Brochure on PD+

[Guest guest]

Hi all,

Ran across this on another list - it may have been here before but I

thought it was worth another look.

Bill Werre

Imitators of Parkinson’s Disease

A pamphlet prepared by

E. Riley, M.D.

Director

Movement Disorders Center

Mt. Sinai Medical Center

Cleveland, Ohio

Imitators of Parkinson’s Disease

Parkinson’s disease (PD) is a common nervous system disorder which

usually affects people around the age of 60. It causes tremor, muscle

rigidity, problems with posture and balance, and difficulty with

performing voluntary movements. This last feature (akinesia) causes the

greatest problems for most people with PD. Voluntary movements are

reduced in speed and size. Consequently, patients tend to move slowly,

their stride and handwriting get smaller and they don’t blink as often,

or swing their arms when walking. Related symptoms include a softer

voice, a lack of facial expression (the ‘masked face’), and difficulty

turning over in bed, or getting out of chairs or a car. PD typically

starts on one side of the body, and remains worse on that side as it

gradually progresses. PD involves the loss of a specific group of nerve

cells, known as the substantia nigra, which make and release a chemical

called dopamine. We usually treat PD by giving people medications that

make up for this decrease in dopamine.

Neurologist now recognize that a number of other, less common, diseases

cause many of the same problems as PD. Usually we distinguish a PD

imitator by additional features that are not found in PD (hence the name

‘Parkinson’s plus’ or ‘a-typical parkinsonian’ syndromes. However,

these differences are not always obvious, especially at the beginning.

As a result, some patients with other diseases look like they have PD at

the outset, and may do so for years. The lack of specific laboratory

tests compounds the problem, because there is no way to prove whether

someone has PD or not. Often, another disease is only suspected when a

person does not improve with treatment for PD. Recent autopsy studies

show that up to 1 of 4 people thought to have PD during life, actually

have a different disease!

One of the most important considerations in people with symptoms that

suggest PD is that some drugs can produce all the typical

characteristics of PD as a side effect. In particular, many drugs used

to treat psychiatric problems, and related drugs for stomach problems,

including metoclopramide (Reglan), can do this because they block

dopamine, mimicking the chemical effect of PD. It is crucial that a

doctor be told about all medications that a person is taking, or has

used within the last year. Another condition, which is often mistaken

for PD is essential tremor. Essential tremor (ET) usually affects both

sides from the start and only causes tremor, not the rigidity or

akinesia seen in PD. Shaking of the head is a sign of ET, not PD. ET

is usually inherited, and many people thought to have hereditary PD

actually have ET. Some people with early PD are thought, by family or

friends to have had a stroke. In truth, strokes rarely imitate PD, and

then, mainly by causing a shuffling gait.

Many other conditions may mimic PD in certain respects, but there are

three diseases which are most likely to be mistaken for true PD. They

differ from one another in important ways, but they also have features

in common. For example, they were all first described in the 1960’s,

and have names that are barely pronounceable. They are progressive

supranuclear palsy, multiple system atrophy and cortical-basal

ganglionic degeneration.

How do these imitators resemble PD?

They copy PD’s tendency to affect people in the second half of their

life, and to cause a gradual disappearance (degeneration) of specific

groups of nerve cells that are part of the motor system. In fact, all

three can involve the substantia nigra, the same part of the motor

system damaged in PD, which is why they produce many similar symptoms

and findings on the neurologic examination. They also share the

tendency to leave the rest of the brain intact, so that non-motor

functions of the nervous system, such as language, are usually

undisturbed. We do not know what triggers any of these degenerative

diseases of the brain, including PD.

The specific features that these diseases have in common are the major

features of PD: akinesia (difficulty initiating and performing

movements, and movements are reduced in speed and size), rigidity

(muscle stiffness), tremor (shaking) and disequilibrium (unsteadiness,

falling). Together we know them as parkinsonism. PD can be considered

but one cause of parkinsonism which is distinguished by special

characteristics with respect to the people it affects, the way it

evolves, the additional symptoms it causes, it’s response to medication

and the damage it does to the central nervous system.

How do they differ from PD?

Imitators of PD are less likely to cause tremor, especially the rest

tremor so common in PD. All three of these diseases lead to a loss of

balance and falling early in their course, whereas falls only occur

after many years of PD. Perhaps the most significant way in which they

differ from PD is that their response to medications which promote

dopamine within the brain, especially levodopa, is not nearly as

pronounced or sustained as in PD.

