Prof. David Abookasis Profile

Prof. David Abookasis

Associate Professor at Ariel Univ

SPIE Involvement:

Author

Publications (33)

Proceedings Article | 1 April 2020 Paper

Evaluation the effect of acute hyperglycemia on cerebral tissue properties with diffuse optical imaging systems

David Abookasis, David Shemesh, Naor Bokobza, Hadas Bloygrund, Yarden Franjy-Tal, Konstantin Rozenberg, Tovit Rosenzweig

Proceedings Volume 11360, 113600F (2020) https://doi.org/10.1117/12.2551867

KEYWORDS: Scattering, Brain, Tissue optics, Glucose, Tissues, Imaging systems, Absorption, Hemodynamics, Oxygen, Optical properties

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Proceedings Article | 1 March 2019 Presentation + Paper

Assessing mouse brain tissue refractive index in the NIR spectral range utilizing spatial frequency domain imaging technique combined with processing algorithms

David Abookasis, Omri Meitav

Proceedings Volume 10864, 108640R (2019) https://doi.org/10.1117/12.2509687

KEYWORDS: Brain, Tissues, Refractive index, Near infrared, Neuroimaging, Body temperature, Absorption, Scattering, Imaging systems, Temperature metrology

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SPIE Journal Paper | 28 March 2018 Open Access

Spectral refractive index assessment of turbid samples by combining spatial frequency near-infrared spectroscopy with Kramers–Kronig analysis

Omri Meitav, Oren Shaul, David Abookasis

JBO, Vol. 23, Issue 03, 035007, (March 2018) https://doi.org/10.1117/12.10.1117/1.JBO.23.3.035007

KEYWORDS: Refractive index, Tissues, Spatial frequencies, Absorption, Cameras, Statistical analysis, Near infrared, Brain, Modulation, MATLAB

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Proceedings Article | 8 February 2018 Paper

Optical imaging characterizing brain response to thermal insult in injured rodent

David Abookasis, Oren Shaul, Omri Meitav, Gadi Pinhasi

Proceedings Volume 10480, 104800O (2018) https://doi.org/10.1117/12.2288949

KEYWORDS: Brain, Scattering, Absorption, Refractive index, Temperature metrology, Tissues, Near infrared, Neuroimaging, Body temperature, Tissue optics

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SPIE Journal Paper | 28 September 2017 Open Access

Determination of the complex refractive index segments of turbid sample with multispectral spatially modulated structured light and models approximation

Omri Meitav, Oren Shaul, David Abookasis

JBO, Vol. 22, Issue 09, 097004, (September 2017) https://doi.org/10.1117/12.10.1117/1.JBO.22.9.097004

KEYWORDS: Scattering, Refractive index, Tissues, Injuries, Tissue optics, Absorption, Calibration, Brain, Spatial frequencies, Modulation

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SPIE Journal Paper | 20 April 2017 Open Access

Multimodal optical setup based on spectrometer and cameras combination for biological tissue characterization with spatially modulated illumination

Daniel Baruch, David Abookasis

JBO, Vol. 22, Issue 04, 046007, (April 2017) https://doi.org/10.1117/12.10.1117/1.JBO.22.4.046007

KEYWORDS: Tissue optics, Spectroscopy, Scattering, Absorption, Cameras, Optical properties, Biomedical optics, Light scattering, Tissues, Oxygen

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The application of optical techniques as tools for biomedical research has generated substantial interest for the ability of such methodologies to simultaneously measure biochemical and morphological parameters of tissue. Ongoing optimization of optical techniques may introduce such tools as alternative or complementary to conventional methodologies. The common approach shared by current optical techniques lies in the independent acquisition of tissue’s optical properties (i.e., absorption and reduced scattering coefficients) from reflected or transmitted light. Such optical parameters, in turn, provide detailed information regarding both the concentrations of clinically relevant chromophores and macroscopic structural variations in tissue. We couple a noncontact optical setup with a simple analysis algorithm to obtain absorption and scattering coefficients of biological samples under test. Technically, a portable picoprojector projects serial sinusoidal patterns at low and high spatial frequencies, while a spectrometer and two independent CCD cameras simultaneously acquire the reflected diffuse light through a single spectrometer and two separate CCD cameras having different bandpass filters at nonisosbestic and isosbestic wavelengths in front of each. This configuration fills the gaps in each other’s capabilities for acquiring optical properties of tissue at high spectral and spatial resolution. Experiments were performed on both tissue-mimicking phantoms as well as hands of healthy human volunteers to quantify their optical properties as proof of concept for the present technique. In a separate experiment, we derived the optical properties of the hand skin from the measured diffuse reflectance, based on a recently developed camera model. Additionally, oxygen saturation levels of tissue measured by the system were found to agree well with reference values. Taken together, the present results demonstrate the potential of this integrated setup for diagnostic and research applications.

