Your search keyword '"Roger Engelmann"' showing total 7 results

1. Temporal subtraction of 'virtual dual-energy' chest radiographs for improved conspicuity of growing cancers and other pathologic changes

Author

Philip Caligiuri, Kenji Suzuki, Samuel G. Armato, Heber MacMahon, and Roger Engelmann

Subjects

Rib cage, medicine.medical_specialty, business.industry, Computer science, Radiography, Subtraction, Cancer, Soft tissue, Temporal subtraction, medicine.disease, Edge detection, Visualization, Pathologic, medicine, Medical physics, business, Nuclear medicine, Rigid transformation, Digital radiography

Abstract

A temporal-subtraction (TS) technique provides enhanced visualization of tumor growth and subtle pathologic changes between previous and current chest radiographs (CXRs) from the same patient. Our purpose was to develop a new TS technique incorporating "virtual dual-energy" technology to improve its enhancement quality. Our TS technique consisted of ribcage edge detection, rigid body transformation based on a global alignment criterion, image warping under the maximum cross-correlation criterion, and subtraction between the registered previous and current images. A major problem with TS was obscuring of abnormalities by rib artifacts due to misregistration. To reduce the rib artifacts, we developed a massive-training artificial neural network (MTANN) for separation of ribs from soft tissue. The MTANN was trained with input CXRs and the corresponding "teaching" soft-tissue CXRs obtained with real dualenergy radiography. Once trained, the MTANNs did not require a dual-energy system and provided "soft-tissue" images. Our database consisted of 100 sequential pairs of CXR studies from 53 patients. To assess the registration accuracy and clinical utility, a chest radiologist subjectively rated the original TS and rib-suppressed TS images on a 5-point scale. By use of "virtual dual-energy" technology, rib artifacts in the TS images were reduced substantially. The registration accuracy and clinical utility ratings for TS rib-suppressed images (3.7; 3.9) were significantly better than those for original TS images (3.5; 3.6) (P

Published

2011

2. Computer-aided diagnosis: a 3D segmentation method for lung nodules in CT images by use of a spiral-scanning technique

Author

Jiahui Wang, Qiang Li, and Roger Engelmann

Subjects

Balayage, Computer science, business.industry, Nodule (medicine), Image processing, Radial line, computer.software_genre, Voxel, Computer-aided diagnosis, medicine, Computer vision, Segmentation, Artificial intelligence, medicine.symptom, business, computer, Spiral

Abstract

Lung nodule segmentation in computed tomography (CT) plays an important role in computer-aided detection, diagnosis, and quantification systems for lung cancer. In this study, we developed a simple but accurate nodule segmentation method in three-dimensional (3D) CT. First, a volume of interest (VOI) was determined at the location of a nodule. We then transformed the VOI into a two-dimensional (2D) image by use of a "spiral-scanning" technique, in which a radial line originating from the center of the VOI spirally scanned the VOI. The voxels scanned by the radial line were arranged sequentially to form a transformed 2D image. Because the surface of a nodule in 3D image became a curve in the transformed 2D image, the spiral-scanning technique considerably simplified our segmentation method and enabled us to obtain accurate segmentation results. We employed a dynamic programming technique to delineate the "optimal" outline of a nodule in the 2D image, which was transformed back into the 3D image space to provide the interior of the nodule. The proposed segmentation method was trained on the first and was tested on the second Lung Image Database Consortium (LIDC) datasets. An overlap between nodule regions provided by computer and by the radiologists was employed as a performance metric. The experimental results on the LIDC database demonstrated that our segmentation method provided relatively robust and accurate segmentation results with mean overlap values of 66% and 64% for the nodules in the first and second LIDC datasets, respectively, and would be useful for the quantification, detection, and diagnosis of lung cancer.

