Techniques in vascular and interventional radiology
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Aviation and medicine are two complex fields involving many interdependent steps where problems can occur. When they inevitably do the outcome can be catastrophic, leading to injury or even loss of life. ⋯ More importantly, they are very open and committed to discussing every event or near event to improve the system, and are supported in this by their superiors without fear of punishment or retribution. By adopting many of these principles, medicine can develop a true culture of safety such as aviation has done, leading to a remarkable improvement in their safety record.
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Tech Vasc Interv Radiol · Jun 2018
ReviewCatheter-Directed Thrombolysis for Pulmonary Embolism: The State of Practice.
Acute pulmonary embolism (PE) is a major public health problem. It is the third most common cause of death in hospitalized patients. In the United States, there are up to 600,000 cases diagnosed per year with 100,000-180,000 acute PE-related deaths. ⋯ Massive, submassive, and low-risk acute PE have mortality rates of 25%-65%, 3%, and <1%, respectively. Current PE management includes the use of anticoagulation alone, systemic thrombolysis, catheter-directed thrombolysis, and surgical embolectomy. This article will describe the current state of practice for catheter-directed thrombolysis and its role in the management of acute PE.
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Many interventionalists face physical challenges almost daily for years or decades. The burden of assuming awkward positions while carrying extra weight can take its toll on the musculoskeletal system to such an extent that the career is ended or modified to exclude procedural aspects. The proliferation of lighter aprons has unfortunately resulted in reduced protection with poor correlation of protection to labeling due to the inadequacies of testing methods for nonlead materials. ⋯ The suspended personal radiation protection system is a recent development which provides substantially greater radiation protection than conventional lead aprons combined with other shields, while also taking all of the weight off of the operator. It is composed of an expansive and thick (1mm Pb equiv) apron with a large face-shield to protect the neck, head, and eyes, and is suspended overhead to provide motion in the x, y, and z planes. Exposures may also be substantially reduced by leaving the area during acquisition sequences and use of power injectors.
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Medical staff should not be exposed to the primary X-ray beam during fluoroscopy-guided interventional procedures (FGIP). The main source of staff exposure is scatter radiation from the patient, which can be significant. Although many aspects of X-ray exposure to the patient as well as occupational exposure to interventional radiologists and other staff are strongly regulated and monitored in most countries, it is surprising how loosely the labeling and testing of the protective aprons is regulated. ⋯ Each interventionist should choose garments that are appropriately protective for that individual's practice. Review of past personal dosimetry results and consultation with a medical physicist can help the IR make the best decision. This article will help the reader to understand why all protective garments are not created equally, and provides some practical tools that will allow safe and healthy practice in FGIP.