Primary
- Primary hyperparathyroidism is caused by glandular hyperplasia or neoplasia.
- Rare.
Secondary
- Secondary hyperparathyroidism causes fibrous osteodystrophy or "rubber jaw".
- In secondary hyperparathyroidism, the gland is overactive due to another condition coexisting in the body, rather than a primary parathyroid gland defect.
- There are two common forms of secondary hyperparathyroisism:
- Both forms result in increased osteoclastic resorption of bone and deposition of fibro-osteoid matrix that fails to mineralise.
- Flat bones of the skull swell.
- Fibrous tissue is seen around the tooth roots.
- Bone softens in adult animals.
- This is what gives rise to the term "rubber jaw".
- Long bones become soft with thin cortices.
- These fracture easily.
Nutritional Hyperparathyroidism
- Nutritional hyperparathyroidism is also known as nutritional osteodystrophy.
- This occurs most commonly in:
- Young, fast-growing animals
- Animals with a poor diet, for example:
- Swine fed unsupplemented cereal grain
- Dogs and cats fed all-meat diets
- Horses fed bran
- In this case, nutritional hyperparathyroidism is known as "bran disease".
Pathogenesis
- Pathogenesis follows low calcium/high phosphate diets.
- These lead to decreased serum calcium levels, stimulating PTH release.
- The increase in PTH gives an increase in bone resorption, causing pathology.
Pathology
- Gross
- Severe cases may show:
- Maxillary and mandibular swelling
- Teeth lost or buried in soft tissue
- Nasal and frontal bone enlargement, leading to dyspnoea
- Long bone fracture
- Detatchment tendons and ligaments
- Early or less severe cases are characterised by shifting lameness and ill thrift.
- Severe cases may show:
- Histological
- Osteoclastic resorption
- Fibrous replacement
Metabolic Bone Disease
- Metabolic bone disease affects lizards in captivity, particularly young green iguanas
- The condition is caused by:
- Dietary deficiency of calcium and vitamin D
- For example, due to poor lighting (which diminishes viatmin D production).
- Dietary excess of phosphorus
- Certain toxicities
- Diseases of the kidneys, liver or parathyroid
- This aetiology is rare
- Dietary deficiency of calcium and vitamin D
- Clinical signs include:
- Lethargy
- Inability to support weight
- Rounded skull
- Spontaneous fractures
- Adult animals also show signs of hypocalcaemia
- The skeleton shows reduced density on radiography.
Renal Hyperparathyroidism
- Renal Hyerparathyroidism is mostly seen in the dog as an expression of chronic renal disease.
Pathogenesis
- Chronic renal disease results in reduced glomerular filtration.
- As glomerular filtration is reduced, phosphate is retained. Chronic renal failure also causes inadequate vitamin D production in the kidneys.
- Hyperphosphataemia develops due to phosphate retention.
- Hypocalcaemia also occurs, as high levels of phosphate depress calcium levels.
- PTH is released in an attempt to maintain the correct blood calcium:phosphorous ratio. This can have several effects:
- Parathyroid hyperplasia
- I.e. renal secondary hyperparathyroidism.
- Soft tissue mineralisation
- Particularly seen in dogs
- Calcium is commonly deposited in the subpleural connective tissue of the intercostal spaces.
- Calcification also occurs in other sites, e.g. stomach wall, lungs, kidneys.
- Increased bone resorption
- This causes fibrous osteodystrophy, or "rubber jaw".
- Parathyroid hyperplasia
Pathology
- Pathology seen in renal hyperparathyroidism is very similar to that seen in nutritional hyperparathyroidism.
- Gross
- The major gross presentation is a fibrous osetodystrophy, or rubber jaw.
- The maxillae and mandible appear swollen.
- Radiographically, bone shows reduced density, and teeth hence appear embedded in soft tissue.
- However, only a few cases of chronic renal disease show such severe bone lesions.
- Other lesions may also be seen.
- Intercostal muscles may be calcified.
- Bone marrow lesions may cause anaemia.
- The lung may show oedema, and have calcified alveolar walls.
- The major gross presentation is a fibrous osetodystrophy, or rubber jaw.
- Histological
- Osteoclastic resorption
- Fibrous replacement
From musculoskeletal
- 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
Primary hyperparathyroidism
- This is increased production of PTH not related to calcium or phosphorus levels
- Due to parathyroid neoplasia or bilateral idiopathic parathyroid hyperplasia
- Rare
Secondary hyperparathyroidism
- 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
- Renal hyperparathyroidism
- Pathogenesis:
- Chronic renal failure
- -> Retention of phosphate (due to reduced glomerular filtration) and inadequate production of vitamin D by kidneys
- -> 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
- -> Increased bone resorption
- -> Increased PTH output
- -> Hyperphosphataemia and hypocalcaemia (high P depresses Ca)
- -> Retention of phosphate (due to reduced glomerular filtration) and inadequate production of vitamin D by kidneys
- Chronic renal failure
- 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) +/- osteomalacia
- Pathogenesis:
- 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
- -> Increased PTH
- -> Parathyroid gland stimulated (may become enlarged)
- -> Decreased calcium levels in serum
- Low calcium / high phosphate diets
- 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