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Proceedings Article | 19 April 2017 Presentation

Diffuse optical systems and methods to image physiological changes of the brain in response to focal TBI (Conference Presentation)

David Abookasis, Boris Volkov, Itamar Kofman

Proceedings Volume 10050, 100500S (2017) https://doi.org/10.1117/12.2251328

KEYWORDS: Traumatic brain injury, Animal model studies, Optical imaging, Brain, Head, Injuries, Tissue optics, Neuroimaging, Biomedical optics, Blood circulation

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SPIE Journal Paper | 9 May 2016 Open Access

Noninvasive assessment of hemodynamic and brain metabolism parameters following closed head injury in a mouse model by comparative diffuse optical reflectance approaches

David Abookasis, Boris Volkov, Ariel Shochat, Itamar Kofman

NPh, Vol. 3, Issue 02, 025003, (May 2016) https://doi.org/10.1117/12.10.1117/1.NPh.3.2.025003

KEYWORDS: Brain, Injuries, Mode conditioning cables, Scattering, Hemodynamics, Tissue optics, Absorption, Head, Tissues, Oxygen

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Proceedings Article | 9 March 2016 Presentation + Paper

Study the efficacy of neuroprotective drugs on brain physiological properties during focal head injury using optical spectroscopy data analysis

David Abookasis, Ariel Shochat

Proceedings Volume 9690, 96900P (2016) https://doi.org/10.1117/12.2211625

KEYWORDS: Brain, Injuries, Head, Absorption, Scattering, Light sources, Tissues, Chromophores

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SPIE Journal Paper | 22 October 2015 Open Access

Dual-wavelength laser speckle imaging for monitoring brain metabolic and hemodynamic response to closed head traumatic brain injury in mice

Itamar Kofman, David Abookasis

JBO, Vol. 20, Issue 10, 106009, (October 2015) https://doi.org/10.1117/12.10.1117/1.JBO.20.10.106009

KEYWORDS: Brain, Injuries, Head, Hemodynamics, Neuroimaging, Traumatic brain injury, Laser speckle imaging, Oxygen, Blood circulation, Speckle

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The measurement of dynamic changes in brain hemodynamic and metabolism events following head trauma could be valuable for injury prognosis and for planning of optimal medical treatment. Specifically, variations in blood flow and oxygenation levels serve as important biomarkers of numerous pathophysiological processes. We employed the dual-wavelength laser speckle imaging (DW-LSI) technique for simultaneous monitoring of changes in brain hemodynamics and cerebral blood flow (CBF) at early stages of head trauma in a mouse model of intact head injury (n=10). For induction of head injury, we used a weight-drop device involving a metal mass (∼50 g) striking the mouse’s head in a regulated manner from a height of ∼90 cm. In comparison to baseline measurements, noticeable dynamic variations were revealed immediately and up to 1 h postinjury, which indicate the severity of brain damage and highlight the ability of the DW-LSI arrangement to track brain pathophysiology induced by injury. To validate the monitoring of CBF by DW-LSI, measurements with laser Doppler flowmetry (LDF) were also performed (n=5), which confirmed reduction in CBF following injury. A secondary focus of the study was to investigate the effectiveness of hypertonic saline as a neuroprotective agent, inhibiting the development of complications after brain injury in a subgroup of injured mice (n=5), further demonstrating the ability of DW-LSI to monitor the effects upon brain dynamics of drug treatment. Overall, our findings further support the use of DW-LSI as a noninvasive, cost-effective tool to assess changes in hemodynamics under a variety of pathological conditions, suggesting its potential contribution to the biomedical field. To the best of our knowledge, this work is the first to make use of the DW-LSI modality in a small animal model to (1) investigate brain function during the critical first hour of closed head injury trauma, (2) correlate between injury parameters of LDF measurements, and (3) monitor brain hemodynamic and metabolic response to neuroprotective drug treatment.

