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Basics of Featherpicking
by By Tammy Jenkins, DVM
St. Francis Animal and Bird Hospital
Roseville, Minnesota
(The following is the text of Dr. Tammy Jenkins extensive
presentation from the PBR Convention in October, 1999.)
This article and illustrations are copyrighted and may not be reprinted without the written
permission of the author, Sally Blanchard or the PBIC, Inc or the author.
![]() Introduction
Feather picking is a problem that has plagued and intrigued me for the last ten
years. I wanted to speak about it because I wanted you to know that we can help
many - perhaps 70% - of the birds that feather pick, but the journey is
sometimes frustrating, time consuming, and expensive.
I also wanted you to know that the sharpest people in avian medicine are
spending a lot of time on this problem and that there are a number of exciting
new approaches. Finally, I wanted you to know how you should best spend your
time and money in working up this problem. I wanted you to get enough background
information so that you can help determine what approach might yield the most
information about your bird. I also want you to learn to be an accurate observer
because your at-home observations are usually the most critical part of the
process.
This presentation is going to be given in the same way that I discuss feather
picking with my clients. The first step is to acquaint the owner with the most
common causes of feather picking. The second step is the history and physical
exam. Third, we collect some minimum data bits. The fourth phase is general
management and record keeping recommendations. The last phase consists of
specific tests and trials that might be used to diagnose and treat the feather
picking.
I. COMMON CAUSES OF FEATHER PICKING
The most common causes of feather picking are the following:
A. INFECTIOUS DISEASE
B. ALLERGIES
C. ENDOCRINE/REPRODUCTIVE DISEASE
D. TOXINS
E. PARASITES
F. HYPOTHYROIDISM
G. PRIMARY SKIN INFECTION
H. DIETARY DEFICIENCIES
I. SYSTEMIC DISEASE
J. BEHAVIOR
We will explore each of these in some detail when we consider specific tests and
trials used to diagnose the specific cause of feather picking. These categories
are introduced now to get us thinking about what may be involved in this
problem.
II. HISTORY AND PHYSICAL EXAM
The history and physical examination helps us to assemble what we currently know
about the problem.
A. HISTORY
The history is important because it gives us clues as to the cause of the
problem. Try not to draw premature conclusions from the data. Inaccurate
premature conclusions may blind us to the true cause of the feather picking.
Questions we would like answered include the following:
What diet is the bird
offered? What does he actually eat?
What type of cage does
the bird have? What toys? Is there exposure to heavy metals, especially zinc?
What is the source of
the bird?
Does the bird live with
any birds? Has he ever lived with any birds? What kind(s)?
What is the species,
age, and sex of the bird?
Any viral or chlamydia
test results?
Is the bird vaccinated?
How long has the bird
been feather picking?
What month did feather picking start?
Has the bird feather picked in the past, stopped, and then resumed picking?
Is there a seasonal
pattern?
Is the picking
associated with the molt?
Is there an association
with perceived reproductive activity?
Does the bird pick when
you are absent?
Do you see the bird actually picking?
If the bird picks when you are present, how does he act?
Itchy or not itchy?
Does he scream or
vocalize when he picks?
Will he interrupt a
favorite activity to pick?
Is there a time of day
when he picks?
If you see him picking,
how do you respond?
Does the bird entertain
itself?
From a personality
standpoint, how would you characterize your bird? (You can choose more than one
response).
Relaxed
Anxious
Playful
Fearful
Aggressive
B. PHYSICAL EXAM
The physical examination involves visually inspecting, palpating, and asculting
the bird. The purpose of the exam is to describe the disease patterns and to use
the information to help determine the etiology or cause of the disease and give
us a baseline from which to follow the progress (positive or negative). You as
the owner will play an important role in charting progress. Often we will
attempt a trial treatment and we will evaluate the success of the treatment
based on physical signs. If the bird's feathers become totally normal, we have a
tremendous response to treatment.
However, often we have
only a partial response to treatment:
-the bird may grow in
more (but not 100%) of its feathers,
-red ulcerated areas may heal,
-the bird may be picking fewer feathers,
-the bird may still look abnormal but may seem less itchy,
-or there may be no
change.
