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Author: Robert Paul Francis Publisher: ISBN: Category : Languages : en Pages :
Book Description
Surgeons want technology to help them see differences in tissue chemistry. If they know how oxygenated tissues and organs are during medical procedures, they are more able to eliminate dangerous tissues and maintain viable organs. Hyperspectral imaging non-invasively measures the optical absorbance spectrum of each pixel in a spatial field of view and, with chemometric image processing, can visualize the spatial distribution of tissue oxygenation. Current hyperspectral imaging systems are too slow to monitor real-time physiological changes in live tissue. Therefore, a novel DLP Hyperspectral Imaging (DLP HSI) system is developed for real-time, non-invasive, in vivo imaging of tissue chemistry in surgical and clinical applications. The cornerstone of the new hyperspectral imaging system is an OL 490 spectral light engine created with Texas Instruments' "Digital Light Processor" (DLP®) technology. In the OL 490, polychromatic visible light is dispersed onto the micromirror array of a DLP chip so that each column of micromirrors corresponds to a narrow band of monochromatic light. Programming the mirrors individually allows the user to precisely define the intensity of each wavelength in the light engine's optical output spectrum. The OL 490 can illuminate with narrow bandpasses of light as in traditional hyperspectral imaging, but the novelty of the DLP HSI is using the OL 490 to illuminate with complex broadband illumination spectra. Regardless of the illumination scheme, the light from the OL 490 is reflected from a tissue sample of interest and detected by a scientific grade CCD focal plane array. The spectral light engine and the camera detector are fully characterized as individual components, synchronized by software, and integrated into a robust system prototype that is transported throughout surgical and clinical suites. To visualize the spatial distribution of oxygenation, a Spectral Sweep mode mimics traditional hyperspectral imaging, explicitly measures the absorbance spectrum of each image pixel, and compares each spectrum to reference spectra of tissue chromophores. Spectral Sweep mode requires 20 seconds to generate a single image chemically-encoded for relative oxygenation. In contrast, a 3 Shot mode illuminates tissue with three complex broadband spectra derived from the reference spectra of tissue chromophores, measures the relative absorbance of the complex illuminations, and directly outputs an image also chemically-encoded for relative oxygenation. The 3 Shot mode can generate 3 chemically-encoded images every second. After calibrating and optimizing the performance of the DLP Hyperspectral Imaging system, the principle of visualizing oxygenation is proven by following the reactive hyperemia in an occluded finger example. The imaging system is then applied to partial nephrectomy, lower limb neuropathy, brain surgery, reactive hyperemia in the foot, and diabetic retinopathy. Representative images show that the system is useful for visualizing relative tissue oxygenation, but the absolute values are not yet calibrated. Overall, the DLP HSI is widely accepted by urologists, neurosurgeons, and clinicians.
Author: Robert Paul Francis Publisher: ISBN: Category : Languages : en Pages :
Book Description
Surgeons want technology to help them see differences in tissue chemistry. If they know how oxygenated tissues and organs are during medical procedures, they are more able to eliminate dangerous tissues and maintain viable organs. Hyperspectral imaging non-invasively measures the optical absorbance spectrum of each pixel in a spatial field of view and, with chemometric image processing, can visualize the spatial distribution of tissue oxygenation. Current hyperspectral imaging systems are too slow to monitor real-time physiological changes in live tissue. Therefore, a novel DLP Hyperspectral Imaging (DLP HSI) system is developed for real-time, non-invasive, in vivo imaging of tissue chemistry in surgical and clinical applications. The cornerstone of the new hyperspectral imaging system is an OL 490 spectral light engine created with Texas Instruments' "Digital Light Processor" (DLP®) technology. In the OL 490, polychromatic visible light is dispersed onto the micromirror array of a DLP chip so that each column of micromirrors corresponds to a narrow band of monochromatic light. Programming the mirrors individually allows the user to precisely define the intensity of each wavelength in the light engine's optical output spectrum. The OL 490 can illuminate with narrow bandpasses of light as in traditional hyperspectral imaging, but the novelty of the DLP HSI is using the OL 490 to illuminate with complex broadband illumination spectra. Regardless of the illumination scheme, the light from the OL 490 is reflected from a tissue sample of interest and detected by a scientific grade CCD focal plane array. The spectral light engine and the camera detector are fully characterized as individual components, synchronized by software, and integrated into a robust system prototype that is transported throughout surgical and clinical suites. To visualize the spatial distribution of oxygenation, a Spectral Sweep mode mimics traditional hyperspectral imaging, explicitly measures the absorbance spectrum of each image pixel, and compares each spectrum to reference spectra of tissue chromophores. Spectral Sweep mode requires 20 seconds to generate a single image chemically-encoded for relative oxygenation. In contrast, a 3 Shot mode illuminates tissue with three complex broadband spectra derived from the reference spectra of tissue chromophores, measures the relative absorbance of the complex illuminations, and directly outputs an image also chemically-encoded for relative oxygenation. The 3 Shot mode can generate 3 chemically-encoded images every second. After calibrating and optimizing the performance of the DLP Hyperspectral Imaging system, the principle of visualizing oxygenation is proven by following the reactive hyperemia in an occluded finger example. The imaging system is then applied to partial nephrectomy, lower limb neuropathy, brain surgery, reactive hyperemia in the foot, and diabetic retinopathy. Representative images show that the system is useful for visualizing relative tissue oxygenation, but the absolute values are not yet calibrated. Overall, the DLP HSI is widely accepted by urologists, neurosurgeons, and clinicians.