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Proceedings Article | 10 March 2015 Paper

Hemodynamic and morphologic responses in mouse brain during acute head injury imaged by multispectral structured illumination

Boris Volkov, Marlon Mathews, David Abookasis

Proceedings Volume 9305, 93050L (2015) https://doi.org/10.1117/12.2078711

KEYWORDS: Brain, Injuries, Head, Hemodynamics, Scattering, Spatial frequencies, Neuroimaging, Tissue optics, Multispectral imaging, Light scattering

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SPIE Journal Paper | 22 January 2015 Open Access

Differential effects of early postinjury treatment with neuroprotective drugs in a mouse model using diffuse reflectance spectroscopy

Ariel Shochat, David Abookasis

NPh, Vol. 2, Issue 01, 015001, (January 2015) https://doi.org/10.1117/12.10.1117/1.NPh.2.1.015001

KEYWORDS: Brain, Injuries, Traumatic brain injury, Scattering, Tissue optics, Absorption, Chromophores, Head, Diffuse reflectance spectroscopy, Sensors

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The time required for the arrival of an ambulance crew and administration of first aid is critical to clinical outcome, particularly in the case of head injury victims requiring neuroprotective drugs following a car accident, falls, and assaults. Short response times of the medical team, together with proper treatment, can limit injury severity and even save a life before transportation to the nearest medical center. We present a comparative evaluation of five different neuroprotective drugs frequently used in intensive care and operating units in the early phase following traumatic brain injury (TBI): hypertonic saline (HTS), mannitol, morphine, melatonin, and minocycline. The effectiveness of these drugs in terms of changes in brain tissue morphology (cell organelle size, density, distribution, etc.) and biochemical tissue properties (chromophores’ content) was experimentally evaluated through analysis of the spectral reduced scattering and optical absorption coefficient parameters in the near-infrared (NIR) optical range (650 to 1000 nm). Experiments were conducted on anesthetized male mice subjected to a noninvasive closed head weight-drop model of focal TBI (n=50 and n=10 control) and monitored using an NIR diffuse reflectance spectroscopy system utilizing independent source–detector separation and location. After 10 min of baseline measurement, focal TBI was induced and measurements were conducted for 20 min. Subsequently, a neuroprotective drug was administrated and measurements were recorded for another 30 min. This work’s major findings are threefold: first, minocycline was found to improve hemodynamic outcome at the earliest time postinjury. Second, HTS decreased brain water content and inhibited the increase in intracranial pressure. Third, the efficacy of neuroprotective drugs can be monitored noninvasively with diffuse reflectance spectroscopy. The demonstrated ability to noninvasively detect cerebral physiological properties following early administration of neuroprotective drugs underlines the need for more extensive investigation of the combined use of clinical drugs in larger-scale preclinical experiments to find the most beneficial drug treatment for brain injury patients.

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Proceedings Article | 5 March 2014 Paper

Monitoring closed head injury induced changes in brain physiology with orthogonal diffuse near-infrared reflectance spectroscopy

David Abookasis, Ariel Shochat, Marlon Mathews

Proceedings Volume 8928, 89280J (2014) https://doi.org/10.1117/12.2035438

KEYWORDS: Injuries, Brain, Scattering, Absorption, Tissue optics, Head, Light, Chromophores, Diffuse reflectance spectroscopy, Light scattering

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SPIE Journal Paper | 12 November 2013 Open Access

Closed head injury-induced changes in brain pathophysiology assessed with near-infrared structured illumination in a mouse model

David Abookasis, Boris Volkov, Marlon Mathews

JBO, Vol. 18, Issue 11, 116007, (November 2013) https://doi.org/10.1117/12.10.1117/1.JBO.18.11.116007

