Balance Your Thyroid

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Balance Your Thyroid

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Title: Balance Your Thyroid

1
Simple BalanceThyroid Functionand natural
treatments
2
The Thyroid Gland and Thyroid Hormones
3
Anatomy of the Thyroid Gland
4
What does the thyroid gland do?

Controls rate at which the body produced energy
Affects the operation of all body proceses and
internal organs
Helps control body temperature by regulating heat
and energy production
In children, helps control bodys rate of growth
Exerts a profound effect on mood an emotion
Plays an important role in immune function

5
What does the thyroid gland do?

All blood in the body passes through the thyroid
gland every 17 minutes
Glands secretion of iodine kills weak germs that
may have gained entry
Strong, virulent germs are rendered weaker during
their passage
Iodine is one of the best antiseptics

6
What does the thyroid gland do?

Promotes normal oxygen use
Promotes glucose catabolism, mobilizes fats
enhances livers synthesis of cholesterol
Promotes normal development of nervous system in
fetus
Promotes normal functioning of the heart
Promotes normal muscular development and function
Promotes normal GI motility
Promotes normal female reproductive ability
Promotes normal hydration

7
Follicles the Functional Units of the Thyroid
Gland

Follicles Are the Sites Where Key Thyroid
Elements Function
Thyroglobulin (Tg)
Tyrosine
Iodine
Thyroxine (T4)
Triiodotyrosine (T3)

8
The Thyroid Produces and Secretes 2 Metabolic
Hormones

Two principal hormones
Thyroxine (T4 ) and triiodothyronine (T3)
Required for homeostasis of all cells
Influence cell differentiation, growth, and
metabolism
Considered the major metabolic hormones because
they target virtually every tissue

9
Thyroid-Stimulating Hormone (TSH)

Regulates thyroid hormone production, secretion,
and growth
Is regulated by the negative feedback action of
T4 and T3

10
Hypothalamic-Pituitary-Thyroid AxisNegative
Feedback Mechanism
11
Biosynthesis of T4 and T3

The process requires
Iodine
Selenium
Zinc

12
Iodine Sources

Available through certain foods (eg, seafood,
bread, dairy products), iodized salt, or dietary
supplements, as a trace mineral
The recommended minimum intake is 200 ?g/day
not enough for most adults this is just enough
to prevent goiter

13
Iodine

INITIAL CONSIDERATIONS
Two thyroid researchers in 1948 suggested that
more than .2mg (200 mcgs) of iodine would result
in thyroid gland suppression. This became known
as the Wolff-Chaikoff Effect.
This premise helped sell a lot of more expensive
thyroid drugs for the pharmaceutical companies
rather than the previously used inexpensive
iodine.
Further investigation of this faulty study as
well as further research has proven this concept
highly suspect. Actually, just plain wrong. (See
the footnotes for relevant resources and research
intormetion.)
For a number of reasons discussed in these
research findings available through my website,
iodine deficiency is now widespread and often
severe.
Sufficient levels of iodine are needed to achieve
whole body Iodine Sufficiency. Important to
understand is that the thyroid and many other
tissues of the body require considerably more
iodine than the RDA 145 mcgs. According to
research findings, around 13 mg/day, is needed in
the body as follows
Thyroid gland 3-6 mg of Iodine/day
Breast tissue 5mg of iodine/day with larger
breasts needing more
Combined other tissues of the body, including
adrenals, ovaries, testes, insulin receptors and
much more 2 mg of iodine/day

