View Cart “Human-safe Stimulator 0-100 V” has been added to your cart.
This BSL PRO lesson describes hardware and software setup of the BSL PRO System to record and measure nerve conduction velocity along the ulnar nerve of a human subject. Stimulation can be delivered with the STMHUM if using an MP36 and BSL 4.1 or greater, or with BSLSTMA/B if using an MP35 or earlier software releases. Choose the lesson procedure and template that corresponds with your hardware and software.
To record a charge from the stimulus electrodes to recording electrodes.
To observe the Threshold, Maximal and Supra-Maximal response levels.
To determine nerve conduction velocity along the ulnar nerve.
Tasks Performed by the Student
Subject will stimulate the nerve at increasing and decreasing increments to obtain responses at the recording electrodes.
Add event markers throughout the recording.
The software automates the calibration procedure for the student. There are no knobs and dials to confuse the student.
Graph template files ensure consistent setup for subsequent Subjects or repeated trials—plus, you can easily add your own lesson plan to the onscreen journal.
The lesson will also work as part of a group study.
Nerve Conduction - BSL PRO H03
Biopac Student Lab Student Download
Student Prep & Distance Learning
Click the link(s) below for sample data and/or lesson procedure video(s), BSL PRO Lesson procedures (PDF) for human lessons*, and graph template files (*.gtl) for BSL PRO Lessons. If more than one .gtl is available, download the .gtl with the _suffix to match BSL version and hardware.
This lesson requires a Biopac Student Lab (BSL) System and the following hardware. If your BSL System does not include all hardware items, expand your system by selecting required items below. For more details, review the Lesson: L# BSL Lessons - see the Lab Manual or launch BSL; A# and H# BSL PRO Lessons, click the PDF link above to review full setup, recording, and analysis procedures.
This EDA webinar will cover recording techniques and strategies for optimizing electrodermal activity data quality. Emphasis will focus on signal quality for in-lab and remote recording applications, including techniques for capturing event triggers for event-related applications.
You will learn how to
– Record great EDA data
– Prepare data for analysis
– Identify and remove artifact from data
– Use AcqKnowledge automated routines
– Run Batch processing
Thursday, July 14th
8:00 a.m. PT / 11:00 a.m. ET
BIOPAC provides researchers with a complete range of tools to gather data on heart rate variability (HRV). The following studies demonstrate just some of the ways in which HRV research benefits from the implementation of BIOPAC hardware and software solutions. PTSD and HRV Post-traumatic stress disorder (PTSD) has been associated with dysfunction of the autonomic […]
BIOPAC’s comprehensive Introductory ECG Guide addresses fundamental to advanced concerns to optimize electrocardiography data recording and analysis. Topics include: ECG Complex; Electrical and Mechanical Sequence of a Heartbeat; Systole and Diastole; Configurations for Lead I, Lead II, Lead III, 6-lead ECG, 12-lead ECG, precordial leads; Ventricular Late Potentials (VLPs); ECG Measurement Tools; Automated Analysis Routines for extracting, […]