PD imitators affect parts of the brain’s motor system other than the

substantia nigra, and sometimes other systems as well. This is why they

cause additional symptoms and signs not found in PD, which is how we

usually recognize them. We are still learning how to do this accurately

and reliably.

Why is it important?

It is important for physicians to be able to sort out those people

affected by PD imitators from those with true PD. As of the writing,

there is no specific treatment for the diseases to be discussed below.

However, we are at a relatively early stage of understanding these

illnesses, and there is a great deal of research activity in this

field. If any useful remedy is going to be developed, it’s

effectiveness can be properly determined only when we are reasonably

sure the people trying it have the disease in question. As always in

medicine, a correct diagnosis allows people to avoid repeated

consultations, unnecessary laboratory tests and fruitless treatments.

It is equally important that we not enroll patients who have other

types of parkinsonism into research studies on PD, because the

information learned from them may produce misleading conclusions about

PD. For example, one of the first patients who underwent a fetal

substantia nigra transplant did not respond, suggesting the operation

might have a limited value. When the brain was examined at autopsy,

however, what was found was not PD at all, but striatonigral

degeneration (see below)

PROGRESSIVE SUPRANUCLEAR PALSY

This disease is called Steele--Olszewski syndrome in Europe,

after the 3 Toronto physicians who first recognized and reported it in

1964. The name ‘progressive supranuclear palsy’ (PSP) refers to a

characteristic disorder of eye movements which results in difficulty

looking downward or upward. This frequently causes problems with

reading, walking down stairs, or eating. Trouble with opening or

closing the eyes is also common. The eye movement disorder is the most

distinctive feature of PSP, but is not always present early on. The

most common initial symptom is loss of balance and falling. Other early

signs of PSP include a strained or soft (often whispered) voice, slurred

speech, impaired swallowing, personality changes and forgetfulness. PSP

causes more problems than PD because it damages not only general motor

centers but also directly involves areas in the brainstem (the part

connecting the brain to the spinal cord) that control eye movement,

swallowing, and the other functions that are impaired as noted above.

PSP tends to involve both sides of the body equally, unlike PD.

PSP tends to affect a slightly older age group than PD and men somewhat

more than women. Approximately 5% of people with parkinsonism with no

obvious cause will turn out to have PSP. If you would like more

information, there is a well-organized national foundation devoted to

PSP:

The Society for Progressive Supranuclear Palsy, Inc.

s Hopkins Hospital

5065 Outpatient Center

601 N. Caroline Street

Baltimore, Md 21287

MULTIPLE SYSTEM ATROPHY

The term multiple system atrophy (MSA) encompasses three variations

once thought to be separate diseases: striatonigral degeneration (SND),

olivopontocerebellar atrophy (OPCA), and Shy-Drager disease (SDD) or

syndrome (SDS). SND produces mainly or only parkinsonism, and

principally causes trouble in the form of difficulty starting or

slowness in performing voluntary movements. This form of MSA is often

only distinguished from PD by the lack of benefit that levodopa brings.

The brain areas most affected by SND are the substantia nigra and it’s

target center, hence the close resmblance of SND to PD. In SDS, there

is parkinsonism like SND along with dysfunction of the autonomic

nervous system, which governs the nervous systemís operations not

normally under conscious control such as regulation of blood pressure,

heart rate, bladder function, intestinal function, sexual function, and

sweating. Problems stemming from this aspect of MSA include

lightheadedness (due to low blood pressure), urinary retention,

incontinence and impotence. Autonomic symptoms often help to

distinguish people with MSA from those with PD. Although it is never

easy to discuss personal bodily functions, problems of this type are

vital clues to a correct diagnosis. Degeneration of the cerebellum and

brainstem due to OPCA leads to a form of incoordination known as ataxia,

as well as speech and eye movement disturbances. Any form of MSA can

also cause spasticity.

These three variations of MSA can occur in any combination. MSA tends

to start slightly younger than PD. Of the three major imitators, it is

usually the most difficult to distinguish from PD because people with

MSA mimic PD most closely, and many show at least partial improvement

from levodopa. This gives a false sense of security that patients do

have PD, since we know that almost nothing else responds consistently to

levodopa. Our ability to diagnose MSA may turn out to be the most

common of these 3 PD imitators.