14
Iodine

Iodine belongs to the halogen family of elements.
Other halogens such as fluorine, chlorine and
bromine can interfere with iodine absorption
(Fluorine, Chlorine Bromine) or actively
displace it from the tissues (Bromine, a
goitrogen).
During Iodine Loading, halogen toxins will be
excreted as well as heavy metals such as mercury,
cadmium, arsenic and others.
Iodine Loading too quickly can and usually does
cause considerable and sometimes severe detox
reactions, as the halogens and heavy metals are
eliminated. These detox reactions are often
mistakenly blamed on iodism, or toxic reactions
to iodine.
Iodine Loading is best accomplished using a whole
person, whole body approach, using nutritional
synergists and not just iodine alone, as well as
finding the individual's Iodine Tolerance, and
not just using a standard one-size fits all
dose.
Patients with Hashimoto's Thyroiditis, although
iodine deficient, will not initially tolerate
Iodine Loading and must be worked with
differently. (See Hashimoto's Thyroiditis in the
Thyroid, Adrenal Blood Sugar manual)
Iodine status can initially be determined via the
Iodine Patch Test or the 24-hour urine Iodine
Loading Test. (See Iodine Testing for
specifics.)

15
Active Transport and I- Uptake by the Thyroid

Dietary iodine reaches the circulation as iodide
anion (I-)
The thyroid gland transports I- to the sites of
hormone synthesis
I- accumulation in the thyroid is an active
transport process that is stimulated by TSH

16
Hashimotos

Hashimoto's Hypothyroidism - What Are The
Treatment Options?
Eighty percent of hypothyroidism in the United
States is caused by an autoimmune disease called
Hashimoto's Hypothyroid. An autoimmune disease is
an illness that occurs when the bodies tissues
are attacked by its own immune system. With
Hashimoto's it is the thyroid gland that is under
attack.
Although, Hashimoto's Disease can cause
hyperthyroidism, it most commonly causes
hypothyroidism, which is a low thyroid state.
Typically Hashimoto's is a slow gradual immune
attack, resulting in thyroid cell death,
eventually destroying enough cells to cause
symptoms of low thyroid.
Medical management of Hashimoto's disease doesn't
change because the mechanism is autoimmune,
although it should. Replacement thyroid hormones
are still the treatment of choice. Absolutely no
attention is given to the autoimmune destruction
itself.
Focusing the clinical management on slowing and
modulating the autoimmune attack is crucial in
Hashimoto's Disease. How can you have a properly
functioning thyroid if the body is continually
attacking and killing it?
We take a functional endocrinology approach to
naturally supporting and modulating the immune
system in autoimmune cases. We do special lab
panels to measure the specifics of the immune
response. We look at inflammatory cytokines,
lymphocyte subpopulation analysis, and natural
killer cells. Natural management of autoimmune
conditions is complex. Support that is specific
to the individual immune system is essential if
you truly want to help Hashimoto's Disease.

17
Thyroperoxidase (TPO)

TPO catalyzes the oxidation steps involved in I-
activation, iodination of Tg tyrosyl residues,
and coupling of iodotyrosyl residues
TPO has binding sites for I- and tyrosine
TPO uses H2O2 as the oxidant to activate I- to
hypoiodate (OI-), the iodinating species

18
Conversion of T4 to T3 in Peripheral Tissues
19
Production of T4 and T3

T4 is the primary secretory product of the
thyroid gland, which is the only source of T4
The thyroid secretes approximately 70-90 ?g of T4
per day
T3 is derived from 2 processes
The total daily production rate of T3 is about
15-30 ?g
About 80 of circulating T3 comes from
deiodination of T4 in peripheral tissues
About 20 comes from direct thyroid secretion

20
T4 A Prohormone for T3

T4 is biologically inactive in target tissues
until converted to T3
Activation occurs with 5' iodination of the outer
ring of T4
T3 then becomes the biologically active hormone
responsible for the majority of thyroid hormone
effects

21
Sites of T4 Conversion

The liver is the major extrathyroidal T4
conversion site for production of T3
Some T4 to T3 conversion also occurs in the
kidney and other tissues

22
T4 Disposition

Normal disposition of T4
About 41 is converted to T3
38 is converted to reverse T3 (rT3), which is
metabolically inactive
21 is metabolized via other pathways, such as
conjugation in the liver and excretion in the
bile
Normal circulating concentrations
T4 4.5-11 ?g/dL
T3 60-180 ng/dL (100-fold less than T4)

