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1. Measuring Risky Driving Behavior Using an mHealth Smartphone App: Development and Evaluation of gForce

Author

Freidlin, Raisa Z, Dave, Amisha D, Espey, Benjamin G, Stanley, Sean T, Garmendia, Marcial A, Pursley, Randall, Ehsani, Johnathon P, Simons-Morton, Bruce G, and Pohida, Thomas J

Subjects
Information technology, T58.5-58.64, Public aspects of medicine, RA1-1270
Abstract

BackgroundNaturalistic driving studies, designed to objectively assess driving behavior and outcomes, are conducted by equipping vehicles with dedicated instrumentation (eg, accelerometers, gyroscopes, Global Positioning System, and cameras) that provide continuous recording of acceleration, location, videos, and still images for eventual retrieval and analyses. However, this research is limited by several factors: the cost of equipment installation; management and storage of the large amounts of data collected; and data reduction, coding, and analyses. Modern smartphone technology includes accelerometers built into phones, and the vast, global proliferation of smartphones could provide a possible low-cost alternative for assessing kinematic risky driving. ObjectiveWe evaluated an in-house developed iPhone app (gForce) for detecting elevated g-force events by comparing the iPhone linear acceleration measurements with corresponding acceleration measurements obtained with both a custom Android app and the in-vehicle miniDAS data acquisition system (DAS; Virginia Tech Transportation Institute). MethodsThe iPhone and Android devices were dashboard-mounted in a vehicle equipped with the DAS instrumentation. The experimental protocol consisted of driving maneuvers on a test track, such as cornering, braking, and turning that were performed at different acceleration levels (ie, mild, moderate, or hard). The iPhone gForce app recorded linear acceleration (ie, gravity-corrected). The Android app recorded gravity-corrected and uncorrected acceleration measurements, and the DAS device recorded gravity-uncorrected acceleration measurements. Lateral and longitudinal acceleration measures were compared. ResultsThe correlation coefficients between the iPhone and DAS acceleration measurements were slightly lower compared to the correlation coefficients between the Android and DAS, possibly due to the gravity correction on the iPhone. Averaging the correlation coefficients for all maneuvers, the longitudinal and lateral acceleration measurements between iPhone and DAS were rlng=0.71 and rlat=0.83, respectively, while the corresponding acceleration measurements between Android and DAS were rlng=0.95 and rlat=0.97. The correlation coefficients between lateral accelerations on all three devices were higher than with the corresponding longitudinal accelerations for most maneuvers. ConclusionsThe gForce iPhone app reliably assessed elevated g-force events compared to the DAS. Collectively, the gForce app and iPhone platform have the potential to serve as feature-rich, inexpensive, scalable, and open-source tool for assessment of kinematic risky driving events, with potential for research and feedback forms of intervention.

Published
2018
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2. A novel in vitro device to deliver induced electromagnetic fields to cell and tissue cultures

Author

Ravin, Rea, Cai, Teddy X., Pursley, Randall H., Garmendia-Cedillos, Marcial, Pohida, Tom, Freidlin, Raisa Z., Wang, Herui, Zhuang, Zhengping, Giles, Amber J., Williamson, Nathan H., Gilbert, Mark R., and Basser, Peter J.

Subjects
Physics - Biological Physics
Abstract

We have developed a novel in vitro instrument that can deliver intermediate frequency (100 - 400 kHz), moderate intensity (up to and exceeding 6.5 V/cm pk-pk) electric fields (EFs) to cell and tissue cultures generated using induced electromagnetic fields (EMFs) in a solenoid coil. A major application of these EFs is as an emerging cancer treatment modality. In vitro studies by Novocure Ltd. reported that intermediate frequency (100 - 300 kHz), low amplitude (1 - 3 V/cm) EFs, which they called "Tumor Treating Fields" (TTFields), had an anti-mitotic effect on glioblastoma multiforme (GBM) cells. The effect was found to increase with increasing EF amplitude. Despite continued theoretical, preclinical, and clinical study, the mechanism of action remains incompletely understood. Previous in vitro studies of "TTFields" have used attached, capacitively coupled electrodes to deliver alternating EFs to cell and tissue cultures. This contacting delivery method suffers from a poorly characterized EF profile and conductive heating that limits the duration and amplitude of the applied EFs. In contrast, our device delivers EFs with a well-characterized radial profile in a non-contacting manner, eliminating conductive heating and enabling thermally regulated EF delivery. To test and demonstrate our system, we generated continuous 200 kHz EMF with an EF amplitude profile spanning 0 - 6.5 V/cm pk-pk and applied them to human thyroid cell cultures for 72 hours. We observed moderate reduction in cell density (< 10%) at low EF amplitudes (< 4 V/cm) and a greater reduction in cell density of up to 25% at higher amplitudes (4 - 6.5 V/cm). Our device can be extended to other EF frequency and amplitude regimes. Future studies with this device should contribute to the ongoing debate about the efficacy and mechanism(s) of action of "TTFields" by better isolating the effects of EFs., Comment: The first two authors contributed equally. 18 pages, 9 figures + Supplemental Material

