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612 results on '"Seibel, Eric J."'

1. Hybrid NeRF-Stereo Vision: Pioneering Depth Estimation and 3D Reconstruction in Endoscopy

Author

Chen, Pengcheng, Li, Wenhao, Gunderson, Nicole, Ruthberg, Jeremy, Bly, Randall, Abuzeid, Waleed M., Sun, Zhenglong, and Seibel, Eric J.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

The 3D reconstruction of the surgical field in minimally invasive endoscopic surgery has posed a formidable challenge when using conventional monocular endoscopes. Existing 3D reconstruction methodologies are frequently encumbered by suboptimal accuracy and limited generalization capabilities. In this study, we introduce an innovative pipeline using Neural Radiance Fields (NeRF) for 3D reconstruction. Our approach utilizes a preliminary NeRF reconstruction that yields a coarse model, then creates a binocular scene within the reconstructed environment, which derives an initial depth map via stereo vision. This initial depth map serves as depth supervision for subsequent NeRF iterations, progressively refining the 3D reconstruction with enhanced accuracy. The binocular depth is iteratively recalculated, with the refinement process continuing until the depth map converges, and exhibits negligible variations. Through this recursive process, high-fidelity depth maps are generated from monocular endoscopic video of a realistic cranial phantom. By repeated measures of the final 3D reconstruction compared to X-ray computed tomography, all differences of relevant clinical distances result in sub-millimeter accuracy.

Published
2024

2. GMAI-MMBench: A Comprehensive Multimodal Evaluation Benchmark Towards General Medical AI

Author

Chen, Pengcheng, Ye, Jin, Wang, Guoan, Li, Yanjun, Deng, Zhongying, Li, Wei, Li, Tianbin, Duan, Haodong, Huang, Ziyan, Su, Yanzhou, Wang, Benyou, Zhang, Shaoting, Fu, Bin, Cai, Jianfei, Zhuang, Bohan, Seibel, Eric J, He, Junjun, and Qiao, Yu

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Large Vision-Language Models (LVLMs) are capable of handling diverse data types such as imaging, text, and physiological signals, and can be applied in various fields. In the medical field, LVLMs have a high potential to offer substantial assistance for diagnosis and treatment. Before that, it is crucial to develop benchmarks to evaluate LVLMs' effectiveness in various medical applications. Current benchmarks are often built upon specific academic literature, mainly focusing on a single domain, and lacking varying perceptual granularities. Thus, they face specific challenges, including limited clinical relevance, incomplete evaluations, and insufficient guidance for interactive LVLMs. To address these limitations, we developed the GMAI-MMBench, the most comprehensive general medical AI benchmark with well-categorized data structure and multi-perceptual granularity to date. It is constructed from 284 datasets across 38 medical image modalities, 18 clinical-related tasks, 18 departments, and 4 perceptual granularities in a Visual Question Answering (VQA) format. Additionally, we implemented a lexical tree structure that allows users to customize evaluation tasks, accommodating various assessment needs and substantially supporting medical AI research and applications. We evaluated 50 LVLMs, and the results show that even the advanced GPT-4o only achieves an accuracy of 53.96%, indicating significant room for improvement. Moreover, we identified five key insufficiencies in current cutting-edge LVLMs that need to be addressed to advance the development of better medical applications. We believe that GMAI-MMBench will stimulate the community to build the next generation of LVLMs toward GMAI., Comment: GitHub: https://github.com/uni-medical/GMAI-MMBench Hugging face: https://huggingface.co/datasets/OpenGVLab/GMAI-MMBench

Published
2024

5. Real Time Full-Color Imaging in a Meta-Optical Fiber Endoscope

Author

Froech, Johannes E., Huang, Luocheng, Tanguy, Quentin A. A., Colburn, Shane, Zhan, Alan, Ravagli, Andrea, Seibel, Eric J., Boehringer, Karl, and Majumdar, Arka

Subjects
Physics - Optics, Physics - Medical Physics
Abstract

Endoscopes are an important component for the development of minimally invasive surgeries. Their size is one of the most critical aspects, because smaller and less rigid endoscopes enable higher agility, facilitate larger accessibility, and induce less stress on the surrounding tissue. In all existing endoscopes, the size of the optics poses a major limitation in miniaturization of the imaging system. Not only is making small optics difficult, but their performance also degrades with downscaling. Meta-optics have recently emerged as a promising candidate to drastically miniaturize optics while achieving similar functionalities with significantly reduced size. Herein, we report an inverse-designed meta-optic, which combined with a coherent fiber bundle enables a 33% reduction in the rigid tip length over traditional gradient-index (GRIN) lenses. We use the meta-optic fiber endoscope (MOFIE) to demonstrate real-time video capture in full visible color, the spatial resolution of which is primarily limited by the fiber itself. Our work shows the potential of meta-optics for integration and miniaturization of biomedical devices towards minimally invasive surgery.