The first symposium devoted exclusively to MSA took place in London,

England, in March 1997. Unfortunately, there is no national association

for MSA patients like there is for PSP, however, there is a support

group for people with Shy-Drager syndrome, with an emphasis on dealing

with the autonomic disturbances caused by MSA. They can be reached at

the following address and phone number:

Shy-Drager Syndrome Support Group

1607 Silver Ave. S.E.

Albuquerque, NM 87106

Tel: 800-SDS-4999

CORTICAL-BASAL GANGLIONIC DEGENERATION

This disease, known as corticobasal degeneration in Europe, was first

described in Boston in 1968. No further cases were reported until 1985,

but since that time cortical-basal ganglionic degeneration (CBGD) has

been recognized as another, though less common, imitator of PD. Like

PSP, it tends to occur in a slightly older population than PD. The name

derives from the fact that both the cerebral cortex (outer gray matter)

and the basal ganglia are involved in this disease. The term ‘basal

ganglia’ refers to clusters of nerve cells deep in the brain that are

components of the motor system. One of the basal ganglia is the

substantia nigra, the part of the brain that degenerates in PD. It is

also involved in CBGD, so patients have some symptoms and signs similar

to those with PD. However, the degeneration of additional parts of the

brain causes problems not usually encountered in PD, such as abnormal

limb postures (dystonia), loss of sensation of position or movement, arm

or leg jerking (myoclonus), and a peculiar disorder of voluntary

movement (apraxia) in which people’s ability to transform thoughts into

coordinated movements is impaired. Another striking manifestation of

CBGD is the alien limb phenomenon, where a person’s limb makes complex

movements without their knowledge or despite attempts to refrain from

doing so. CBGD shares with PD the tendency to involve just one side of

the body at the beginning, and remain worse on that side.

Because of a late start, comparatively less is known about CBGD than

some other PD imitators. However, we are starting to catch up. A

symposium devoted exclusively to CBGD was held in Washington, DC in

October 1995. There is no foundation yet established to serve the needs

of patients and families with CBGD.

CONCLUSION

People with a diagnosis of PD often come to see a movement disorders

specialist because they are not doing well. One of the most common

reasons is that they actually don’t have PD. Medicine is rather late in

coming to recognize and distinguish the principal imitators of PD. In

part, this is because of the nature of the nervous system.

Understanding of neruologic diseases often lags behind developments in

other medical fields because the brain is more complex than other

organs, and we have less access to it. For example, biopsy of the brain

areas involved in these diseases is usually out of the question because

it is simply too risky. Since there are no other tests available, we

can’t be entirely certain which of these diseases someone had until we

examine their brain after they die. Most of the major PD imitators can

be identified by proper autopsy studies, but during life, there is no

laboratory test that can conclusively distinguish between them.

What can you do?

Our most pressing need is simply more knowledge. Doctors don’t learn

anything new about the symptoms and other effects of a disease unless

those who live with it share their experiences with their physicians.

If you have any questions or make any new observations about your

illness, write them down so you will be sure to mention them at your

next visit. Learn as much as you can about your condition and stay

informed.

If you are asked to participate in a research study, please do so if at

all possible. Support research in other ways. Contact your elected

representatives, and insist that degenerative nervous system disorder

such as PD imitators receive their fair share of your tax dollars.

Consider making a financial donation to research organizations, either

now, or in your will.

Lastly, give the gift that could make a difference in the lives of

everyone affected by PD imitators: your brain. We learn something new

from every brain that is examined by a pathologist, and our brain may

hold a key that will unlock the answer to the problems of thousands of

other people. Grieving families usually have a difficult time coming to

grips with the issue of autopsies. Please discuss this with them now

and make your wishes known as they will not be burdened with the

responsibility of making this decision later. For maximum effect,

consider donating your brain to a ‘brain bank’ that stores brain tissue

and will distribute it to many different researchers. Active brain

banks in the U.S.A. include:

Brain Tissue Resource Center University of Miami

Mclean Hospital Brain Endowment Bank

115 Mill Street Dept. of Neurology(D4-5)

Belmont, MA 02178-9106 1501 NW 9th Ave, Room 4013

Tel: 800 BRAINBANK (272-4622) Miami, FL 33136

Tel: 800-UM-BRAIN(862-7246)

Tissue Resource Center Human Neurospecimen Bank

C/O Carol Moskowitz, RN VA Wadsworth Medical Center

The Neurological Institute 11031 Wilshire Blvd.