Author: Abhas Thapa Publisher: ISBN: Category : Languages : en Pages :
Book Description
Surgical and clinical settings in medical hospitals strive to keep up with technological innovations in order to improve the current healthcare scenario. Hyperspectral imaging (HSI) is a novel technology that addresses this problem. HSI is a non-invasive imaging technique that can provide information on both structural and functional conditions of tissue. This information is very useful particularly in live surgical procedures wherein the surgeons can get real-time feedback of the anatomical and functional changes of tissue, as they perform the operation. Currently available HSI systems are extremely slow and thus impractical for time restricted surgical or clinical uses. Hence, DLP® based HSI systems have been developed to make the imaging procedure much faster and more convenient. This work shows that the DLP® based HSI systems can operate at near video rate speeds making them practical for both clinical and surgical use. The HSI system is based on the digital light processor (DLP®) technology developed by Texas Instruments. Two visible hyperspectral imaging systems have been described; one of the systems utilizes a CoolSNAP HQ2 camera; and this system has successfully been used in collecting data on open partial nephrectomies, in both humans and porcines. Results from these experiments show that the visible HSI system can be used to predict post operative renal functions based on its ability to monitor changes in levels of tissue oxygenation. As a result of these positive findings on the utility of the HSI system, surgical interest has prompted the development of a laparoscopic DLP® HSI system. Preliminary data on porcine imaging, using the laparoscopic HSI system, demonstrate its ability to be used in live surgical settings; and other applications of both visible and near infrared (NIR) HSI systems prove the efficacy of this technology in multiple surgical and clinical settings.
Author: Publisher: Elsevier ISBN: 0444639780 Category : Science Languages : en Pages : 802
Book Description
Hyperspectral Imaging, Volume 32, presents a comprehensive exploration of the different analytical methodologies applied on hyperspectral imaging and a state-of-the-art analysis of applications in different scientific and industrial areas. This book presents, for the first time, a comprehensive collection of the main multivariate algorithms used for hyperspectral image analysis in different fields of application. The benefits, drawbacks and suitability of each are fully discussed, along with examples of their application. Users will find state-of-the art information on the machinery for hyperspectral image acquisition, along with a critical assessment of the usage of hyperspectral imaging in diverse scientific fields. - Provides a comprehensive roadmap of hyperspectral image analysis, with benefits and considerations for each method discussed - Covers state-of-the-art applications in different scientific fields - Discusses the implementation of hyperspectral devices in different environments
Author: Michael Lee Mangum Publisher: ISBN: Category : Languages : en Pages : 73
Book Description
With 1.38 million new cases and 450,000 deaths worldwide due to breast cancer, there is a clear need for safe and complete surgical intervention for the treatment of breast cancer. Imaging solutions have been created and developed to help plastic surgeons during breast reconstructive surgery. However, these solutions were implemented separately depending on their particular modality, which can result in higher costs for hospital and patient use. The digital micromirror device (DMD) developed by Texas Instruments has been shown to exhibit spectral control of light at a digital level, and could theoretically allow for the incorporation of multiple imaging modalities into one system. Therefore, a DMD-based multimodality imaging system was developed to integrate both hyperspectral imaging and fluorescence angiography into a single system for use in clinical breast reconstruction surgery. The DMD-based light source was characterized to have a spectral resolution of less than 1 nm with full-width half-maximum bandwidths as small as 7.5 nm and total power output of up to almost 200 mW. This light source was integrated with a detector that is sensitive to both visible and near-infrared light, along with a laptop computer with graphical user interface to control and synchronize the hardware. The resulting Mid-Range DLP® imaging system was found to be sensitive to changes in tissue oxygenation of skin flaps in DIEP free flap surgery using hyperspectral imaging of oxy-hemoglobin and deoxy-hemoglobin. Utilizing this imaging modality, plastic surgeons were able to visualize the distribution of tissue oxygenation to avoid necrosis of skin flaps used to reconstruct breast tissue. Furthermore, the Mid-Range DLP® imaging system was successfully able to fluoresce ICG in clinical surgery in patients with lymphedema in their upper extremity. The fluorescence angiography capability of this system allowed plastic surgeons to locate healthy lymphatic vessels used in lymphaticovenous bypass surgery in a non-invasive manner that would not otherwise be possible without the fluorophore.
