This study demonstrated that the application of iDose at CCTA facilitates significant radiation dose reduction by maintaining diagnostic quality. The combination of iDose4 with prospective acquisition is able to significantly reduce effective dose associated with CTCA at values of approximately 2 mSv and even lower.
Molecular magnetic resonance imaging has recently emerged as a powerful tool for the detection and assessment of cardiovascular diseases. Contrast agents have an important role in this novel modality because molecular imaging requires highly sensitive, specific, and efficient imaging agents. Iron oxide nanoparticles (IONs) are a new class of contrast agents with unique properties that provide special opportunities in cardiovascular molecular imaging. IONs are captured by macrophages and can be successfully used in the detection and evaluation of atherosclerotic plaques, abdominal aortic aneurysms, and inflammations related to myocardial infarction. The purpose of this review is to provide a brief description of the basic characteristics of IONs, with a special focus on their role as molecular magnetic resonance imaging contrast agents and their cardiovascular applications.
The paracondylar process is a rare osseous process arising at the cervicooccipital region that belongs to a large and heterogenic group of developmental abnormalities of the craniovertebral junction. We present a rare case of a paracondylar process in an 11-year-old girl, in which the diagnosis was made with the use of MRI, thereby skipping X-ray and CT scan, thus avoiding exposure of the young patient to radiation. To our knowledge, the use of MRI has not previously been reported in the investigation and diagnosis of such an abnormality. We describe the details of this variation emphasizing on awareness of this process, its anatomic relationships and its problems to clinicians, radiologists, surgeons and chiropractors.
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