Powerlab and bridge amplifier

Manufactured by ADInstruments

Sourced in Australia

The PowerLab is a data acquisition system that enables the recording and analysis of physiological signals. The Bridge Amplifier is a device that amplifies and conditions signals from transducers, such as force or pressure sensors, for input into the PowerLab system. Both the PowerLab and Bridge Amplifier are designed to provide reliable and accurate data collection for a variety of research and teaching applications.

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Lab products found in correlation

Model spr 350s, by ADInstruments (2 mentions)

Spelling variants of this product

PowerLab (853 citations) Bridge amplifier (4 citations) Powerlab Bridge Amplifier (3 citations)

3 protocols using powerlab and bridge amplifier

Multimodal Neurophysiology Monitoring

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All ENG and EMG recordings, as well as stimulations, were performed using a Tucker Davis Technologies system (Alachua, FL; W8, IZ2MH, RZ5D, RZ6, PZ5, and S-Box units). These recordings were collected continuously (24 414 Hz sampling rate, 10 986 Hz anti-aliasing, unity gain) before, during, and after application of each stimulation pulse. One of the LIFEs was used as the reference electrode for all electrophysiology recordings.
Heart rate (HR) and blood pressure were monitored using a pressure catheter (Millar Inc. Houston, TX, Model #SPR-350S) placed into the femoral artery, then digitized and saved using a PowerLab and Bridge Amplifier (ADInstruments, Sydney, Australia).

Nicolai E.N., Settell M.L., Knudsen B.E., McConico A.L., Gosink B.A., Trevathan J.K., Baumgart I.W., Ross E.K., Pelot N.A., Grill W.M., Gustafson K.J., Shoffstall A.J., Williams J.C, & Ludwig K.A. (2020). Sources of off-target effects of vagus nerve stimulation using the helical clinical lead in domestic pigs. Journal of neural engineering, 17(4), 046017.

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Multimodal Neurophysiology Monitoring

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In Vivo Neurophysiology and Hemodynamics

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All LIFE and EMG recordings, as well as stimulations, were performed using a Tucker Davis Technologies system (Alachua, FL; W8, IZ2MH, RZ5D, RZ6, PZ5, and S-Box units). These recordings were collected continuously (24,414 Hz sampling rate, 10,986 Hz anti-aliasing, unity gain) before, during, and after application of each stimulation pulse. One of the LIFEs was used as the reference electrode for all electrophysiology recordings.
Heart rate (HR) and blood pressure were monitored using a pressure catheter (Millar Inc, Houston, TX, Model #SPR-350S) placed into the femoral artery, then digitized and saved using a PowerLab and Bridge Amplifier (ADInstruments, Sydney, Australia).

Nicolai E.N., Settell M.L., Knudsen B.E., McConico A.L., Gosink B.A., Trevathan J.K., Baumgart I.W., Ross E., Pelot N.A., Grill W.M., Gustafson K.J., Shoffstall A.J., Williams J.C., & Ludwig K.A. (2020). Sources of Off-Target Effects of Vagus Nerve Stimulation Using the Helical Clinical Lead in Domestic Pigs.

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