ME04 - Thyroid/Parathyroid

Question 1

One of the largest endocrine glands
Located below the larynx on each side of the trachea
Weighs 15 to 20g in adults

Answer 1

Thyroid Gland

Question 2

Cells seen in Thyroid Gland:

Answer 2

Follicular Cells: secrete hormones, cuboidal _(inactive) to columnar (active) _

Parafollicular Cells: Scattered among _follicular cells and in spaces between the spherical follicles which secrete calcitonin _

Question 3

Cells seen in Parathyroid Gland:

Answer 3

Chief Cells
_ Produce PTH _
_ Small, polygonal, darkly staining, abundant cells _
_ Contain lakes of glycogen giving them a water clear appearance

Oxyntic cells _
_ Function unknown _
_ Large, light staining, fewer in numbers _
_ Only present at age 6 onwards _

Question 4

Differentiate T4 from T3

Answer 4

T4 (Thymin Tetraiodothyroxin)
More half life (6 days)
More affinity for binding plasma protein
Less Binding to nuclear receptor
Onset of action is 4x slower (2 days)

T3 (Thyronine Triiodothyronine) - ACTIVE
Less half life (1 day)
Less affinity for binding plasma protein
More Binding to nuclear receptor
Onset of action is 4x faster (12 hours)

Question 5

Steps in the Synthesis of Thyroid Hormones

Answer 5

STEPS:
1. Iodide trapping
2. Formation and secretion of thyroglobulin
3. Oxidation of iodine
4. Organification of thyroglobulin
5. Storage and secretion

Question 6

_ Basal membrane of the thyroid actively pumps iodide to the cell interior (Na-I symporter)
_ Concentrates the iodide to about 30 - 250 times its concentration in the blood

Answer 6

Iodide Trapping

Question 7

What stimulates Iodide Trapping

Answer 7

TSH

Question 8

What are involved in the Formation of Thyroglobulin

Answer 8

Thyroid cell endoplasmic reticulum and Golgi apparatus synthesize the glycoprotein thyroglobulin and secrete to the follicle colloid

Question 9

Oxidation of Iodine

Answer 9

_ Conversion of iodide to nascent iodine I0 or I3
_ Promoted by peroxidase and its accompanying hydrogen
peroxide
_ Peroxidase is located in the apical membrane of the cell
or attached to it, so the iodine will be readily available
_ When peroxidase is blocked or hereditarily absent, the
rate of synthesis of thyroid hormone falls to zero

Question 10

Binding of iodine to thyroglobulin

Answer 10

Organification of Thyroglobulin

Question 11

Oxidized iodine is associated with what enzyme, which
speeds up the binding

Answer 11

Iodinase - speeds up the binding
_ Iodine binds with about 1/6 of the tyrosine molecules in
thyroglobulin

Question 12

Final Formation of Thyroxine (T4) and Triiodothyronine (T3):

Answer 12

_ successive stages of iodination of tyrosine
_ COUPLING of iodotyrosine molecules
_ may occur in a matter of minutes or even days

Question 13

Release of Hormones from Thyroid Gland

Answer 13

Apical surface of the cell sends out pseudopods to form pinocytic vesicles that engulf some colloid
Lysozymes fuse with the vesicles which have proteases that digest thyroglobulin
T4 and T3 will be in free form then diffuse to basal membrane into surrounding capillaries
T4 and T3 now enter circulation

Question 14

Fate of Thyroglobulin

Answer 14

_ About 3_4 of iodinated tyrosine will not become T3 or T4 and remain only as mono- or diiodotyrosine that are cleaved from thyroglobulin as well
_ Iodine is cleaved from these through the deiodinase enzyme, which makes all the iodine available again for hormone synthesis
_ Congenital absence of deiodinase enzyme causes iodine deficiency due to failure of recycling

Question 15

Daily Secretion of T4 and T3

Answer 15

93% of hormone released from thyroid is T4, only 7% is T3
During ensuing days, T4 is slowly deiodinated to T3 which is more readily available in the tissues
Delivery is about 35 micrograms of T3 per day

Question 16

Transport of T4 and T3 to Tissues

Answer 16

Upon entering the blood, 99% of T4 and T3 bind to transport proteins secreted by the liver:
_ Main: Thyroxine-binding globulin
_ Less: Thyroxine-binding prealbumin and albumin
_ Half of T4 is released to tissues in 6 days
Half of T3 is released to tissues in 1 day (due to lower affinity to binding proteins)
Upon entering tissues, T4 and T3 bind with intracellular proteins (T4 T3 binding)
Hormones are stored and used slowly in the next few days or weeks

Question 17

What is unique in Thyroid Hormone

Answer 17

Unique: can produce and store hormones for up to 3 months

Question 18

Thyroid Hormone forms in plasma:

Answer 18

FORMS IN PLASMA
_ Thyroxine Binding Globulin :70%
_ Transthyretin or Thyroxine Binding
Prealbumin : 20%
_ Thyroxine Binding Albumin: 10%
_ Free Thyroxine : 0.03%

Question 19

DECREASE in TBG results to:

Answer 19

Liver & kidney disease

Question 20

INCREASE in TBG results to:

Answer 20

Estrogen or pregnancy

Question 21

What happens after injection of thyroxine to the blood

Answer 21

The basal metabolic rate only increases after 2 to 3 days
Once activity begins, it lasts for 10-12 days then decreases with a half-life of 15 days

Question 22

Triiodothyronine has a latency of ___________

Answer 22

6-12 hours

Question 23

Maximal cellular activity of Thyroid Hormone

Answer 23

2-3 days

Question 24

Rationale behind the latency of Thyroid Hormones

Answer 24

Latency is due to binding to protein and their slow
release and from how these are used in the cell

Question 25

Where are Thyroid hormone receptors located?