Published
2022

6. Synergistic Network Learning and Label Correction for Noise-robust Image Classification

Author

Gong, Chen, Bin, Kong, Seibel, Eric J., Wang, Xin, Yin, Youbing, and Song, Qi

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Large training datasets almost always contain examples with inaccurate or incorrect labels. Deep Neural Networks (DNNs) tend to overfit training label noise, resulting in poorer model performance in practice. To address this problem, we propose a robust label correction framework combining the ideas of small loss selection and noise correction, which learns network parameters and reassigns ground truth labels iteratively. Taking the expertise of DNNs to learn meaningful patterns before fitting noise, our framework first trains two networks over the current dataset with small loss selection. Based on the classification loss and agreement loss of two networks, we can measure the confidence of training data. More and more confident samples are selected for label correction during the learning process. We demonstrate our method on both synthetic and real-world datasets with different noise types and rates, including CIFAR-10, CIFAR-100 and Clothing1M, where our method outperforms the baseline approaches.

Published
2022

7. CoreView: fresh tissue biopsy assessment at the bedside using a millifluidic imaging chip

Author

Cooper, David J, Huang, Chuqin, Klavins, Dylan A, Fauver, Mark E, Carson, Matthew D, Fereidouni, Farzad, Dintzis, Suzanne, Galambos, Csaba, Levenson, Richard M, and Seibel, Eric J

Subjects
Cancer, Bioengineering, Clinical Research, Biomedical Imaging, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Algorithms, Biopsy, Biopsy, Large-Core Needle, Kidney, Chemical Sciences, Engineering, Analytical Chemistry
Abstract

Minimally invasive core needle biopsies for medical diagnoses have become increasingly common for many diseases. Although tissue cores can yield more diagnostic information than fine needle biopsies and cytologic evaluations, there is no rapid assessment at the point-of-care for intact tissue cores that is low-cost and non-destructive to the biopsy. We have developed a proof-of-concept 3D printed millifluidic histopathology lab-on-a-chip device to automatically handle, process, and image fresh core needle biopsies. This device, named CoreView, includes modules for biopsy removal from the acquisition tool, transport, staining and rinsing, imaging, segmentation, and multiplexed storage. Reliable removal from side-cutting needles and bidirectional fluid transport of core needle biopsies of five tissue types has been demonstrated with 0.5 mm positioning accuracy. Automation is aided by a MATLAB-based biopsy tracking algorithm that can detect the location of tissue and air bubbles in the channels of the millifluidic chip. With current and emerging optical imaging technologies, CoreView can be used for a rapid adequacy test at the point-of-care for tissue identification as well as glomeruli counting in renal core needle biopsies.

Published
2022

9. RetinaMatch: Efficient Template Matching of Retina Images for Teleophthalmology

Author

Gong, Chen, Erichson, N. Benjamin, Kelly, John P., Trutoiu, Laura, Schowengerdt, Brian T., Brunton, Steven L., and Seibel, Eric J.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Retinal template matching and registration is an important challenge in teleophthalmology with low-cost imaging devices. However, the images from such devices generally have a small field of view (FOV) and image quality degradations, making matching difficult. In this work, we develop an efficient and accurate retinal matching technique that combines dimension reduction and mutual information (MI), called RetinaMatch. The dimension reduction initializes the MI optimization as a coarse localization process, which narrows the optimization domain and avoids local optima. The effectiveness of RetinaMatch is demonstrated on the open fundus image database STARE with simulated reduced FOV and anticipated degradations, and on retinal images acquired by adapter-based optics attached to a smartphone. RetinaMatch achieves a success rate over 94\% on human retinal images with the matched target registration errors below 2 pixels on average, excluding the observer variability. It outperforms the standard template matching solutions. In the application of measuring vessel diameter repeatedly, single pixel errors are expected. In addition, our method can be used in the process of image mosaicking with area-based registration, providing a robust approach when the feature based methods fail. To the best of our knowledge, this is the first template matching algorithm for retina images with small template images from unconstrained retinal areas. In the context of the emerging mixed reality market, we envision automated retinal image matching and registration methods as transformative for advanced teleophthalmology and long-term retinal monitoring.

