45 research outputs found
Cardiac Conduction System: Delineation of Anatomic Landmarks With Multidetector CT
Major components of the cardiac conduction system including the sinoatrial node (SAN), atrioventricular node (AVN), the His Bundle, and the right and left bundle branches are too small to be directly visualized by multidetector CT (MDCT) given the limited spatial resolution of current scanners. However, the related anatomic landmarks and variants of this system a well as the areas with special interest to electrophysiologists can be reliably demonstrated by MDCT. Some of these structures and landmarks include the right SAN artery, right atrial cavotricuspid isthmus, Koch triangle, AVN artery, interatrial muscle bundles, and pulmonary veins. In addition, MDCT has an imperative role in demarcating potential arrhythmogenic structures. The aim of this review will be to assess the extent at which MDCT can outline the described anatomic landmarks and therefore provide crucial information used in clinical practice
Metastatic Ewing's sarcoma to the right ventricle
Ewing's sarcoma is a round cell neoplasm derived from neural crest cells that is part
of the primitive neuroectodermal tumor (PNET) family. It is a rare, aggressive
malignancy that affects young people, most commonly in the second decade of life.
The treatment of localized disease has improved greatly over the past four decades,
but the prognosis for metastatic disease remains poor. Cardiac metastases of
Ewing's sarcoma are exceedingly rare, with only a few reported cases. This article presents a case of a 22 year old man with a history of Ewing's sarcoma of the
bone involving the right kneepeer-reviewe
Eagle syndrome presenting with external carotid artery pseudoaneurysm
Eagle syndrome refers to a clinical syndrome caused by the abnormal elongation of the styloid process with calcification/ossification of the stylohyoid ligament. We present the first reported case of Eagle syndrome resulting in an external carotid artery (ECA) pseudoaneurysm. A patient presented to emergency room with an expanding, painful right-neck mass. CT angiography with three-dimensional volume rendering showed a bilobed 4.0-cm right ECA pseudoaneurysm and bilateral ossification of the stylohyoid ligaments with a sharpened edge of the right styloid process at the level of the carotid artery. Aneurysmectomy was performed, and a common carotid to internal carotid bypass with reversed saphenous vein restored arterial continuity. Local resection of the styloid process with a rotational sternocleidomastoid flap was performed. The pathology report was consistent with a diagnosis of a pseudoaneurysm. A six-month clinical follow-up confirmed the complete resolution of symptoms with no neurological deficits
Cardiac Conduction System: Anatomic Landmarks Relevant to Interventional Electrophysiologic Techniques Demonstrated with 64-Detector CT
Diagnosis of Variants of Single Right Coronary Trunk Using 64 Multidetector Computed Tomography
Myocardial Calcinosis in Chronic Renal Failure
The authors are presenting an 18 year old male with history of end stage renal disease and rejected renal transplant. In his workup echocardiogram and non contract CT of chest revealed diffuse endocardial and myocardial calcifications. Extensive cardiac calcification is a rare but important entity in relation to end stage renal disease as it may cause complications such as valvular dysfunction and fatal arrhythmia
Pharmacologic Interventions in Nuclear Radiology: Indications, Imaging Protocols, and Clinical Results
Left atrial appendage: anatomy and imaging landmarks pertinent to percutaneous transcatheter occlusion
Percutaneous left atrial appendage (LAA) closure represents a complementary option and effective treatment for patients at risk of thromboembolism, especially in patients for whom it may be difficult to achieve satisfactory anticoagulation control or where anticoagulation treatment is not possible or desirable.
Effective and safe transcatheter LAA occlusion requires a detailed knowledge of crucial anatomic landmarks and endocardial morphologic variants of the LAA and its neighbouring structures.1 ,2 w1–w3 Our aim in this article is to provide the basic anatomic information that is important for the interventional cardiologist to know when planning an LAA occlusion procedure.Sin financiación5.595 JCR (2014) Q1, 14/123 Cardiac and cardiovascular systemsUE