Published

2008

3. The Lung Image Database Consortium (LIDC) data collection process for nodule detection and annotation

Author

David Qing, Laurence P. Clarke, Heber MacMahon, Samuel G. Armato, Gary E. Laderach, Anthony P. Reeves, Denise R. Aberle, Peyton H. Bland, Geoffrey McLennan, Barbara Y. Croft, David F. Yankelevitz, Ella A. Kazerooni, Charles R. Meyer, Junfeng Guo, E. J. R. Van Beek, Christopher W. Piker, Roger Engelmann, Richie C. Pais, Michael F. McNitt-Gray, John Freymann, and Matthew S. Brown

Subjects

Image Series, medicine.medical_specialty, Data collection, business.industry, computer.internet_protocol, media_common.quotation_subject, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Annotation, Image database, Computer-aided diagnosis, health services administration, Reading (process), Medical imaging, medicine, Medical physics, business, computer, XML, media_common

Abstract

The LIDC is developing a publicly available database of thoracic computed tomography (CT) scans as a medical imaging research resource. A unique multi-center data collection process and communication system were developed to share image data and to capture the location and spatial extent of lung nodules as marked by expert radiologists. A two-phase data collection process was designed to allow multiple radiologists at different centers to asynchronously review and annotate each CT image series. Four radiologists reviewed each case using this process. In the first or "blinded" phase, each radiologist reviewed the CT series independently. In the second or "unblinded" review phase, the results from all four blinded reviews are compiled and presented to each radiologist for a second review. This allows each radiologist to review their own annotations along with those of the other radiologists. The results from each radiologist's unblinded review were compiled to form the final unblinded review. There is no forced consensus in this process. An XML-based message system was developed to communicate the results of each reading. This two-phase data collection process was designed, tested and implemented across the LIDC. It has been used for more than 130 CT cases that have been read and annotated by four expert readers and are publicly available at (http://ncia.nci.nih.gov). A data collection process was developed, tested and implemented that allowed multiple readers to review each case multiple times and that allowed each reader to observe the annotations of other readers.

Published

2007

4. Effect of CAD on radiologists' responses in distinction between malignant and benign pulmonary nodules on high-resolution CT

Author

Kenji Suzuki, Masahito Aoyama, Hiroyuki Abe, Roger Engelmann, Kunio Doi, Feng Li, Heber MacMahon, Shusuke Sone, Qiang Li, and Junji Shiraishi

Subjects

musculoskeletal diseases, medicine.medical_specialty, business.industry, health care facilities, manpower, and services, education, High resolution, CAD, Malignancy, medicine.disease, Computing systems, surgical procedures, operative, Computer-aided diagnosis, health services administration, Observer performance, medicine, Radiology, business

Abstract

We carried out an observer performance study for evaluating the performance of 16 radiologists without and with a computer-aided diagnostic (CAD) scheme for determination of the likelihood of malignancy of lung nodules on HRCT in a database of 28 primary lung cancers and 28 benign nodules. The results of our observer study showed that radiologists’ performance was improved with the CAD scheme, and their performance with the CAD scheme was greater than either radiologists alone or computer alone. Our purpose in this study was to analyze radiologists’ responses with the CAD scheme in their task of differentiation between malignant and benign nodules on HRCT. Our results indicated that the average change in radiologists’ ratings (difference between radiologists' ratings with the CAD scheme and radiologists' initial ratings) was strongly related to (A) the likelihood of malignancy (the computer output) and also (B) the difference of their initial ratings from the computer outputs, where the correlation coefficients were 0.93 and 0.90, respectively. Our detailed analysis showed that radiologists changed the majority of their ratings in agreement with the computer results, and the majority of these changes contributed to the improvement in their performance. They were able to maintain some of their correct ratings despite incorrect computer results. For some cases, they increased their confidence in their judgments above the computer output. Thus, the improvement in radiologists' performance above the computer performance was produced by the synergistic effect of the radiologists' decision making and the computer outputs.

