Thinking in Pictures: My Life with Autism (25 page)

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Authors: Temple Grandin

Tags: #Psychopathology, #Psychology, #Cognitive Psychology, #Autism Spectrum Disorders, #Patients, #General, #United States, #Personal Memoirs, #Grandin, #Biography & Autobiography, #Autism - Patients - United States, #Personal Narratives, #Autistic Disorder, #Temple, #Autism, #Biography

BOOK: Thinking in Pictures: My Life with Autism
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My experience as a visual thinker with autism makes it clear to me that thought does not have to be verbal or sequential to be real. I considered my thoughts to be real long before I learned that there was a difference between visual and verbal thinkers. I am not saying that animals and normal humans and autistics think alike. But I do believe that recognizing different capacities and kinds of thought and expression can lead to greater connectedness and understanding. Science is just beginning to prove what little old ladies in tennis shoes have always known: little Fifi really does think.

Bird Savants

The ability of birds to migrate is based on capabilities that resemble savant skills. It is possible that savant skills are part of an older memory-imaging system that is masked by higher thinking skills. Professor Floriano Papi, in Italy, has written an important book, titled
Animal Homing
, on the abilities of animals and birds to migrate and home. Since the ancient Romans, carrier pigeons have been used to carry messages. How does a pigeon find its way home after it has been taken far away in a cage?

Birds navigate by using a combination of an innate sense that enables them to detect the earth 's magnetic field and memories they have acquired. In some birds, the innate magnetic detection system is coupled with genetic programming that forms the basis of an instinct to migrate. This will get the bird headed in the right general direction, but information from memory is also essential for accurate homing and migration. If a young bird migrates with its flockmates, it simply learns visual landmarks and other information, such as constellations and orientation of the sun. Some birds, such as the European teal, can distinguish and memorize the constellations. Papi reports that some birds can make visual calibrations of constellations, correcting for the earth 's rotation during different times of the year, which doesn 't seem all that different from the intense savantlike visual memory.

Clara Parks, whose autistic daughter has great artistic talents, noted that when her daughter painted a picture of their house, the constellations she included were very accurate. Mrs. Parks has commented that her daughter 's eye is like a camera. Possibly, her visual skill and birds' navigational skills have similarities. This explains migration, but it fails to explain how a carrier pigeon can find its way home over a landscape it has never seen before. The pigeons rely on visual landmarks when they fly over familiar territory, but when they fly over unknown territory, they rely on smell. When a pigeon is transported from its home loft to the release point, it remembers smells along the way, and it uses these smell cues to get back home. Pigeons deprived of their sense of smell will become lost. Those with their sense of smell intact will also get lost if they are transported in a container that blocks smell. It appears that visual landmarks are the preferred method of homing, but a bird will switch gears and use olfactory cues when it finds itself over strange territory where familiar visual landmarks are absent. It may be using “smell pictures. ”

A fairly high percentage of people with autism have a very acute sense of smell and become overwhelmed by strong odors. I am embarrassed to admit it, but when I was a young child, I liked to sniff people like a dog. The scents of different people were interesting. Some animals have highly developed senses which are more acute than ours. Bloodhounds can track a fugitive for miles by smell, and predatory birds have greater visual acuity than humans. Many animals have very sensitive hearing and can hear high-frequency noises that are out of the range of human hearing. Many people with autism share these hyperacute senses. They are unable to concentrate in the classroom because they can hear talking in three other rooms. I have often observed that the senses of some people with autism resemble the acute senses of animals.

Emotions in Farm Animals

The manager of a very large swine farm once asked me in all seriousness, “Do pigs have emotions? ” To him, pigs were simply pork-producing entities. We have seen that their ability to think and learn exceeds conditioned stimulus response, but do they experience true emotions? Are the feelings of a sow defending her piglets or an antelope running in fear from a lion similar to feelings in people under similar circumstances? Even a chicken can be highly motivated; Ian Duncan, at the University of Guelph, found that a hen would push open a very heavy door to reach a nest box, though she was not motivated to push open a lightweight door to reach a rooster. Is this behavior driven by emotion?