23
Hormonal Transport
24
Carriers for Circulating Thyroid Hormones

More than 99 of circulating T4 and T3 is bound
to plasma carrier proteins
Thyroxine-binding globulin (TBG), binds about 75
Transthyretin (TTR), also called
thyroxine-binding prealbumin (TBPA), binds about
10-15
Albumin binds about 7
High-density lipoproteins (HDL), binds about 3
Carrier proteins can be affected by physiologic
changes, drugs, and disease

25
Free Hormone Concept

Only unbound (free) hormone has metabolic
activity and physiologic effects
Free hormone is a tiny percentage of total
hormone in plasma (about 0.03 T4 0.3 T3)
Total hormone concentration
Normally is kept proportional to the
concentration of carrier proteins
Is kept appropriate to maintain a constant free
hormone level

26
Changes in TBG Concentration Determine Binding
and Influence T4 and T3 Levels

Increased TBG
Total serum T4 and T3 levels increase
Free T4 (FT4), and free T3 (FT3) concentrations
remain unchanged
Decreased TBG
Total serum T4 and T3 levels decrease
FT4 and FT3 levels remain unchanged

27
Drugs and Conditions That Increase Serum T4 and
T3 Levels by Increasing TBG

Conditions that increase TBG
Pregnancy
Infectious/chronic active hepatitis
HIV infection
Biliary cirrhosis
Acute intermittent porphyria
Genetic factors

Drugs that increase TBG
Oral contraceptives and other sources of estrogen
Methadone
Clofibrate
5-Fluorouracil
Heroin
Tamoxifen

28
Drugs and Conditions That Decrease Serum T4 and
T3 by Decreasing TBG Levels or Binding of Hormone
to TBG

Drugs that decrease serum T4 and T3
Glucocorticoids
Androgens
L-Asparaginase
Salicylates
Mefenamic acid
Antiseizure medications, eg, phenytoin,
carbama-zepine
Furosemide

Conditions that decrease serum T4 and T3
Genetic factors
Acute and chronic illness

29
Thyroid Hormone Action
30
Thyroid Hormone Plays a Major Role in Growth and
Development

Thyroid hormone initiates or sustains
differentiation and growth
Stimulates formation of proteins, which exert
trophic effects on tissues
Is essential for normal brain development
Essential for childhood growth
Untreated congenital hypothyroidism or chronic
hypothyroidism during childhood can result in
incomplete development and mental retardation

31
Thyroid Hormones and the Central Nervous System
(CNS)

Thyroid hormones are essential for neural
development and maturation and function of the
CNS
Decreased thyroid hormone concentrations may lead
to alterations in cognitive function
Patients with hypothyroidism may develop
impairment of attention, slowed motor function,
and poor memory
Thyroid-replacement therapy may improve cognitive
function when hypothyroidism is present

32
Thyroid Hormone Influences the Female
Reproductive System

Normal thyroid hormone function is important for
reproductive function
Hypothyroidism may be associated with menstrual
disorders, infertility, risk of miscarriage, and
other complications of pregnancy

Doufas AG, et al. Ann N Y Acad Sci.
200090065-76. Glinoer D. Trends Endocrinol
Metab. 1998 9403-411. Glinoer D. Endocr Rev.
199718404-433.
33
Thyroid Hormone is Critical for Normal Bone
Growth and Development

T3 is an important regulator of skeletal
maturation at the growth plate
T3 regulates the expression of factors and other
contributors to linear growth directly in the
growth plate
T3 also may participate in osteoblast
differentiation and proliferation, and
chondrocyte maturation leading to bone
ossification

34
Thyroid Hormone Regulates Mitochondrial Activity

T3 is considered the major regulator of
mitochondrial activity
A potent T3-dependent transcription factor of the
mitochondrial genome induces early stimulation of
transcription and increases transcription factor
(TFA) expression
T3 stimulates oxygen consumption by the
mitochondria