KEYWORDS: Brain, Injuries, Scattering, Head, Absorption, Light scattering, Brain mapping, Tissues, Oxygen, Hemodynamics

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Use of near-infrared (NIR) structured illumination technique has recently received great interest in biomedical research and clinical studies because of its ability to perform wide-field imaging and quantitatively map changes in tissue hemodynamic properties and morphological features in a noncontact and scan-free fashion. We report on the feasibility of using the same to quantitatively monitor and map changes in brain optical properties and physiological parameters pre- and post-closed head injury in a mouse model. Five anesthetized male mice underwent head injury by weight-drop model using a ∼50-g cylindrical metal object falling from a height of 90 cm onto the intact scalp. During experiments, NIR structured illumination was projected on the mouse head at two spatial frequencies and six different NIR wavelengths. A CCD camera positioned perpendicular to the head recorded the diffuse-reflected light. Computer analysis performed off-line on the captured data reveals spatiotemporal changes in the distribution of brain tissue absorption and reduced scattering coefficients. Using Beer’s law and Mie theory, hemodynamic (hemoglobin, oxygen saturation, and lipids) and morphological (scattering amplitude and power) changes up to 1-h post-trauma were observed in comparison with baseline measurements. Functional maps of different brain properties were also generated. Following injury, we found difference in both brain hemodynamic and morphologic properties with respect to baseline levels, where in some properties, this difference was considered statistically significant. Specifically, a t -test indicates a substantial decrease in oxyhemoglobin (HbO2) concentration and tissue oxygen saturation (StO2) post-injury (p < 0.01 and p < 0.001, respectively). Overall, our preliminary results demonstrate the potential application of NIR structured illumination technique to track and spatially map changes in intact mouse brain pathophysiological parameters following head injury.

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SPIE Journal Paper | 4 April 2013 Open Access

Monitoring hemodynamic and morphologic responses to closed head injury in a mouse model using orthogonal diffuse near-infrared light reflectance spectroscopy

David Abookasis, Ariel Sochat, Marlon Mathews

JBO, Vol. 18, Issue 04, 045003, (April 2013) https://doi.org/10.1117/12.10.1117/1.JBO.18.4.045003

KEYWORDS: Scattering, Injuries, Brain, Chromophores, Head, Hemodynamics, Absorption, Light scattering, Sensors, Tissues

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The authors’ aim is to assess and quantitatively measure brain hemodynamic and morphological variations during closed-head injury (CHI) in mice using orthogonal diffuse near-infrared reflectance spectroscopy (o-DRS). CHI is a type of injury to the head that does not penetrate the skull. Usually, it is caused by mechanical blows to the head and frequently occurs in traffic accidents, falls, and assaults. Measurements of brain optical properties, namely absorption and reduced scattering coefficients in the wavelength range from 650 to 1000 nm were carried out by employing different source–detector distance and locations to provide depth sensitivity on an intact scalp over the duration of the whole experiment. Furthermore, alteration in both cortical hemodynamics and morphologic markers, i.e., scattering power and amplitude properties were derived. CHI was induced in anesthetized male mice by a weight-drop model using ∼50 g cylindrical metal falling from a height of 90 cm onto the intact scalp producing an impact of 4500 g cm. With respect to baseline, difference in brain physiological properties was observed following injury up to 1 h post-trauma. Additionally, the reduced scattering spectral shapes followed Mie scattering theory was quantified and clearly shows changes in both scattering amplitude and power from baseline indicating structural variations likely from evolving cerebral edema during CHI. We further demonstrate high correlation between scattering amplitude and scattering power, with more than 20% difference in slope in comparison to preinjury. This result indicates the possibility of using the slope also as a marker for detection of structural changes. Finally, experiments investigating brain function during the first 20 min postinjury were conducted and changes in chromophore concentrations and scattering were observed. Overall, our experiments demonstrate the potential of using the proposed technique as a valuable quantitative noninvasive tool for monitoring brain physiology following CHI injury at the bedside and/or at the field.