These observations will greatly help us to know if we are on the right tract
with our therapy. For this reason we want you to be very involved in seeing what
we see on the physical exam. Basic observations made on the physical exam
include the following:
Is the bird actually mutilating his feathers? Differentiate between:
-Normal preening
-Normal molt
-Mutilation by cage mate
-Abnormal feather formation (cysts, PBFD)
-Feather picking
-What is the pattern of feather loss?
Leggings
Breast
Back
Wing web
Flights
Head
At what stage are feathers picked?
-Early (budding)
-At 1"
-When fully developed
Are feathers pulled or barbered? If barbered, to what level?
What is the condition of the skin?
-Quiet/normal
-Hyperkeratotic
-Reddened
-Ulcerated/weeping
-Deep wounds
What is the condition of the feathers (contours & down)?
-Clean, shiny; down is fluffy
-Old, frayed
-Dirty, matted
Any evidence of external parasites such as Knemodectic mites or lice?
Wing trim
-Are wings clipped? How?
-Is wing clip appropriate for the bird?
-Does the bird know how to fly? To land?
Condition of feet
-Epithelium (poor to excellent)
-Hyperkeratosis
Oral mucosa
-Choanal papilla (poor to excellent)
-Overall condition of the oral cavity
-Trachea
What about the rest of the bird?
-Nares, ears, sinuses
-Auscultation of heart/lungs
-Palpation of abdomen
-Cloaca
-Other
III. DIAGNOSTICS
As part of the initial exam, we minimally do the following diagnostics. These
diagnostics are inexpensive, non-invasive, and often steer us towards an
underlying cause.
A. CYTOLOGY
We make impression smears of the skin. These will pick up hyperkeratosis, an
inappropriate inflammatory response, abnormal bacteria, or an overgrowth of
fungus. Depending on the findings, we may consider allergic, hormonal, or
thyroid disease; in certain cases, the cytology may suggest general
immunosuppression and may prompt us to look for diseases like aspergillosis.
Additionally, cytology may suggest specific types of treatment approaches.
B. FECAL CHECK FOR PARASITES
C. ORAL AND FECAL CULTURE
This is a very general screen of the overall health of
the bird. In my mind, abnormal cultures usually reflect either immuno-suppression
or abnormal gastrointestinal function (versus a super infection by a specific
pathogen): Because many diseases of the bird lead to abnormal gastrointestinal
function, cultures are helpful but non-specific indicators of the overall health
of the bird.
IV. GENERAL MANAGEMENT AND RECORD KEEPING RECOMMENDATIONS
The following recommendations are general steps that will help with almost all
types of feather picking. We can get started with these steps while we are
trying to make an exact diagnosis of what is causing the feather picking. The
record keeping recommendation will help us start to journal our progress and may
eventually provide the answer.
Owners are encouraged to take the following steps:
A. DAILY BATHING
Bathing helps birds on many levels. Bathing removes bacteria, molds, and general
allergens from the feathers and reduces their presentation to the immune system.
Bathing also makes the feathers less sticky and less likely to retain there
particles. It is still debated whether fungus such as malassezia or
aspergillosis are primary pathogens of the skin or whether they are able to get
a foothold due to inflammation brought on by an allergic or hormonal response.
Nevertheless, cleaning the skin reduces the ability of these organisms to get a
foothold and colonize the epidermis. Finally, bathing often helps birds with
separation anxiety by giving them something to do during the critical first 30
minutes after the owner leaves the bird.
B. CORRECT DIETARY DEFICIENCIES
C. ELIMINATE BROAD ALLERGIC IRRITANTS
Do not expose birds to perfumes, cigarette smoke, incense, cleaning products, or
aromatics of any sort. Owners may need to wash their hands before handling
birds.
D. IMPROVE ACCESS TO UVA AND UVB LIGHT
This is likely important for calcium uptake and may be necessary for appropriate
thyroid metabolism. We may need to manage flicker associated with neon lights.
E. IGNORE FEATHER PICKING
Admonishing a bird not to pick has never cured a single feather picking bird and
can teach a bird to use feather picking as an attention getting device.
F. TREAT ALL WOUNDS
Treatment will depend on the extent and character of the wounds. Never apply
creams or salves to a bird's feathers.
G. KEEP DAILY RECORDS
Set up a journal that is easy to use. The purpose of the journal is twofold.