35
Thyroid Hormones Stimulate Metabolic Activities
in Most Tissues

Thyroid hormones (specifically T3) regulate rate
of overall body metabolism
T3 increases basal metabolic rate
Calorigenic effects
T3 increases oxygen consumption by most
peripheral tissues
Increases body heat production

36
Metabolic Effects of T3

Stimulates lipolysis and release of free fatty
acids and glycerol
Induces expression of lipogenic enzymes
Effects cholesterol metabolism
Stimulates metabolism of cholesterol to bile
acids
Facilitates rapid removal of LDL from plasma
Generally stimulates all aspects of carbohydrate
metabolism and the pathway for protein degradation

37
Thyroid Disorders
38
Overview of Thyroid Disease States

Hypothyroidism
Hyperthyroidism

39
Hypothyroidism

Hypothyroidism is a disorder with
multiple causes in which the thyroid fails to
secrete an adequate amount of thyroid hormone
The most common thyroid disorder
Usually caused by primary thyroid gland failure
Also may result from diminished stimulation of
the thyroid gland by TSH

40
Hyperthyroidism

Hyperthyroidism refers to excess synthesis and
secretion of thyroid hormones by the thyroid
gland, which results in accelerated metabolism in
peripheral tissues

41
Typical Thyroid Hormone Levels in Thyroid Disease

TSH T4 T3
Hypothyroidism High Low Low
Hyperthyroidism Low High High

42
Prevalence of Thyroid Disease
The Colorado Study
At a statewide health fair in Colorado (N25
862), participants were tested for TSH and total
T4 levels

9.5 of subjects had elevated TSH most of them
had subclinical hypothyroidism (normal T4 with
TSH gt5.1 ?IU/mL)
Among the subjects already taking thyroid
medication (almost 6 of study population), 40
had abnormal TSH levels, reflecting inadequate
treatment
Among those not taking thyroid medication, 9.9
had a thyroid abnormality that was unrecognized
There may be in excess of 13 million cases of
undetected thyroid failure nationwide

Canaris GJ, et al. Arch Intern Med.
2000160523-534.
43
Prevalence of Thyroid Disease by Age

The incidence of thyroid disease increases with
age

Elevated TSH, (Age in Years)
18 25 35 45 55 65 75 Male 3 4.5 3.5 5 6 10.5 16 F
emale 4 5 6.5 9 13.5 15 21

Canaris GJ, et al. Arch Intern Med.
2000160523-534.

44
Prevalence of Thyroid Disease by Gender

Studies conducted in various communities over the
past 30 years have consistently concluded that
thyroid disease is more prevalent in women than
in men
The Whickham survey, conducted in the 1970s and
later followed-up in 1995, showed the prevalence
of undiagnosed thyrotoxicosis was 4.7 per 1000
women and 1.6 to 2.3 per 1000 men
The Framingham study data showed the incidence of
thyroid deficiency in women was 5.9 and in men,
2.3
The Colorado study concluded that the proportion
of subjects with an elevated TSH level is greater
among women than among men

45
Increasing Prevalence of Thyroid Disease in the
US Population

National Health and Nutrition Examination Surveys
(NHANES I and III)
Monitored the status of thyroid function in a
sample of individuals representing the ethnic and
geographic distribution of the US population
NHANES III measured serum TSH, total serum T4,
and thyroid antibodies to thyroglobulin (TgAb)
and to thyroperoxidase (TPOAb)
Hypothyroidism was found in 4.6 of those, 4.3
had mild thyroid failure
Hyperthyroidism was found in 1.3

46
Hypothyroidism Types

Primary hypothyroidism
From thyroid destruction
Central or secondary hypothyroidism
From deficient TSH secretion, generally due to
sellar lesions such as pituitary tumor or
craniopharyngioma
Infrequently is congenital
Central or tertiary hypothyroidism
From deficient TSH stimulation above level of
pituitaryie, lesions of pituitary stalk or
hypothalamus
Is much less common than secondary hypothyroidism

