Edward Podniesinski scite author profile

Edward Podniesinski

4Publications

69Citation Statements Received

47Citation Statements Given

How they've been cited

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Affiliations

Radiation Monitoring Devices (United States), Roswell Park Cancer Institute

Publications

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Enhanced red and near infrared detection in flow cytometry using avalanche photodiodes

et al. 2008

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Polychromatic flow cytometry enables detailed identification of cell phenotype using multiple fluorescent parameters. The photomultiplier tubes (PMTs) used to detect fluorescence in current instruments limit the sensitivity in the long wavelength spectral range. We demonstrate the flow cytometric applications of silicon avalanche photodiodes (APDs), which have improved red sensitivity and a working fluorescence detection range beyond 1,000 nm. A comparison of the wavelength-dependent performance of the APD and PMT was carried out using pulsed light-emitting diode sources, calibrated test beads, and biological samples. A breadboard flow cytometer test bench was constructed to compare the performance of PMTs and APD detectors. The APD used an additional amplifier stage to match the internal gain of the PMT. The resolution of the APD and PMT was compared for flow cytometry applications using a pulsed lightemitting diode source over the 500-1060 nm spectral range. These measurements showed the relative changes in the signal-to-noise performance of the APD and PMT over a broad spectral range. Both the APD and PMTs were used to measure the signalto-noise response for a set of six peak calibration beads over the 530-800 nm wavelength range. CD4-positive cells labeled with antibody-conjugated phycoerythrin or 800 nm quantum dots were identified by simultaneous detection using the APD and the PMT. The ratios of the intensities of the CD42 and CD41 populations were found to be similar for both detectors in the visible wavelengths, but only the APD was able to separate these populations at wavelengths above 800 nm. These measurements illustrate the differences in APD and PMT performance at different wavelengths and signal intensity levels. While the APD and PMT show similar signal-to-noise performance in the visible spectral range, the dark noise of the APD detector reduces the sensitivity at low signal levels. At wavelengths longer than 650 nm, the high quantum efficiency of the APD contributes to better signal-to-noise performance. The APD detector provides enhanced performance in the long wavelength region and may be used to extend the working range of the flow cytometer beyond 1,000 nm. ' 2008 International Society for Advancement of CytometryKey terms flow cytometer; avalanche photodiode; APD near infrared; NIR; signal to noise FLOW cytometry has become one of the fundamental tools for studies of biological systems, and the uses and applications of these instruments continues to expand in such areas as molecular biology, immunology, and pathology. These instruments have found such utility, because they rapidly provide quantitative and correlated information about multiple parameters used to characterize cells. Flow cytometry systems and fluorescent labeling methods have identified hundreds of distinct cell phenotypes in human blood. The identification and tracking of these detailed cell types has fundamentally contributed to our knowledge of oncology, immunology, and pathogenesis.The quantitative information ...

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A comparison of avalanche photodiode and photomultiplier tube detectors for flow cytometry

Lawrence

Váradi

Entine

et al. 2008

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Flow cytometer in the infrared: Inexpensive modifications to a commercial instrument

et al. 2005

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Background: The application of molecules that fluoresce in the infrared (IR) region to measure cell products would be enhanced by a flow cytometer capable of measuring them. To our knowledge, none exist at this time. Accordingly, we have developed such an instrument. Methods: A Becton Dickinson LSR flow cytometer was modified to include a small 785-nm IR diode laser the size of a C cell battery with 44-mW output power. The instrument was modified further to accommodate this laser in addition to a 405-nm solid-state laser, a 488-nm air-cooled argon laser, and a 658-nm solid-state laser. Because the IR laser is dangerous to the eye, the laser beams were viewed for optical alignment using a CCD camera and video monitor. An avalanche photodiode was used in place of a photomultiplier tube because its detection sensitivity in the IR region is superior. Results: To assess performance, scatter and florescence measurements were made using microspheres that fluoresce in the IR region, and human leukocytes were stained

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Performance of a novel piezoelectric motor at 4.7 T: applications and initial tests

Turowski

Seshadri

Loecher

et al. 2008

Magnetic Resonance Imaging

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