Endocrine bone disease

Endocrine bone disease
Classification and external resources
MeSH	D001849

An endocrine bone disease is a bone disease associated with a disorder of the endocrine system.^[1] An example is osteitis fibrosa cystica.

Introduction

Bone disease is common among the elderly individual, but adolescents can be diagnosed with this disorder as well. There are many bone disorders such as osteoporosis, Paget's disease, hypothyroidism.^[2] Although there are many forms of bone disorders, they all have one thing in common; abnormalities of specific organs involved, deficiency in vitamin D or low Calcium in diet, which results in poor bone mineralization.^[2]

Endocrine disorder

Endocrine disorder is more common in women than men, as it is associated with menstrual disorders.^[2] Thyroid, parathyroid, pituitary, adrenal and pancreases are common are part of the endocrine system and therefore are associated with bone disease.^[2] Some common endocrine disorders are hypothyroidism, hyperthyroidism, Paget’s disease,^[1] Osteoporosis, and diabetes.^[3] The thyroid gland produces thyroxin (T3, and T4) which is necessary for normal development of nervous system, it function includes: promoting growth, increasing basal metabolic rate and controls body temperature.^[3] Adequate Iodine, found in salt fish water, shrimp is necessary for the production of thyroid hormone. According to Payton R. G et al., common disorder of the thyroid gland is hypothyroidism which is common in women than men. Symptoms of hypothyroidism include cold intolerance, weight gain, fatigue, anemia, difficulty concentrating, amenorrhea, bradycardia (low heart rate) and goitre.^[2] Another hormone that is secreted by Para follicular cells of the thyroid gland is calcitonin.^[2] Calcitonin works in an antagonistic fashion with parathyroid hormone (PTH): both regulate the level of calcium in the blood.^[3] Blood calcium level is tightly regulated by these two hormones. The cells of our bone that is involved in bone formation and bone breakdown is osteoblast and osteoclast respectively. Osteoclasts are cells of bones that promote bone demineralization or bone resorption.^[3] In contrast, Osteoblast promotes calcium absorption by the bone therefore, promoting bone mineralization and formation of new bones.^[2] Thus Calcitonin activates osteoblasts, therefore decrease blood calcium levels by decreasing bone breakdown (resorption) by inhibiting osteoclast. Whereas, PTH activates osteoclast and thereby increases blood calcium. The hormone produced by the thyroid gland has big impact on bone density, blood calcium levee. Abnormalities of the thyroid gland impact bone disease such as osteoporosis, a condition that is common in women but men can be diagnosed with this silent disease as well as it mainly affects elderly individual.

In addition to thyroid gland, Vitamin D plays crucial role in absorption of calcium.^[2] In fact, Vitamin D is needed for efficient absorption of calcium and therefore proper bone health.^[2] Vitamin D is a fat-soluble vitamin, as well, it is unique because it is considered as a hormone; synthesized endogenously in the liver in form of Cholecalciferol.^[2] The endogenous inactive form of Vitamin D is Cholecalciferol or Vitamin D3 which is converted to active form of Vitamin D–Calcitriol also known as 1, 25-Dihydroxycholecalciferol in the Kidney upon exposure to UV ray of sun light.^[2] Deficiency in Vitamin D or renal disease contributes to bone disorder such as in Osteomalacia in adult and Rickets in children.^[2] Osteomalacia is the softening of bones due to poor bone mineralization which is in turn due to poor calcium absorption.^[2] Ultimately, these hormonal changes in body; such as function of thyroid, parathyroid, liver and kidney disrupts metabolic changes as well as function of specific organs, which in turn leads to condition that are not desirable such as bone disorders or other endocrine related diseases.^[3]

References

1 2 Joplin, GF (1973). "Endocrine bone disease". Proceedings of the Royal Society of Medicine. 66 (5): 447. PMC 1644927. PMID 4716299.
1 2 3 4 5 6 7 8 9 10 11 12 13 Mailhot, Geneviève; Petit, Jean-Luc; Dion, Natalie; Deschênes, Claire; Ste-Marie, Louis-Georges; Gascon-Barré, Marielle (2007). "Endocrine and bone consequences of cyclic nutritional changes in the calcium, phosphate and vitamin D status in the rat:". Bone. 41 (3): 422–36. doi:10.1016/j.bone.2007.04.199. PMID 17617234.
1 2 3 4 5 Payton, Ruth G.; Gardner, Roxane; Reynolds, Dianne (1997). "Pharmacologic considerations and management of common endocrine disorders in women". Journal of Nurse-Midwifery. 42 (3): 186–206. doi:10.1016/S0091-2182(97)00024-4. PMID 9239969.