First, by recording events associated with feather picking, we may get clues as
to the cause. Record data such as the amount of feather picking, the time of
day, activities surrounding the feather picking, and food eaten that day. Over a
period of time patterns may become evident.
The other purpose of the journal is to determine if there is a response to
therapy. Frequently, helpful treatments are discarded because they do not
totally stop feather picking. Recording incremental changes like a decrease in
the amount of feathers mutilated may help decide what is needed for a total
cure.
V. SPECIFIC TESTS AND TRIALS
The next phase of the process is to determine what tests or trials might be
useful in defining or solving the problem. We use findings from the physical
exam, the history, and the labs to direct us to the most likely cause of the
feather picking, and then do tests to confirm or dispute our hypothesis.
Before elaborating on the specific tests and trials I would like to make a few
brief comments about tests and trials. First, the lack of abnormal findings does
not by default mean the problem is behavioral. It may mean that we as yet do not
know how to test for the condition. Second, therapeutic trials can be a valuable
diagnostic mode. A therapeutic trial means trying a drug and looking at response
to treatment. This type of test is particularly valuable where an objective test
has not been developed (e.g. allergies) or where it is difficult to develop
(behavioral problems). This modality requires careful owner observation and the
ability to differentiate partial response from no response. The weakness of this
approach is that a positive response might be due to something other than the
drug. Further, we sometimes attribute the curative effects of the drug to the
wrong cause. An example of this is a positive response to metronidazole.
Response may mean that the underlying problem was giardia, but it may also mean
that the underlying cause was an overgrowth of bacteria or inflammatory bowel
disease.
My final comment about tests is that some tests are more diagnostic than other
tests. High levels of zinc generally correspond well with zinc intoxication,
however other test results like aspergillosis serology can often be difficult to
interpret. Understanding that tests may not be absolute does not mean that we
should give up. In fact, this understanding of limitations of certain modalities
will help to give us a better long lasting solution.
The following material examines how we work up feather picking based on what we
think is the most likely cause. We will look at infectious disease, allergies,
endocrine/reproductive disease, toxins, parasites, hypothyroidism, primary skin
infection, dietary deficiencies, systemic disease, and behavioral problems. We
will discuss when we suspect each type of cause and which tests we do to rule in
or rule out that particular etiology. Sometimes it seems clear which path to
pursue; sometimes we simply start to systematically work through the most likely
causes.
A. INFECTIOUS DISEASE
Infectious causes of feather picking include PBFD, PDD, and Aspergillosis.
Psittacine Beak and Feather Disease (PBFD). The species most susceptible to PBFD
are old-world birds. We suspect PBFD when we have abnormal feather development.
Often feather development becomes increasingly abnormal with each molt. These
birds usually do not aggressively pick feathers and are usually not pruritic
(itchy). Lovebirds may have few or no feather lesions. The PBFD PCR identifies
the organism in the blood and is a sensitive and specific test of this disease.
Proventricular Dilation Disease (PDD). PDD affects all avian species. Signs
include weight loss, vomiting, passing whole seed in the droppings, and
neurological deficits. Additionally, many birds with PDD pick their feathers.
The cause of this is suspected to be either neurological or due to inadequate
absorption of essential nutrients or fatty acids. Currently a specific test for
this disease is being trialed at the University of Georgia. This test looks for
the presence of viral DNA in blood and feces and looks at antibody response.
While this test is in trial, we continue to screen for this disease with
radiographs and crop biopsies.
Aspergillosis. Systemic aspergillosis has also been implicated as a cause of
feather picking. We suspect aspergillosis in birds with respiratory
abnormalities or when a screening complete blood count (CBC) shows a high count
and monocytosis, and protein electrophoresis shows abnormal globulin patterns.
Aspergillosis can be an illusive disease to definitively diagnose. Specific
tests include antigen or antibody levels. Some fungal granulomas can be
confirmed by x-ray or endoscopy. Positive antigen or antibody results may
indicate exposure, infection, or even an allergic reaction to the organism.
Negative test results do not rule out infection as a negative bird may have an
infection with a walled off granuloma or because it is not mounting an immune
response. Treatment involves oral itraconazole, intratracheal amphotericin B
and/or nebulization with chlortrimizole.
