Difference between revisions of "Chronic Renal Failure"
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==Introduction== | ==Introduction== | ||
− | + | Chronic renal failure is the end result of persistent, chronic renal disease - it is usually irreversible and involves the gradual and progressive loss of nephrons. Clinical signs include polyuria/polydypsia (PUPD) and uraemia, and blood sample analysis shows azotaemia, non-regenerative anaemia and hyperphosphataemia. Often presented as 'end stage kidney' disease, on gross pathology kidneys are shrunken, fibrosed, pale and firm. | |
==Signalment== | ==Signalment== | ||
− | Chronic kidney disease is most common in | + | Chronic kidney disease is most common in geriatric cats. It can also occur in younger cats, but in these cases there tends to be an underlying intrinsic cause such as pyelonephritis, FIP, lymphoma, hypercalcaemia, polycystic kidney disease, amyloidosis, obstructive disease, glomerulonephritis, toxins or acute renal failure. It can also occur in the dog in one of the following three presentations; young dogs with heritable or breed associated disease; geriatric dogs suffering from chronic kidney disease; and dogs presenting with proteinurea or nephrotic syndrome at any age. Disease in this final group of dogs can be caused by a number of things such as pyelonephritis, leptospirosis, hypercalcaemic nephropathy, neoplasia, amyloidosis, obstructive disease, glomerulonephritis, toxins or acute renal failure. |
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− | It can also occur in the | ||
==Clinical Signs== | ==Clinical Signs== | ||
− | + | For renal failure to be classed as chronic, clinical signs should be of two weeks or more duration: | |
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− | For renal failure to be classed as chronic, clinical signs should be of | ||
− | * | + | * Polyuria and polydipsia |
− | * | + | * Anorexia |
− | * | + | * Weight loss |
− | * | + | * Blindness/hyphema - related to hypertension |
− | * | + | * Dehydration |
− | * | + | * Constipation |
− | * | + | * Endstage uraemia with clinical signs include oral ulceration and characteristic uraemic breath |
Following physical exam and basic diagnostics the following features may be evident: | Following physical exam and basic diagnostics the following features may be evident: | ||
− | * | + | * Small kidneys |
− | * | + | * Pale mucous membranes |
− | * | + | * Rubber jaw (fairly rare) |
− | * | + | * Cervical ventroflexion due to hypokalaemia |
− | * | + | * Hypertensive retinopathy |
− | * | + | * Hypoproteinaemia |
+ | |||
+ | ==Diagnosis== | ||
+ | Depending on the clinical presentation and the wishes of the owner, a full work-up to diagnose an underlying cause may not be necessary. If the cause for nephron dysfunction is pursued haemotology, biochemistry and urinalysis should be performed as standard. Additionally imaging of the urinary system by ultrasound or radiography can be performed. Finally, renal biopsy may be indicated, especially in the cases where a lesion has been identified. However these often fail to provide a conclusive diagnosis. | ||
− | + | The '''IRIS (International Renal Insufficiency Society) Staging System''' is a system based on creatinine values, which are an approximately equal to the Glomerular Filtration Rate (GFR): | |
− | + | (I) Non-azotaemic but some palpable and functional renal abnormalities. Creatinine <125 in dogs/<140 in cats | |
− | |||
− | + | (II) Non/mildly azotaemic with absent/mild clinical signs. Creatinine 125-250 in dogs/140-250 in cats | |
− | + | (III) Mild/moderate azotaemia with or without uraemia. Creatinine 181-440 in dogs/250-440 in cats | |
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− | + | (IV) Creatinine levels of > 440 with or without signs of uraemia | |
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− | Renal failure can also be classed according to | + | Renal failure can also be classed according to protein:creatinine ratios and blood pressure readings. |
==Management== | ==Management== | ||
− | (1) | + | (1) Search for an underlying cause - this may only be appropriate in young cats, cats with enlarged kidneys and in dogs. Otherwise it is very likely to be tubulointerstitial nephritis which is very common in elderly cats. |
