Difference between revisions of "Bones Metabolic - Pathology"

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===[[Hyperparathyroidism|Hyperparathyroidism]]===
 
===[[Hyperparathyroidism|Hyperparathyroidism]]===
 
*Can arise in a number of ways but single common factor is elevated PTH
 
*Results in increased resorption of bone and replacement by fibrous connective tissue
 
 
=====<u>'''Primary hyperparathyroidism'''</u>=====
 
 
*This is increased production of PTH not related to calcium or phosphorus levels
 
*Due to parathyroid neoplasia or bilateral idiopathic parathyroid hyperplasia
 
*Rare
 
 
=====<u>'''Secondary hyperparathyroidism'''</u>=====
 
 
*Regardless of pathogenesis, the result is:
 
**Increased osteoclastic resorption of bone and deposition of fibro-osteoid matrix that fails to mineralise
 
**Flat bones of the skull swell, including maxillary and nasal bones
 
**Long bones become soft with thin cortices which fracture easily
 
[[Image:Renal osteodystrophy.jpg|right|thumb|100px|<small><center>Renal osteodystrophy (Image sourced from Bristol Biomed Image Archive with permission)</center></small>]]
 
*'''Renal hyperparathyroidism'''
 
**Pathogenesis:
 
***[[Kidney Renal Failure - Pathology#Chronic|Chronic renal failure]]
 
****-> Retention of phosphate (due to reduced glomerular filtration) and inadequate production of vitamin D by kidneys
 
*****-> [[Kidney Renal Failure - Pathology#Uraemia|Hyperphosphataemia]] and hypocalcaemia (high P depresses Ca)
 
******-> Increased PTH output
 
*******-> Increased bone resorption
 
********-> '''Fibrous osteodystrophy''' - increased osteoclastic resorption of cancellous and cortical bone + proliferation of fibrous tissue
 
**Mainly in dogs
 
**Affects whole skeleton but mainly skull
 
**Bones soft and pliable
 
**Canine teeth easily removed - rubber jaw
 
**Microscopically - ''Osteodystrophia fibrosa'' (above  = fibrous osteodystrophy) +/- [[Bones Metabolic - Pathology#Osteomalacia|osteomalacia]]
 
 
 
 
*'''Nutritional hyperparathyroidism''' (nutritional osteodystrophy)
 
**Also called '''fibrous osteodystrophy, “rubber jaw”''' or '''“bran disease”'''
 
**More common in young, fast-growing animals
 
**Pathogenesis:
 
***Low calcium / high phosphate diets
 
****-> Decreased calcium levels in serum
 
*****-> Parathyroid gland stimulated (may become enlarged)
 
******-> Increased PTH
 
*******-> Increased bone resorption
 
**Caused by poor diet
 
***Cattle and sheep - usually mild disease
 
***'''Swine''' fed un-supplemented cereal grain, usually mild disease
 
***'''Dogs/cats''' fed all-meat or offal diets (Ca:P often as high as 1:20)
 
****Few weeks after weaning
 
****Provision of calcium alone correct the problem
 
****Very brittle bones -> sponataneous fractures
 
****Extreme porosity of the whole skeleton on radioghraphs
 
***'''Horses''' fed bran
 
****Very susceptible to high phosphorus diet
 
****Any time after weaning, susceptibility declines after seventh year
 
****Early signs:
 
*****Mild changes of gait
 
*****Stiffness
 
*****Transient shifting lameness
 
****Advanced signs:
 
*****Swelling of mandible and maxilla - 'Big head'
 
*****Dyspnoea caused by swelling of nasal and frontal bones
 
*****Teeth lost or buried in softened jaw
 
*****Fractures from mild trauma
 
*****Detached tendons and ligaments
 
*****Histologically:
 
******Marked loss of bone
 
******Replacement by proliferative tissue
 
****Often called '''''Osteodystrophia fibrosa'''''
 
 
 
[[Category:Bones - Metabolic Pathology]]
 
  
  

Revision as of 18:49, 27 February 2011

Pituitary

  • Growth hormone
    • Secreted by the anterior pituitary
    • Influences the size of the skeleton and soft tissue

Pituitary dwarfism

Pituitary gigantism (Acromegaly)