710 W 168th St. Los Angeles, CA 90073

New York, NY 10032-3784 Tel:

Tel:

What does the future hold?

Coping with PD imitators is often difficult. One of the drawbacks to

our relatively recent recognition of these diseases is the lack of

knowledge about how to treat them effectively. Consequently, PD

imitators usually lead to a disabled state more rapidly than PD itself,

where treatment can maintain a normal lifestyle for many years. Fatal

complications are rare in PD, but more frequent with it’s imitators.

However, the outlook is not entirely bleak. Many of the symptoms of PD

imitators can be treated individually, and various forms of supportive

care often help where medication is lacking. It is important to involve

physical therapists, occupational therapists, speech therapists and

often dietitians as soon as warranted.

There is clearly a great need for more research in this area. The good

news is that there is currently a tremendous amount of interest in PD

imitators among neurologists. It is hoped that this attention and

research activity will lead to meaningful improvements in our ability to

more accurately identify and help people with PD imitators in the near

future.

Acknowledgement:

I am indebted to Irene Litvan, M.D., Niall Quinn, M.D. and Reich,

M.D. for their helpful comments.

[Guest guest]

Good Mornin' Bill,

This is a good example of things that have been out in semi obscure places

for a long time.

If you'll notice, it still has the Support Group address as being in

Albuquerque, NM.

I wish I knew how to get this rectified on every site but it seems to be and

impossible task.

The basic information is pretty accurate and will be helpful to some

patients but I haven't any idea on how to

get the contact info. changed!

Any suggestions?

Thanks,

Don

Brochure on PD+

> Hi all,

>

> Ran across this on another list - it may have been here before but I

> thought it was worth another look.

>

> Bill Werre

>

> Imitators of Parkinson's Disease

> A pamphlet prepared by

> E. Riley, M.D.

> Director

> Movement Disorders Center

>

> Mt. Sinai Medical Center

> Cleveland, Ohio

>

>

> Imitators of Parkinson's Disease

>

> Parkinson's disease (PD) is a common nervous system disorder which

> usually affects people around the age of 60. It causes tremor, muscle

> rigidity, problems with posture and balance, and difficulty with

> performing voluntary movements. This last feature (akinesia) causes the

>

> greatest problems for most people with PD. Voluntary movements are

> reduced in speed and size. Consequently, patients tend to move slowly,

> their stride and handwriting get smaller and they don't blink as often,

> or swing their arms when walking. Related symptoms include a softer

> voice, a lack of facial expression (the 'masked face'), and difficulty

> turning over in bed, or getting out of chairs or a car. PD typically

> starts on one side of the body, and remains worse on that side as it

> gradually progresses. PD involves the loss of a specific group of nerve

>

> cells, known as the substantia nigra, which make and release a chemical

> called dopamine. We usually treat PD by giving people medications that

> make up for this decrease in dopamine.

>

> Neurologist now recognize that a number of other, less common, diseases

>

> cause many of the same problems as PD. Usually we distinguish a PD

> imitator by additional features that are not found in PD (hence the name

>

> 'Parkinson's plus' or 'a-typical parkinsonian' syndromes. However,

> these differences are not always obvious, especially at the beginning.

> As a result, some patients with other diseases look like they have PD at

>

> the outset, and may do so for years. The lack of specific laboratory

> tests compounds the problem, because there is no way to prove whether

> someone has PD or not. Often, another disease is only suspected when a

> person does not improve with treatment for PD. Recent autopsy studies

> show that up to 1 of 4 people thought to have PD during life, actually

> have a different disease!

>

> One of the most important considerations in people with symptoms that

> suggest PD is that some drugs can produce all the typical

> characteristics of PD as a side effect. In particular, many drugs used

> to treat psychiatric problems, and related drugs for stomach problems,

> including metoclopramide (Reglan), can do this because they block

> dopamine, mimicking the chemical effect of PD. It is crucial that a

> doctor be told about all medications that a person is taking, or has

> used within the last year. Another condition, which is often mistaken

> for PD is essential tremor. Essential tremor (ET) usually affects both

> sides from the start and only causes tremor, not the rigidity or

> akinesia seen in PD. Shaking of the head is a sign of ET, not PD. ET

> is usually inherited, and many people thought to have hereditary PD

> actually have ET. Some people with early PD are thought, by family or

> friends to have had a stroke. In truth, strokes rarely imitate PD, and

> then, mainly by causing a shuffling gait.