Bravernan LE, Utiger RE, eds. Werner Ingbar's
The Thyroid. 8th ed. Philadelphia, Pa Lippincott
Williams Wilkins 2000. Persani L, et al. J
Clin Endocrinol Metab. 2000 853631-3635.
47
Primary Hypothyroidism Underlying Causes

Congenital hypothyroidism
Agenesis of thyroid
Defective thyroid hormone biosynthesis due to
enzymatic defect
Thyroid tissue destruction as a result of
Chronic autoimmune (Hashimoto) thyroiditis
Radiation (usually radioactive iodine treatment
for thyrotoxicosis)
Thyroidectomy
Other infiltrative diseases of thyroid (eg,
hemochromatosis)
Drugs with antithyroid actions (eg, lithium,
iodine, iodine-containing drugs, radiographic
contrast agents, interferon alpha)
In the US, hypothyroidism is usually due to
chronic autoimmune (Hashimoto) thyroiditis

48
Clinical Features of Hypothyroidism
Tiredness
Puffy Eyes
Enlarged Thyroid (Goiter)
Forgetfulness/Slower Thinking
Moodiness/ Irritability
Hoarseness/Deepening of Voice
Depression
Persistent Dry or Sore Throat
Inability to Concentrate
Thinning Hair/Hair Loss
Difficulty Swallowing
Loss of Body Hair
Slower Heartbeat
Dry, Patchy Skin
Menstrual Irregularities/Heavy Period
Weight Gain
Infertility
Cold Intolerance
Constipation
Elevated Cholesterol
Muscle Weakness/Cramps
Family History of Thyroid Disease or Diabetes
49
Mild Thyroid Failure
50
Definition of Mild Thyroid Failure

Elevated TSH level (gt4.0 ?IU/mL)
Normal total or free serum T4 and T3 levels
Few or no signs or symptoms of hypothyroidism

McDermott MT, et al. J Clin Endocrinol Metab.
2001864585-4590. Braverman LE, Utiger RD, eds.
The Thyroid A Fundamental and Clinical Text. 8th
ed. Philadelphia, Pa Lippincott, Williams
Wilkins 20001001.
51
Causes of Mild Thyroid Failure

Exogenous factors
Levothyroxine underreplacement
Medications, such as lithium, cytokines, or
iodine-containing agents (eg, amiodarone)
Antithyroid medications
131I therapy or thyroidectomy
Endogenous factors
Previous subacute or silent thyroiditis
Hashimoto thyroiditis

Biondi B, et al. Ann Intern Med. 2002137904-914.
52
Prevalence and Incidence of Mild Thyroid Failure

Prevalence
4 to 10 in large population screening surveys
Increases with increasing age
Is more common in women than in men
Incidence
2.1 to 3.8 per year in thyroid
antibody-positive patients
0.3 per year in thyroid antibody-negative
patients

McDermott MT, et al. J Clin Endocrinol Metab.
2001864585-4590. Caraccio N, et al. J Clin
Endocrinol Metab. 2002871533-1538. Biondi B, et
al. Ann Intern Med. 2002137904-914.
53
Populations at Risk for Mild Thyroid Failure

Women
Prior history of Graves disease or postpartum
thyroid dysfunction
Elderly
Other autoimmune disease
Family history of
Thyroid disease
Pernicious anemia
Type 1 Diabetes mellitus

Caraccio N, et al. J Clin Endocrinol Metab.
2002871533-1538. Carmel R, et al. Arch Intern
Med. 19821421465-1469. Perros P, et al.
Diabetes Med. 199512622-627.
54
Mild Thyroid Failure Affects Cardiac Function

