients is an unusual event. The pericardial effusion may be a consequence of uremia, infections in the pericardium, or the lupus pericarditis itself. We present four atypical cases of cardiac tamponade from pericarditis of connective tissue disease (CTD), all of which were treated with drainage and immunosuppressants. Due to the rarity of this combination, management was a challenge.
CLINICAL PRESENTATION: Four females each sought consult for dyspnea associated with typical manifestations of connective tissue disease such as arthritis, characteristic rashes, serositis, typical laboratory features, and a positive ANA and/or anti-dsDNA. The first three cases fulfilled the criteria for SLE, while the fourth fulfilled the criteria for SLE-dermatomyositis overlap syndrome. Echocardiography was done due to suspicion of pericardial involvement and revealed massive pericardial effusion in tamponade physiology in all cases.
DIAGNOSIS: Cardiac tamponade from serositis due to connective tissue disease [SLE (case 1 to 3) or SLE-dermatomyositis overlap (case 4). Other common etiologies of tamponade such as bacterial, tuberculous, malignant, and uremic pericardial effusion were ruled out by clinical and laboratory tools, including Gram stain and culture, cytology, PCR, and biochemical testing. The pericardial fluid of the first case tested positive for lupus erythematosus (LE) cells, indicative of lupus serositis.
TREATMENT AND OUTCOME: All patients underwent pericardial drainage via tube pericardiostomy. They received high dose glucocorticoids after infectious etiologies for the pericardial effusion were ruled out. The fourth case with the overlap syndrome, however, required more immunosuppressants using azathioprine and methotrexate. Resolution of pericardial effusion was noted with this approach. Three of four were discharged improved, however, the third case suffered from worsening nephritis and pulmonary hemorrhage leading to her demise.
SIGNIFICANCE AND RECOMMENDATIONS: Four cases of cardiac tamponade as a manifestation of connective tissue disease were presented. Literature underlines the rarity of this condition anytime during the course of SLE. Despite this, SLE should be considered as one of the differential diagnosis of cardiac tamponade, especially in patients who manifest with multi-systemic findings. Likewise, massive pericardial effusion should be considered in patients with a connective tissue disease presenting with subtle evidence of pericardial involvement. It requires timely identification and treatment with high dose steroids, after other causes such as infections have been excluded. Immediate drainage through pericardiocentesis or pericardiostomy in combination with immunosuppressants may be life-saving.

Human ; Female ; Adult ; Adolescent ; Pericardiocentesis ; Pericardial Effusion ; Azathioprine ; Cardiac Tamponade ; Methotrexate ; Glucocorticoids ; Serositis ; Dermatomyositis ; Immunosuppressive Agents ; Pericardial Fluid ; Neutrophils ; Lupus Erythematosus, Systemic ;