>

> Many other conditions may mimic PD in certain respects, but there are

> three diseases which are most likely to be mistaken for true PD. They

> differ from one another in important ways, but they also have features

> in common. For example, they were all first described in the 1960's,

> and have names that are barely pronounceable. They are progressive

> supranuclear palsy, multiple system atrophy and cortical-basal

> ganglionic degeneration.

>

> How do these imitators resemble PD?

>

> They copy PD's tendency to affect people in the second half of their

> life, and to cause a gradual disappearance (degeneration) of specific

> groups of nerve cells that are part of the motor system. In fact, all

> three can involve the substantia nigra, the same part of the motor

> system damaged in PD, which is why they produce many similar symptoms

> and findings on the neurologic examination. They also share the

> tendency to leave the rest of the brain intact, so that non-motor

> functions of the nervous system, such as language, are usually

> undisturbed. We do not know what triggers any of these degenerative

> diseases of the brain, including PD.

>

> The specific features that these diseases have in common are the major

> features of PD: akinesia (difficulty initiating and performing

> movements, and movements are reduced in speed and size), rigidity

> (muscle stiffness), tremor (shaking) and disequilibrium (unsteadiness,

> falling). Together we know them as parkinsonism. PD can be considered

> but one cause of parkinsonism which is distinguished by special

> characteristics with respect to the people it affects, the way it

> evolves, the additional symptoms it causes, it's response to medication

> and the damage it does to the central nervous system.

>

>

> How do they differ from PD?

>

> Imitators of PD are less likely to cause tremor, especially the rest

> tremor so common in PD. All three of these diseases lead to a loss of

> balance and falling early in their course, whereas falls only occur

> after many years of PD. Perhaps the most significant way in which they

> differ from PD is that their response to medications which promote

> dopamine within the brain, especially levodopa, is not nearly as

> pronounced or sustained as in PD.

>

> PD imitators affect parts of the brain's motor system other than the

> substantia nigra, and sometimes other systems as well. This is why they

>

> cause additional symptoms and signs not found in PD, which is how we

> usually recognize them. We are still learning how to do this accurately

>

> and reliably.

>

>

> Why is it important?

>

> It is important for physicians to be able to sort out those people

> affected by PD imitators from those with true PD. As of the writing,

> there is no specific treatment for the diseases to be discussed below.

> However, we are at a relatively early stage of understanding these

> illnesses, and there is a great deal of research activity in this

> field. If any useful remedy is going to be developed, it's

> effectiveness can be properly determined only when we are reasonably

> sure the people trying it have the disease in question. As always in

> medicine, a correct diagnosis allows people to avoid repeated

> consultations, unnecessary laboratory tests and fruitless treatments.

>

> It is equally important that we not enroll patients who have other

> types of parkinsonism into research studies on PD, because the

> information learned from them may produce misleading conclusions about

> PD. For example, one of the first patients who underwent a fetal

> substantia nigra transplant did not respond, suggesting the operation

> might have a limited value. When the brain was examined at autopsy,

> however, what was found was not PD at all, but striatonigral

> degeneration (see below)

>

> PROGRESSIVE SUPRANUCLEAR PALSY

>

> This disease is called Steele--Olszewski syndrome in Europe,

> after the 3 Toronto physicians who first recognized and reported it in

> 1964. The name 'progressive supranuclear palsy' (PSP) refers to a

> characteristic disorder of eye movements which results in difficulty

> looking downward or upward. This frequently causes problems with

> reading, walking down stairs, or eating. Trouble with opening or

> closing the eyes is also common. The eye movement disorder is the most

> distinctive feature of PSP, but is not always present early on. The

> most common initial symptom is loss of balance and falling. Other early

>

> signs of PSP include a strained or soft (often whispered) voice, slurred

>

> speech, impaired swallowing, personality changes and forgetfulness. PSP

>

> causes more problems than PD because it damages not only general motor

> centers but also directly involves areas in the brainstem (the part

> connecting the brain to the spinal cord) that control eye movement,

> swallowing, and the other functions that are impaired as noted above.