Answer 25

In the DNA, they are nuclear receptors

Question 26

Thyroid Hormones Activate Nuclear Receptors

Answer 26

Forms a heterodimer with retinoid X receptor (RXR) on
DNA
On binding with thyroid hormones, they initiate
transcription and eventual translation into intracellular
proteins
Whole process takes about minutes to hours (explains
latency)

Question 27

IMPORTANT ACTIONS OF THYROID HORMONES

Answer 27

_ Increases O2 consumption and Basal Metabolic Rate (BMR)
_ Increases mitochondria and Na-K-ATPase pump activity
_ Stimulates carbohydrate, fat and protein metabolism
_ Increases glucose uptake, gluconeogenesis,
glycogenolysis
_ Decreases cholesterol, phospholipids and
triglycerides but increases fatty acids
_ Increases cholesterol secretion to bile and
number of liver LDL receptors
_ Increase protein synthesis
_ Needed for Growth
_ Increases requirements for vitamins
_ Increases blood flow, Cardiac Output, Heart Rate, Heart
Strength
_ Increases respiration
_ Increases gastrointestinal motility
_ Increases cerebration
_ Increases muscle vigor
_ Fine Muscle Tremors
_ Increases risk for somnolence
_ Needed for proper sexual function
_ Loss may cause loss of libido, impotence, menstrual changes

Question 28

Example how TRH and TSH levels are mediated

Answer 28

_ Cold stimulates TRH secretion&raquo_space; Increased TSH&raquo_space; Increased T4, T3
_ Excitement, Anxiety&raquo_space; Increased TSH

Question 29

What are the effects of TSH

Answer 29

Proteolysis of thyroglobulin
Activity of Iodide Pump
Iodination of Tyrosine
Size & Secretory activity of thyroid cells
No of Thyroid cells

Question 30

Typically occurs with comparatively small increases in iodine intake, in people who have thyroid abnormalities that cause the gland to function without the control of the pituitary

Answer 30

Jod-Basedow Effect
Hyperthyroidism following administration of iodine or iodide, either as a dietary supplement or as contrast medium gland to function without the control of the pituitary.
_ Does not occur in persons with normal thyroid glands, as thyroid hormone synthesis and release in normal persons is controlled by pituitary TSH secretion, which does not allow hyperthyroidism when extra iodine is ingested

Question 31

Autoregulatory phenomenon that inhibits organification in the thyroid gland (inhibition of peroxidase), the formation of thyroid hormones inside the thyroid follicle, and the release of thyroid hormones into the bloodstream.

Answer 31

Wolff-Chaikoff Effect
_ Reduction in thyroid hormone levels caused by ingestion of a large amount of iodine

_ Lasts several days (around 10 days), after which it is followed by an “escape phenomenon_o

Question 32

Resumption of normal organification of iodine and normal thyroid peroxidase function

Answer 32

Escape phenomenon

_ Due to decreased inorganic iodine concentration
secondary to down-regulation of sodium-iodide symporter (NIS) on the basolateral membrane of the thyroid follicular cell

Question 33

Differentiate Hyperthyroidism and Hypothyroidism

Answer 33

HYPERTHYROIDISM
Increased metabolic rate
Excitability, restlessness
INC appetite but with weight loss, protein wasting and muscle weakness (thyrotoxic myopathy)
Pre-tibial Myxedema (in 20% of patients)
Tachycardia, Increased cardiac output
Fine Tremors
Diarrhea

HYPOTHYROIDISM
DEC metabolic rate
Slow thought process, poor memory
Elevated plasma cholesterol and other lipids (atherosclerosis)
Fatigue, increased somnolence, Weight gain
WHOLE BODY MYXEDEMA
Prolonged relaxation phase of Deep Tendon Reflex (DTRs)
Hoarse voice
Constipation

Question 34

Autoimmune disease, anti-TSH receptor antibodies

Answer 34

Graves Disease

Question 35

Classic Triad of Grave_s Disease:

Answer 35

_ Exophthalmos
_ Goiter
_ Pre-Tibial Myxedema

Question 36

Most common cause of hyperthyroidism in those >50 y.o.`

Answer 36

Toxic Multinodular Goiter
_ Plummer_s Disease

Question 37

_ Results from congenital lack of thyroid gland, genetic defect of the thyroid gland or lack of iodine in the diet
_ Skeletal growth