Thyroid

  • Thyroid hormones affect maturation of growth of cartilage

Hypothyroidism

Hyperthyroidism

Gonadal Effect on Bones

Adrenal glands


Hyperparathyroidism

Rickets

Rickets in dog (Image sourced from Bristol Biomed Image Archive with permission)
  • Essentially the same disease as osteomalacia
  • Caused by Vitamin D and phosphorus deficiency
  • In young animals
  • Failure of:
    • Mineralisation of osteoid at sites of membranous growth
    • Cartilage vascularisation and mineralisation at sites of endochondral ossification
  • Osteoid and catilage build up at those sites
  • Histologically:
    • Lines of hypertrophic cartilage cells are lenghtened and disorganised
    • Ossification at metaphysis is poor
    • Persisting osteoid and cartilage -> shaft modelling failure
    • Thuckened physes due to normal chondrocyte proliferation but defective removal
  • Ends of bones enlarge -> club-like thickening of metaphysis + compression of epiphysis
    • Most affected:
      • Proximal humerus
      • Distal radius
      • Ulna
      • Ribs
        • Enlargement of costochondral junction - called 'rachitic rosary'
  • Weight bearing leads to:
    • Thickening of the physis and
    • Flaring of the excess matrix at the metaphysis
  • Histological lesions heal whn diet corected
  • Minor deformities correct but major deformities remain
  • Occurs after weaning because:
    • In utero and in milk - adeqaute nutrients obtained at expense of dam
  • In Foals
    • Rare - long nursing period and relatively slow rate of growth
  • In Calves and lambs
    • When diet deficeint of phosphorus and poor exposure to sunlight
  • In Puppies, Kittens and Piglets
    • Rapid growth, weaned early -> fulminating rickets if poor exposure to sunlight and lack of vitamin D in diet


Osteomalacia

  • Failure of mineralisation of osteoid / softening of the bones
  • Active resorption of bone replaced by excess osteoid on trabeculae, endosteum of cortices and Haversian canals
  • Decreased resistance to tension -> osteoid build-up at tendon insertions
  • In advanced disease
    • Bones break easily and become deformed
    • Tendons may separate from bones
  • Caused by prolonged phosphorus and Vitamin D deficiency
    • Vitamin D maintains normal plasma levels of calcium and phosphorus through acting on the intestines, bones and kidneys
  • In mature animals
  • Mainly grazing ruminants following gestation and lactation
    • Sunlight is important for production of vitamin D in the skin of ruminants
    • Vitamin d is also present in sun-dried hay
    • Mostly seen where there is long grass growing season with poor sunlight


Hypovitaminosis A

  • Vitamin A is essential for normal bone growth in foetus and neonates
  • Hypovitaminosis from dietary deficiency of dam -> teratogenic in pigs and large cats
  • More commonly, deficiency in neonates (puppies, kittens, calves, piglets) on vitamin-deficient diets
  • Dietary deficiency -> failure of osteoclastic remodelling resulting in bone overgrowth and nerve compression
  • Optic nerves particularly affected


Hypervitaminosis A

Hypervitaminosis A (Image sourced from Bristol Biomed Image Archive with permission)
  • Main lesions:
  • In cats fed bovine liver for prolonged periods
    • Rich in vitamin A in grazing animals
    • Vertebrae fuse with each other due to bone proliferation - cervical spondylosis (ankylosing exostosis of the vertebral column), especially in the neck
  • Can also be teratogenic, especially in pigs (cleft plate and abortions)


Hypervitaminosis D

  • May be of dietary or iatrogenic origin (has narrow safety margin)
  • Key features are hypercalcaemia with metastatic calcification of soft tissues
  • Acute poisoning
    • In dogs and cats often from rodenticides containing cholecalciferol
    • Grossly:
    • Microscopically:
      • Mucosal haemorrhage
      • Necrosis of crypts
      • Focal myocardial necrosis
      • Mineralisation of intestinal mucosa, blood vessel walls, lungs and kidneys
  • Chronic poisoning


Fluorine poisoning

  • F is widespread in nature
  • Pastures may be contaminated by industrial processes (e.g. brick manufacture)
  • Acute poisoning:
    • Gastroenteritis
    • Nephrosis
  • Chronic poisoning:
    • Dental abnormalities
      • Intoxication during teeth development
      • Foci of poor enamel formation - yellow, dark brown/black, chalky
      • Irregular wear of teeth, chip easily
    • Osteodystrophy = Fluorosis
      • Generalised skeletal disturbance
      • Most affected are metatarsals and mandibles
      • Periosteal hyperostosis + endosteal bone resorption -> thickened bones with enlarged marrow cavities


Lead poisoning

  • Lead can bind to mineral portion of bone and cartilage
  • In young animals ingesting large dose at once
    • -> Lead induced malfunction of osteoclasts
    • -> Transverse band of increased density on radiographs of metaphysis = "lead line" = growth retardation lattice