Published

2005

5. Effect of the number of cases in image database on the performance of computer-aided diagnosis (CAD) for the detection of pulmonary nodules in chest radiographs

Author

Kunio Doi, Hiroyuki Abe, Junji Shiraishi, Kyongtae T. Bae, and Roger Engelmann

Subjects

medicine.medical_specialty, Consistency (database systems), medicine.diagnostic_test, Computer-aided diagnosis, business.industry, Image database, Radiography, medicine, False positive paradox, CAD, Radiology, Chest radiograph, business

Abstract

We investigated the effect of the number of cases included in an image database on development of a computer-aided diagnosis (CAD) scheme for the detection of lung nodules, in terms of the performance of the CAD scheme. A total number of 1000 chest radiographs with nodules was used in this study. All images were divided randomly into subsets consisting of the same number of cases from different sources. The subsets we used in this study were 10 sets of 100 cases, 5 sets of 200 cases, and 2 sets of 500 cases. The entire database and all of the subsets were tested by use of the same CAD scheme, but with different parameter settings for consistency tests. When the sensitivities of the CAD scheme for each subset were kept at a level of 70.0 %, the numbers of false positives per image were 0.1 for 100 cases, 0.6 for 200 cases, 2.9 for 500 cases, and 6.2 for 1000 cases. Therefore, the performance of the CAD scheme in detecting lung nodules was strongly affected by the number of cases used. We conclude that a large-scale image database is needed for reliable evaluation of the performance of CAD.

Published

2003

6. Development of a multiple-template matching technique for removal of false positives in a computer-aided diagnostic scheme

Author

Qiang Li, Shigehiko Katsuragawa, Heber MacMahon, Kunio Doi, Roger Engelmann, and Samuel G. Armato

Subjects

medicine.medical_specialty, medicine.diagnostic_test, business.industry, Template matching, Radiography, CAD, medicine.disease, Colon polyps, Computer-aided diagnosis, False positive paradox, Medicine, Mammography, Radiology, business, Chest radiograph

Abstract

A problem in most current computer-aided diagnostic (CAD) scheme is the relatively large number of false positives that are incorrectly reported as nodules by the scheme. Therefore, in this study, we developed a multiple-templates matching technique to significantly reduce the number of false positives in our CAD scheme. With this technique applied to our CAD scheme for detection of pulmonary nodules in chest radiographs, we removed a large number of false positives (44.3%) with reduction of a small number of true positives (2.3%). We believe that this technique has the potential to significantly improve the performance of many different CAD schemes for detection of various lesions in medical images including nodules in chest radiographs, masses and microcalcifications in mammograms, nodules, colon polyps, liver tumors, and aneurysms in CT images.© (2001) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

2001

7. Computer-assisted diagnosis in CT angiography of abdominal aortic aneurysms

Author

Myrosia M. Tomiak, James McGill, Martin Fiebich, Kenneth R. Hoffmann, and Roger Engelmann

Subjects

Aorta, medicine.medical_specialty, business.industry, Abdominal aorta, Image segmentation, medicine.disease, Thresholding, Aneurysm, medicine.artery, cardiovascular system, medicine, Image noise, Median filter, Computer vision, Segmentation, Artificial intelligence, Radiology, business

Abstract

The purpose of this study was to develop methods for automatic 3D-segmentation and automatic quantification of vascular structures in CT angiographic studies, e.g., abdominal aortic aneurysms. Methods for segmentation were developed based on thresholding, maximum gradient, and second derivative techniques. All parameters for the segmentation are generated automatically, i.e. no user interaction is necessary for this process. Median filtering of all images is initially performed to reduce the image noise. The algorithm then automatically identifies the starting point inside the aorta for the volume growing. The segmentation of the vascular tree is achieved in two steps. First, only the aorta and small parts of branch vessels are segmented by using strong restrictions in the parameters for threshold and gradient. A description of the aorta is generated by fitting the detected outer border of the aorta with an ellipse. This description includes centerline, direction, contour, eccentricity, and area. In the second step, segmentation parameters are changed automatically for segmentation of branch vessels. A shaded surface display of the segmented structures is then generated. The segmentation of the aorta appears accurate, is fast, and the 3D display can be manipulated in real time. The quantitative description of the aorta is reliable giving reproducible information. Total CPU time for the segmentation and description is less than five minutes on a standard workstation. Time-consuming manual segmentation and parameterization of vascular structures are obviated, with 3D visualization and quantitative results available in minutes instead of hours. This technique for segmentation and description of the aorta and renal arteries shows the feasibility of computer assisted diagnosis in CT angiographic studies without user interaction. Besides the description, a rapid 3D view of the vessels is generated, often needed by the physician and normally only achievable by time consuming manual segmentation.

Published

1997