Published
2020
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3. Optical Imaging Technology: A Useful Tool to Identify Remission in Cushing Disease After Surgery

Author

Afshari, Ali, Keil, Margaret, Lyssikatos, Charalampos, Belyavskaya, Elena, Valdés, Nuria, Chowdhry, Fatima, Parsa, Kian, Ardeshirpour, Yasaman, Pursley, Randall, Khare, Siddharth, Kainerstorfer, Jana, Chittiboina, Prashant, Lodish, Maya, Mazzuchi, Thomas, Gandjbakhche, Amir, and Stratakis, Constantine

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Bioengineering, Rare Diseases, Detection, screening and diagnosis, 6.4 Surgery, Evaluation of treatments and therapeutic interventions, 4.1 Discovery and preclinical testing of markers and technologies, Adolescent, Adult, Blood Volume, Child, Female, Hemodynamics, Humans, Male, Optical Imaging, Pituitary ACTH Hypersecretion, Remission Induction, Treatment Outcome, Young Adult, cushing disease, optical imaging technology, bio-optic marker, facial plethora, serum cortisol, water content volume, Endocrinology & Metabolism, Clinical sciences
Abstract

We recently reported the use of optical imaging technology to quantify facial plethora in endogenous Cushing syndrome (CS). In the present study, we studied a larger cohort of patients with Cushing disease (CD) and examined water content fraction as well as blood volume fraction as bio-optic markers for determining the efficacy of this methodology as a predictor of lasting remission after surgery for CS. We imaged 49 patients before and after transsphenoidal surgery (TSS) for Cushing disease (CD); 22 patients were also seen at 3-6 months, and 13 patients 12 months post-operatively. On all patients, we used multi-spectral imaging (MSI) to evaluate hemodynamic distributions as well as water content at a specific area of the face. We found a decrease in blood volume fraction after vs. before surgical treatment in the tested facial area in 37 of the 40 patients, as determined with biochemical markers (p

Published
2019

4. Physiological Recording in the MRI Environment (PRiME): MRI-Compatible Hemodynamic Recording System

Author

Kakareka, John W, Faranesh, Anthony Z, Pursley, Randall H, Campbell-Washburn, Adrienne, Herzka, Daniel A, Rogers, Toby, Kanter, Josh, Ratnayaka, Kanishka, Lederman, Robert J, and Pohida, Thomas J

Subjects
Engineering, Biomedical Engineering, Clinical Research, Cardiovascular, Biomedical Imaging, Bioengineering, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Adaptive signal processing, biomedical electronics, biomedical equipment, biomedical signal processing, cardiology, catheterization, magnetic resonance imaging, Biomedical engineering, Health services and systems
Abstract

Hemodynamic recording during interventional cardiovascular procedures is essential for procedural guidance, monitoring patient status, and collection of diagnostic information. Recent advances have made interventions guided by magnetic resonance imaging (MRI) possible and attractive in certain clinical scenarios. However, in the MRI environment, electromagnetic interference (EMI) can cause severe distortions and artifacts in acquired hemodynamic waveforms. The primary aim of this paper was to develop and validate a system to minimize EMI on electrocardiogram (ECG) and invasive blood pressure (IBP) signals. A system was developed which incorporated commercial MRI compatible ECG leads and pressure transducers, custom electronics, user interface, and adaptive signal processing. Measurements were made on pediatric patients (N = 6) during MRI-guided catheterization. Real-time interactive scanning, which is known to produce significant EMI due to fast gradient switching and varying imaging plane orientations, was selected for testing. The effectiveness of the adaptive algorithms was determined by measuring the reduction of noise peaks, amplitude of noise peaks, and false QRS triggers. During real-time gradient-intensive imaging sequences, peak noise amplitude was reduced by 80% and false QRS triggers were reduced to a median of 0. There was no detectable interference on the IBP channels. A hemodynamic recording system front-end was successfully developed and deployed, which enabled high-fidelity recording of ECG and IBP during MRI scanning. The schematics and assembly instructions are publicly available to facilitate implementation at other institutions. Researchers and clinicians are provided a critical tool in investigating and implementing MRI guided interventional cardiovascular procedures.