Published
2018

15. Multifocus Displays

Author

Schowengerdt, Brian T., Seibel, Eric J., Chen, Janglin, editor, Cranton, Wayne, editor, and Fihn, Mark, editor

Published
2016
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18. Multifocus Displays

Author

Schowengerdt, Brian T., Seibel, Eric J., Chen, Janglin, editor, Cranton, Wayne, editor, and Fihn, Mark, editor

Published
2012
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19. O-pH: Optical pH Monitor to Measure Dental Biofilm Acidity and Assist in Enamel Health Monitoring

Author

Sharma, Manuja, primary, Lee, Lauren K., additional, Carson, Matthew D., additional, Park, David S., additional, An, Se W., additional, Bovenkamp, Micah G., additional, Cayetano, Jess J., additional, Berude, Ian A., additional, Nelson, Leonard Y., additional, Xu, Zheng, additional, Sadr, Alireza, additional, Patel, Shwetak N., additional, and Seibel, Eric J., additional

Published
2022
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23. Unifying theory of carotid plaque disruption based on structural phenotypes and forces expressed at the lumen/wall interface

Author

Savastano, Luis, primary, Mousavi, Hossein, additional, Liu, Yang, additional, Khalsa, Siri Sahib S, additional, Zheng, Yihao, additional, Davis, Evan, additional, Reddy, Adithya, additional, Brinjikji, Waleed, additional, Bhambri, Ankur, additional, Cockrum, Joshua, additional, Pandey, Aditya S, additional, Thompson, B Gregory, additional, Gordon, David, additional, Seibel, Eric J, additional, and Yonas, Howard, additional

Published
2022
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28. Detection of Barrett’s neoplasia with a near-infrared fluorescent heterodimeric peptide

Author

Chen, Jing, additional, Jiang, Yang, additional, Chang, Tse-Shao, additional, Rubenstein, Joel H., additional, Kwon, Richard S., additional, Wamsteker, Erik J., additional, Prabhu, Anoop, additional, Zhao, Lili, additional, Appelman, Henry D., additional, Owens, Scott R., additional, Beer, David G., additional, Turgeon, D. Kim, additional, Seibel, Eric J., additional, and Wang, Thomas D., additional

Published
2022
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37. A hybrid nonlinear adaptive tracking controller for a resonating fiber microscanner

Author

Smithwick, Quinn Y.J., Vagners, Juris, Johnston, Richard S., and Seibel, Eric J.

Subjects
Control equipment -- Design and construction, Scanning devices -- Equipment and supplies, Resonance -- Research, Circuit design -- Methods, Circuit design -- Technology application, Circuit designer, Integrated circuit design, Technology application, Engineering and manufacturing industries, Science and technology
Abstract

A robust hybrid tracking controller for a nonlinear resonating fiber microscanner is developed and implemented to remove scan distortions--toroid and swirl. Using offline batch feedback, a nonlinear search, and simulated regulation, an adaptive controller iteratively finds system parameters that cause an online open-loop feedback linearized plant-inversion controller to robustly and accurately track a spiral scan with a high-speed flyback region. This offline adaptive feedback/online open-loop hybrid approach removes the need for miniature sensors and high-speed real-time controllers in situ. [DOI: 10.1115/1.4000034]

Published
2010

39. Prototype Development of a Temperature-Sensitive High-Adhesion Medical Tape to Reduce Medical-Adhesive-Related Skin Injury and Improve Quality of Care.

Author

Swanson, Shawn, Bashmail, Rahaf, Fellin, Christopher R., Luu, Vivian, Shires, Nicholas, Cox, Phillip A., Nelson, Alshakim, MacKenzie, J. Devin, Taroc, Ann-Marie, Nelson, Leonard Y., and Seibel, Eric J.

Subjects
SKIN injuries, PRESSURE-sensitive adhesives, WOUND care, BOUNDARY layer (Aerodynamics), PAIN management, ADHESION
Abstract

Medical adhesives are used to secure wound care dressings and other critical devices to the skin. Without means of safe removal, these stronger adhesives are difficult to painlessly remove from the skin and may cause medical-adhesive-related skin injuries (MARSI), including skin tears and an increased risk of infection. Lower-adhesion medical tapes may be applied to avoid MARSI, leading to device dislodgement and further medical complications. This paper outlines the development of a high-adhesion medical tape designed for low skin trauma upon release. By warming the skin-attached tape for 10–30 s, a significant loss in adhesion was achieved. A C14/C18 copolymer was developed and combined with a selected pressure-sensitive adhesive (PSA) material. The addition of 1% C14/C18 copolymer yielded the largest temperature-responsive drop in surface adhesion. The adhesive film was characterized using AFM, and distinct nanodomains were identified on the exterior surface of the PSA. Our optimized formulation yielded 67% drop in adhesion when warmed to 45 °C, perhaps due to melting nanodomains weakening the adhesive–substrate boundary layer. Pilot clinical testing resulted in a significant decrease in pain when a heat pack was used for removal, giving an average pain reduction of 66%. [ABSTRACT FROM AUTHOR]