> PSP tends to involve both sides of the body equally, unlike PD.

>

> PSP tends to affect a slightly older age group than PD and men somewhat

> more than women. Approximately 5% of people with parkinsonism with no

> obvious cause will turn out to have PSP. If you would like more

> information, there is a well-organized national foundation devoted to

> PSP:

>

> The Society for Progressive Supranuclear Palsy, Inc.

> s Hopkins Hospital

> 5065 Outpatient Center

> 601 N. Caroline Street

> Baltimore, Md 21287

>

>

> MULTIPLE SYSTEM ATROPHY

>

> The term multiple system atrophy (MSA) encompasses three variations

> once thought to be separate diseases: striatonigral degeneration (SND),

>

> olivopontocerebellar atrophy (OPCA), and Shy-Drager disease (SDD) or

> syndrome (SDS). SND produces mainly or only parkinsonism, and

> principally causes trouble in the form of difficulty starting or

> slowness in performing voluntary movements. This form of MSA is often

> only distinguished from PD by the lack of benefit that levodopa brings.

> The brain areas most affected by SND are the substantia nigra and it's

> target center, hence the close resmblance of SND to PD. In SDS, there

> is parkinsonism like SND along with dysfunction of the autonomic

> nervous system, which governs the nervous systemís operations not

> normally under conscious control such as regulation of blood pressure,

> heart rate, bladder function, intestinal function, sexual function, and

> sweating. Problems stemming from this aspect of MSA include

> lightheadedness (due to low blood pressure), urinary retention,

> incontinence and impotence. Autonomic symptoms often help to

> distinguish people with MSA from those with PD. Although it is never

> easy to discuss personal bodily functions, problems of this type are

> vital clues to a correct diagnosis. Degeneration of the cerebellum and

> brainstem due to OPCA leads to a form of incoordination known as ataxia,

>

> as well as speech and eye movement disturbances. Any form of MSA can

> also cause spasticity.

>

> These three variations of MSA can occur in any combination. MSA tends

> to start slightly younger than PD. Of the three major imitators, it is

> usually the most difficult to distinguish from PD because people with

> MSA mimic PD most closely, and many show at least partial improvement

> from levodopa. This gives a false sense of security that patients do

> have PD, since we know that almost nothing else responds consistently to

>

> levodopa. Our ability to diagnose MSA may turn out to be the most

> common of these 3 PD imitators.

>

> The first symposium devoted exclusively to MSA took place in London,

> England, in March 1997. Unfortunately, there is no national association

>

> for MSA patients like there is for PSP, however, there is a support

> group for people with Shy-Drager syndrome, with an emphasis on dealing

> with the autonomic disturbances caused by MSA. They can be reached at

> the following address and phone number:

>

> Shy-Drager Syndrome Support Group

> 1607 Silver Ave. S.E.

> Albuquerque, NM 87106

> Tel: 800-SDS-4999

>

>

> CORTICAL-BASAL GANGLIONIC DEGENERATION

>

> This disease, known as corticobasal degeneration in Europe, was first

> described in Boston in 1968. No further cases were reported until 1985,

>

> but since that time cortical-basal ganglionic degeneration (CBGD) has

> been recognized as another, though less common, imitator of PD. Like

> PSP, it tends to occur in a slightly older population than PD. The name

>

> derives from the fact that both the cerebral cortex (outer gray matter)

> and the basal ganglia are involved in this disease. The term 'basal

> ganglia' refers to clusters of nerve cells deep in the brain that are

> components of the motor system. One of the basal ganglia is the

> substantia nigra, the part of the brain that degenerates in PD. It is

> also involved in CBGD, so patients have some symptoms and signs similar

> to those with PD. However, the degeneration of additional parts of the

> brain causes problems not usually encountered in PD, such as abnormal

> limb postures (dystonia), loss of sensation of position or movement, arm

>

> or leg jerking (myoclonus), and a peculiar disorder of voluntary

> movement (apraxia) in which people's ability to transform thoughts into

> coordinated movements is impaired. Another striking manifestation of

> CBGD is the alien limb phenomenon, where a person's limb makes complex

> movements without their knowledge or despite attempts to refrain from

> doing so. CBGD shares with PD the tendency to involve just one side of

> the body at the beginning, and remain worse on that side.