Cardiac function is subtly impaired in patients
with mild thyroid failure
Abnormalities can include
Subtle abnormalities in systolic time intervals
and myocardial contractility
Diastolic dysfunction at rest or with exercise
Reduction of exercise-related stroke volume,
cardiac index, and maximal aortic flow velocity
The clinical significance of the changes is
unclear

Mild thyroid failure has been evaluated as a
cardiovascular risk factor associated with
Increased serum levels of total cholesterol and
low-density lipoprotein cholesterol (LDL-C)
levels
Reduced high-density lipoprotein cholesterol
(HDL-C) levels
Increased prevalence of aortic atherosclerosis
Increased incidence of myocardial infarction

56
The Rotterdam Study Design and Objectives

A population-based cross-sectional cohort study
conducted in a district of Rotterdam, the
Netherlands
Cohort included 3105 men and 4878 women aged 55
and older
Thyroid status was determined from a random
sample of 1149 elderly women (mean age 69 7.5
years) selected from the study
The study's objective was to investigate whether
mild thyroid failure and thyroid autoimmunity are
associated with aortic atherosclerosis and
myocardial infarction

57
Mild Thyroid Failure Increases Risk of Myocardial
Infarction (MI)

Findings from the Rotterdam Study
Mild thyroid failure contributed to 60 of MI
cases in patients with diagnosed mild thyroid
failure, and 14 of all MI instances in the study
population
Mild thyroid failure appeared to be a strong
indicator of risk for aortic atherosclerosis and
MI in older women
Thyroid autoimmunity by itself was not associated
with aortic atherosclerosis or MI

Hak AE, et al. Ann Intern Med. 2000132270-278.
58
Mild Thyroid Failure Associated With Aortic
Atherosclerosis
Presence of Aortic Atherosclerosis
Condition Present
100
Condition Absent
Patients,
50
0
Euthyroid Women Without Antibodies to Thyroid
Peroxidase
Women With Mild Thyroid Failure
Euthyroid Women
Women With Mild Thyroid Failure and Antibodies to
Thyroid Peroxidase
Hak AE, et al. Ann Intern Med. 2000132270-278.
59
Relationship Between Thyroid Hormone and LDL
Receptors

Low-density lipoprotein (LDL) specifically binds
and transports lt1 of total circulating T4
LDL facilitates entry of T4 into cells by forming
a T4-LDL complex that is recognized by the LDL
receptor
LDL receptors are down-regulated by cholesterol
loading and up-regulated by cholesterol
deficiency
Hypothyroidism is usually accompanied by elevated
total- and LDL-cholesterol caused by increased
cholesterol synthesis

60
Colorado Study Cholesterol End Points

Treating mild thyroid failure may aid in the
treatment of hyperlipidemia and prevent
associated cardiovascularmorbidity
As TSH levels rise, cholesterol levels rise
concomitantly

Mean Cholesterol by TSH
280
Abnormal TSH
270
267
270
Euthyroid
260
250
Mean Total Cholesterol (mg/dL)
239
238
240
229
226
230
223
216
220
209
210
200
lt0.3
0.3-5.1
gt5.1-
gt10-15
gt15-20
gt20-40
gt40-60
gt60-80
gt80
10
TSH (?IU/mL)
Canaris GJ, et al. Arch Intern Med.2000160526-53
4.
61
The Rate of Progression of Mild Thyroid Failure
to Overt Hypothyroidism

Mild thyroid failure is a common disorder that
frequently progresses to overt hypothyroidism
Progression has been reported in about 3 to 18
of affected patients per year
Progression may take years or may rapidly occur
The rate is greater if TSH is higher or if there
are positive antithyroid antibodies
The rate may also be greater in patients who were
previously treated with radioiodine or surgery