Published
2018

9. “Tumor Treating Fields” delivered via electromagnetic induction have varied effects across glioma cell lines and electric field amplitudes

Author

Ravin, Rea, primary, Cai, Teddy X., additional, Li, Aiguo, additional, Briceno, Nicole, additional, Pursley, Randall H., additional, Garmendia-Cedillos, Marcial, additional, Pohida, Tom, additional, Wang, Herui, additional, Zhuang, Zhengping, additional, Cui, Jing, additional, Morgan, Nicole Y., additional, Williamson, Nathan H., additional, Gilbert, Mark R., additional, and Basser, Peter J., additional

Published
2023
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17. A Novel In Vitro Device to Deliver Induced Electromagnetic Fields to Cell and Tissue Cultures

Author

Ravin, Rea, primary, Cai, Teddy X., additional, Pursley, Randall H., additional, Garmendia-Cedillos, Marcial, additional, Pohida, Tom, additional, Freidlin, Raisa Z., additional, Wang, Herui, additional, Zhuang, Zhengping, additional, Giles, Amber J., additional, Williamson, Nathan H., additional, Gilbert, Mark R., additional, and Basser, Peter J., additional

Published
2020
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21. Correction: Optical Imaging Technology: A Useful Tool to Identify Remission in Cushing Disease After Surgery

Author

Afshari, Ali, additional, Keil, Margaret, additional, Lyssikatos, Charalampos, additional, Belyavskaya, Elena, additional, Valdés, Nuria, additional, Chowdhry, Fatima A., additional, Parsa, Kian, additional, Ardeshirpour, Yasaman, additional, Pursley, Randall, additional, Khare, Siddharth, additional, Kainerstorfer, Jana M., additional, Chittiboina, Prashant, additional, Lodish, Maya B., additional, Mazzuchi, Thomas A., additional, Gandjbakhche, Amir H., additional, and Stratakis, Constantine A., additional

Published
2019
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22. Arterial Wall Properties and Womersley Flow in Fabry Disease

Author

Dimitriadis Emilios, Campia Umberto, Panza Julio A, Pursley Randall, Altarescu Gheona, Moore David F, and Schiffmann Raphael

Subjects
Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Background Fabry disease is an X-linked recessive lysosomal storage disease resulting in the cellular accumulation of globotriaosylceramide particularly globotriaosylceramide. The disease is characterized by a dilated vasculopathy with arterial ectasia in muscular arteries and arterioles. Previous venous plethysomographic studies suggest enhanced endothelium-dependent vasodilation in Fabry disease indicating a functional abnormality of resistance vessels. Methods We examined the mechanical properties of the radial artery in Fabry disease, a typical fibro-muscular artery. Eight control subjects and seven patients with Fabry disease had a right brachial arterial line placed allowing real time recording of intra-arterial blood pressure. Real time B-mode ultrasound recordings of the right radial artery were obtained simultaneously allowing calculation of the vessel wall internal and external diameter, the incremental Young's modulus and arterial wall thickness. By simultaneously measurement of the distal index finger-pulse oximetry the pulse wave speed was calculated. From the wave speed and the internal radial artery diameter the volume flow was calculated by Womersley analysis following truncation of the late diastolic phase. Results No significant difference was found between Fabry patients and controls for internal or external arterial diameters, the incremental Young's modulus, the arterial wall thickness, the pulse wave speed and the basal radial artery blood flow. Further, no significant difference was found for the radial artery blood flow in response to intra-arterial acetylcholine or sodium nitroprusside. Both drugs however, elevated the mean arterial flow. Conclusions The current study suggests that no structural or mechanical abnormality exists in the vessel wall of fibro-muscular arteries in Fabry disease. This may indicate that a functional abnormality downstream to the conductance vessels is the dominant feature in development Fabry vasculopathy.