B. ALLERGIES
In general, allergic animals respond to certain environmental proteins as if
they were pathogens. These animals mount an inappropriate immune response to
inhalants (molds, pollens, dust), to certain foods or drugs, and/or to contact
materials (wool, cotton). Some animals also seem to be sensitive to certain
aromatics. It is this inappropriate immune response that results in the signs we
call allergies. In dogs, these signs result in inflamed itchy skin often with
secondary bacterial or yeast infections. The gastrointestinal (GI) tract may
also respond to certain allergens. In cats, we may see itchy skin or we may see
an asthmatic or GI response. I suspect old-world psittacines may manifest
allergies with itchy inflamed skin, while new-world psittacines especially
amazons and pionus may be more prone to respiratory signs.
In general, I suspect that allergies may be a problem if the bird seems very
pruritic. These birds often scream or vocalize when they pick and often pick the
leggings. Allergies are also suspected if the problem seems strongly seasonal,
although some allergic animals pick year round, especially if they are allergic
to food, dust, or dust mites. Allergies are also considered if the bird has hot
spots or a surer active epidermis, especially if overgrowth of bacteria or
fungus is present. Finally, in my practice certain species, especially African
Grays seem to be pruritic, have seasonal episodes of hot spots, and respond well
to allergy medication.
We diagnose allergies in the following 4 ways: response to therapy, elimination
trials, biopsies, and inter-dermal skin tests.
Response to Therapy means we try certain anti-allergy drugs and see if they
reduce feather picking. Currently, I have best results with an antihistamine
called hydroxyzine in combination with omega 3 and 6 fatty acids (these are
anti-inflammatories). I am also investigating an antihistamine/anti-serotonin
drug called cyproheptadine. Typically, a trial lasts 4 to 8 weeks. If we get
consistent positive reproducible results, we can generally believe that
allergies are involved in the feather picking. A lack of response may mean that
the bird is not allergic or it may mean that is simply did not respond to that
particular antiinflammatory and that another drug might work. We are currently
investigating whether histamines, serotonin, or lymphocytes mediate this
response. When we understand this, we may be able to develop better drug trials.
Additionally, the response may be mediated by different pathways in different
species.
Elimination trials involve the elimination of potentially allergenic foods or
substances from the diet or environment. A true elimination diet has limited
protein sources (usually two). We try this diet for several months and look at
the response. We can gradually add new foods and see if they trigger a reaction.
An elimination diet requires a diligent owner and a cooperative bird. Several of
my clients have methodically proceeded with elimination trials and have had
excellent results. Foods often suspected of being allergenic include corn,
wheat, and most processed foods. Interestingly, in human studies nuts including
sunflower are not typically implicated as being highly allergenic. Elimination
trials can also include elimination or reduced exposure to environmental
irritants such as aromatics, cigarette smoke, or feather dust from other birds
in the household.
Skin Biopsies are sometimes taken to see what kind of cells are involved in a
lesion. When the pathologist concludes that the response is lymphocytic/plasmocytic,
we make a tentative diagnosis of a hypersensitivity or allergic response.
Intra dermal skin testing has been the standard to definitively diagnose
inhalant allergies in dogs and people. This method involves injecting the
allergen into the dermis of the skin and looking for a welt (wheal) to form
indicating a hypersensitivity to the substance. After determining which agents
cause a reaction, we make up an injectable suspension containing the agents
(allergens). The patient receives injections from this suspension on a regular
basis. This changes how the body responds to the allergens and reduces or
eliminates the allergic signs.
We are just now investigating if this technique will work in birds. Dr.Tully of
Louisiana State University and Drs. Gill and MacWhirter of Australia have both
attempted to allergy test birds. I have tested 18 birds; my findings to date are
more in harmony with the Australian veterinarians. This year we will all refine
our work. The purpose is to determine if this is a viable tool for diagnosing
allergies (I think it likely is) and to determine if allergy shots will work as
a treatment tool. My findings suggest that birds may have a type 4 or delayed
hypersensitivity reaction. This type of response is mediated by lymphocytes. If
this is true, it will help us select what therapy may best mute the response.
Some interesting notes in my study; the group consisted of 18 old-world
psittacines (cockatoos, African grays, and cockatiels). All 18 responded to
aspergillosis. Half of the birds (9) responded to dust and 8 responded to dust
mites. This is another good reason to encourage daily bathing.