Diseases of the endocrine system (E00–E35, 240–259)

Pancreas/
glucose
metabolism

Hypofunction	Diabetes mellitus types: type 1 type 2 MODY 1 2 3 4 5 6 complications coma angiopathy ketoacidosis nephropathy neuropathy retinopathy cardiomyopathy insulin receptor (Rabson–Mendenhall syndrome) Insulin resistance

Hyperfunction	Hypoglycemia beta cell (Hyperinsulinism) G cell (Zollinger–Ellison syndrome)

Hypothalamic/
pituitary axes

Hypothalamus

gonadotropin
- Kallmann syndrome
- Adiposogenital dystrophy
CRH (Tertiary adrenal insufficiency)
vasopressin (Neurogenic diabetes insipidus)
general (Hypothalamic hamartoma)

Pituitary

Hyperpituitarism	anterior Acromegaly Hyperprolactinaemia Pituitary ACTH hypersecretion posterior (SIADH) general (Nelson's syndrome)

Hypopituitarism	anterior Kallmann syndrome Growth hormone deficiency Hypoprolactinemia ACTH deficiency/Secondary adrenal insufficiency GnRH insensitivity FSH insensitivity LH/hCG insensitivity posterior (Neurogenic diabetes insipidus) general Empty sella syndrome Pituitary apoplexy Sheehan's syndrome Lymphocytic hypophysitis

Thyroid

Hypothyroidism	Iodine deficiency Cretinism Congenital hypothyroidism Myxedema Euthyroid sick syndrome

Hyperthyroidism	Hyperthyroxinemia Thyroid hormone resistance Familial dysalbuminemic hyperthyroxinemia Hashitoxicosis Thyrotoxicosis factitia Graves' disease

Thyroiditis	Acute infectious Subacute De Quervain's Subacute lymphocytic Autoimmune/chronic Hashimoto's Postpartum Riedel's

Goitre	Endemic goitre Toxic nodular goitre Toxic multinodular goiter Thyroid nodule

Parathyroid

Hypoparathyroidism	Hypoparathyroidism Pseudohypoparathyroidism Pseudopseudohypoparathyroidism

Hyperparathyroidism	Primary Secondary Tertiary Osteitis fibrosa cystica

Adrenal

Hyperfunction	aldosterone: Hyperaldosteronism/Primary aldosteronism Conn syndrome Bartter syndrome Glucocorticoid remediable aldosteronism AME Liddle's syndrome 17α CAH cortisol: Cushing's syndrome (Pseudo-Cushing's syndrome) sex hormones: 21α CAH 11β CAH

Hypofunction/ Adrenal insufficiency (Addison's, WF)	aldosterone: Hypoaldosteronism 21α CAH 11β CAH cortisol: CAH Lipoid 3β 11β 17α 21α sex hormones: 17α CAH

Gonads

general: Hypogonadism (Delayed puberty)
Hypergonadism
- Precocious puberty
Hypoandrogenism
Hypoestrogenism
Hyperandrogenism
Hyperestrogenism
Postorgasmic illness syndrome

Height

Multiple

Autoimmune polyendocrine syndrome multiple
- APS1
- APS2
Carcinoid syndrome
Multiple endocrine neoplasia
- 1
- 2A
- 2B
Progeria
Woodhouse-Sakati syndrome

Bone and joint disease (M80–M94, 730–733)

Bone

Inflammation

endocrine:	Osteitis fibrosa cystica Brown tumor

infection:	Osteomyelitis Sequestrum Involucrum Sesamoiditis Brodie abscess Periostitis Vertebral osteomyelitis

Metabolic

Bone resorption

Other

Joint

Chondritis	Relapsing polychondritis

Other	Tietze's syndrome

Combined

Osteochondritis

Osteochondritis dissecans

Child

leg:	hip Legg–Calvé–Perthes syndrome tibia Osgood-Schlatter disease Blount's disease foot Köhler disease Sever's disease

spine	Scheuermann’s disease

arm:	wrist Kienbock's disease elbow Panner disease

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