"DEVELOPING HIGH ACHIEVERS"
Originally published as "Early Neurological Stimulation" by Carmen L. Battaglia
Surprising as it may seem, it isn't capacity that explains the differences that
exist between individuals because most seem to have far more capacity than they will ever use. The differences that exist
between individuals seem to be related to something else. The ones who achieve and out perform others seem to have within
themselves the ability to use hidden resources. In other words, it's what they are able to do with what they have that makes
the difference. In many animal-breeding programs the entire process of
selection and management is founded on the belief that performance is inherited. Attempts to analyze the genetics of performance
in a systematic way have involved some distinguished names such as Charles Darwin and Francis Galton. But it has only been
in recent decades that good estimates of heritability of performance have been based on adequate data. Cunningham (1991) in
his study of horses found that only by using Timeform data, and measuring groups of half brothers and half sisters could good
estimates of performance be determined. His data shows that performance for speed is about 35% heritable. In other words only
about 35% of all the variation that is observed in track performance is controlled by heritable factors, the remaining 65%
are attributable to other influences, such as training, management and nutrition. Cunningham's work while limited to horses
provides a good basis for understanding how much breeders can attribute to the genetics and the pedigrees. Researchers
have studied this phenomena and have looked for new ways to stimulate individuals in order to improve their natural abilities.
Some of the methods discovered have produced life long lasting effects. Today, many of the differences between individuals
can now be explained by the use of early stimulation methods.
Introduction
Man for centuries has tried various methods to improve performance. Some
of the methods have stood the test of time, others have not. Those who first conducted research on this topic believed that
the period of early age was a most important time for stimulation because of its rapid growth and development. Today, we know
that early life is a time when the physical immaturity of an organism is susceptible and responsive to a restricted but important
class of stimuli. Because of its importance many studies have focused their efforts on the first few months of life. Newborn
pups are uniquely different than adults in several respects. When born their eyes are closed and their digestive system has
a limited capacity requiring periodic stimulation by their dam who routinely licks them in order to promote digestion. At
this age they are only able to smell, suck, and crawl. Body temperature is maintained by snuggling close to their mother or
by crawling into piles with other littermates. During these first few weeks of immobility researchers noted that these immature
and under-developed canines are sensitive to a restricted class of stimuli which includes thermal, and tactile stimulation,
motion and locomotion. Other mammals such as mice and rats are also born
with limitations and they also have been found to demonstrate a similar sensitivity to the effects of early stimulation. Studies
show that removing them from their nest for three minutes each day during the first five to ten days of life causes body temperatures
to fall below normal. This mild form of stress is sufficient to stimulate hormonal, adrenal and pituitary systems. When tested
later as adults, these same animals were better able to withstand stress than littermates who were not exposed to the same
early stress exercises. As adults, they responded to stress in "a graded" fashion, while their non-stressed littermates responded
in an "all or nothing way." Data involving laboratory mice and rats also
shows that stress in small amounts can produce adults who respond maximally. On the other hand, the results gathered from
non-stressed littermate show that they become easily exhausted and would near death if exposed to intense prolonged stress.
When tied down so they were unable to move for twenty-four hours, rats developed severe stomach ulcers, but litter mates exposed
to early stress handling were found to be more resistant to stress tests and did not show evidence of ulcers. A secondary
affect was also noticed. Sexual maturity was attained sooner in the littermates
given early stress exercises. When tested for differences in health and disease, the stressed animals were found to be more
resistant to certain forms of cancer and infectious diseases and could withstand terminal starvation and exposure to cold
for longer periods than their non-stressed littermates. Other studies involving early stimulation exercises have been successfully
performed on both cats and dogs. In these studies, the Electrical Encephalogram (EEG) was found to be ideal for measuring
the electrical activity in the brain because of its extreme sensitivity to changes in excitement, emotional stress, muscle
tension, changes in oxygen and breathing. EEG measures show that pups and kittens when given early stimulation exercises mature
at faster rates and perform better in certain problem solving tests than non-stimulated mates. In the higher level animals
the effect of early stimulation exercises have also been studied. The use of surrogate mothers and familiar objects were tested
by both of the Kelloggs' and Dr. Yearkes using young chimpanzees. Their pioneer research shows that the more primates were
deprived of stimulation and interaction during early development, the less able they were to cope, adjust and later adapt
to situations as adults. While experiments have not yet produced specific
information about the optimal amounts of stress needed to make young animals psychologically or physiologically superior,
researches agree that stress has value. What also is known is that a certain amount of stress for one may be too intense for
another, and that too much stress can retard development. The results show that early stimulation exercises can have positive
results but must be used with caution. In other words, too much stress can cause pathological adversities rather than physical
or psychological superiority.