62
Disorders Characterized by Hyperthyroidism
63
Signs and Symptoms of Hyperthyroidism
Hoarseness/Deepening of Voice
Nervousness/Tremor
Mental Disturbances/ Irritability
Persistent Dry or Sore Throat
Difficulty Swallowing
Difficulty Sleeping
Palpitations/Tachycardia
Bulging Eyes/Unblinking Stare/ Vision Changes
Impaired Fertility
Enlarged Thyroid (Goiter)
Weight Loss or Gain
Menstrual Irregularities/Light Period
Heat Intolerance
Increased Sweating
Frequent Bowel Movements
Sudden Paralysis
Warm, Moist Palms
Family History ofThyroid Diseaseor Diabetes
First-Trimester Miscarriage/ Excessive Vomiting
in Pregnancy
64
Hyperthyroidism Underlying Causes

Signs and symptoms can be caused by any disorder
that results in an increase in circulation of
thyroid hormone
Toxic diffuse goiter (Graves disease)
Toxic uninodular or multinodular goiter
Painful subacute thyroiditis
Silent thyroiditis
Toxic adenoma
Iodine and iodine-containing drugs and
radiographic contrast agents
Trophoblastic disease, including hydatidiform
mole
Exogenous thyroid hormone ingestion

65
Graves Disease(Toxic Diffuse Goiter)

The most common cause of hyperthyroidism
Accounts for 60 to 90 of cases
Incidence in the United States estimated at 0.02
to 0.4 of the population
Affects more females than males, especially in
the reproductive age range
Graves disease is an autoimmune disorder possibly
related to a defect in immune tolerance

66
Chronic Autoimmune Thyroiditis(Hashimoto
Thyroiditis)

Occurs when there is a severe defect in thyroid
hormone synthesis
Is a chronic inflammatory autoimmune disease
characterized by destruction of the thyroid gland
by autoantibodies against thyroglobulin,
thyroperoxidase, and other thyroid tissue
components
Patients present with hypothyroidism, painless
goiter, and other overt signs
Persons with autoimmune thyroid disease may have
other concomitant autoimmune disorders
Most commonly associated with type 1 diabetes
mellitus

67
Hashimotos

Hashimoto's Hypothyroidism - What Are The
Treatment Options?
Eighty percent of hypothyroidism in the United
States is caused by an autoimmune disease called
Hashimoto's Hypothyroid. An autoimmune disease is
an illness that occurs when the bodies tissues
are attacked by its own immune system. With
Hashimoto's it is the thyroid gland that is under
attack.
Although, Hashimoto's Disease can cause
hyperthyroidism, it most commonly causes
hypothyroidism, which is a low thyroid state.
Typically Hashimoto's is a slow gradual immune
attack, resulting in thyroid cell death,
eventually destroying enough cells to cause
symptoms of low thyroid.
Medical management of Hashimoto's disease doesn't
change because the mechanism is autoimmune,
although it should. Replacement thyroid hormones
are still the treatment of choice. Absolutely no
attention is given to the autoimmune destruction
itself.
Focusing the clinical management on slowing and
modulating the autoimmune attack is crucial in
Hashimoto's Disease. How can you have a properly
functioning thyroid if the body is continually
attacking and killing it?
We take a functional endocrinology approach to
naturally supporting and modulating the immune
system in autoimmune cases. We do special lab
panels to measure the specifics of the immune
response. We look at inflammatory cytokines,
lymphocyte subpopulation analysis, and natural
killer cells. Natural management of autoimmune
conditions is complex. Support that is specific
to the individual immune system is essential if
you truly want to help Hashimoto's Disease.

68
Thyroid Nodular Disease

Thyroid gland nodules are common in the general
population
Palpable nodules occur in approximately 5 of the
US population, mainly in women
Most thyroid nodules are benign
Less than 5 are malignant
Only 8 to 10 of patients with thyroid nodules
have thyroid cancer

69
Multinodular Goiter (MNG)

MNG is an enlarged thyroid gland containing
multiple nodules
The thyroid gland becomes more nodular with
increasing age
In MNG, nodules typically vary in size
Most MNGs are asymptomatic
MNG may be toxic or nontoxic
Toxic MNG occurs when multiple sites of
autonomous nodule hyperfunction develop,
resulting in thyrotoxicosis
Toxic MNG is more common in the elderly