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Proceedings Article | 8 March 2013 Paper

Orthogonal diffuse near-infrared reflectance spectroscopy allows to assess cerebral dysfunction and temperature variations following heatstroke on a mouse model

David Abookasis, Elad Zafrir, Elimelech Nesher, Albert Pinhasov, Shmuel Sternklar, Marlon Mathews

Proceedings Volume 8565, 85654N (2013) https://doi.org/10.1117/12.2005826

KEYWORDS: Temperature metrology, Brain, Scattering, Absorption, Absorbance, Diffuse reflectance spectroscopy, Optical properties, Tissue optics, Reflectivity, Spectroscopy

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SPIE Journal Paper | 8 November 2012 Open Access

Errata: Diffuse near-infrared reflectance spectroscopy during heatstroke in a mouse model: pilot study

David Abookasis, Elad Zafrir, Elimelech Nesher, Albert Pinhasov, Shmuel Sternklar, Marlon Mathews

JBO, Vol. 17, Issue 11, 119801, (November 2012) https://doi.org/10.1117/12.10.1117/1.JBO.17.11.119801

KEYWORDS: Reflectance spectroscopy, Mouse models, Biomedical optics, Electronics engineering, Molecular biology, Surgery

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SPIE Journal Paper | 18 October 2012 Open Access

Diffuse near-infrared reflectance spectroscopy during heatstroke in a mouse model: pilot study

David Abookasis, Elad Zafrir, Elimelech Nesher, Albert Pinhasov, Shmuel Sternklar, Marlon M.

JBO, Vol. 17, Issue 10, 105009, (October 2012) https://doi.org/10.1117/12.10.1117/1.JBO.17.10.105009

KEYWORDS: Brain, Temperature metrology, Scattering, Absorption, Tissue optics, Tissues, Absorbance, Reflectivity, Diffuse reflectance spectroscopy, Reflectance spectroscopy

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Heatstroke, a form of hyperthermia, is a life-threatening condition characterized by an elevated core body temperature that rises above 40°C (104°F) and central nervous system dysfunction that results in delirium, convulsions, or coma. Without emergency treatment, the victim lapses into a coma and death soon follows. The study presented was conducted with a diffuse reflectance spectroscopy (DRS) setup to assess the effects of brain dysfunction that occurred during heatstroke in mice model (n=6 ). It was hypothesized that DRS can be utilized in small animal studies to monitor change in internal brain tissue temperature during heatstroke injury since it induces a sequence of pathologic changes that change the tissue composition and structure. Heatstroke was induced by exposure of the mice body under general anesthesia, to a high ambient temperature. A type of DRS in which the brain tissue was illuminated through the intact scalp with a broadband light source and diffuse reflected spectra was employed, taking in the spectral region between 650 and 1000 nm and acquired at an angle of 90 deg at a position on the scalp ∼12 mm from the illumination site. The temperature at the onset of the experiment was ∼34°C (rectal temperature) with increasing intervals of 1°C until mouse death. The increase in temperature caused optical scattering signal changes consistent with a structural alteration of brain tissue, ultimately resulting in death. We have found that the peak absorbance intensity and its second derivative at specific wavelengths correlate well with temperature with an exponential dependence. Based on these findings, in order to estimate the influence of temperature on the internal brain tissue a reflectance-temperature index was established and was seen to correlate as well with measured temperature. Overall, results indicate variations in neural tissue properties during heatstroke and the feasibility to monitor and assess internal temperature variations using DRS.

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Proceedings Article | 15 October 2012 Paper

Comparative study of resolution improvement of optical intrinsic signal imaging by extracting outlier images during data analysis

David Abookasis, Yekutiel Meshorer

Proceedings Volume 8499, 849902 (2012) https://doi.org/10.1117/12.928034

KEYWORDS: Algorithm development, Image resolution, Reflectivity, Image processing, Optical imaging, Visualization, Neuroimaging, CCD cameras, Optical resolution, Data analysis

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Proceedings Article | 17 September 2011 Paper

Algorithm development for automated outlier detection and background noise reduction during NIR spectroscopic data processing

David Abookasis, Jerome Workman

Proceedings Volume 8137, 813703 (2011) https://doi.org/10.1117/12.892698

KEYWORDS: Calibration, Error analysis, Algorithm development, Blood, Glucose, Near infrared, Optical filters, Signal processing, Signal detection, Spectroscopy

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SPIE Journal Paper | 1 February 2011 Open Access

