Biology 325 Human anatomy and physiology I Fall 2004 Compound action potentials frog sciatic nerve lab assignment I Data analysis A Determination of threshold voltage and maximum CAP amplitude From your data trace use the waveform cursor to measure CAP amplitude at each stimulus voltage use channel 1 The cursor information is displayed in the upper right of the Scope Application window Use the following procedure 1 Select a single CAP in the Chart window from CAP1 Channel 1 2 Open the Zoom window using the Zoom window button 3 Place the marker on the waveform baseline 4 Place the waveform cursor on the CAP peak 5 Read the amplitude value V from the upper part of the Zoom window Note that each page sweep of data has a different stimulus voltage as indicated in Table 1 Record these data in Table 1 of your Data Notebook note the stimulus intensity that first produces a CAP and record the lowest stimulus intensity that yields maximum CAP amplitude Biology 325 Human anatomy and physiology I Fall 2004 B Calculating conduction velocity 1 From your data make a selection in both channels that includes the CAP by dragging the mouse highlight the CAP in channel 1 Hold down the SHIFT key and highlight the CAP in channel 2 2 From the Windows menu select the Zoom window Figure 1 3 From the Zoom window use the marker and waveform cursor to determine the time interval for the CAP to travel between the two recording electrodes Figure 1 4 Place the marker on the first CAP peak Next place the waveform cursor over the second CAP peak 5 Read the value for time differential t from the Cursor display in the Scope application window Record this value in Table 3 in your Data Notebook 6 Using your measurement for the distance between the two recording electrodes make the following calculation and record your answer in Table 3 distance between electrodes cm 100 cm 1000 ms Conduction velocity m sec time interval between CAPs ms 1 m 1 sec Figure 1 Scope Zoom window in overlay mode showing analysis procedure for calculating conduction velocity Waveform cursor information is displayed in the area below the menu bar Biology 325 Human anatomy and physiology I Fall 2004 C Determination of refractory period 1 Using the mouse select the first two CAPs produced by two stimulus pulses recorded in each of page of data use channel 1 2 Open the Zoom window 3 Set the marker to the waveform baseline prior to the first stimulus artifact Figure 2 4 Position the waveform cursor over the maximum point of the second CAP Figure 1 5 Record the amplitude for the second CAP in Table 2 of your Data Notebook The stimulus intervals used in this part of the experiment are recorded in the order shown in Table 2 6 Determine the stimulus interval where the amplitude of the second CAP first shows a decrease This is the relative refractory period Record this value in Table 2 7 Determine the stimulus interval where the second CAP completely disappears This is the absolute refractory period Record this value in Table 2 Figure 2 Scope Zoom window showing two pulses for determining refractory period D Wave form monophasic vs biphasic No analysis required E Fiber groups Open recordings of CAPs that show multiple peaks and use the analysis techniques described in A and B above to determine threshold voltages and conduction velocities of each group of fibers in your preparation Enter your data in Table 4 F Strength duration curve Refer to CAPs you recorded in the last part of the experiment For each stimulus applied for a given duration determine the smallest stimulus intensity required to produce a CAP Record this data in Table 5 Biology 325 Human anatomy and physiology I Fall 2004 II Data presentation A Determination of threshold maximal stimulus intensity demonstration of recruitment Make a scatter plot of CAP amplitude versus stimulus voltage Use data from Table 1 of your Data Notebook Identify a threshold and maximal stimulus B Determination of refractory periods Make a scatter plot of CAP amplitude second CAP vs stimulus interval Use your data from Table 2 in your Data Notebook Indicate in your graph the relative and absolute refractory periods C Conduction velocity of sciatic nerve report conduction velocity for your nerve Table 3 Data Notebook D Biphasic vs monophasic waveforms Produce a sample tracing of nerve stimulation that results in a biphasic waveform produce a sample tracing or nerve stimulation that results in a monophasic waveform E Evidence of different fiber groups making up the sciatic nerve Produce a tracing that shows evidence of different fibers groups in the sciatic nerve a tracing showing multiple peaks Report the threshold voltages and conduction velocities of each group of fibers Table 4 Data Notebook G Strength duration curve Make a scatter plot of stimulus intensity mV vs duration msec use data from Table 5 Data Notebook Fit a line to your data and determine the rheobase and chronaxie report these values III Lab report see CAP report 04 Since this is your first lab report in the course I have decided to provide you with a very structured assignment that walks you through the various sections of a traditionally formatted scientific paper introduction results discussion bibliography As you can see by looking at the assignment for each section I have asked you specific questions that will guide your presentation of material in that section I encourage you not to look at each section or each question within a section as an independent unit instead the various parts should easily flow into one another This should be especially true of the discussion questions Here you are simply working through your data in Results interpreting it and analyzing it in the context of current knowledge in the field The questions I gave you reflect my personal bias of how I would walk through that data what I think are the key concepts it reflects and how I would discuss them It is clearly possible that you might ask Biology 325 Human anatomy and physiology I Fall 2004 different questions and structure your discussion differently my goal in having you follow my personal format is to simply give you a possible model of how to discuss the data In future assignments using this traditional scientific paper format I ll expect you to structure your report and come up with your own methods for presenting data and your own questions to guide your analysis of such data In other assignments we ll also explore other formats for scientific papers For