A new diagnostic and therapeutic approach to pericardial effusion: transbronchial needle aspiration

Left atrial compression syndrome secondary to coronary artery perforation: Pathophysiology, diagnosis, and management strategies

Coronary perforation (CP) poses a significant risk of morbidity and mortality, particularly, in patients with a history of cardiac surgery. The occurrence of loculated pericardial effusion presents distinctive challenges in these postcardiac surgical patients. This study delves into the complexities arising from the formation of loculated pericardial effusions subsequent to CP, with a specific focus on the loculated effusion in the posterior wall leading to left atrial compression syndrome. This analysis is dedicated to elucidating pathophysiology diagnostic and treatment strategies tailored for addressing left atrium compression syndrome, providing invaluable insights into the intricacies of diagnosing, treating, and managing this entity in the postcardiac surgical patient.

Endoscopic Ultrasound-Guided Transesophageal Pericardiocentesis in the Treatment of Localized Cardiac Tamponade Following Coronary Perforation

We present a case of an 81-year-old male patient who developed a posteriorly localized pericardial effusion and tamponade of the left atrium after percutaneous intervention of the right coronary artery. Endoscopic ultrasound-guided transesophageal pericardiocentesis was performed when conventional transthoracic and surgical access options were associated with unacceptable risk.

Practical Electrochemical Method to Enhance Needle Visibility during Ultrasound Imaging

Ultrasound-guided needle interventions play a pivotal role in the diagnosis and treatment processes in clinical practice. However, existing echogenic needles face challenges in achieving a balance between effectiveness, ease of manufacturing, and inexpensiveness. In this study, we developed an echogenic needle that encompassed the aforementioned advantages through the use of the electrolysis technology. The overall contour of the needle after electrolysis was observed using bright-field microscopy, while scanning electron microscopy (SEM) was employed to examine the micro-variations on the needle's surface. Subsequently, we validated the enhanced visualization effects in vitro (pork) and in vivo (anesthetized rabbit's thigh) puncture phantoms. To ensure the safety of the needles after the puncture procedure, we conducted Vickers hardness tests, SEM detection, bright-field microscopy, and DAPI staining. The results demonstrated that the surface roughness of the needle increased with the duration of electrolysis. Taking into account the comprehensive safety tests, the needle, subjected to 40 s of electrolysis, demonstrated a safe and effective enhancement of ultrasound visualization.

Clinical Applications of Endobronchial Ultrasound (EBUS) Scope: Challenges and Opportunities

Endobronchial Ultrasound (EBUS) has been widely used to stage lung tumors and to diagnose mediastinal diseases. In the last decade, this procedure has evolved in several technical aspects, with new tools available to optimize tissue sampling and to increase its diagnostic yield, like elastography, different types of needles and, most recently, miniforceps and cryobiopsy. Accordingly, the indications for the use of the EBUS scope into the airways to perform the Endobronchial Ultrasound-TransBronchial Needle Aspiration (EBUS-TBNA) has also extended beyond the endobronchial and thoracic boundaries to sample lesions from the liver, left adrenal gland and retroperitoneal lymph nodes via the gastroesophageal tract, performing the Endoscopic UltraSound with Bronchoscope-guided Fine Needle Aspiration (EUS-B-FNA). In this review, we summarize and critically discuss the main indication for the use of the EBUS scope, even the more uncommon, to underline its utility and versatility in clinical practice.

Percutaneous Epicardial Approach to Catheter Ablation of Cardiac Arrhythmias

Since their introduction >2 decades ago, percutaneous catheter-based epicardial mapping and ablation have become widely adopted by cardiac electrophysiologists around the world. Although epicardial mapping has been used for catheter ablation of a wide variety of cardiac arrhythmias, its most common use is for ablation of intramural and subepicardial substrates that give rise to ventricular tachycardia, particularly in patients with nonischemic cardiomyopathy. As such, the subxiphoid percutaneous epicardial approach has emerged as an important adjunct, and, in some cases, is the preferred strategy in this regard. This review discusses the rationale and indications for epicardial catheter mapping and/or ablation. This paper also reviews the prevalence of epicardial arrhythmias and their electrocardiographic criteria. In addition, it examines the anatomy of the pericardium and commonly used epicardial access techniques, as well as the optimal methodologies for epicardial mapping and ablation and the impact of epicardial fat. Finally, this review discusses the potential of the various complications associated with the percutaneous epicardial approach, in addition to patient-specific risk factors, and potential strategies to mitigate the risk of complications.