C. ENDOCRINE/REPRODUCTIVE DISEASE
A likely significant cause of feather picking centers around endocrine or
reproductive disease. Spaying and neutering birds and hormonal injections seem
in many cases to cause a cessation of symptoms. Typically, birds do not breed
based on a monthly rhythm; instead they breed because a variety of stimuli are
present (see note below)
The importance of the specific stimuli vary depending
on the species but can include a nesting site, adequate food, appropriate
temperature, an increase or decrease in daylight hours, and ascendancy in the
flock. Many of our birds, instead of cycling in and out of breeding condition,
are constantly in breeding condition. This seems in some species to lead to
picking. Other conditions such as follicular cysts may lead birds to be
constantly in the prophase of breeding and may be associated with mutilation.
(Note: It is wise to consider that some treatments that seem to be effective may
be working in ways we don't understand. For instance, antihistamines may not be
treating allergies, but might instead simply be calming birds. Likewise,
hormonal preparations may be working by decreasing estrogen or testosterone, or
may in fact work by increasing endogenous steroids and thus be treating
allergies. At this point, our understanding of the physiology is still under
development.)
We suspect hormonal involvement when picking coexists with breedy type of
behavior, with some seasonal picking, when birds pick their leggings, and with
certain cases of mutilation. Specific tests that can be helpful include
estradiol and androstenedione (University of Tennessee Endocrine lab). Breeding
readiness and follicular cysts can also be suggested by radiographs and
confirmed by endoscopy.
Drugs that have seemingly been helpful in reducing feather picking associated
with reproductive behavior include the following:
Depo-Provera (medroxyprogesterone acetate) is a synthetic progesterone sometimes
used for birth control in humans. This drug is not used much anymore in birds
because of its many side effects.
HCG (human chorionic gonadatropin) is widely used and seems to have little in
the way of side effects. Practitioners report variable results with HCG. In my
hands, it is most effective with male cockatoos.
Lupron (a synthetic analog of gonadotropin-releasing hormone) works by
obliterating blood levels of estrogen or testosterone for weeks to months. This
drug is currently in its trial stages and shows some promise for mutilators.
Other drugs which may have some effects on reproductive behavior and which may
help feather picking associated with endocrine activity include a zona
pelllucida vaccine currently being investigated by Dr. Richie and cyproheptadine
(an anti-serotonin drug) which may make some birds less likely to breed because
they perceive that there are inadequate food supplies. Fluoxetine (prozac),
which has prolactin effects, has not been useful in my hands for feather
picking. However, in combination with HCG, it has worked to stop chronic egg
laying in cockatiels. Perhaps prozac may be useful when used in combination with
some other drug.
In addition to actual drug therapies, it may be useful to decrease the
environmental triggers for reproductive behavior. Where appropriate remove
perceived nesting areas, decrease daylight hours, feed a limited diet consisting
of dry food only, and minimize if possible masturbation by the bird. It is also
appropriate to use non-aggressive behavioral training to demote the bird to a
lower status level.
D. TOXINS
The primary toxin associated with feather picking is zinc. We suspect zinc as a
potential cause if there is environmental exposure to this heavy metal or if the
bird shows neurological or gastrointestinal signs (especially GI stasis and a
mildly enlarged proventriculus). A blood test will give us accurate blood levels
of zinc. Various chelators including CaEdta and DMSA are effective at removing
excess zinc from the body.
E. PARASITES
In psittacines, the ectoparasites (external parasite) primarily associated with
feather picking are biting lice. These lice are approximately 1/2 inch long and
are easily visualized by owners. In every case where I have diagnosed lice, the
owner had seen the parasite and was coming to me for confirmation. Endoparasites
(internal parasites) can also cause feather picking. The most common
endoparasite associated with feather picking is giardia. The mechanism by which
this causes feather picking is unclear, it may be an allergic response or it may
be due to malabsorption of certain essential nutrients. We screen all birds for
giardia, but do not consider this parasite to be a major cause of feather
picking.
F. HYPOTHYROIDISM
For a number of years we have suspected that birds might suffer from
hypothyroidism. In dogs, the same individuals that have skin allergies are more
likely to be hypothyroid as the same immune process causes each of these
diseases. Additionally, hypothyroidism makes the skin more likely to develop
secondary bacterial and fungal infections. We screen for hypothyroidism if skin
cytology reveals persistent bacterial and fungal overgrowth, if the bird has
overall poor feather quality, if the bird is obese, or if the bird seems to have
a delayed molt.