Early in my career I befriended two pet steers at the Kelly feedlot in Maricopa, Arizona, while I was doing a photography assignment for a company that made meat packaging equipment. The advertising agency wanted a photo of a great majestic Angus steer against the blue Arizona sky. To get the picture I had to lie down on the ground and wait for the cattle to come up to me. Cattle are less afraid of people when they reduce their size by kneeling or lying down. These two black steers let me touch them, and by the end of the afternoon they would allow me to pet them. At first they seemed to be afraid, but then they started to like it. They stretched out their necks to get stroked under the chin.

About two weeks later I returned to the feedlot, and I wanted to see if the steers would remember me. I stopped my truck in front of the pen, and the black steers immediately ran over to the fence and stuck their heads out to be petted. They wanted to be petted even though I did not offer them food. They simply wanted to be stroked.

There are many other examples of both farm animals and wild animals seeking pleasurable contact with people. Sows that have become pets will turn their bellies toward people so the people will scratch them. At one farm, a pet sow would squeal and become agitated if people walked by and failed to stop and rub her belly. When they stopped and rubbed, she would lie down, stretch out, and appear to be in bliss. Rhinos in a game park in Texas also solicited petting. When people walked up to their enclosure, one fellow would push his body up against the fence so that visitors could rub a soft spot where his rear leg joined his body. After he was petted and fed a few oranges, he would run along the fence and jump up and down like a calf on a spring day. To me, he appeared to be happy.

To the scientist who wants objective data, these anecdotes do not prove that animals have emotions. But scientists have proved that laboratory rats are capable of recognizing a familiar person and seeking him out. Psychologist Hank Davis found that lab rats will bond with a person who has petted, handled, and fed them. When a rat is placed on a table between a familiar caretaker and a stranger, it will investigate both of them and choose the familiar person most of the time. In most mammals and birds, the young will become very upset when they are separated from their mother. When calves are weaned, both the cows and the calves bellow for about twenty-four hours. Some calves bellow until they are hoarse.

Cattle will also bellow for departed penmates. This is most likely to occur with Holsteins, which are very calm cattle. Their social behavior is easy to observe because the presence of an observer is not likely to disturb them. I have seen Holstein steers bellowing to penmates that were departing in a truck. The cattle that were left behind watched as their fat penmates walked up the ramp to get on the truck that would take them to Burgerland. Two steers stared at the truck as it turned out of the parking lot. One stretched out his neck and bellowed at the truck, and his penmate on the truck bellowed back. The nice feedlot manager was worried that his cattle knew they were going to die. They had no way of knowing this; they just didn 't like being separated from their buddies. Research by Joe Stookey and his colleagues at the University of Saskatchewan confirms that cattle do not like being alone; the cattle in their study would stand more quietly during weighing on a scale if they could see another animal in front of them.

Studies of animal responses to stress and fear may provide more reliable evidence that human and animal emotions are similar. Hundreds of studies of rats, cats, cattle, pigs, monkeys, and many other animals have shown that when animals encounter something that scares them, the levels of cortisol (stress hormone) in their blood rise. Adrenalin is pumped throughout the body, and both heart rate and breathing greatly increase to prepare the animal for fight or flight from danger. Research has shown that fear is a universal emotion in mammals and birds. Of course, people have these same physiological responses. A person mugged on a city street and an animal chased by a predator have the same increases in adrenalin, heart rate, and breathing rate. In both animals and people, fear causes fight or flight.

Fear can have very bad effects on the productivity of farm animals. The Australian scientist Paul Hemsworth found that when sows were afraid of people, they had fewer piglets. Fear was measured by determining how quickly a sow would approach a strange person. Each pig was tested by placing it in a small arena with a stranger. Pigs that had been mishandled by workers took longer than other pigs to walk up and touch the strange person. They also had lower weight gains.

Further studies indicated that tender loving care improved both reproductive performance and weight gain. Many large Australian swine farms started a training program to improve employees' attitudes toward pigs. As the workers learned more about pig behavior and became more interested in why pigs act the way they do, productivity increased. Farms where the attitude of the employees improved showed an increase of 6 percent more piglets born per sow. Employees who had a good attitude toward pigs engaged in more positive behaviors, such as petting, and fewer aversive behaviors, such as slapping. Hemsworth also found that pigs that had been slapped regularly had learned to stay away from people and still had sufficient anxiety to cause a chronic elevation of stress hormone and decreased weight gain. They clearly felt threatened when people were around.