Methods of Stimulation
The U.S. Military in their canine program developed a method that still
serves as a guide to what works. In an effort to improve the performance of dogs used for military purposes, a program called
"Bio Sensor" was developed. Later, it became known to the public as the "Super Dog" Program. Based on years of research, the
military learned that early neurological stimulation exercises could have important and lasting effects. Their studies confirmed
that there are specific time periods early in life when neurological stimulation has optimum results. The first period involves
a window of time that begins at the third day of life and lasts until the sixteenth day. It is believed that because this
interval of time is a period of rapid neurological growth and development, and therefore is of great importance to the individual. The
"Bio Sensor" program was also concerned with early neurological stimulation in order to give the dog a superior advantage.
Its development utilized six exercises which were designed to stimulate the neurological system. Each workout involved handling
puppies once each day. The workouts required handling them one at a time while performing a series of five exercises. Listed
in order of preference the handler starts with one pup and stimulates it using each of the five exercises. The handler completes
the series from beginning to end before starting with the next pup. The handling of each pup once per day involves the following
exercises:
- Tactical stimulation (between toes)
- Head held erect
- Head pointed down
- Supine position
- Thermal stimulation.
1. Tactile stimulation Holding the pup in one hand, the handler gently stimulates (tickles) the pup
between the toes on any one foot using a Q-tip. It is not necessary to see that the pup is feeling the tickle. Time of stimulation
3 - 5 seconds. (Figure 1) |
Figure 1 |
Figure 2 |
2. Head held erect Using both hands, the pup is held perpendicular to the ground, (straight up), so
that its head is directly above its tail. This is an upwards position. Time of stimulation 3 - 5 seconds (Figure 2).
|
3. Head pointed down Holding the pup firmly with both hands the head is reversed and is pointed downward
so that it is pointing towards the ground. Time of stimulation 3 - 5 seconds (Figure 3). |
Figure 3 |
Figure 4 |
4. Supine position Hold the pup so that its back is resting in the palm of both hands with its muzzle
facing the ceiling. The pup while on its back is allowed to sleep struggle. Time of stimulation 3-5 seconds. (Figure 4) |
5. Thermal stimulation Use a damp towel that has been cooled in a refrigerator for at least five minutes.
Place the pup on the towel, feet down. Do not restrain it from moving. Time of stimulation 3-5 seconds. (Figure 5) |
Figure 5 |
These five exercises will produce neurological stimulations, none of which
naturally occur during this early period of life. Experience shows that sometimes pups will resist these exercises, others
will appear unconcerned. In either case a caution is offered to those who plan to use them. Do not repeat them more than once
per day and do not extend the time beyond that recommended for each exercise. Over stimulation of the neurological system
can have adverse and detrimental results. These exercises impact the neurological system by kicking it into action earlier
than would be normally expected. The result being an increased capacity that later will help to make the difference in its
performance. Those who play with their pups and routinely handle them should continue to do so because the neurological exercises
are not substitutions for routine handling, play socialization or bonding.
Benefits of Stimulation
Five benefits have been observed in canines that were exposed to the Bio
Sensor stimulation exercises. The benefits noted were:
- Improved cardio vascular performance (heart rate)
- Stronger heart beats
- Stronger adrenal glands
- More tolerance to stress and
- Greater resistance to disease.
In tests of learning, stimulated
pups were found to be more active and were more exploratory than their non- stimulated littermates over which they were dominant
in competitive situations. Secondary effects were also noted regarding test performance. In simple problem solving tests
using detours in a maze, the non-stimulated pups became extremely aroused, wined a great deal, and made many errors. Their
stimulated littermates were less disturbed or upset by test conditions and when comparisons were made, the stimulated littermates
were more calm in the test environment, made fewer errors and gave only an occasional distress when stressed.