In birds, the T4 test to confirm hypothyroidism has not been especially
sensitive. In the distant past, almost all avian tests reported undetectable low
levels of circulating thyroxine. This did not mean that all birds were
hypothyroid. It meant we did not have a reliable test. In the last few years,
the University of Miami has increased the sensitivity of its test, so with
caution, we can use clinically their readings. New on the horizon is a new test
methodology offered by Auburn University, which promises to be even more
sensitive. Additionally, we may be able to confirm these T4 tests by doing a TSH
stimulation test.
Birds that are actually hypothyroid can be treated with oral thyroid
supplements. We typically periodically recheck thyroid levels while on the
supplement to be sure that replacement levels are adequate. Further, we do not
wish to have replacement levels that are too high. Birds that are hyperthyroid
suffer a variety of ills including possible cardiac disease.
G. PRIMARY SKIN INFECTION
Feather folliculitis and/or skin inflammation is usually secondary to other
processes (viral, allergic, hormonal, hyperthyroidism). However, it may
occasionally be a primary infection. Skin cytology and biopsies (feather
follicles and skin) may be helpful in determining if the problem is a fungal
overgrowth, bacterial infection, or a generalized inflammatory response.
H. DIETARY DEFICIENCIES
We suspect that dietary deficiencies may be causal if the owner describes a diet
with significant inadequacies or if the feathers or epithelium suggest gross
deficiencies. Although dietary problems are less common than in the past, some
feather picking still stems from an inadequate diet. Additionally, there may be
some species-specific nutritional needs that are not being met (e.g. increased
selenium needs for African species). We also find that many birds that pick seem
to have low calcium levels. It is a reasonable idea to be sure that all feather
picking birds have adequate UV light sources and perhaps some extra emphasis on
calcium rich foods in the diet. Some investigators think that extra methionine
might also be helpful.
I. SYSTEMIC DISEASE
Systemic disease is usually not a primary cause of feather picking. However, in
my practice I can specifically recall a macaw with cystic kidneys, and African
gray with heart disease, and a pionus with an aspergillosis granuloma who picked
feathers in a tightly localized region directly over the diseased organs. While
this is not common, if the bird seems systematically ill (decreased
vocalization, lethargy, fluffing) or has systemic signs (heart murmur, polyuria,
polydypsia, etc.), it is important to systematically look at the bird's organ
function. Tests that are usually helpful for this are the cbc, chemistry
profile, and x-rays. Endoscopy may also be helpful.
J. BEHAVIOR
I have long had a strong bias against behavior as the cause for feather picking.
This is due to two factors. First, it seemed that veterinarians were doing a
poor job of eliminating other disorders before they concluded that the problem
was behavioral. Typically a feather picking work-up consisted of a cbc,
chemistry profile, giardia check, and gram stain. If no disorder was discovered,
it was concluded that the problem was behavioral. However, as we have seen,
those specific tests rarely uncover much about feather picking and there have
been few specific tests that diagnose allergic or hormonal disorders. Thus,
concluding that the problem is behavioral based on negative findings on a
chemistry profile is at best premature. At worst, it might keep us from finding
the real cause of the problem.
The second reason that I chafed at a behavioral diagnosis was that we couldn't,
in a thoughtful reproducible way, determine how to help those birds whose
feather picking was truly caused by behavioral issues. However, Dr Kenneth with
some truly original work, has adapted to birds Karen Overall's behavioral scheme
for dogs and cats. What is excellent about this work is that by categorizing
behavior we can select the most appropriate therapies, tailor behavioral
modification strategies, and quantify results. To detail what this means, I will
use a client's cat as and example. The cat has an insatiable need for the owners
attention, sprays when he is anxious, follows the owner constantly when she is
at home, and wails at her bedroom door for an hour every night. We hypothesized
that this cat had separation anxiety, chose a drug (clomipramine) that is
effective for this problem, and instituted behavioral modification strategies to
reward independent behavior and ignore anxious behavior. We set up a timetable
for how long to continue the trial and used discreet criteria (time cat was
willing to spend alone, amount of spraying, length of time cat wailed at the
door) to measure progress. This is what we hope to do with birds with this
approach.
