Exercise 17. Human Sensations, Reflexes, and Reactions Student Learning Outcomes. After completing this exercise the student will be able to: 1. Define consciousness, sensory neurons, receptors, stimulus, motor neurons, effectors, somatic motor, neurons, autonomic motor neurons, interneurons, chemical synapse, integration, proprioception, sensations, modality, free neuron endings, encapsulated neuron endings- Meissner’s and Pacinian corpuscles, projection, phantom pain, adaptation, reflex, reflex arc, stretch reflexes, patella reflex, muscle spindle, pupillary reflex, swallowing reflex, reaction; 2. Describe the flow of information through the nervous system; 3. State the nature and function of sensation; 4. Describe a stretch reflex; 5. Describe the pupillary reflex; 6. Distinguish between a reflex and a reaction; 7. Measure visual reaction time. INTRODUCTION How do you interact with the external environment? To answer this question, you first have to be able to analyze your interactions. This means you have to be conscious. Consciousness is the state of being aware of the things around you, your responses, and your own thoughts. Being conscious allows you to learn, to remember, and to fell and show emotion. Second, you have to understand the flow of information through the nervous system (Figure 37-1). Sensory neurons carry messages from receptors to the spinal cord and brain, which comprise the central nervous system (CNS). Receptors are located both within the body and on its surface. Receptors within the body receive information from the internal environment, while those on the surface of the body receive information from the external environment. Each piece of information received by a receptor is called a stimulus (plural, stimuli). Motor neurons carry messages from the CNS to effectors. Effectors are muscles or glands that respond to stimuli. Somatic motor neurons control skeletal muscles, and autonomic motor neurons control smooth muscles, cardiac muscle, and glands. In the CNS, a sensory neuron can directly stimulate a motor neuron across a chemical synapse; more frequently, though, one or more interneurons (association neurons) connect the sensory and motor neurons. A chemical synapse is a junction between two neurons, or between a neuron and an effector that are separated by a small gap. A chemical transmitter substance released from the first neuron diffuses across the gap and then binds to (and produces changes in) the receiving cell. The function of the interneuron is integration. At this level, integration is the processing of messages received from receptors via sensory neurons and the activation of the appropriate motor neurons, if any, to initiate responses by effectors. Your conscious mind is located in the cerebral cortex of the brain and is aware of (and indeed plays a part in) some of this activity. 1 FLOW OF INFORMATION THROUGH THE NERVOUS SYSTEM STIMULI FROM INTERNAL & EXTERNAL ENVIRONMENTS Receptors Sensory Neurons Central Nervous System (Interneurons) Somatic Motor Neurons Autonomic Motor Neurons (Voluntary) (Involuntary) Skeletal Muscles RESPONSES MOSTLY TO EXTERNAL ENVIRONMENT Smooth Muscles, Cardiac Muscles, and Glands RESPONSES MOSTLY TO INTERNAL ENVIRONMENT 2 10.1. Sensations A receptor is the smallest part of a sense organ (such as skin) that can respond to a stimulus. The receptor is linked to the CNS by a single sensory neuron. Our bodies have receptors for light, sound waves, chemicals, heat, cold, tissue damage, and mechanical displacement. Senses for which we have sensations include sight, hearing, taste, smell, pain, touch, pressure, temperature, vibration, equilibrium, and proprioception (knowledge of the position and movement of the various body parts). Sensations are that portion of the sensory input to the CNS that is perceived by the conscious mind. There are also a number of complex sensations such as thirst, hunger, and nausea. Most sensations inform the conscious mind about the state of the external environment. Sensations from the internal environment inform the conscious mind about problems such as dehydration. If you are thirsty, you will make a conscious decision to find and drink water. Receptors and the sensations they produce have three characteristics: modality, projection, and adaptation. These characteristics can be easily demonstrated by investigating the skin’s receptors. MATERIALS Per lab Group: 1) felt-tip, nonpermanent pen 2) 3) 4) 5) 6) bristle dissecting needle scientific calculator 2 blunt probes (glass stirring rods) A source of ice water, hot - tap water [Note: the hot water will have to be changed every five minutes.] 7) ice bag 8) camel-hair brush 9) reflex hammer 10) sources of containers containing: a) ice water (4 0C) 0 b) water bath at 45 C a) room-temperature water 11) tissue paper (paper towels) 3 A. MODALITY Modality is the particular sensation that results from the stimulation of a particular receptor. For example, the modalities of taste-bitter, salty, sour, and sweet-are associated with four different types of taste buds. However, although every receptor has evolved to be most sensitive to one type of stimulus, modality actually depends on where in the brain the sensory neurons from the receptor (or the interneuron to which they connect) terminate. Modality cannot be encoded in the messages carried by sensory neurons, because every impulse in that message is identical. The only information neurons transmit is the absence or presence of a stimulus and (if one is present) its intensity-low stimulus-intensities produce a low frequency of impulses and high stimulus-intensities produce