S. Braun scite author profile

S. Braun

4Publications

74Citation Statements Received

65Citation Statements Given

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Affiliations

University of Missouri

Publications

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Adapting Human Videofluoroscopic Swallow Study Methods to Detect and Characterize Dysphagia in Murine Disease Models

Lever

Braun

Brooks

et al. 2015

JoVE

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This study adapted human videofluoroscopic swallowing study (VFSS) methods for use with murine disease models for the purpose of facilitating translational dysphagia research. Successful outcomes are dependent upon three critical components: test chambers that permit self-feeding while standing unrestrained in a confined space, recipes that mask the aversive taste/odor of commercially-available oral contrast agents, and a step-by-step test protocol that permits quantification of swallow physiology. Elimination of one or more of these components will have a detrimental impact on the study results. Moreover, the energy level capability of the fluoroscopy system will determine which swallow parameters can be investigated. Most research centers have high energy fluoroscopes designed for use with people and larger animals, which results in exceptionally poor image quality when testing mice and other small rodents. Despite this limitation, we have identified seven VFSS parameters that are consistently quantifiable in mice when using a high energy fluoroscope in combination with the new murine VFSS protocol. We recently obtained a low energy fluoroscopy system with exceptionally high imaging resolution and magnification capabilities that was designed for use with mice and other small rodents. Preliminary work using this new system, in combination with the new murine VFSS protocol, has identified 13 swallow parameters that are consistently quantifiable in mice, which is nearly double the number obtained using conventional (i.e., high energy) fluoroscopes. Identification of additional swallow parameters is expected as we optimize the capabilities of this new system. Results thus far demonstrate the utility of using a low energy fluoroscopy system to detect and quantify subtle changes in swallow physiology that may otherwise be overlooked when using high energy fluoroscopes to investigate murine disease models.

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Adapting Human Videofluoroscopic Swallow Study Methods to Detect and Characterize Dysphagia in Murine Disease Models

Lever

Braun

Brooks

et al. 2015

JoVE

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The Contribution of Spectral Increment Thresholds to the Interpretation of Color Perimetry

Krastel¹,

Jäeger²,

Braun³

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The detection of concealed objects using microwave indirect holographic imaging (MIHI) techniques

Smith¹,

Braun²

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This work describes a simple and inexpensive technique for the imaging of concealed objects. In place of traditional pulsed radar methods it offers an altemative CW method based on holographic intensity measurements. It demonstrates how indirect holographic techniques, employed at optical frequencies, can be adapted to image objects at microwave frequencies. It also demonstrates how three dimensional images may be reconstructed from a measured two intensity patterns.

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S. Braun

Adapting Human Videofluoroscopic Swallow Study Methods to Detect and Characterize Dysphagia in Murine Disease Models

Adapting Human Videofluoroscopic Swallow Study Methods to Detect and Characterize Dysphagia in Murine Disease Models

The Contribution of Spectral Increment Thresholds to the Interpretation of Color Perimetry

The detection of concealed objects using microwave indirect holographic imaging (MIHI) techniques

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