Published
2002
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25. Three Dimensional Motion Tracking for High Resolution Optical Microscopy, in vivo

Author

Bakalar, Matthew, Schroeder, James L., Pursley, Randall, Pohida, Thomas J., Glancy, Brian, Taylor, Joni, Chess, David, Kellman, Peter, Xue, Hui, and Balaban, Robert S.

Subjects
Mice, Imaging, Three-Dimensional, Microscopy, Video, Microscopy, Fluorescence, Animals, Muscle, Skeletal, Article, Locomotion
Abstract

When conducting optical imaging experiments, in vivo, the signal to noise ratio and effective spatial and temporal resolution is fundamentally limited by physiological motion of the tissue. A three-dimensional (3D) motion tracking scheme, using a multiphoton excitation microscope with a resonant galvanometer, (512 × 512 pixels at 33 frames s(-1)) is described to overcome physiological motion, in vivo. The use of commercially available graphical processing units permitted the rapid 3D cross-correlation of sequential volumes to detect displacements and adjust tissue position to track motions in near real-time. Motion phantom tests maintained micron resolution with displacement velocities of up to 200 μm min(-1), well within the drift observed in many biological tissues under physiologically relevant conditions. In vivo experiments on mouse skeletal muscle using the capillary vasculature with luminal dye as a displacement reference revealed an effective and robust method of tracking tissue motion to enable (1) signal averaging over time without compromising resolution, and (2) tracking of cellular regions during a physiological perturbation.

Published
2012

26. Subcellular Motion Compensation for Minimally Invasive Microscopy, in vivo: Evidence for Oxygen Gradients in Resting Muscle

Author

Schroeder, James L., Luger-Hamer, Merav, Pursley, Randall, Pohida, Tom, Chefd'Hotel, Chris, Kellman, Peter, and Balaban, Robert S.

Subjects
Principal Component Analysis, Reproducibility of Results, Signal Processing, Computer-Assisted, Article, Capillaries, Mitochondria, Muscle, Oxygen, Kinetics, Mice, Motion, Oxidative Stress, Microscopy, Fluorescence, Multiphoton, Lower Extremity, Regional Blood Flow, Animals, Artifacts, Hypoxia, Muscle, Skeletal, Oxidation-Reduction, NADP
Abstract

In vivo microscopy seeks to observe dynamic subcellular processes in a physiologically relevant context. A primary limitation of optical microscopy in vivo is tissue motion, which prevents physiological time course observations or image averaging.To develop and demonstrate motion compensation methods that can automatically track image planes within biological tissues, including the tissue displacements associated with large changes in blood flow, and to evaluate the effect of global hypoxia on the regional kinetics and steady state levels of mitochondrial NAD(P)H.A dynamic optical microscope, with real-time prospective tracking and retrospective image processing, was used collect high-resolution images through cellular responses to various perturbations. The subcellular metabolic response to hypoxia was examined in vivo. Mitochondria closest to the capillaries were significantly more oxidized at rest (67+/-3%) than the intrafibrillar mitochondria (83+/-3%; P0.0001) in the same cell.These data are consistent with the hypothesis that a significant oxygen gradient from capillary to muscle core exists at rest, thereby reducing the oxidative load on the muscle cell.

Published
2010

29. Handheld near infra red imaging device for hemorrhage detection.

Author

Riley, Jason D., primary, Amyot, Franck, additional, Pohida, Tom, additional, Pursley, Randall, additional, Ardeshipour, Yasaman, additional, Kainerstorfer, Jana M., additional, Najafizadeh, Laleh, additional, Chernomordik, Victor, additional, Smith, Paul, additional, Smirniotopoulos, James, additional, Wassermann, Eric M., additional, and Gandjbakhche, Amir H., additional

Published
2012
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30. A hematoma detector—a practical application of instrumental motion as signal in near infra-red imaging

