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Enhancing Portability, Modularity, and Optode Density in Translational Diffuse Optical Imaging.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Enhancing Portability, Modularity, and Optode Density in Translational Diffuse Optical Imaging./
作者:
Vanegas, Morris Dwight.
面頁冊數:
1 online resource (165 pages)
附註:
Source: Dissertations Abstracts International, Volume: 84-06, Section: B.
Contained By:
Dissertations Abstracts International84-06B.
標題:
Bioengineering. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=30244148click for full text (PQDT)
ISBN:
9798363512810
Enhancing Portability, Modularity, and Optode Density in Translational Diffuse Optical Imaging.
Vanegas, Morris Dwight.
Enhancing Portability, Modularity, and Optode Density in Translational Diffuse Optical Imaging.
- 1 online resource (165 pages)
Source: Dissertations Abstracts International, Volume: 84-06, Section: B.
Thesis (Ph.D.)--Northeastern University, 2023.
Includes bibliographical references
The use of diffuse optical imaging (DOI) in medical applications is growing at a rapid pace due to its non-invasive, non-ionizing, and potentially portable nature. DOI's ability to provide functional assessments in various areas of the body has accelerated our ability to diagnose malignant breast lesions and measure brain functions. Some of these accomplishments have been achieved through the use of highly-sensitive and bulky equipment that, unfortunately, has made these systems complex to build, costly to maintain, and difficult to transport. Additionally, the large number of individual sources and detectors needed not only make each measurement time-consuming but also introduces coupling variations that make data analysis difficult. Designing increasingly powerful, versatile, and at the same time, sophisticated optical imaging systems requires careful consideration of numerous trade-offs between multiple competing factors, including fabrication, ergonomic, environmental, safety, usability, mechanical, and data communication considerations. Recently, in order to scale the application of near-infrared (NIR) optical imaging, the field has trended towards architectural designs that allow for both faster acquisition times and use in naturalistic environments. In this dissertation, we investigate and further advance a number of emerging DOI instrument design methodologies to tackle a series of challenges in the clinical translation of DOI. These include the design of low-cost and ultra-portable mobile-phone-based spectroscopic tools to facilitate disease diagnosis in resource-poor regions, a modular and wearable optical brain imaging system for understanding brain functions in natural settings, and a wide-field high-density optical breast imaging system for cancer diagnosis. We leverage innovations in computational methods, advanced electronic sensors, and ubiquitous devices to demonstrate the potentially broad application of NIR imaging across populations and settings. We particularly focus our intent on the scalability of diffuse optical imaging through improving architectural attributes such as portability, modularity, and optode density to provide real-life examples of ways to address the current challenges of developing, evaluating, and optimizing portable high-performance DOI systems.
Electronic reproduction.
Ann Arbor, Mich. :
ProQuest,
2023
Mode of access: World Wide Web
ISBN: 9798363512810Subjects--Topical Terms:
657580
Bioengineering.
Subjects--Index Terms:
3D printingIndex Terms--Genre/Form:
542853
Electronic books.
Enhancing Portability, Modularity, and Optode Density in Translational Diffuse Optical Imaging.
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The use of diffuse optical imaging (DOI) in medical applications is growing at a rapid pace due to its non-invasive, non-ionizing, and potentially portable nature. DOI's ability to provide functional assessments in various areas of the body has accelerated our ability to diagnose malignant breast lesions and measure brain functions. Some of these accomplishments have been achieved through the use of highly-sensitive and bulky equipment that, unfortunately, has made these systems complex to build, costly to maintain, and difficult to transport. Additionally, the large number of individual sources and detectors needed not only make each measurement time-consuming but also introduces coupling variations that make data analysis difficult. Designing increasingly powerful, versatile, and at the same time, sophisticated optical imaging systems requires careful consideration of numerous trade-offs between multiple competing factors, including fabrication, ergonomic, environmental, safety, usability, mechanical, and data communication considerations. Recently, in order to scale the application of near-infrared (NIR) optical imaging, the field has trended towards architectural designs that allow for both faster acquisition times and use in naturalistic environments. In this dissertation, we investigate and further advance a number of emerging DOI instrument design methodologies to tackle a series of challenges in the clinical translation of DOI. These include the design of low-cost and ultra-portable mobile-phone-based spectroscopic tools to facilitate disease diagnosis in resource-poor regions, a modular and wearable optical brain imaging system for understanding brain functions in natural settings, and a wide-field high-density optical breast imaging system for cancer diagnosis. We leverage innovations in computational methods, advanced electronic sensors, and ubiquitous devices to demonstrate the potentially broad application of NIR imaging across populations and settings. We particularly focus our intent on the scalability of diffuse optical imaging through improving architectural attributes such as portability, modularity, and optode density to provide real-life examples of ways to address the current challenges of developing, evaluating, and optimizing portable high-performance DOI systems.
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