Answer 37

Cretinism

Question 38

Characteristics of a person with Cretinism

Answer 38

Obese, stocky, short, large tongue

Question 39

MCC: Iodine deficiency

Answer 39

Primary Hypothyroidism

Question 40

_ Auto-immune disease presenting with increased lymphocytes and macrophages destroying the thyroid
_ Anti-Thyroglobulin, Anti-Microsomal antibodies

Answer 40

Hashimoto_s Thyroiditis

Question 41

TRH, TSH, T4 on Hyperthyroidism

Answer 41

1 Hyper 2Hyper 3Hyper
TRH Dec Dec Inc
TSH Dec Inc Inc
T4 Inc Inc Inc

Question 42

TRH, TSH, T4 on Hyporthyroidism

Answer 42

1 Hypo 2Hypo 3 Hypo
TRH Inc Inc Dec
TSH Inc Dec Dec
T4 Dec Dec Dec

Question 43

Composition of Bone

Answer 43

__ORGANIC MATRIX
_ Ground Substances (ECF + Chondroitin Sulfate + Hyaluronic Acid) Gelatinous medium _
_ Collagen Fibers _ (95% of Organic Matrix ) for TENSILE STRENGTH

__BONE SALTS _
_ Ca10(PO4)6(OH)2 _ - for COMPRESSIONAL STRENGTH _

Question 44

BODY CALCIUM Composition in the Bone

Answer 44

_ 99% as hydroxyapatite in Bone
_ 0.1% in the interstitium
_

Question 45

Free and ionized calcium is biologically active. True or False?

Answer 45

True, and this affects neurons (normal=2.4mmol/L)

Question 46

Calcium Metabolism on Positive and Negative Calcium Balance

Answer 46

__Positive calcium balance__ Calcium Intake > Calcium Excretion

__Negative calcium balance__ Calcium Intake

Question 47

Effect of PTH in Intestine

Answer 47

Indirectly INCREASES calcium and phosphate absorption by increasing Vitamin D metabolites

Question 48

Effect of Active Vitamin D Metabolites in Intestine

Answer 48

Increased Calcium and Phosphate Absorption

Question 49

Effect of PTH in Kidney

Answer 49

Decreased Calcium Excretion, Increased Phosphate Excretion

Question 50

Effect of Active Vitamin D Metabolites in Kidney

Answer 50

Increased Resorption of Ca and Phosphate but usually net increase in urinary calcium due to effects in GI tract and bone

Question 51

Effect of PTH on Bone

Answer 51

Calcium and Phosphate Resorption Increased by Continuous High Concentrations.
Low intermittent doses increase bone formation

Question 52

Effect of Active Vitamin D Metabolites on Bone

Answer 52

Direct effect is increased calcium and phosphate resorption;
Indirect effect is promoting mineralization by increasing the availability of Ca and Phosphate

Question 53

Effect of PTH on Net effect on serum levels

Answer 53

Serum calcium increased,
Serum Phosphate both decreased.

Question 54

Effect of Active Vitamin D Metabolites on Net effect on serum levels

Answer 54

Serum calcium and Phosphate both increased.

Question 55

Flow of Vitamin D Synthesis

Answer 55

Vitamin D comes from Cholesterol Starts at the Skin
Calciol (Cholecalciferol)
1st activation: Liver
Calcidiol (25 hydroxyCholecalciferol)
2nd activation: Kidney
Calcitriol (1,25 dihydroxyCholecalciferol)

Question 56

Secreted by the Parafollicular cells of the Thyroid

Answer 56

Calcitonin

Question 57

Function of Calcitonin

Answer 57

Decreases plasma calcium concentration
_ Decreases number and activity of osteoclast
_ Effects in Children > Adults

Question 58

Effects of Calcium on Parathyroid Hormone Secretion:

Answer 58

_ Magnesium effect on PTH is similar to calcium
o Hypomagnesemia stimulates PTH secretion
_ Increased phosphate forms calcium phosphate which reduces stimulation of Ca-sensitive receptors which trigger an increase in PTH

Question 59

End results of Hyperparathyroidism

Answer 59

_ Hypercalcemia
_ Hypophosphatemia

Question 60

Hyperparathyroidism due to great osteoclastic activity

Answer 60

Osteitis Fibrosa Cystica

Question 61

Osteoblast increases what enzyme in an attempt to neutralize osteoclast activity in Hyperthyroidism

Answer 61

Increases Alkaline Phosphatase

Question 62

Types of Hyperparathyroidism

Answer 62

1 _ Autonomous Secretion (Parathyroid adenoma)
2 _ Response to Normal Regulatory Stimuli (Nutrional, Renal)
3 _ Refractory Secondary | Nonsuppressible secretion after correction of metabolic abnormalities
4 _ Refractory Secondary with Hypercalcemia

Question 63

Hypocalcemia on Hypoparathyroidism

Answer 63

Hypocalcemia: interferes with normal muscle contraction and nerve conduction
_ Paresthesias
_ Tetany and Seizures
_ Possible laryngeal spasm
_ Fatigue, headaches, bone pain and insomnia, crampy
abdominal pain
_ Chvostek_s sign