Author

Riley, Jason D., primary, Amyot, Franck, additional, Pohida, Tom, additional, Pursley, Randall, additional, Ardeshipour, Yasaman, additional, Kainerstorfer, Jana M., additional, Najafizadeh, Laleh, additional, Chernomordik, Victor, additional, Smith, Paul, additional, Smirniotopoulos, James, additional, Wassermann, Eric M., additional, and Gandjbakhche, Amir H., additional

Published
2011
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31. Quantitative principal component model for skin chromophore mapping using multi-spectral images and spatial priors

Author

Kainerstorfer, Jana M., primary, Riley, Jason D., additional, Ehler, Martin, additional, Najafizadeh, Laleh, additional, Amyot, Franck, additional, Hassan, Moinuddin, additional, Pursley, Randall, additional, Demos, Stavros G., additional, Chernomordik, Victor, additional, Pircher, Michael, additional, Smith, Paul D., additional, Hitzenberger, Christoph K., additional, and Gandjbakhche, Amir H., additional

Published
2011
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40. A hematoma detector—a practical application of instrumental motion as signal in near infra-red imaging

Author

Riley, Jason D., Amyot, Franck, Pohida, Tom, Pursley, Randall, Ardeshipour, Yasaman, Kainerstorfer, Jana M., Najafizadeh, Laleh, Chernomordik, Victor, Smith, Paul, Smirniotopoulos, James, Wassermann, Eric M., and Gandjbakhche, Amir H.

Abstract

Abstract: In this paper we discuss results based on using instrumental motion as a signal rather than treating it as noise in Near Infra-Red (NIR) imaging. As a practical application to demonstrate this approach we show the design of a novel NIR hematoma detection device. The proposed device is based on a simplified single source configuration with a dual separation detector array and uses motion as a signal for detecting changes in blood volume in the dural regions of the head. The rapid triage of hematomas in the emergency room will lead to improved use of more sophisticated/expensive imaging facilities such as CT/MRI units. We present simulation results demonstrating the viability of such a device and initial phantom results from a proof of principle device. The results demonstrate excellent localization of inclusions as well as good quantitative comparisons.

Published
2012

41. MRI compatible hemodynamic recording system.

Author

Bo Xiao, Kakareka, John W., Pursley, Randall H., Pohida, Thomas, Lederman, Robert J., and Faranesh, Anthony

Subjects
CARDIOVASCULAR disease diagnosis, CENTRAL venous pressure, CONFERENCES & conventions, HEMODYNAMICS, MAGNETIC resonance imaging, PATIENT monitoring
Abstract

An abstract of the article "MRI compatible hemodynamic recording system," by Bo Xiao and colleagues is presented.

Published
2013
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42. "Tumor Treating Fields" delivered via electromagnetic induction have varied effects across glioma cell lines and electric field amplitudes.

Author

Ravin R, Cai TX, Li A, Briceno N, Pursley RH, Garmendia-Cedillos M, Pohida T, Wang H, Zhuang Z, Cui J, Morgan NY, Williamson NH, Gilbert MR, and Basser PJ

Abstract

Previous studies reported that alternating electric fields (EFs) in the intermediate frequency (100-300 kHz) and low intensity (1-3 V/cm) regime - termed "Tumor Treating Fields" (TTFields) - have a specific, anti-proliferative effect on glioblastoma multiforme (GBM) cells. However, the mechanism(s) of action remain(s) incompletely understood, hindering the clinical adoption of treatments based on TTFields. To advance the study of such treatment in vitro , we developed an inductive device to deliver EFs to cell cultures which improves thermal and osmolar regulation compared to prior devices. Using this inductive device, we applied continuous, 200 kHz electromagnetic fields (EMFs) with a radial EF amplitude profile spanning 0-6.5 V/cm to cultures of primary rat astrocytes and several human GBM cell lines - U87, U118, GSC827, and GSC923 - for a duration of 72 hours. Cell density was assessed via segmented pixel densities from GFP expression (U87, U118) or from staining (astrocytes, GSC827, GSC923). Further RNA-Seq analyses were performed on GSC827 and GSC923 cells. Treated cultures of all cell lines exhibited little to no change in proliferation at lower EF amplitudes (0-3 V/cm). At higher amplitudes (> 4 V/cm), different effects were observed. Apparent cell densities increased (U87), decreased (GSC827, GSC923), or showed little change (U118, astrocytes). RNA-Seq analyses on treated and untreated GSC827 and GSC923 cells revealed differentially expressed gene sets of interest, such as those related to cell cycle control. Up- and down-regulation, however, was not consistent across cell lines nor EF amplitudes. Our results indicate no consistent, anti-proliferative effect of 200 kHz EMFs across GBM cell lines and thus contradict previous in vitro findings. Rather, effects varied across different cell lines and EF amplitude regimes, highlighting the need to assess the effect(s) of TTFields and similar treatments on a per cell line basis., Competing Interests: None., (AJCR Copyright © 2024.)