Direct measurements of blood glucose concentration in the presence of saccharide interferences using slope and bias orthogonal signal correction and Fourier transform near-infrared spectroscopy

David Abookasis, Jerry Workman

JBO, Vol. 16, Issue 02, 027001, (February 2011) https://doi.org/10.1117/12.10.1117/1.3540408

KEYWORDS: Glucose, Calibration, Blood, Near infrared, Data modeling, Statistical modeling, Error analysis, Spectroscopy, FT-NIR spectroscopy, Fourier transforms

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Saccharide interferences such as Dextran, Galactose, etc. have a great potential to interfere with near infrared (NIR) glucose analysis since they have a similar spectroscopic fingerprint and are present physiologically at large relative concentrations. These can lead to grossly inappropriate interpretation of patient glucose levels and resultant treatment in critical care and hospital settings. This study describes a methodology to reduce this effect on glucose analysis using an NIR Fourier transform spectroscopy method combined with a multivariate calibration technique (PLS) using preprocessing by orthogonal signal correction (OSC). A mathematical approach based on the use of a single calibration based bias and slope correction was applied in addition to a standard OSC was investigated. This approach is combined with a factorial interferent calibration design to accommodate for interference effects. We named this approach as a slope and bias OSC (sbOSC). sbOSC differs from OSC in the way it handles the prediction. In sbOSC, statistics on slope and bias obtained from a set of calibration samples are then used as a validation parameter in the prediction set. Healthy human volunteer blood with different glucose (80 to 200 mg/dL) and hematocrit (24 to 48 vol.%) levels containing high expected levels of inteferents have been measured with a transmittance near-infrared Fourier transform spectrometer operates in the broadband spectral range of 1.25-2.5 μm (4000-8000 cm−1). The effect of six interferents compounds used in intensive care and operating rooms, namely Dextran, Fructose, Galactose, Maltose, Mannitol, and Xylose, were tested on blood glucose. A maximum interference effect (MIE) parameter was used to rank the significance for the individual interferent type on measurement error relative to the total NIR whole blood glucose measurement error. For comparison, a YSI (Yellow Springs Instrument) laboratory reference glucose analyzer and NIR data were collected at the same time as paired samples.

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SPIE Journal Paper | 1 March 2009 Open Access

Imaging cortical absorption, scattering, and hemodynamic response during ischemic stroke using spatially modulated near-infrared illumination

David Abookasis, Christopher Lay, Marlon Mathews, Mark Linskey, Ron Frostig, Bruce Tromberg

JBO, Vol. 14, Issue 02, 024033, (March 2009) https://doi.org/10.1117/12.10.1117/1.3116709

KEYWORDS: Scattering, Absorption, Brain, Tissue optics, Light scattering, Ischemia, Tissues, Chromophores, Spatial frequencies, Optical properties

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Proceedings Article | 26 February 2008 Open Access

Using NIR spatial illumination for detection and mapping chromophore changes during cerebral edema

David Abookasis, Marlon Mathews, Christopher Owen, Devin Binder, Mark Linskey, Ron Frostig, Bruce Tromberg

Proceedings Volume 6842, 68422U (2008) https://doi.org/10.1117/12.760516

KEYWORDS: Chromophores, Brain, Tissues, Near infrared, Modulation, Brain mapping, Oxygen, Tissue optics, Light scattering, Image processing

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Proceedings Article | 29 March 2007 Open Access

Modulated imaging: a novel method for quantifying tissue chromophores in evolving cerebral ischemia

David Abookasis, Marlon Mathews, Chistopher Lay, Ron Frostig, Bruce Tromberg

Proceedings Volume 6511, 65110A (2007) https://doi.org/10.1117/12.713470

KEYWORDS: Brain, Ischemia, Neuroimaging, Chromophores, Modulation, Tissues, Tissue optics, Oxygen, Arteries, Brain mapping

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Proceedings Article | 23 March 2007 Open Access

Mapping tissue chromophore changes in cerebral ischemia: a pilot study

David Abookasis, Marlon Mathews, Christopher Lay, David Cuccia, Ron Frostig, Mark Linskey, Bruce Tromberg