Published
2022
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42. O-pH preliminary report: first-in-human clinical testing of oral biofilm pH using a non-contact optical probe

Author

Sharma, Manuja, primary, Lee, Lauren K., additional, Carson, Matthew D., additional, Park, David S., additional, An, Se Won, additional, Bovenkamp, Micah G., additional, Cayetano, Jess J., additional, Berude, Ian A., additional, Xu, Zheng, additional, Sadr, Alireza, additional, Patel, Shwetak N., additional, and Seibel, Eric J., additional

Published
2021
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43. Tethered capsule endoscopy, a low-cost and high-performance alternative technology for the screening of esophageal cancer and Barrett's Esophagus

Author

Seibel, Eric J., Carroll, Robert E., Dominitz, Jason A., Johnston, Richard S., Melville, C. David, Lee, Cameron M., Seitz, Steven M., and Kimmey, Michael B.

Subjects
Image processing -- Analysis, Esophageal cancer -- Analysis, Biological sciences, Business, Computers, Health care industry
Abstract

Esophageal cancer is currently the fastest growing cancer in the United States. To help combat the recent rise in morbidity, our laboratory has developed a low-cost tethered capsule endoscope system (TCE) aimed at improving early detection of esophageal cancer. The TCE contains a resonant fiberoptic laser scanner (1.6 mm O.D.) which fits into 6.4-mm easy-to-swallow capsule at the distal tip. The tethered portion contains a single mode optical fiber multiplexed to three laser diodes at the proximal end. This design offers two main advantages over current endoscope technology. First, because of its small size, the TCE can be swallowed with minimal patient discomfort, thereby obviating sedation. Second, by imaging via directed laser light, the TCE is strategically positioned to employ several burgeoning laser-based diagnostic technologies, such as narrow-band, hyperspectral, and fluorescence imaging. It is believed that the combination of such imaging techniques with novel biomarkers of dysplasia will greatly assist in identifying precancerous conditions such as Barrett's esophagus (BE). As the probe is swallowed, the fiber scanner captures high resolution, wide-field color images of the gastroesophageal junction (500 lines at 0.05-mm resolution) currently at 15-Hz frame rate. Video images are recorded as the capsule is slowly retracted by its tether. Accompanying software generates panoramic images from the video output by mosaicing individual frames to aid in pattern recognition. This initial report describes the rationale for the unique TCE system design, results from preliminary testing in vitro and in vivo, and discussion on the merits of this new platform technology as a basis for developing a low-cost screening program for esophageal cancer. Index Terms--Biomedical image processing, biomedical imaging, cancer, medical diagnosis, optical imaging.

Published
2008

44. An error space controller for a resonating fiber scanner: simulation and implementation

Author

Smithwick, Quinn Y.J., Vagners, Juris, Reinhall, Per G., and Seibel, Eric J.

Subjects
Fibers -- Analysis, Chaos theory -- Usage, Engineering and manufacturing industries, Science and technology
Abstract

A robust error-space controller for an amplitude modulated resonating fiber scanner is developed and implemented. Using a nonlinear dynamics model, the system's open loop temporal response for a spiral scan pattern is simulated and compared to experiments to understand scan distortions, such as, toroid, swirl, and beating. A feedback linearized linear quadratic regulator based on error dynamics drives the tracking error to zero. Controller simulations determine robustness limits, and effects of fiber nonlinearities and actuator time delay. Using real-time hardware, the controller asymptotically tracks and is capable of removing the scan distortions. Image acquisition with the controlled scanner produces nearly pixel accurate images. [DOI: 10.1115/1.2362787]

Published
2006

46. Detection of Barrett's Neoplasia with Near-Infrared Fluorescent Heterodimeric Peptide: Feasibility Results from a Phase 1 Study

Author

Chen, Jing, primary, Chang, Tse-Shao, additional, Rubenstein, Joel H., additional, Kwon, Richard S., additional, Wamsteker, Erik J., additional, Prabhu, Anoop, additional, Appelman, Henry D., additional, Owens, Scott R., additional, Beer, David G., additional, Turgeon, D. Kim, additional, Seibel, Eric J., additional, and Wang, Thomas D., additional

Published
2021
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