The OCT-NIRF imaging with a clinical dose of ICG was feasible to accurately assess plaque inflammation and DES-related inflammation in a beating coronary artery. This highly translatable dual-modal molecular-structural imaging strategy could be relevant for clinical intracoronary estimation of high-risk plaques and DES biology.
The findings indicate that applying flipped learning allows students to conduct individualized learning with a diversity of clinical cases at their own level of understanding and at their own pace before they participate in real-world practicums.
Devices that perform cardiac mapping and ablation to treat atrial fibrillation provide an effective means of treatment. Current devices, however, have limitations that either require tedious point-by-point mapping of a cardiac chamber or have limited ability to conform to the complex anatomy of a patient’s cardiac chamber. In this work, a detailed, scalable, and manufacturable technique is reported for fabrication of a multielectrode, soft robotic sensor array. These devices exhibit high conformability (~85 to 90%) and are equipped with an array of stretchable electronic sensors for voltage mapping. The form factor of the device is intended to match that of the entire left atrium and has a hydraulically actuated soft robotic structure whose profile facilitates deployment from a 13.5-Fr catheter. We anticipate that the methods described in this paper will serve a new generation of conformable medical devices that leverage the unique characteristics of stretchable electronics and soft robotics.
Extranodal involvement is common in patients with Burkitt lymphoma (BL). We evaluated the pattern of extranodal involvement and its impact on clinical outcomes in a single center cohort of adult Korean patients with sporadic BL. We retrospectively identified 64 patients with BL in the registry of non-Hodgkin lymphoma of the Asan Medical Center between 1996 and 2009. We assessed their clinical features and distribution of extranodal sites and analyzed clinical outcomes, including complete response rate after chemotherapy, overall survival, and progression-free survival, relative to baseline characteristics and involved extranodal sites. Extranodal involvement was found in 57 patients (89 %), with 34 (53.1 %) having two or more extranodal sites. The stomach (26.6 %) was the most common site, followed by the small and large intestines (25 %), bone marrow (23.4 %), genitourinary tract (21.9 %), and bones (18.8 %). Two patients (3.1 %) showed central nervous system (CNS) involvement. Complete response rates to chemotherapy were not related to sites of extranodal involvement. Two-year overall survival rates were lower in patients with bone marrow (33.3 vs. 74.6 %, p = 0.010) and CNS (0.0 vs. 66.6 %, p = 0.048) involvement than in patients with involvement at other extranodal sites. The stomach, genitourinary tract, and bones were the most commonly involved extranodal sites in Korean BL patients, but site had no prognostic significance.
We demonstrate a dual-wavelength band optical frequency domain imaging (OFDI) system that provides high-resolution spectroscopic imaging with metallic nanoparticles as exogenous contrast agents. The local increase of the OFDI signal by elastic scattering from two different custom-fabricated nonspherical nanoparticles resonant at each wavelength band of the system was successfully detected, and we were able to distinguish and visualize the location of each of the nanoparticles in a scattering sample and in biological tissue.
While high-speed intracoronary optical coherence tomography (OCT) provides three-dimensional (3D) visualization of coronary arteries , imaging speeds remain insufficient to avoid motion artifacts induced by heartbeat, limiting the clinical utility of OCT. In this paper, we demonstrate development of a high-speed intracoronary OCT system (frame rate: 500 frames/s, pullback speed: 100 mm/s) along with prospective electrocardiogram (ECG) triggering technology, which enabled volumetric imaging of long coronary segments within a single cardiac cycle (70 mm pullback in 0.7 s) with minimal cardiac motion artifact. This technology permitted detailed visualization of 3D architecture of the coronary arterial wall of a swine and fine structure of the implanted stent.
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