View clinical trials related to Magnetic Resonance Imaging.
Filter by:This study aims to compare image qualities between conventionally reconstructed MRI sequences and deep-learning reconstructed MRI sequences from the same data in patients who undergo Gd-EOB-DTPA enhanced liver MRI. The AIRTM deep learning sequence is applicable for various MRI sequences including T2-weighted image (T2WI), T1-weighted image and diffusion-weighted image (DWI). We plan to perform intra-individual comparisons of the image qualities between two reconstructed image datasets.
Understanding babies' signals is essential to meet their needs. Recent works suggest that crying provides useful information, not only allowing parents to recognize their baby among others (static information), but also to distinguish between mild discomfort and pain cries (dynamic information). The perception of this information by adults involves a "parental" brain network including brain areas involved in empathy, attention, emotional regulation, motor as well as regions of the limbic system or associated with the reward network.
1. Observe the influence of entering hemodialysis treatment on the emotional and cognitive functions of ESRD patients. 2. Observe the influence of entering hemodialysis treatment on the brain structure imaging of ESRD patients. 3. Analyze and study the relevant clinical risk factors of the above-mentioned effects, and find targets for therapeutic intervention.
To explore the pathogenesis underlying neuropathic pain as well as the mechanisms of pain relief after Magnetic resonance-guided focused ultrasound (MRgFUS) Central Lateral Thalamotomy through multi-model MRI study, and to identify imaging biomarkers for triaging patients and predicting the clinical outcomes. Craniofacial neuropathic pain is one of the most serious debilitating symptoms, leading to emotional disorders and poor quality of life. Previous studies have shown that Magnetic resonance-guided focused ultrasound (MRgFUS) central lateral thalamotomy is a minimally invasive and effective procedure for medication-refractory neuropathic pain patients. However, the clinical benefits were variable among individuals. It is important to clarify the pathogenesis of neuropathic pain and the mechanisms of pain relief induced by MRgFUS central lateral thalamotomy to triage suitable candidates for the procedure and predict clinical outcomes. In addition, localization precision and individualized treatment remain to be improved.
The aim of this research protocol is to undertake evaluation of new and emerging MR techniques in patients and healthy volunteers following software or hardware upgrades, as well as for newly developed MR techniques; to establish their feasibility, image quality and/or measurement repeatability/ reproducibility.
Today, MRI is the gold standard for the precise assessment of left ventricular volume and function, but presents the drawback of having a long acquisition time and of generating motion artifacts, in particular respiratory artifacts, requiring repeated sequences in apnea to cover the whole cardiac volume. These apneas are difficult to achieve in patients with ischemic heart disease and may lead to degradation of the images, an increase in the duration of the examination by repeated acquisitions and therefore to diagnostic inaccuracies. Artificial intelligence, already used in practice in cardiac MRI for automatic segmentation of the heart chambers, improves radiological interpretation with rapid and precise measurements. Deep-learning, which is part of artificial intelligence, would allow the reconstruction of cine-MRI sequences in free breathing, in order to overcome the artifacts from respiratory motions, and the improvement of diagnostic performance while improving examination conditions for patients. Patients coming for a cardiac MRI for the assessment of ischemic heart disease will be eligible to the protocol. If the patient agrees to participate, a free-breathing cardiac cine-MRI sequence with Deep Learning based image reconstruction will be added to the usual protocol. No follow-up will be required in this study.
Due to radiation exposure and low but real risk of morbidity and mortality associated with right heart catheterization, non-invasive procedures to estimate mPAP are desired for the diagnosis of PH or to monitor treatment effectiveness. Echocardiography is used as a screening tool to estimate systolic pulmonary arterial pressure (sPAP), but due various limitations, this technique is not considered to be sufficiently accurate for the diagnosis of PH. The aim of 4D flow MRI is to evaluate the complete time-varying tridirectional velocity field in a volume of interest. It enables flow and velocity measurements in a vascular region of interest and visualization of vector plots of blood flow velocity fields. Previous studies have shown on the one hand, correlations between mPAP and hemodynamic parameters obtained by phase contrast MRI and, on the other hand, appearance of a vortical blood flow in the pulmonary artery in PH. More studies are required to confirm 4D MRI as a valuable tool for mPAP estimation in PH. Following screening echocardiography, all patients will undergo right heart catheterization for PH assessment. Then, all patients will be referred for a complete cardiac MRI exam with the addition of a 4D Flow sequence (does not require supplementary injection of a contrast agent and does not extend the duration of the examination) followed promptly (within the same hour) by a Doppler-echocardiography. The data from each examination will be blindly interpreted from the results of the other one. No follow-up will be required for the study.
This study aimed to compare the effectiveness of intranasal Dexmedetomidine sedation at Dose of 2 mcg/kg and 4 mcg/kg in Children Undergoing MRI at Cipto Mangunkusumo Hospital
An assessment of the feasibility of structural and functional magnetic resonance imaging (MRI) brain scans in older people who have recovered from and older people who never had delirium after hip fracture surgery
The proposed research is to determine the clinical efficacy and neurobiological mechanisms of acupuncture analgesia in patients with sickle cell disease.