a high frequency of impulses. PROCEDURE 1. Examine a prepared section of skin (Figure 37-2). Two categories of receptors are present: free neuron endings and encapsulated neuron endings. Free neuron endings are almost impossible to see in typically stained sections, but note their distribution in Figure 37-2. Stimulating different free neuron endings produces sensation of pain, crude touch, and perhaps cold and hot. Encapsulated neuron endings consist of neuron endings surrounded by a connective tissue capsule. Find Meissiner’s corpuscles in the dermal papillae (Figure 37-2). Meissner’s corpuscles are receptors for fine touch and low-frequency vibration. Now look for Pacinian corpuscles between the dermis and hypodermis. Pacinian corpuscles look a cut onion and are receptors for pressure and high-frequency vibration. Not all skin sections will contain a Pacinian corpuscle. If you cannot locate one, ask the lab instructor. 4 2. With a felt-tip, nonpermanent ink pen, draw a 25-cell, 0.5-cm grid (Table 1 0 . 1 .) on the inside of your lab partner’s forearm; just above the wrist. 3. You are now the investigator, and your lab partner is the subject. At this point, ask your lab partner is the subject. At this point, ask your lab partner to close his or her eyes. Using a bristle touch the center of each box in the grid. If the bristle bends, you are pressing too hard. Ask your lab partner to announce when the touch is felt. Do not count responses given when you remove the bristle. Just count those that coincide with the initial touch. Mark watch positive response with a T in the upper left-hand corner of the corresponding box in Table 10.1. 4. Repeat the above with a clean dissecting needle. This time, if your feel a prick, mark P for “pain” in the upper right-hand corner of the corresponding box in Table 10.1. Table 10.1. Grid for testing skin stimuli and recording modality data. Caution: do not press; simply let the tip of the Dissecting needle rest on the surface of the skin. 5. Repeat the above with a chilled blunt probe. Before using the blunt probe, dry it with tissue paper. The blunt probe will warm up over time, so switch it with the second chilled blunt probe every five trials. This time, mark each positive response with a C for “cold” in the lower left-hand corner of the corresponding box in Table 10.1. 6. Repeat the above with a heated blunt probe. Before using the blunt probe, dry it with tissue paper. Use the two blunt probes alternately every five trials. This time, mark each positive response with an H for “hot” in the lower right-hand corner of the corresponding box in Table 10.1. 7. Record the total number of positive responses for each stimulus in Table 10-2. Calculate the density of receptors for each modality (multiply the number of positive response for each stimulus by 4) and record them in the third column of Table 10-2. 8. Repeat this procedure for your lab partner. 9. Does each cell in the grid contain a receptor for all four modalities studied? (yes or no). 5 Stimulus Touch Pain Cold Hot Number of Responses Density (Responses/cm) Table 10-2. Positive Identifications to Stimuli Applied to 25 Cells in a 0.25-cm Patch of Skin. 10. Can you see a pattern in the distribution of positive responses marked in table 10.1? _________________________ If yes describe the pattern(s) _________________________ _____________________________________________________________________________ 11. Are the densities for the receptors for each modality the same? _____________ (yes or no.) B. PROJECTION All sensations are felt in the brain. However, before the conscious mind receives a sensation, it is assigned back to its source, the receptor. This phenomenon is called projection. This is a very important characteristic of sensations because it allows the conscious mind to perceive the body as part of the world around it. You have probably experienced projection. A common example is the “pins and needles” you feel in your hand and forearm when you accidentally jar the nerve that passes over the inside of the elbow (so-called funny bone). The sensory neurons in the nerve are stimulated, and your brain projects the sensation back to the receptors. Another example is the phantom pain and other sensations that recent amputees sometimes “feel” in missing limbs. This occurs because the sensory neurons that once served the missing body part are activated by the trauma of the amputation. 6 PROCEDURE 1. Obtain an ice bag from the freezer. 2. Your lab partner holds the ice bag against the inside your elbow for 2-5 minutes. 3. Describe any sensation felt in the hand or forearm to your lab partner who records them in figure 37-4 (above.) 4. While the ice bag is applied to your elbow, your lab partner checks for any loss of sensation by gently stroking your forearm and hand with a camel-hair brush. Sensations may also be felt after the ice bag is removed. 5. If no results are obtained, try tapping the inside of the elbow with the reflex hammer. 6. Similarly test your lab partner. 7. What can you conclude about projection and receptors on the surface of the hand and forearm? ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ C. ADAPTATION The intensity of the signal produced by a receptor depends in part on the strength of the stimulus and in part on the degree to which the receptor was stimulated before the stimulus. Receptors undergo adaptation to a constant stimulus over time. For example, when you first enter a dark room after being in bright light, you cannot see. After a while, your photoreceptors adapt to the new light conditions, and your vision improves. 