Publications by authors named "Robert Swader"

Diffusion microchamber array (DMA) devices have provided contemporary microbiologists with a successful alternative to the century-old plating method using petri dishes to isolate and cultivate environmental bacteria. The "ichip" DMA device, developed by the research group of Slava Epstein, is exemplary of this technology, using membranes to culture rare or otherwise nonmodel bacterial taxa, whereby the target cells are nourished by environmental medium across the separating membrane. However, DMA devices have not sufficiently infiltrated the university-level microbiology curriculum, and the size and shape of the ichip make the device challenging for use by students.

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An open source remote monitoring system is designed and built to address the needs of researchers to provide basic illuminated visual indication of laser operation for university research laboratories that are equipped with multiple types of high-powered lasers and have limited financial resources. The 3D printed remote monitoring system selectively monitors either the total current running through a laser or a TTL shutter signal to wirelessly indicate at the laboratory entrances that a laser is in use. Several lasers can be monitored in a single room and each room entrance can have its own wireless laser activity indicator.

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The effective connectivity of brain networks can be assessed using functional magnetic resonance imaging (fMRI) to quantify the effects of local electrical microstimulation (EM) on distributed neuronal activity. The delivery of EM to specific brain regions, particularly with layer specificity, requires MRI compatible equipment that provides fine control of a stimulating electrode's position within the brain while minimizing imaging artifacts. To this end, we developed a microdrive made entirely of MRI compatible materials.

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Workers in hospitals, clinics, and contract research organizations who repetitively use syringes have an increased risk for musculoskeletal disorders. This study developed and tested a novel syringe adapter designed to reduce muscle strain associated with repetitive fluid draws. Three syringe plunger extension methods (ring-finger, middle-finger, and syringe adapter) were studied across twenty participants.

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Article Synopsis
  • The study presents a novel bioreactor that combines fluorescence lifetime imaging microscopy (FLIM) and dynamic nuclear polarization (DNP) magnetic resonance spectroscopy (MRS) to analyze cellular metabolism in 3D cell cultures.
  • The bioreactor is equipped with features such as an optical window and temperature control, and it was made using advanced fabrication methods like 3D printing and laser cutting.
  • Results from experiments with glucose-deprived murine breast cancer cells showed changes in NADH fluorescence lifetimes and lactate:pyruvate ratios, indicating potential metabolic adaptations under stress.
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Biological tissues have complex 3D collagen fiber architecture that cannot be fully visualized by conventional second harmonic generation (SHG) microscopy due to electric dipole considerations. We have developed a multi-view SHG imaging platform that successfully visualizes all orientations of collagen fibers. This is achieved by rotating tissues relative to the excitation laser plane of incidence, where the complete fibrillar structure is then visualized following registration and reconstruction.

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The zebrafish larva is an important model organism for both developmental biology and wound healing. Further, the zebrafish larva is a valuable system for live high-resolution microscopic imaging of dynamic biological phenomena in space and time with cellular resolution. However, the traditional method of agarose encapsulation for live imaging can impede larval development and tissue regrowth.

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Zebrafish, an established model organism in developmental biology, is also a valuable tool for imaging wound healing in space and time with cellular resolution. However, long-term imaging of wound healing poses technical challenges as wound healing occurs over multiple temporal scales. The traditional strategy of larval encapsulation in agarose successfully limits sample movement but impedes larval development and tissue regrowth and is therefore not amenable to long-term imaging of wound healing.

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