Other animals also have the ability to anticipate an unpleasant experience. In one study, dairy cows that had been shocked in a restraining chute had a much higher heart rate when they approached the same restraining chute six months later than cows that had been restrained in the same chute with no shock.

Anatomical and Neurological Measures

The best hard scientific evidence that animals have emotions may come from the study of brain anatomy and neurophysiology. This evidence will help convince the skeptics. I had the opportunity to audit an anatomy class on the human brain at the University of Illinois Medical School. I had dissected many cattle and pig brains, but this was the first time I was going to see what a human brain actually looked like. When the brain was sliced down the middle, I was astounded to learn that the limbic system, which is the part of the brain associated with emotion, looked almost exactly like the limbic system in a pig 's brain. At the gross anatomical level, the single major difference between a human brain and a pig 's brain is the size of the cortex. The limbic system in both is very similar in size, but the human 's is covered by a great massive cortex, like an overgrown cauliflower that engulfs the brain stem. The cortex is the part of the brain that gives people their superior thinking powers. The seat of emotion is buried deep beneath it.

The major difference between the human brain and the brains of other higher mammals, such as dogs, cats, cattle, and horses, is the size of the cortex. Both animal and human brains may get emotional signals from the limbic system, but since people have greater abilities to process information, their expression of emotions is more complex. A sad person may write a beautiful piece of poetry, while a sad dog may whine and scratch on the door when he is left alone. The emotion may be similar, but the expression of the emotion is vastly different.

The chemical messenger systems in the brains of people and higher mammals are the same. Messages between brain cells are transmitted by substances called neurotransmitters. High levels of the neurotransmitter serotonin are associated with calmness and reduced aggression. Prozac makes people feel better because it increases serotonin levels. Some of the other neurotransmitters are norepinephrine, GABA, dopamine, and endorphins. GABA is the brain 's own natural tranquilizer, similar chemically to Valium. Endorphins are the brain 's own opiates. Drugs such as Naltrexone, which block the action of endorphins, are used in the treatment of heroin overdose and alcohol abuse. Dopamine and norepinephrine have an activating effect. The wild delusions and hallucinations of a schizophrenic are often stopped by drugs that block the action of dopamine.

The best evidence that human and animal emotions are similar is the study of the effect of antidepressant and tranquilizing drugs on animals. Modern veterinarians are treating dogs, cats, and horses with the same drugs that are used to treat anxiety and obsessive-compulsive disorder in humans. A recent seminar by Dr. Karen Overall, from the veterinary school at Pennsylvania State University, sounded like a session at the American Psychiatric Association.

The drug Anafranil, which has actions similar to those of Prozac, is being used to treat obsessive-compulsive behavior in both horses and dogs. A person with this disorder may wash his hands for two hours a day. In dogs, excessive grooming and licking causes open sores. In many cases, a dose of Anafranil will stop the behavior. Judith Rapoport, M.D., an expert on obsessive-compulsive behavior who works at the National Institute of Mental Health, speculates that symptoms in people may come from the older areas of the brain, which we share with animals.

The drug Naltrexone, which blocks endorphins, will stop self-injurious behaviors in both autistic children and horses. Just as a few very severely autistic people will cause self-injury by biting or hitting themselves, high-strung stallions confined to stalls will occasionally engage in chest biting. Dr. Nick Dodman at the Tufts Veterinary School, in Massachusetts, found that Naltrexone will reduce or stop this behavior. He is also successfully using Prozac, beta-blockers, BuSpar (busperone), and Tegratol (carben-mazepine) to control aggression in dogs. Beta-blockers such as Inderal (propranolol) are sometimes used by musicians and actors to reduce anxiety and fear before a performance. Inderal has similar fear-reducing effects in dogs. Dogs are even being treated for hyperactivity with Ritalin (methylphenidate). Both hyperactive dogs and hyperactive children become calmer on the drug.

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