The following analytical scheme picks out certain behaviors (signs) which point
to a specific type of disorder (the behavioral diagnosis). Making a specific
behavioral diagnosis helps us to clarify the underlying causes and develop
well-targeted solutions. This list should expand as we become more sophisticated
with these concepts.
Feather Picking occurs when owner is not present. Separation anxiety is the
disorder most commonly associated with this sign. Separation anxiety is an
important issue for animals whose early life centers around a flock. Birds that
have been rehomed or improperly socialized are especially at risk. Behavioral
modification strategies center around rewarding independent play, teaching
self-calming strategies, and not rewarding anxious behavior. Since most animals
with separation anxiety act out most in the first half hour after the owner
leaves, you may wish to bathe the bird just before leaving, leave him a special
toy, or meal feed - giving the meal just as you leave. Drugs often useful on
treating separation anxiety are clomipramine and fluoxetine (prozac).
Feather picking occurs when owner is present but is not paying attention to the
bird. Attention seeking behavior is the disorder most commonly associated with
this sign. Owners frequently reinforce the feather picking by immediately
speaking to the bird and telling him not to pick. Appropriate behavioral
modification would be to ignore the behavior, act like you simply do not notice,
or actually leave the room when the bird is picking. If the feather picking is
an attention-seeking device, count on the behavior to significantly worsen when
you first begin to ignore the behavior, the bird will conclude that you simply
did not see and may amplify the behavior. Count on 200-300 episodes of ignoring
the behavior before the bird gives up. In addition to ignoring behavior you do
not want, you should reward independent behavior and teach the bird other
appropriate means to demand attention (tricks, vocalizations, etc). Neutral room
work to reinforce commands or to teach tricks is often useful. Such work teaches
the bird how to earn good attention. Further, five to ten minutes of your
undivided attention is enough to satisfy many birds. At this time, there is not
a drug that is specific for attention-seeking behavior.
The bird interrupts other behaviors to feather pick. Obsessive/compulsive
disorder (OCD) is the behavioral disorder most commonly associated with this
sign. OCD in animals manifests itself by stereotypic behavior such as cribbing
in horses, incessant tail chasing in dogs, wool chewing in cats, and certain
kinds of feather picking in birds. Some researchers feel that stereotypic
behavior distracts the animal from its anxieties; others feel that it is simply
a visual manifestation of anxiety. Another school of thought is that stereotypic
behaviors are self-stimulating and result in endorphin release. Finally, some
researchers feel that it is a manifestation of aberrant neuronal activity and
may be hereditary. drugs that have been used to deal with OCD include the
tricyclic antidepressants (esp. clomipramine), the ssri's (esp. fluoxetine or
prozac), haloperidol and naltrexane. Both pruritic birds and OCD birds will
interrupt satisfying behavior to pick. Before we can decide that a bird has OCD,
we need to rule out pruritic conditions like allergies.
The feather picking bird exhibits signs of excessive fear or stress. Fear,
phobias, or panic may be displaced and translated into picking behavior. Recall
that fear can be an adaptive appropriate response. The high level of vigilance
and instant flight response in birds is highly protective. In a wild situation,
the bird will dissipate fear-induced adrenaline by flying for a quarter of a
mile. In our lives, these birds may displace this energy by picking their
feathers. A large part of our socialization efforts are intended to get the bird
to tolerate stimuli that in the wild should provoke fear.
To behaviorally treat these birds we must remember not to reward the feather
picking with attention. We should remove objects that generate fear and/or
gradually habituate them to these objects or circumstances. We should teach the
birds self-calming techniques. Teaching birds to fly may also help to build
confidence. Patterning a variety of behaviors also prepares the bird to deal
with life with assurance. Finally, give them environmental prompts such as a
raised cage or a partially covered cage, that enhance security.
Drugs that may have some application in treating fearful of phobic behavior
include diazepam, haloperidol, clomipra-mine, and fluoxetine. A bird stressed by
a medical problem may occasionally be mistaken for a fearful or phobic bird. It
is a good idea to rule out systemic illness in these birds.
For more information on feather picking see
The Complexities
Of Feather Destructive Behavior by Sally Blanchard.
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