Human Physiology with Vernier 15 - 1Computer15Muscle Function AnalysisMuscle tissues maintain electrical imbalances, or potentials, across cell membranes by concentrating positive or negative charges on opposite sides of those membranes. These potentials are a form of stored energy. With activation (such as from a nerve impulse), the ions are allowed to cross the muscle cell membranes, generating electrical activity and resulting in muscle contraction.An electromyogram, or EMG, is a graphical recording of electrical activity within muscles. It is useful in the diagnosis of disorders affecting muscles and the nerves that supply them. Inherited and acquired disorders of muscles (such as the muscular dystrophies), and disorders of the central and peripheral nervous systems (such as Huntington’s disease and diabetic neuropathy) result in abnormal EMG readings.EMG studies are also useful for investigating normal muscle function. In this experiment, you will analyze electrical activity in the extensor muscles of the forearm. These muscles originate intendons of the proximal dorsal forearm in the region of the lateral epicondyle and attach distally to tendons which control extension of the hand and fingers (see Figure 1). Inflammation of the tendons at the elbow is common and can result from repetitive motions used in sports, hobbies, and in the workplace. This experiment will demonstrate the rationale behind treating tennis elbow with a wrist splint.Important: Do not attempt this experiment if you suffer from tennis elbow or other disorders of the arm or hand. Inform your instructor of any possible health problems that might be exacerbated if you participate in this exercise.Figure 115 - 2Human Physiology with VernierComputer 15OBJECTIVESIn this experiment, you will- Obtain graphical representation of the electrical activity of a muscle.- Associate muscle activity with movement of joints.- Correlate muscle activity with injury.MATERIALSVernier LabQuest electrode tabsVernier EKG Sensor ruler1–2 kg (3 lb) weight (barbell or similar)PROCEDURESelect one person from your lab group to be the subject.1. Press the silver power button on the front left of the LabQuest to turn it on. Connect the EKGSensor into CH1 on the top right side of the LabQuest using the white square plug. 2. Attach three electrode tabs to your dominant arm, as shown in Figure 2. Two tabs should be placed on the dorsal forearm, 5 cm and 10 cm from the lateral epicondyle along an imaginaryline connecting the epicondyle and the middle finger. A third electrode tab should be placed on the upper arm.3. Connect the EKG clips to the electrode tabs as shown in Figure 2. The red and green leads are interchangeable for this experiment – the black lead should be attached to the upper arm electrode tab. Stand facing your table or lab bench so that your arm is angled down toward the surface (Figure 2).4. Collect data while flexing and relaxing the extensor muscle. To do this:Figure 4Figure 2 Figure 3Human Physiology with Vernier 15 - 3Muscle Function Analysisa. Use the stylus to tap ‘Sensors’ at the top of the screen and then ‘Data Collection.’ Tap the white box next to ‘Length’ and use the on screen keyboard to change the value to 25. Tap OK to return to the meter screen.b. Rest your fingertips on the table, with your palm above the surface and in line with your forearm, as shown in Figure 2. Have your lab partner tap the green collect button at the lower left of the screen to begin data collection.c. After recording a stable baseline for 5 s, (they can monitor the time on the lower left of thescreen) gently bend your hand back as far as you can (Figure 4). Hold this position for 5 s.d. Return your hand to its relaxed position, with fingertips resting on the table surface, for a period of 5 s.e. Repeat the extension and relaxation action for one more full cycle–5 s with the hand cocked, followed by 5 s with the hand in a resting position. Data will be collected for 25 s.5. Tap and drag to highlight the first 5 s of data collected. Use the stylus to tap ‘Analyze’ at the top of the screen, then 'Statistics’ and then tap the box labeled ‘Potential.’ Record the minimum and maximum values displayed in your Table 1, rounding to the nearest 0.01 mV. To exit statistics mode again tap ‘Analyze’ then ‘Statistics’ and then uncheck the box for ‘Potential.’6. Repeat step 5 for each of the next 5 s intervals until you reach 20 s (5–10 s, 10–15 s, 15–20 s). Record the minimum and maximum values displayed in the Statistics boxes in Table 1. Note: You may have to slightly adjust the time parameters for the data selected, as flexion and relaxation times may not conform strictly to the 5-second time periods. 7. To Export the data as a .txt file:a. Insert a USB drive or SD card into the top of the LabQuest.b. Use the stylus to tap on ‘File’ at the top of the screen and then ‘Export.’ Tap on the white box labeled ‘Untitled’ to edit the name of the file. c. Tap on the picture of the USB drive or SD card to enter that device.d. Tap OK to export the data. This txt file can be read in excel at home.Ergonomics and Muscle Protection8. Obtain a 1–2 kg (3 lb) weight (barbell or similar) from your instrument container or cart.11. Collect data to examine the effect of lifting a weight using your extensor muscles:a. Place your relaxed hand on the weight, with your palm facingdownward. Tap the green collect button to begin data collection.b. After recording a stable baseline for 5 s, grip the weight with yourhand. Using only the action of your wrist, lift the weight to aheight of 5–10 cm off the surface of the table (Figure 5). Hold thisposition for 5 s.c. Gently lower the weight onto the table and rest for 5 s.d. Repeat the extension and relaxation action for one more full cycle–5 s with the hand cocked, followed by 5 s with the hand in aFigure 515 - 4Human Physiology with VernierComputer 15resting position. Data will be collected for 25 s.12. Tap and drag to highlight the first 5 s of data collected. Use the stylus to tap ‘Analyze’ at the top of the screen, then 'Statistics’ and then tap the box labeled ‘Potential.’ Record the minimum and maximum values displayed in your Table 1, rounding to the nearest 0.01 mV. To exit statistics mode again tap ‘Analyze’ then ‘Statistics’ and then uncheck the box for ‘Potential.’13. Repeat step 12 for each of the next 5 s intervals