A contemporary look at pericardiocentesis

Percutaneous drainage is the default strategy for evacuating a pericardial effusion. A pericardiocentesis can be necessary or required in a wide variety of clinical settings ranging from urgent tamponade to relieve in iatrogenic hemorrhagic effusions in the electrophysiology or catheterization room, to planned diagnostic procedures in patients with suspected or known malignancy or infections. With the help of several procedural improvements over the past decades, echocardiography and fluoroscopy-guided percutaneous pericardiocentesis has become the standard intervention for evacuating pericardial effusions, as well as an essential tool in the diagnostic work-up of an unexplained pericardial effusion. When performed by skilled physicians assisted by appropriate imaging it is a very safe procedure, and provided that an indwelling catheter is placed, it is also very effective with an acceptably low risk of recurrences. In this review, the indications and standard techniques for pericardiocentesis are discussed, as well as their consequences for patients with iatrogenic and malignant effusions.

Percutaneous Pericardial Effusion Drainage under Ultrasonographic and Fluoroscopic Guidance for Symptomatic Pericardial Effusion: A Single-Center Experience in 93 Consecutive Patients

PURPOSE

To evaluate the safety and efficacy of ultrasound-guided and fluoroscopically guided percutaneous pericardial effusion drainage as performed by interventional radiologists in patients with symptomatic pericardial effusion.

MATERIALS AND METHODS

From July 2002 to December 2013, 93 patients were treated with percutaneous pericardial effusion drainage. Pericardial effusion drainage was performed via 3 routes: apical, subxiphoid, and transhepatic routes. After puncturing the pericardial sac with a 22-gauge needle under ultrasound guidance, a drainage catheter was inserted under fluoroscopic guidance. Pericardial effusion was categorized according to its distribution in the pericardial cavity: "circumferential even," "circumferential uneven" (predominant site specified), and "loculated." Technical success, recurrence, and complication rates were assessed.

RESULTS

The technical success rate was 99%. Pericardial effusion drainage was performed via the subxiphoid approach in 54 procedures, transhepatic approach in 30 procedures, and apical approach in 13 procedures. The transhepatic approach was mainly performed in cases where the effusion was distributed posteriorly to the heart (80%). One patient died of uncontrolled hypotension without evidence of hemopericardium.

CONCLUSIONS

Ultrasound-guided and fluoroscopically guided pericardial effusion drainage is a safe and effective procedure for patients with symptomatic pericardial effusion. The transhepatic approach may be preferable for posteriorly distributed pericardial effusion that would otherwise be inaccessible by a traditional subxiphoid or apical approach.

Mediastinal lymphangioma treated using endobronchial ultrasound-guided transbronchial needle aspiration

Lymphangiomas are localized malformations of the lymphatic system that most commonly occur in the head and neck. However, less than 1% of all lymphangiomas are confined to the mediastinum. The standard treatment has been surgical excision, but the involvement of vital structures in the area local to the lymphangioma makes total excision virtually impossible in most cases. To our knowledge, there has been no report of mediastinal lymphangioma treated with endobronchial ultrasound-guided transbronchial needle aspiration (EBUS-TBNA). We report here the first case of safe, effective treatment of a very large mediastinal lymphangioma using EBUS-TBNA in a 29-year-old man.

Cardiac tamponade following transbronchial needle aspiration

Bronchoscopic transbronchial fine needle aspiration of the mediastinum is generally known as a safe procedure. Complications such as pneumothorax, pneumomediastinum, major bronchial haemorrhage and significant bleeding after a major vessel puncture are rare events. We report the first case, to our knowledge, of life-threatening cardiac tamponade following transbronchial fine needle aspiration in precarinal location.

The Pericardial Space: Obtaining Access and an Approach to Fluoroscopic Anatomy

The pericardial space is now increasingly used as a means and vantage point for mapping and ablating various arrhythmias. In this review, present techniques to access the pericardial space are examined and potential improvements over this technique discussed. The authors then examine in detail the regional anatomy of the pericardial space relevant to the major arrhythmias treated in contemporary electrophysiology. In each of these sections, emphasis is placed on anatomic fluoroscopic correlation and avoiding complications that may result.