22 research outputs found
Utility of 18F-fluorodeoxyglucose positron-emission tomography/computed tomography in the detection of primary colonic malignancy presenting as an inguinoscrotal hernia
High-resolution ultrasound imaging of cutaneous lesions
High-resolution variable frequency ultrasound imaging is increasingly being used in the noninvasive evaluation of various cutaneous diseases. It plays a complimentary role to physical examination in the assessment of cutaneous lesions. It is the only imaging modality useful in the evaluation of superficial cutaneous lesions that are too small to be evaluated on computed tomography (CT) or magnetic resonance imaging (MRI) and is helpful in reducing invasive procedures like biopsies and fine needle aspirations. In this article, we seek to describe the relevance and basic principles of cutaneous ultrasound, imaging findings of normal skin, current applications of high-resolution ultrasound in the diagnosis and management of various dermatological conditions, along with the features of some commonly encountered lesions
Multimedia informed consent tool for a low literacy African research population: development and pilot-testing
Technique and clinical applications of dual-energy contrast-enhanced digital mammography (CEDM) in breast cancer evaluation: a pictorial essay
This pictorial essay illustrates an overview of the basic technique used in acquiring dual-energy contrast-enhanced digital mammography (CEDM) images and its potential clinical applications in regular practice. CEDM may be used as a low-cost alternative to magnetic resonance imaging (MRI), as a problem-solving tool in clinical practice and for therapeutic planning of breast cancer, which may include high-risk screening, dense breast evaluation, mammographically equivocal lesions, local staging, treatment response evaluation, and post treatment follow-up. We share our experience of CEDM at a tertiary care cancer hospital
The clinical value of imaging in primary cutaneous lymphomas: Role of high resolution ultrasound and PET-CT
Background: Primary cutaneous lymphoma is a rare extranodal non-Hodgkin's lymphoma confined to the skin. The data on the imaging findings of primary cutaneous lymphomas are largely lacking and the current diagnosis is based on clinical and histopathological examination. With the advances in dermatological ultrasound and molecular imaging, newer perspectives in the evaluation of cutaneous lymphomas are available.
Objective: To review and describe the imaging findings in patient's with the diagnosis of primary cutaneous lymphoma.
Methods: A multicentric, retrospective observational study was undertaken in four countries to review the high resolution ultrasonography (HRUS) and fluorine 18-fludeoxyglucose positron emission tomography-computed tomography (PET-CT) imaging findings.
Results: We had 41 patients, Female:Male 1:4.1; mean age, 57 years; range, 13-94 years. High resolution ultrasonography of the primary cutaneous lesions revealed thickening of the dermis in all the cases and the lesions were hypoechoic without any calcifications or central necrosis. The sonographic appearances of the lesions were categorised into focal infiltrative, nodular, pseudonodular, and diffusely infiltrative patterns. Nodular and pseudonodular lesions were predominant in B cell lymphomas, while diffusely infiltrative lesions were more common in T-cell lymphomas. On colour Doppler imaging, the lesions were hypervascular. Whole body F-18-fludeoxyglucose PET-CT imaging of the patients revealed increased uptake of the metabolite in the lesions.
Conclusion: Sonographic patterns based on high resolution ultrasonography provide early clues to the non-invasive diagnosis of primary cutaneous lymphomas and PET-CT is the recommended modality of imaging for staging and follow-up.
Advances in knowledge: High resolution ultrasound with colour Doppler and PET-CT imaging are complimentary to the clinical diagnosis of primary cutaneous lymphomas
Design and Development of Protection Schemes for FREEDM Smart Grid Systems
abstract: This research work describes the design and validation of protection schemes developed to solve the problem of communication with an ability to detect and sectionalize the fault. Protection schemes have been designed according to the requirements of the Future Renewable Electric Energy Delivery and Management (FREEDM) system. Due to the presence of distributed generation (DG), power flow in the loop is bi-directional and conventional protection schemes may face the problem of unwanted tripping. Hence customized protection schemes have been developed specific to the FREEDM system. Former FREEDM students at ASU have developed ultrafast pilot differential protection using fast analog communication (Ethercat communication) and modified it in various ways to speed up the fault detecting capability of the algorithm. However, the National Science Foundation (NSF) criticized the use of Ethernet communication, as it is not compatible for long distances. FREEDM loop uses a fault current limiter (FCL) to limit the fault current and the substation solid state transformer (SST) reduces the system voltage to limit the fault current to 2 per unit. This allows the protection scheme to detect fault current in 2-3 cycles. However a much delayed fault detection is not encouraged as it will disrupt the power supply to healthy parts of the system for a longer duration. Time inverse directional overcurrent protection, pilot directional protection and PMU based protection are developed in this thesis work addressing the communication problem and at the same time with the ability to quickly detect the faults. Validation of the protection scheme is performed on the Real Time Digital Simulator (RTDS) at the Center for Advanced Power Systems (CAPS) using SEL relays and simulation models are developed in PSCAD.Dissertation/ThesisMasters Thesis Electrical Engineering 201
The Microsoft Academic Search challenges at KDD Cup 2013
Microsoft Academic Search is a free search engine specific to scholarly material. It currently covers more than 50 million publications and over 19 million authors across a variety of domains. One of the main challenges in correctly indexing this material is author name ambiguity and the resulting noise in author profiles. KDD Cup 2013 invited participants to tackle this problem in 2 ways: (1) by automatically determining which papers in an author profile are truly written by a given author, and (2) by identifying which author profiles need to be merged because they belong to the same author. This paper presents a brief account of the contest and the lessons learned