Published
2024

43. "Tumor Treating Fields" delivered via electromagnetic induction have varied effects across glioma cell lines and electric field amplitudes.

Author

Ravin R, Cai TX, Li A, Briceno N, Pursley RH, Garmendia-Cedillos M, Pohida T, Wang H, Zhuang Z, Cui J, Morgan NY, Williamson NH, Gilbert MR, and Basser PJ

Abstract

Previous studies reported that alternating electric fields (EFs) in the intermediate frequency (100 - 300 kHz) and low intensity (1 - 3 V/cm) regime - termed "Tumor Treating Fields" (TTFields) - have a specific, anti-proliferative effect on glioblastoma multiforme (GBM) cells. However, the mechanism(s) of action remain(s) incompletely understood, hindering the clinical adoption of treatments based on TTFields. To advance the study of such treatment in vitro , we developed an inductive device to deliver EFs to cell cultures which improves thermal and osmolar regulation compared to prior devices. Using this inductive device, we applied continuous, 200 kHz electromagnetic fields (EMFs) with a radial EF amplitude profile spanning 0 - 6.5 V/cm to cultures of primary rat astrocytes and several human GBM cell lines - U87, U118, GSC827, and GSC923 - for a duration of 72 hours. Cell density was assessed via segmented pixel densities from GFP expression (U87, U118) or from staining (astrocytes, GSC827, GSC923). Further RNA-Seq analyses were performed on GSC827 and GSC923 cells. Treated cultures of all cell lines exhibited little to no change in proliferation at lower EF amplitudes (0 - 3 V/cm). At higher amplitudes (> 4 V/cm), different effects were observed. Apparent cell densities increased (U87), decreased (GSC827, GSC923), or showed little change (U118, astrocytes). RNA-Seq analyses on treated and untreated GSC827 and GSC923 cells revealed differentially expressed gene sets of interest, such as those related to cell cycle control. Up- and down-regulation, however, was not consistent across cell lines nor EF amplitudes. Our results indicate no consistent, anti-proliferative effect of 200 kHz EMFs across GBM cell lines and thus contradict previous in vitro findings. Rather, effects varied across different cell lines and EF amplitude regimes, highlighting the need to assess the effect(s) of TTFields and similar treatments on a per cell line basis.

Published
2023
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44. Three-dimensional motion tracking for high-resolution optical microscopy, in vivo.

Author

Bakalar M, Schroeder JL, Pursley R, Pohida TJ, Glancy B, Taylor J, Chess D, Kellman P, Xue H, and Balaban RS

Subjects
Animals, Mice, Imaging, Three-Dimensional methods, Locomotion, Microscopy, Fluorescence methods, Microscopy, Video methods, Muscle, Skeletal physiology
Abstract

When conducting optical imaging experiments, in vivo, the signal to noise ratio and effective spatial and temporal resolution is fundamentally limited by physiological motion of the tissue. A three-dimensional (3D) motion tracking scheme, using a multiphoton excitation microscope with a resonant galvanometer, (512 × 512 pixels at 33 frames s(-1)) is described to overcome physiological motion, in vivo. The use of commercially available graphical processing units permitted the rapid 3D cross-correlation of sequential volumes to detect displacements and adjust tissue position to track motions in near real-time. Motion phantom tests maintained micron resolution with displacement velocities of up to 200 μm min(-1), well within the drift observed in many biological tissues under physiologically relevant conditions. In vivo experiments on mouse skeletal muscle using the capillary vasculature with luminal dye as a displacement reference revealed an effective and robust method of tracking tissue motion to enable (1) signal averaging over time without compromising resolution, and (2) tracking of cellular regions during a physiological perturbation., (© 2012 The Authors Journal of Microscopy © 2012 Wadsworth Center, New York State Department of Health.)

Published
2012
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