This K-23 proposal describes a multidisciplinary, cross-cutting career development program, which will enable the Principal Investigator, a Cardiothoracic and Abdominal Radiologist, and an Electrical Engineer, to become a productive independent translational researcher in cardiovascular imaging. The objective of the proposed research is to merge the unique capabilities of computed tomography (CT) and real-time ultrasound (US) to provide a gating signal in order to obtain motion-free CT images of coronary arteries. The PI hypothesizes that US, which provides real-time data similar to electrocardiography (ECG), can directly evaluate cardiac mechanical motion and would be more reliable than ECG at determining relative cardiac akinesia within a cardiac cycle. Coronary artery disease is a significant national healthcare issue, and the evaluation of coronary artery disease is currently based on either (1) catheter coronary angiography (CCA), which is very expensive and invasive with known significant complications or (2) CT coronary angiography (CTCA), which, in its current forms, is either radiation-intensive or unreliable due to motion artifacts.
In Aim 1, the PI will evaluate US-gating relative to ECG-gating in determining relative cardiac quiescence.
In Aim 2, the PI will evaluate the efficacy of US-derived gating parameters relative to ECG-gating in generating motion-free CTCA from retrospectively-gated CT scans.
For Aim 3, the PI will initiate the design and simulation of prototype hardware based on Digital Signal Processing and Field Programmable Gate Array technologies to provide an optimal, prospective real-time trigger for CTCA. The rationale for building hardware is that the stringent temporal resolution requirements for prospective triggering of cardiac CT dictate that the US analysis be performed in real-time on a large volume of data;this cannot be accomplished by software in real-time. The proposed method of gating based on mechanical signals is a paradigm-shift for CTCA and could result in an economical, low-radiation, rapid, non-invasive and reliable technique for evaluating coronary arteries. The most important implication of this development will be a reduction in the number of diagnostic, invasive CCAs that reveal """"""""normal"""""""" arteries, and their associated complications, resulting in dramatic healthcare cost savings. More broadly, the potential impact of this US-based gating technique is that it can be applied directly to other diagnostic problems including respiratory gating for positron-emission tomography-CT and radiation therapy. The proposed K23 scholarship takes advantage of the PI's background combining engineering and medicine and the carefully selected, diverse mentorship/advisory committee which is comprised of world- renowned scientists, and physician-scientists. The career development program has three major components: a technical component, a translational component and a clinical component. The technical component involves the development of a hardware-based triggering technique which will be performed under the mentorship of a leading scientist in biomedical imaging and an engineering professor with extensive academic and industrial experience. Additional focused didactic instruction in image/signal processing and hardware design will be obtained from the Electrical and Computer Engineering and the Biomedical Engineering Departments of the Georgia Institute of Technology. The translational component involves a didactic component, provided by Emory University's Master of Science in Clinical Research program and an Imaging Clinical Trials workshop offered by the Radiological Society of North America. Finally, a clinical research component that involves gathering and analyzing US, ECG and CT data will be performed under the mentorship of internationally recognized pioneers in cardiovascular imaging from the Departments of Radiology and Cardiology at Emory University. The program would take place in an environment which is at the cutting edge of medical imaging, cardiology, and biomedical engineering, with extensive clinical, educational and research resources.
Catheter coronary angiography, while the current gold standard for evaluation of coronary arteries, is nonetheless highly invasive and has major associated medical complications and an unacceptably high rate of 'normal'diagnostic findings. To overcome this procedure's risks and to reduce the associated high costs, real- time ultrasound could be used as a gating signal to drastically reduce motion artifacts in cardiac computerized tomography. This will lead to a reliable, rapid, low-radiation dose, non-invasive alternative technique for evaluating coronary arteries, and potentially decrease health care costs by several billion dollars annually.
|Wick, C A; Auffermann, W F; Shah, A J et al. (2016) Echocardiography as an indication of continuous-time cardiac quiescence. Phys Med Biol 61:5297-310|
|Wick, Carson A; McClellan, James H; Arepalli, Chesnal D et al. (2015) Characterization of cardiac quiescence from retrospective cardiac computed tomography using a correlation-based phase-to-phase deviation measure. Med Phys 42:983-93|
|Wick, Carson A; Inan, Omer T; McClellan, James H et al. (2015) Seismocardiography-Based Detection of Cardiac Quiescence. IEEE Trans Biomed Eng 62:2025-32|
|Sadigh, Gelareh; Loehfelm, Thomas; Applegate, Kimberly E et al. (2015) JOURNAL CLUB: Evaluation of Near-Miss Wrong-Patient Events in Radiology Reports. AJR Am J Roentgenol 205:337-43|
|Ramamurthy, Senthil; Bhatti, Pamela; Munir, Farasat et al. (2015) A novel technology for automatically obtaining digital facial photographs near-simultaneously with portable radiographs. J Digit Imaging 28:259-63|
|Tridandapani, Srini; Olsen, Kevin; Bhatti, Pamela (2015) Improvement in Detection of Wrong-Patient Errors When Radiologists Include Patient Photographs in Their Interpretation of Portable Chest Radiographs. J Digit Imaging 28:664-70|
|Yang, Xiaofeng; Tridandapani, Srini; Beitler, Jonathan J et al. (2014) Ultrasonic Nakagami-parameter characterization of parotid-gland injury following head-and-neck radiotherapy: a feasibility study of late toxicity. Med Phys 41:022903|
|Tridandapani, Srini; Ramamurthy, Senthil; Provenzale, James et al. (2014) A multiobserver study of the effects of including point-of-care patient photographs with portable radiography: a means to detect wrong-patient errors. Acad Radiol 21:1038-47|
|Yang, Xiaofeng; Tridandapani, Srini; Beitler, Jonathan J et al. (2014) Diagnostic accuracy of ultrasonic histogram features to evaluate radiation toxicity of the parotid glands: a clinical study of xerostomia following head-and-neck cancer radiotherapy. Acad Radiol 21:1304-13|
|Ravichandran, Lakshminarayan; Wick, Carson A; McClellan, James H et al. (2014) Detection of quiescent cardiac phases in echocardiography data using nonlinear filtering and boundary detection techniques. J Digit Imaging 27:625-32|
Showing the most recent 10 out of 22 publications