Author: Joseph C. Liao Publisher: Springer ISBN: 1493914502 Category : Medical Languages : en Pages : 293
Book Description
This book provides an overview of the current state-of-art in combining advances in biomedical imaging with intraoperative navigation and preoperative planning for urologic surgery. These advances hold great promise in improving diagnostic and therapeutic urologic interventions to improve patient outcomes. Leading experts in this exciting emerging field covers early clinical and pre-clinical applications of optical, ultrasound, cross-sectional and computer-assisted imaging in urologic surgery. Advances in Image-Guided Urologic Surgery provides a unique and valuable resource for audience with clinical and research interest in minimally invasive surgery, endourology, urologic oncology, imaging and biomedical engineering.
Author: Yuman Fong Publisher: Springer ISBN: 1493923269 Category : Medical Languages : en Pages : 286
Book Description
This text provides a state of the art overview of tools for guiding surgeons in the modern operating room. The text explains how many modalities in the current armamentarium of radiologic imaging have been brought to the operating room for real time use. It also explains the current use of near infrared, fluorescent, and chemo-luminescent imaging to guide minimally invasive and open surgery to improve outcome. The book is separated into two sections. The first, discusses the biologic principles that underlie novel visualization of normal organs and pathology. The currently available equipment and equipment anticipated in the near future is covered. The second section summarizes current clinical applications of advanced imaging and visualization in the OR. Novel means of visualizing normal anatomic structures such as nerves, bile duct, and vessels that enhance safety of many operations are covered. Novel biologic imaging using radio-labeled and fluorescent-labeled molecular probes that allow identification of inflammation, vascular abnormalities, and cancer are also discussed. Authored by scientists who pioneer research in optics and radiology, tool makers who use this knowledge to make surgical equipment, and surgeons who innovate the field of surgery using these new operative tools, Imaging and Visualization in the Modern Operating Room is a valuable guide for surgeons, residents and fellows entering the field.
Author: Chein-I Chang Publisher: Springer Science & Business Media ISBN: 9780306474835 Category : Computers Languages : en Pages : 400
Book Description
Explores the application of statistical signal processing to hyperspectral imaging and further develops non-literal (spectral) techniques for subpixel detection and mixed pixel classification. This text is the first of its kind on the topic anc can be considered a recipe book offering various techniques for hyperspectral data exploitation.
Author: Liguo Wang Publisher: Springer ISBN: 3662474565 Category : Technology & Engineering Languages : en Pages : 327
Book Description
Based on the authors’ research, this book introduces the main processing techniques in hyperspectral imaging. In this context, SVM-based classification, distance comparison-based endmember extraction, SVM-based spectral unmixing, spatial attraction model-based sub-pixel mapping and MAP/POCS-based super-resolution reconstruction are discussed in depth. Readers will gain a comprehensive understanding of these cutting-edge hyperspectral imaging techniques. Researchers and graduate students in fields such as remote sensing, surveying and mapping, geosciences and information systems will benefit from this valuable resource.
Author: Ting Li Publisher: Springer ISBN: 3319508245 Category : Technology & Engineering Languages : en Pages : 522
Book Description
This book provides readers with an overview of the design, fabrication, simulation, and reliability of nanoscale semiconductor devices, MEMS, and sensors, as they serve for realizing the next-generation internet of things. The authors focus on how the nanoscale structures interact with the electrical and/or optical performance, how to find optimal solutions to achieve the best outcome, how these apparatus can be designed via models and simulations, how to improve reliability, and what are the possible challenges and roadblocks moving forward.
Author: Chein-I Chang Publisher: Mdpi AG ISBN: 9783039215225 Category : Technology & Engineering Languages : en Pages : 0
Book Description
Due to advent of sensor technology, hyperspectral imaging has become an emerging technology in remote sensing. Many problems, which cannot be resolved by multispectral imaging, can now be solved by hyperspectral imaging. The aim of this Special Issue "Hyperspectral Imaging and Applications" is to publish new ideas and technologies to facilitate the utility of hyperspectral imaging in data exploitation and to further explore its potential in different applications. This Special Issue has accepted and published 25 papers in various areas, which can be organized into 7 categories with the number of papers published in every category included in its open parenthesis. 1. Data Unmixing (2 papers)2. Spectral variability (2 papers)3. Target Detection (3 papers)4. Hyperspectral Image Classification (6 papers)5. Band Selection (2 papers)6. Data Fusion (2 papers)7. Applications (8 papers) Under every category each paper is briefly summarized by a short description so that readers can quickly grab its content to find what they are interested in.
Author: Robert Paul Francis
Author: Robert Paul Francis
Author: Abhas Thapa
Author: 
Author: Michael Lee Mangum
Author: Joseph C. Liao
Author: Yuman Fong
Author: Chein-I Chang
Author: Liguo Wang
Author: Ting Li
Author: Chein-I Chang