Proceedings Volume 6424, 64242J (2007) https://doi.org/10.1117/12.718430

KEYWORDS: Brain, Chromophores, Ischemia, Brain mapping, Modulation, Oxygen, Tissues, Tissue optics, Arteries, CCD cameras

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Proceedings Article | 20 January 2006 Paper

Techniques of noninvasive optical tomographic imaging

Joseph Rosen, David Abookasis, Mark Gokhler

Proceedings Volume 6027, 602708 (2006) https://doi.org/10.1117/12.667705

KEYWORDS: Scattering, Optical imaging, Imaging systems, Microlens array, Coherence (optics), Tomography, Speckle, Light scattering, Refraction, Spatial light modulators

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Proceedings Article | 10 September 2005 Paper

Noninvasive optical tomographic imaging by speckle ensemble

Joseph Rosen, David Abookasis

Proceedings Volume 5908, 590801 (2005) https://doi.org/10.1117/12.612933

KEYWORDS: Scattering, Optical imaging, Tissues, Tomography, Speckle, Optical tomography, Charge-coupled devices, Tissue optics, Imaging systems, Speckle imaging

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Proceedings Article | 28 February 2005 Paper

Holographic three-dimensional computer-aided imaging

Joseph Rosen, David Abookasis

Proceedings Volume 5821, (2005) https://doi.org/10.1117/12.612118

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Proceedings Article | 22 October 2004 Paper

Reconstruction objects hidden in scattering medium using microlens array

David Abookasis, Joseph Rosen

Proceedings Volume 5557, (2004) https://doi.org/10.1117/12.562680

KEYWORDS: Scattering, Point spread functions, Microlens array, Tissues, Convolution, Imaging systems, Reconstruction algorithms, Charge-coupled devices, Light scattering, Fourier transforms

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Proceedings Article | 2 August 2004 Paper

Fourier, Fresnel, and Image CGHs of three-dimensional objects observed from many different projections

David Abookasis, Joseph Rosen

Proceedings Volume 5531, (2004) https://doi.org/10.1117/12.562749

KEYWORDS: Computer generated holography, Holograms, 3D image reconstruction, Diffraction, 3D image processing, Wavefronts, Image processing, Digital holography, Fourier transforms, Spatial light modulators

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Proceedings Article | 23 October 2003 Paper

Digital correlation hologram implemented on an optical correlator

David Abookasis, Joseph Rosen

Proceedings Volume 5202, (2003) https://doi.org/10.1117/12.506813

KEYWORDS: Holograms, Digital holography, Optical correlators, Image encryption, Diffraction, 3D image reconstruction, Computer security, Fourier transforms, Joint transforms, Computer generated holography

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Proceedings Article | 13 November 2001 Paper

Computer-generated holograms of three-dimensional real objects

Youzhi Li, David Abookasis, Joseph Rosen

Proceedings Volume 4471, (2001) https://doi.org/10.1117/12.449357

KEYWORDS: Holograms, Computer generated holography, 3D image reconstruction, Holography, 3D image processing, Cameras, Stereo holograms, Spatial light modulators, Wavefronts, Data processing

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SPIE Journal Paper | 1 August 2001

Security optical systems based on a joint transform correlator with significant output images

David Abookasis, Ortal Arazi, Joseph Rosen, Bahram Javidi

OE, Vol. 40, Issue 08, (August 2001) https://doi.org/10.1117/12.10.1117/1.1388208

KEYWORDS: Optical correlators, Computer security, Optical authentication, Joint transforms, Computing systems, Computer simulations, Information security, Diffraction, Optical components, Cameras

Showing 5 of 33 publications

Conference Committee Involvement (13)

Clinical and Translational Neurophotonics 2025

25 January 2025 | San Francisco, California, United States

Clinical and Translational Neurophotonics 2023

28 January 2023 | San Francisco, California, United States

Clinical and Translational Neurophotonics 2022

22 January 2022 | San Francisco, California, United States

Clinical and Translational Neurophotonics 2021

6 March 2021 | Online Only, California, United States

Clinical and Translational Neurophotonics 2020

1 February 2020 | San Francisco, California, United States

Showing 5 of 13 Conference Committees

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