− | (2) | + | (2) Control any factors important in disease progression - these are normally self perpetuating. |
− | (3) | + | (3) Control factors that increase patient morbidity and quality of life, these are mainly complications of the 'uraemic syndrome'. |
==Maladaptive mechanisms== | ==Maladaptive mechanisms== | ||
− | + | ||
+ | ===Secondary renal hyperparathyroidism=== | ||
− | + | A reduction in the number of nephrons causes a reduction in the excretion of phosphate. As the level of phosphate in the body increases, parathyroid hormone (PTH) is stimulated. Over time this causes parathyroid gland hypertrophy and further increases in PTH secretion. This causes the release of calcium and phosphorous from the bones and deposition of these minerals in soft tissue. The end result is mineralisation of soft tissues and loss of bone density (rubber jaw). | |
− | A reduction in the number of nephrons causes a reduction in the excretion of phosphate. As the level of phosphate in the body increases, | ||
− | Increased levels of phosphate in the plasma increase | + | Increased levels of phosphate in the plasma increase parathyroid hormone release by direct action, mass action and by inhibition of renal tubular production of calcitriol. |
− | === | + | ====Treatment==== |
− | + | * Feeding of a phosphate restricted diet (Renal Care Diet) - proven to extend lifespan | |
+ | * Addition of intestinal phosphate binders such as aluminium hydroxide to food | ||
− | === | + | ===Uraemic syndrome=== |
− | + | The uraemic syndrome is the clinical signs associated with azotaemia. | |
− | === | + | ====Treatment==== |
− | + | Feeding of a protein restricted diet (Renal Care Diet) as this reduces the amount of uraemic toxins produces, improving the quality of life of the animal. The disadvantage of this that the diet is unpalatable so in an anorexic cat this may not be appropriate. It si better to have a cat eating on a high protein diet that have a cat anorexic on a low protein diet. It is suggested that the cat be started on the diet whislt it is feeling systemically well, rather than introducing it when the effects of CRF make it less likely to eat. | |
− | === | + | ===Hyperkalaemia/Hypokalaemia=== |
− | + | Hyperkalaemia normally occurs in cases of acute renal failure, but may also occur in endstage CRF, especially the animal is treated with ACE-inhibitors. Hypokalaemia can also occur, this may be caused by mineral deficiency in the diet and poor appetite. | |
− | + | ====Treatment==== | |
+ | In cases of hypokalaemia potassium supplement s may be given in food, however they are quite unpalatable so this may be difficult. Following treatment appetite and muscle strength should improve. | ||
− | + | ===Metabolic Acidosis=== | |
− | + | This is common is cases that have acutely decompensated, and can be diagnosed by measuring bicarbonate levels in the plasma. | |
− | |||
− | + | ====Treatment==== | |
+ | Immedite treatment is with IVFT, with a product containing low levels of bicarbonate such as Hartmanns. Longterm an alkali dietary supplements can be fed. | ||
− | + | ===Anaemia=== | |
+ | Several factors contribute to anaemia in Chronic Renal failure: | ||
− | + | (1) Low levels of Erythropoetin (as it is produced in the kidney) - this is the most significant cause and the limiting factor in the cats recovery from the anaemia | |
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− | + | (2) Decreased lifespan of red blood cells | |
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− | + | (3) Blood loss through regular blood sampling, surgical procedures and GI ulceration | |
− | |||
− | + | (4) Iron deficiency | |
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− | + | (5) Inhibition of erythropoesis by uraemic inhibition | |
− | + | ====Treatment==== | |
+ | Therapy should be aimed at reducing blood loss and increasing RBC production where appropriate. Iron supplementation should be given. A specific therapy for low erythropoetin levels is the administration of recombinant human erythropoetin. However it is expensive and cross reactions are common (occuring at any point during the treatment course). Therefore its use should be carefully considered, and it should not be used unless the animal is demonstrating clear clinical signs associated with anaemia. Darbepoetin is an alternative with potentially fewer side-effects. | ||