>

> Because of a late start, comparatively less is known about CBGD than

> some other PD imitators. However, we are starting to catch up. A

> symposium devoted exclusively to CBGD was held in Washington, DC in

> October 1995. There is no foundation yet established to serve the needs

>

> of patients and families with CBGD.

>

>

> CONCLUSION

>

> People with a diagnosis of PD often come to see a movement disorders

> specialist because they are not doing well. One of the most common

> reasons is that they actually don't have PD. Medicine is rather late in

>

> coming to recognize and distinguish the principal imitators of PD. In

> part, this is because of the nature of the nervous system.

> Understanding of neruologic diseases often lags behind developments in

> other medical fields because the brain is more complex than other

> organs, and we have less access to it. For example, biopsy of the brain

>

> areas involved in these diseases is usually out of the question because

> it is simply too risky. Since there are no other tests available, we

> can't be entirely certain which of these diseases someone had until we

> examine their brain after they die. Most of the major PD imitators can

> be identified by proper autopsy studies, but during life, there is no

> laboratory test that can conclusively distinguish between them.

> What can you do?

>

> Our most pressing need is simply more knowledge. Doctors don't learn

> anything new about the symptoms and other effects of a disease unless

> those who live with it share their experiences with their physicians.

> If you have any questions or make any new observations about your

> illness, write them down so you will be sure to mention them at your

> next visit. Learn as much as you can about your condition and stay

> informed.

>

> If you are asked to participate in a research study, please do so if at

>

> all possible. Support research in other ways. Contact your elected

> representatives, and insist that degenerative nervous system disorder

> such as PD imitators receive their fair share of your tax dollars.

> Consider making a financial donation to research organizations, either

> now, or in your will.

>

> Lastly, give the gift that could make a difference in the lives of

> everyone affected by PD imitators: your brain. We learn something new

> from every brain that is examined by a pathologist, and our brain may

> hold a key that will unlock the answer to the problems of thousands of

> other people. Grieving families usually have a difficult time coming to

>

> grips with the issue of autopsies. Please discuss this with them now

> and make your wishes known as they will not be burdened with the

> responsibility of making this decision later. For maximum effect,

> consider donating your brain to a 'brain bank' that stores brain tissue

> and will distribute it to many different researchers. Active brain

> banks in the U.S.A. include:

>

> Brain Tissue Resource Center University of Miami

> Mclean Hospital Brain Endowment Bank

> 115 Mill Street Dept. of Neurology(D4-5)

> Belmont, MA 02178-9106 1501 NW 9th Ave, Room 4013

> Tel: 800 BRAINBANK (272-4622) Miami, FL 33136

> Tel: 800-UM-BRAIN(862-7246)

>

>

> Tissue Resource Center Human Neurospecimen Bank

> C/O Carol Moskowitz, RN VA Wadsworth Medical Center

> The Neurological Institute 11031 Wilshire Blvd.

> 710 W 168th St. Los Angeles, CA 90073

> New York, NY 10032-3784 Tel:

> Tel:

>

>

> What does the future hold?

>

> Coping with PD imitators is often difficult. One of the drawbacks to

> our relatively recent recognition of these diseases is the lack of

> knowledge about how to treat them effectively. Consequently, PD

> imitators usually lead to a disabled state more rapidly than PD itself,

> where treatment can maintain a normal lifestyle for many years. Fatal

> complications are rare in PD, but more frequent with it's imitators.

> However, the outlook is not entirely bleak. Many of the symptoms of PD

> imitators can be treated individually, and various forms of supportive

> care often help where medication is lacking. It is important to involve

>

> physical therapists, occupational therapists, speech therapists and

> often dietitians as soon as warranted.

>

> There is clearly a great need for more research in this area. The good

>

> news is that there is currently a tremendous amount of interest in PD

> imitators among neurologists. It is hoped that this attention and

> research activity will lead to meaningful improvements in our ability to

>

> more accurately identify and help people with PD imitators in the near

> future.

>

> Acknowledgement:

>

> I am indebted to Irene Litvan, M.D., Niall Quinn, M.D. and Reich,

>

> M.D. for their helpful comments.

>

>

>

>

>

>

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