1. Partially fill each of three 1000-mL beakers with ice water, water at room temperature, and water at 45 0C. 2. Place one hand in the ice water and one in the warm water. After 1 minute, place both hands simultaneously in the water at room temperature. 3. Describe the sensation of temperature in each hand to your lab partner, who records these descriptions in table below. Relative Temperature of Pre-adaptation Result Cold Warm 7 4. What can you conclude about the skin receptors for temperature and their capacity for adaptation? ___________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ 5. What about the ability of other kinds of receptors to adapt? Use your own experiences for smell, touch, and pain to answer this question. [Hints for touch: Can you feel your clothes? How about when you first get dressed after a shower?] ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ D. Reflexes A reflex is an involuntary response to the reception of a stimulus. A reflex arc consists of the nervous system components activated during the reflex. The simples reflex arc consists of a receptor, sensory neuron, motor neuron, and effector. Involuntary means that your conscious mind does not decide the response to the stimulus. However, the conscious mind may be aware after the fact that the reflex has taken place. Reflexes of which we are not aware occur most often in the internal environment (for example, reflexes involved in adjustments of blood pressure). MATERIALS Per lab group: 1) Reflex Hammer 2) penlight PR O C E D U R E A. Stretch Reflexes Stretch reflexes are the simplest type of reflex because the interneurons are not directly involved (Figure 37-5). The sensory neuron connects directly with the motor neuron in the spinal cord. Stretch reflexes are important in controlling balance and complex skeletal muscular movements such as walking. Physicians often test these reflexes during physicals to check for spinal nerve damage. You’ve probably experienced one of these tests, the patella reflex. In this test, the receptor is the muscle spindle in the quadriceps femoris muscle of the front of the front of the thigh, which is attached through its tendon and the patellar ligament to the top of the front surface of the tibia. The tibia is the larger of the two lower leg bones. The patella (kneecap) is embedded in the middle of the combined tendon/ligament. The muscle spindle detects any stretching of the muscle. The effector is the muscle itself. 8 1. Sit on a clean lab bench and shut your eyes. 2. Your lab partner taps the patella ligament with a reflex hammer (figure 37-6). Describe the response. ________________________________________________________________________ ________________________________________________________________________ 3. Even with your eyes shut, are you aware of the stimulus and the response? __________ (yes or no). This is because of pressure receptors that sense the tap or because of proprioceptors that sense movement of the leg. 4. Stretch reflexes are somatic reflexes because they involve somatic motor neurons and skeletal muscles. Can you willfully inhibit a stretch reflex? __________ (yes or no). 5. Similarly test your lab partner. 9 Figure 37.6. Doctor taps the patella ligament with a reflex hammer on a patient. B. Pupillary Reflex 1. Shine the penlight into your lab partner’s eyes. Does the size of the pupil (the diameter of the pupil (the diameter of the opening into the eye that is surrounded by the pigmented iris) get larger or smaller? 2. Now turn off the penlight. Does the size of the pupil get larger or smaller? 3. Repeat steps 1 and 2. Which is faster, constriction of the iris (which makes the pupil smaller) or dilation of the iris (which makes the pupil larger)? 4. Are you aware of the pupil’s changing diameter? ______________ (yes or no). 5. The pupillary reflex is an autonomic reflex because it involves an autonomic motor neuron and, in this case, smooth muscle. Can you willfully inhibit the pupillary reflex? ___________ (yes or no). 6. Similarly test your lab partner. C. Complex Reflexes Complex reflexes involve many reflex arcs and interneurons. A good example is swallowing. The stimulus in the swallowing reflex is the movement of saliva, food, or drink into the posterior oral cavity. The response is swallowing. 1. Cup your hand around your neck and swallow. Fell the complex skeletal muscular movements involved in swallowing. Do you consciously control all these muscles? (yes or no). 10 2. Is it possible to swallow several times in quick succession?_______________(yes or no). 3. Explain this result. It has something to do with the stimulus. ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ 4. What part of swallowing does your conscious mind control, and what part is a reflex? ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ III. REACTIONS A reaction is a voluntary response to the reception of a stimulus. Voluntary means that your conscious mind initiates the reaction. An example is swatting a fly once it has landed in an accessible spot. Because neurons must carry the sensory message to the cerebral cortex and the message to react back to the motor neuron, a reaction takes more time than a reflex. Reaction time is the sum of the time it takes for 1. 2. 3. 4. 5. 6. the stimulus to reach the receptive unit, the receptor to process the message, a sensory neuron to carry the message to the integration center, the integration center to process the information, a motor neuron to carry the response to the effectors the effector to respond. Visual reaction time can easily be measured with a reaction- time ruler. This device makes use of the principle of progressive Acceleration of a falling object. MAT E R IAL S Per lab group: 1) Reaction time Kit (Carolina Biological Supply company) 2) chair or stool 3) Scientific calculator The following instructions are modified from the Reaction time Kit Instructions booklet. 