70
Thyroid Carcinoma

Incidence
Thyroid carcinoma occurs relatively infrequently
compared to the common occurrence of benign
thyroid disease
Thyroid cancers account for only 0.74 of cancers
among men, and 2.3 of cancers in women in the US
The annual rate has increased nearly 50 since
1973 to approximately 18 000 cases
Thyroid carcinomas (percentage of all US cases)
Papillary (80)
Follicular (about 10)
Medullary thyroid (5-10)
Anaplastic carcinoma (1-2)
Primary thyroid lymphomas (rare)
Metastatic from other primary sites (rare)

71
Association Between Goiters, Thyroid Nodules, and
Thyroid Carcinoma

Risk factors for carcinoma associated with
presence of thyroid nodules
Solitary thyroid nodules in patients gt60 or lt30
years of age
Irradiation of the neck or face during infancy or
teenage years
Symptoms of pain or pressure (especially a change
in voice)
Solitary nodules tend to present a higher but not
significantly increased risk of cancer compared
with nodules in multinodular goiters

72
Nutrients and Formulas to Support the Thyroid

Thyroid Glandular
High quality glandular tissue contains the needed
amino acids, fatty acids, co-enzymes, and other
raw material needed to support the thyroid.
Porcine glandular tissue, as opposed to other
types of tissue such as bovine, has always been
the preferred source to support the thyroid.

73
Nutrients and Formulas to Support the Thyroid

Aswaganda Withania Somnifera
Withania Somnifera contains compounds that have
been shown to have a stimulatory impact on both
T3 and T4 hormone synthesis. It also has been
shown to reduce hepatic lipid peroxidation and
increase the activity of superoxide dismutase and
other antioxidant systems. This is important
because numerous studies have demonstrated that
feroxidation and oxidative stress significantly
alter thyroid metabolism.

74
Nutrients and Formulas to Support the Thyroid

Vitamin A and Thyroid Function
Once thyroid hormones bind to receptor sites, a
series of biochemical reactions called
intercellular transduction is initiated. This
intercellular transduction response carries the
message of binding to the nuclear receptors.
Once the nuclear receptor has been activated it
will respond by producing proteins that express
enhanced metabolic rate and energy production.
Vitamin A appears to influence thyroid hormone
nuclear receptors. Thyroid hormone nuclear
transcription activation involves vitamin
A-dependent, retinoic acid-specific receptors.

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Nutrients and Formulas to Support the Thyroid

Vitamin D and Thyroid Function
Elevated autoimmune thyroid antibodies are a very
common pattern associated with the etiology of
thyroid disorders. Vitamin D has shown to be an
effective immune modulator as well as an
effective suppressor of autoimmune disorders.
Selenium and Thyroid Function
Selenium is the major co-factor for the enzyme
5'deiodinase, which is responsible for converting
T4 into T3 as well as degrading rT3. Studies have
confirmed lower production of T3 in individuals
with lower selenium status. Numerous studies have
demonstrated increased T3 synthesis as well as
decreased reverse T3 production with selenium

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Nutrients and Formulas to Support the Thyroid

Zinc and Thyroid Function
It has been shown that low zinc status
compromises T3 production. Studies have also
demonstrated that zinc supplementation Improves
thyroi hormone production. These effects may be
due to the co-factor role zinc plays with type I
5' deiodinase. In addition zinc may playa role
in reducing thyroidal antibodies.
Commiphora Muku (Guggulu) and Thyroid Function
The guggulsterones compounds in this herb have
been shown to stimulate the synthesis of T3
hormones. They also appear to have the ability to
reduce LDL cholesterol and decrease lipid
peroxidation. Commiphora's ability to increase T3
production, its ability to reduce cholesterol,
and its antiperoxidative effects make it a very
useful herb to consider with low T3 patterns.