Socialization
As each animal grows and develops three kinds of stimulation have been
identified that impact and influence how it will develop and be shaped as an individual. The first stage is called early neurological
stimulation, and the second stage is called socialization. The first two (early neurological stimulation and socialization)
have in common a window of limited time. When Lorenz, (1935) first wrote about the importance of the stimulation process he
wrote about imprinting during early life and its influence on the later development of the individual. He states that it was
different from conditioning in that it occurred early in life and took place very rapidly producing results which seemed to
be permanent. One of the first and perhaps the most noted research efforts involving the larger animals was achieved by Kellogg
& Kellogg (1933). As a student of Dr. Kellogg's I found him and his wife to have an uncanny interest in children and young
animals and the changes and the differences that occurred during early development. Their history making study involved raising
their own new born child with a new born primate. Both infants were raised together as if they were twins. This study like
others that would follow attempted to demonstrate that among the mammals there are great differences in their speed of physical
and mental development. Some are born relatively mature and quickly capable of motion and locomotion, while others are very
immature, immobile and slow to develop. For example, the Rhesus monkey shows rapid and precocious development at birth, while
the chimpanzee and the other "great apes" take much longer. Last and slowest is the human infant. One
of the earliest efforts to investigate and look for the existence of socialization in canines was undertaken by Scott-Fuller
(1965). In their early studies they were able to demonstrate that the basic technique for testing the existence of socialization
was to show how readily adult animals would foster young animals, or accept one from another species. They observed that with
the higher level animals it is easiest done by hand rearing. When the foster animal transfers its social relationships to
the new species, researchers conclude that socialization has taken place. Most researchers agree that among all species, a
lack of adequate socialization generally results in unacceptable behavior and often times produces undesirable aggression,
excessiveness, fearfulness, sexual inadequacy, and indifference toward partners. Socialization
studies confirm that the critical periods for humans (infant) to be stimulated are generally between three weeks and twelve
months of age. For canines the period is shorter, between the fourth and sixteenth week of age. During these critical time
periods two things can go wrong. First, insufficient social contact can interfere with proper emotional development which
can adversely affected the development of the human bond. The lack of adequate social stimulation, such as handling, mothering
and contact with others, adversely affects social and psychological development.
Second, over mothering can prevent sufficient exposure to other individuals, and situations that have an important influence
on growth and development. The literature shows that humans and animals respond in similar ways when denied minimal amounts
of stimulation. In humans, the absence of love and cuddling increases the risk of an aloof, distant, asocial or sociopathic
individual. Over mothering can also have its detrimental effects. It occurs when a patient insulates the child from outside
contacts, or keeps the apron strings tight, thus limiting opportunities to explore and interact. In the end, over mothering
generally produces a dependent, socially maladjusted and sometimes emotionally disturbed individual.
The absence of outside social interactions for both children and pups usually results in a lack of adequate learning and social
adjustment. Protected youngsters who grow up in an insulated environment often times become sickly, despondent, lacking in
flexibility and unable to make simple social adjustments. Generally, they are unable to function productively or to interact
successfully then they become adults. Owners who have busy life styles
with long and tiring work and social schedules often times cause pets to be neglected. Left to themselves with only an occasional
trip out of the house or off of the property they seldom see other canines or strangers and generally suffer from poor stimulation
and socialization. For many, the side effects of loneliness and boredom set-in. The resulting behavior manifests itself in
the form of chewing, digging, and hard to control behavior (Battaglia).
It seems clear that small amounts of stress followed by early socialization can produce beneficial results. The danger seems
to be in not knowing where the thresholds are for over and under stimulation. Many improperly socialized youngsters develop
into older individuals unprepared for adult life, unable to cope with its challenges, and interactions. Attempts to re-socialize
them when adults have only produced small gains. These failures confirm the notion that the window of time open for early
neurological and social stimulation only comes once. After it passes, little or nothing can be done to overcome the negative
effects of too much or too little stimulation. The third and final stage
in the process of growth and development is called enrichment. Unlike the first two stages it has no time limit and by comparison
covers a very long period of time. Enrichment is a term which has come to mean the positive sum of experiences, which have
a cumulative effect upon the individual. Enrichment experiences typically involve exposure to a wide variety of interesting,
novel, and exciting experiences with regular opportunities to freely investigate, manipulate, and interact with them. When
measured in later life, the results show that those reared in an enriched environment tend to be more inquisitive and are
more able to perform difficult tasks. The educational TV program called Sesame Street is perhaps the best known example of
a children's enrichment program. The results show that when tested, children who regularly watched this program performed
better than playmates who did not. Follow up studies show that those who regularly watched Sesame tend to seek a college education
and when enrolled, performed better than playmates who were not regular watchers of the Sesame Street Program.