11 1. Sit on a chair or school (Figure 37-7). 2. Your lab partner stands facing you and holds the release end Of the reaction-time ruler with the thumb and forefinger of The dominant hand, at eye level or higher. 3. Position the thumb and forefinger of your dominant hand around the thumb line on the ruler. The space between the thumb and forefinger should be about 1 inch. 4. Tell your lab partner when you are ready to be tested. 5. Any time during the next 10 seconds, your lab partner lets go of the ruler. 6. Catch the ruler between the thumb and forefinger as soon as it starts to fall. The line under your thumb represents visual reaction time in milliseconds. 7. Read the reaction time from the ruler out loud, and your lab partner records the data in Table 37-3. 8. Repeat steps 1-7 ten times and calculate the average reaction time from the ten trials. 9. Similarly test your lab partner. 10. The reaction times of most of the ten trials should be similar, but perhaps the first few or one at random may be relatively different from the others. If this is true for your own or your lab partner’s data, suggest some reasons for this variability. ________________________________________________________________________ ________________________________________________________________________ 11. If opportunity and interest allow, the Reaction Time Kit Instructions booklet has a number of suggestions for other experiments that you can easily do with the reaction- time ruler. Figure 37-7 Measuring visual reaction time. 12 TABLE 37-3. Reaction-Time Data Trial Subject 1 Subject 2 1 2 3 4 5 6 7 8 9 10 Total Average (Total/10) PRE-LAB QUESTIONS 1. Neurons that carry messages from receptors to the CNS are (a) sensory (b) motor (c) interneurons (d) autonomic 6. Which characteristic of receptors does phantom pain illustrate? (a) modality (b) projection (c) adaptation (d) proprioception 2. Neurons that carry messages from the CNS to effectors are (a) sensory (b) motor (c) interneurons (d) both a and b 7. A simple reflex arc is made up of a receptor and (a) a sensory neuron (b) a motor neuron (c) an effector (d) all of the above 3. Neurons that carry messages within the CNS are (a) sensory (b) motor (c) interneurons (d) autonomic 8. A stretch reflex is (a) somatic (b) autonomic (c) both a and b (d) none of the above 4. Knowledge of the position and movement of the various body parts is (a) modality (b) projection (c) adaptation (d) proprioception 5. Skin contains (a) free neuron endings (b) encapsulated neuron endings (c) no nervous tissue (d) both a and b 9. A pupillary reflex is (a) somatic (b) autonomic (c) both a and b (d) none of the above 10. A reaction is (a) a reflex (b) involuntary (c) voluntary (d) both a and b 13 ___________________________________________ Last Name, First Name [lab partner N0. 1] ____________________________________________ Last Name, First Name [lab partner N0. 2] _______________________________ _______________________________ Last Name, First Name [lab partner N0. 3] Last Name, First Name [lab partner N0. 4] ___________________________ ______________________ ______________________ Section group # Date Exercise 17. Human Sensations, Reflexes, and Reactions Post-Lab Questions Introduction 1. Where in the brain does your consciousness reside? ____________________________ . 37.1. Sensations 2. In your own words, define the following terms: A. Modality ____________________________________________________________ ______________________________________________________________________ B. Projection ____________________________________________________________ _______________________________________________________________________ C. Adaptation ___________________________________________________________ _______________________________________________________________________ 3. Indentify the structure indicated in these photos. a. _____________________________ b. _____________________________ 14 37.2. Reflexes 4. Diagram the basic steps of a simple reflex arc like a stretch reflex. 5. How does the patella reflex differ from the pupillary reflex? ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ 37.3. Reactions 6. Indicate whether the following actions are due to reactions or reflexes by putting a check in the correct column in the table. Action Reaction Reflex A baby wetting a diaper Braking a car to avoid an accident Withdrawing your hand from a hot stove surface Sneezing Waving to a friend across the street 15 Food for Thought 7. What are the advantages and disadvantages to an organism of receptor adaptation? ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ 8. All animals do not perceive the external environment in exactly the same way. List some examples from your own knowledge and readings in the textbook. ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ 9. To survive, an animal needs all its receptors working, and even then it cannot fully sense the external environment. What extra receptors do you think would be advantageous to the survival of humans in this modern world? ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ 10. Why is it advantageous for organisms not to be consciously aware of all the activity in their nervous systems? ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ ________________________________________________________________________ 16