− | + | ===Urinary Tract Infection=== | |
− | + | These are very common in CRF cases. It can cause decompensation and a worsening of clinical signs. In some cases it may develop into pyelonephritis, ultimately causing progression of disease. In cats the most common causative organism is ''E. coli''. The main reason for treatment is to improve quality of life. | |
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− | == | + | ====Treatment==== |
− | + | Patients with chronic kidney disease should be monitored for UTI's - ideally cystocentesis should be performed at the time of each blood test. Treatment should be with an appropriate antibiotic and the animal should be encouraged to drink. | |
− | + | ===Dehydration=== | |
+ | Dehydration results in the development of prerenal azotaemia. | ||
− | + | ====Treatment==== | |
+ | Fluids should be administered by; promoting oral intake; subcutaneous fluid administration; IVFT; or by oesophageal tube. | ||
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[[Category:Renal Failure]] | [[Category:Renal Failure]] | ||
− | [[Category: | + | [[Category:To Do - Urinary]] |
− | [[Category: | + | [[Category: To Do - Siobhan Brade]] |
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Revision as of 12:43, 9 August 2011
Introduction
Chronic renal failure is the end result of persistent, chronic renal disease - it is usually irreversible and involves the gradual and progressive loss of nephrons. Clinical signs include polyuria/polydypsia (PUPD) and uraemia, and blood sample analysis shows azotaemia, non-regenerative anaemia and hyperphosphataemia. Often presented as 'end stage kidney' disease, on gross pathology kidneys are shrunken, fibrosed, pale and firm.
Signalment
Chronic kidney disease is most common in geriatric cats. It can also occur in younger cats, but in these cases there tends to be an underlying intrinsic cause such as pyelonephritis, FIP, lymphoma, hypercalcaemia, polycystic kidney disease, amyloidosis, obstructive disease, glomerulonephritis, toxins or acute renal failure. It can also occur in the dog in one of the following three presentations; young dogs with heritable or breed associated disease; geriatric dogs suffering from chronic kidney disease; and dogs presenting with proteinurea or nephrotic syndrome at any age. Disease in this final group of dogs can be caused by a number of things such as pyelonephritis, leptospirosis, hypercalcaemic nephropathy, neoplasia, amyloidosis, obstructive disease, glomerulonephritis, toxins or acute renal failure.
Clinical Signs
For renal failure to be classed as chronic, clinical signs should be of two weeks or more duration:
- Polyuria and polydipsia
- Anorexia
- Weight loss
- Blindness/hyphema - related to hypertension
- Dehydration
- Constipation
- Endstage uraemia with clinical signs include oral ulceration and characteristic uraemic breath
Following physical exam and basic diagnostics the following features may be evident:
- Small kidneys
- Pale mucous membranes
- Rubber jaw (fairly rare)
- Cervical ventroflexion due to hypokalaemia
- Hypertensive retinopathy
- Hypoproteinaemia
Diagnosis
Depending on the clinical presentation and the wishes of the owner, a full work-up to diagnose an underlying cause may not be necessary. If the cause for nephron dysfunction is pursued haemotology, biochemistry and urinalysis should be performed as standard. Additionally imaging of the urinary system by ultrasound or radiography can be performed. Finally, renal biopsy may be indicated, especially in the cases where a lesion has been identified. However these often fail to provide a conclusive diagnosis.
The IRIS (International Renal Insufficiency Society) Staging System is a system based on creatinine values, which are an approximately equal to the Glomerular Filtration Rate (GFR):
(I) Non-azotaemic but some palpable and functional renal abnormalities. Creatinine <125 in dogs/<140 in cats
(II) Non/mildly azotaemic with absent/mild clinical signs. Creatinine 125-250 in dogs/140-250 in cats
(III) Mild/moderate azotaemia with or without uraemia. Creatinine 181-440 in dogs/250-440 in cats
(IV) Creatinine levels of > 440 with or without signs of uraemia
Renal failure can also be classed according to protein:creatinine ratios and blood pressure readings.