There are numerous children studies that show the benefits of enrichment techniques and programs. Most focus on improving
self-esteem and self-talk. Follow up studies show that the enriched Sesame Street students when later tested were brighter
and scored above average and most often were found to be the products of environments that contributed to their superior test
scores. On the other hand, those whose test scores were generally below average, (labeled as dull) and the products of underprivileged
or non- enriched environments often times had little or only small amounts of stimulation during early childhood and only
minimal amounts of enrichment during their developmental and formative years. Many were characterized as children who grew
up with little interaction with others, poor parenting, few toys, no books and a steady diet of TV soap operas.
A similar analogy can be found among canines. All the time they are growing they are learning because their nervous systems
are developing and storing information that may be of inestimable use at a later date. Studies by Scott and Fuller confirm
that non-enriched pups when given free choice preferred to stay in their kennels. Other litter mates who were given only small
amounts of outside stimulation between five and eight weeks of age were found to be very inquisitive and very active. When
kennel doors were left open, the enriched pups would come bounding out while littermates who were not exposed to enrichment
would remain behind. The non-stimulated pups would typically be fearful of unfamiliar objects and generally preferred to withdraw
rather than investigate. Even well bred pups of superior pedigrees would not explore or leave their kennels and many were
found difficult to train as adults. These pups in many respects were similar to the deprived children. They acted as if they
had become institutionalized, preferring the routine and safe environment of their kennel to the stimulating world outside
their immediate place of residence. Regular trips to the park, shopping
centers and obedience and agility classes serve as good examples of enrichment activities. Chasing and retrieving a ball on
the surface seems to be enriching because it provides exercise and includes rewards. While repeated attempts to retrieve a
ball provide much physical activity, it should not be confused with enrichment exercises. Such playful activities should be
used for exercise and play or as a reward after returning from a trip or training session. Road work and chasing balls are
not substitutes for trips to the shopping mall, outings or obedience classes most of which provide many opportunities for
interaction and investigation. Finally it seems clear that stress early
in life can produce beneficial results. The danger seems to be in not knowing where the thresholds are for over and under
stimulation. However, the absence or the lack of adequate amounts of stimulation generally will produce negative and undesirable
results. Based on the above it is fair to say that the performance of most individuals can be improved including the techniques
described above. Each contributes in a cumulative way and supports the next stage of development.
Conclusion
Breeders can now take advantage of the information available to improve
and enhance performance. Generally, genetics account of about 35% of the performance but the remaining 65% (management, training,
nutrition) can make the difference. In the management category it has been shown that breeders should be guided by the rule
that it is generally considered prudent to guard against under and over stimulation. Short of ignoring pups during their first
two months of life, a conservative approach would be to expose them to children, people, toys and other animals on a regular
basis. Handling and touching all parts of their anatomy is also necessary to learn as early as the third day of life. Pups
that are handled early and on a regular basis, generally do not become hand shy as adults.
Because of the risks involved in under stimulation a conservative approach to using the benefits of the three stages has been
suggested based primarily on the works of Arskeusky, Kellogg, Yearkes and the "Bio Sensor" program (later known as the "Super
Dog Program"). Both experience and research have dominated the beneficial
effects that can be achieved via early neurological stimulation, socialization and enrichment experiences. Each has been used
to improve performance and to explain the differences that occur between individuals, their trainability, health and potential.
The cumulative effects of the three stages have been well documented. They best serve the interests of owners who seek high
levels of performance when properly used. Each has a cumulative effect and contributes to the development and the potential
for individual performance.
References:
- Battaglia, C.L., "Loneliness and Boredom" Doberman Quarterly, 1982.
- Kellogg, W.N. & Kellogg, The Ape and the Child, New York: McGraw Hill.
- Scott & Fuller, (1965) Dog Behavior -The Genetic Basics, University Chicago Press
- Scott, J.P., Ross, S., A.E. and King D.K. (1959) The Effects of Early Enforced Weaning on Stickling Behavior of Puppies,
J. Genetics Psychologist, p5: 261-81.
ABOUT THE AUTHOR Carmen L Battaglia holds a Ph.D. and Masters Degree from Florida State University. As an AKC
judge, researcher and writer, he has been a leader in promotion of breeding better dogs and has written many articles and
several books.Dr. Battaglia is also a popular TV and radio talk show speaker. His seminars on breeding dogs, selecting sires
and choosing puppies have been well received by the breed clubs all over the country. Those interested in learning more about
his articles and seminars should visit the website http://www.breedingbetterdogs.com
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