Management
(1) Search for an underlying cause - this may only be appropriate in young cats, cats with enlarged kidneys and in dogs. Otherwise it is very likely to be tubulointerstitial nephritis which is very common in elderly cats.
(2) Control any factors important in disease progression - these are normally self perpetuating.
(3) Control factors that increase patient morbidity and quality of life, these are mainly complications of the 'uraemic syndrome'.
Maladaptive mechanisms
Secondary renal hyperparathyroidism
A reduction in the number of nephrons causes a reduction in the excretion of phosphate. As the level of phosphate in the body increases, parathyroid hormone (PTH) is stimulated. Over time this causes parathyroid gland hypertrophy and further increases in PTH secretion. This causes the release of calcium and phosphorous from the bones and deposition of these minerals in soft tissue. The end result is mineralisation of soft tissues and loss of bone density (rubber jaw).
Increased levels of phosphate in the plasma increase parathyroid hormone release by direct action, mass action and by inhibition of renal tubular production of calcitriol.
Treatment
- Feeding of a phosphate restricted diet (Renal Care Diet) - proven to extend lifespan
- Addition of intestinal phosphate binders such as aluminium hydroxide to food
Uraemic syndrome
The uraemic syndrome is the clinical signs associated with azotaemia.
Treatment
Feeding of a protein restricted diet (Renal Care Diet) as this reduces the amount of uraemic toxins produces, improving the quality of life of the animal. The disadvantage of this that the diet is unpalatable so in an anorexic cat this may not be appropriate. It si better to have a cat eating on a high protein diet that have a cat anorexic on a low protein diet. It is suggested that the cat be started on the diet whislt it is feeling systemically well, rather than introducing it when the effects of CRF make it less likely to eat.
Hyperkalaemia/Hypokalaemia
Hyperkalaemia normally occurs in cases of acute renal failure, but may also occur in endstage CRF, especially the animal is treated with ACE-inhibitors. Hypokalaemia can also occur, this may be caused by mineral deficiency in the diet and poor appetite.
Treatment
In cases of hypokalaemia potassium supplement s may be given in food, however they are quite unpalatable so this may be difficult. Following treatment appetite and muscle strength should improve.
Metabolic Acidosis
This is common is cases that have acutely decompensated, and can be diagnosed by measuring bicarbonate levels in the plasma.
Treatment
Immedite treatment is with IVFT, with a product containing low levels of bicarbonate such as Hartmanns. Longterm an alkali dietary supplements can be fed.
Anaemia
Several factors contribute to anaemia in Chronic Renal failure:
(1) Low levels of Erythropoetin (as it is produced in the kidney) - this is the most significant cause and the limiting factor in the cats recovery from the anaemia
(2) Decreased lifespan of red blood cells
(3) Blood loss through regular blood sampling, surgical procedures and GI ulceration
(4) Iron deficiency
(5) Inhibition of erythropoesis by uraemic inhibition
Treatment
Therapy should be aimed at reducing blood loss and increasing RBC production where appropriate. Iron supplementation should be given. A specific therapy for low erythropoetin levels is the administration of recombinant human erythropoetin. However it is expensive and cross reactions are common (occuring at any point during the treatment course). Therefore its use should be carefully considered, and it should not be used unless the animal is demonstrating clear clinical signs associated with anaemia. Darbepoetin is an alternative with potentially fewer side-effects.
Urinary Tract Infection
These are very common in CRF cases. It can cause decompensation and a worsening of clinical signs. In some cases it may develop into pyelonephritis, ultimately causing progression of disease. In cats the most common causative organism is E. coli. The main reason for treatment is to improve quality of life.
Treatment
Patients with chronic kidney disease should be monitored for UTI's - ideally cystocentesis should be performed at the time of each blood test. Treatment should be with an appropriate antibiotic and the animal should be encouraged to drink.
Dehydration
Dehydration results in the development of prerenal azotaemia.
Treatment
Fluids should be administered by; promoting oral intake; subcutaneous fluid administration; IVFT; or by oesophageal tube.