Urinary pathology

Question 1

What is in the cortex and medulla?

Answer 1

Question 2

What are the weakness of the kidney/urinary system?

Answer 2

Question 3

Urinary system – Main Portals of Entry/Pathways of Spread?

Answer 3

•Haematogenous

•Ascending from ureter (GI, genital tract, dermal contamination)

•Glomerular filtrate (e.g. oxalate crystals, filtered preformed toxins)

•Direct penetration (e.g. heavy metals, drugs with direct toxic action)

Question 4

Discuss Defense Mechanisms/Barrier systems for the urinary system?

Answer 4

• Barrier system—glomerular basement membrane (GBM)
• Monocyte-macrophage system—glomerular mesangium
• Immune system

Innate responses

Humoral responses

Cellular responses

Question 5

What is Azotemia?

Answer 5

= Elevated levels of blood urea and creatinine
(without necessarily any clinical signs of renal disease!)

Question 6

Discuss pre-renal, renal and post-renal azotemia?

Answer 6

1. Pre-renal
Kidney hypoperfusion
(hypovolaemic or cardiogenic shock, thrombosis…)

2. Renal
Damage to renal tissue
(glomeruli, tubules, interstitium, vasculature)

3. Post-renal
Urinary obstruction
(distal to kidneys)

Question 7

What is Acute renal failure?

Answer 7

Rapid onset of oliguria or anuria and azotemia

Question 8

What are the Common causes of acute renal failure?

Answer 8

Common causes:

• Ischaemia (hypoperfusion)
• Direct toxic injury to tubules (acute tubular necrosis)
• Acute glomerulonephritis or tubulointerstitial nephritis
• Acute urinary obstruction

Question 9

What is the gross appearance of Acute renal failure?

Answer 9

Kidney normal or swollen/pale

Often reversible

May progress to chronic renal failure

Question 10

What can be seen here?

Answer 10

Ethylene glycol intoxication leading to Acute renal failure bright red and shiny medulla is bulging (indicative of presence of oedema)

Question 11

Discuss Chronic renal failure/disease?

Answer 11

• Prolonged duration of signs of uraemia
• Progressive renal disease culminating in critical loss of functional nephrons
• Usually irreversible
• All renal components are interdependent (limited ways of response to injury). Similar end-result of many chronic renal diseases.

Question 12

How does CKD progress to end stage?

Answer 12

Question 13

What can be seen here?

Answer 13

Chronic kidney disease example of appearance of a kidney in the case of CKD these kidneys are decreased in size irregular surface and can see there are indentations which correspond to areas of fibrosis in the parenchyma

Question 14

Discuss the Anomaly of development Aplasia/agenesis (kidney, ureters)?

Answer 14

Aplasia/agenesis (kidney, ureters)

Unilateral: Asymptomatic if contralateral kidney normal

Bilateral: Inconsistent with postnatal life

Question 15

Discuss the Anomaly of development of Renal hypoplasia?

Answer 15

Renal hypoplasia

Unilateral: Usually asymptomatic

Bilateral: Chronic renal insufficiency

Question 16

Discuss the Anomaly of development of Renal dysplasia?

Answer 16

Renal dysplasia

(Unilateral or bilateral)

• Disorganised development of renal parenchyma due to anomalous differentiation
• Chronic renal insufficiency

Question 17

What are other anomalies of renal development?

Answer 17

• Anomalies of renal position, form, orientation
• Ectopic ureter, patent urachus, others

Question 18

What can be seen here?

Answer 18

Hypoplasia

Unilateral renal hypoplasia with contralateral renal hypertrophy.

Question 19

What can be seen here?

Answer 19

Agenesis

complete lack of renal tissue. In this case is unilateral.

Question 20

What can be seen here?

Answer 20

Horseshoe kidney (dog)

Fused kidneys – called horseshoe kidneys – may occur in utero, seen in all species. Results from fusion of the cranial or caudal poles of the kidneys. The area of fusion can vary can be so large they share the same pelvis.

Question 21

Discuss renal dysplasia?

Answer 21

Renal dysplasia - disorganised development of renal parenchyma because of anomalous differentiation. Can be unilateral or bilateral.

Usually occurs when there is disruption of the normal development of the collecting duct system.

Usually congenital but in cats, dogs and pigs (have active subcapsular nephrogenic zone at birth), can also be caused by disease in the early neonatal period, until differentiation on of the nephrogenic tissue is completed.

Some cases may be hereditary.

Gross: Small, misshapen, fibrosed, with thick walled cysts and tortuous ureters.

Question 22

What can be seen here?

Answer 22

Ectopic Ureter

Ectopic ureter is the most important ureteral anomaly. Most common in dogs, more frequent in females.

Photo: In the case of this cat, it appears as if the two ureters had joined during development and then enter the urethra as one.

Question 23

Discuss Renal cysts?

Answer 23

One or more grossly visible cystic cavities within the renal parenchyma

Question 24

Discuss Polycystic kidney disease (PKD)?

Answer 24

Occurs in all species; hereditary in: Bull Terrier, Persian cats (autosomal dominant), West Highland White Terriers, Cairn Terrier, Perendale sheep (autosomal recessive)

Consequences:
Highly variable depending on amount of parenchyma effected (from asymptomatic to chronic renal insufficiency)

Cysts can also be acquired (e.g. retention cysts in CKD usually formed due to fibrosis that causes obstruction of tubules)

Question 25

What can be seen here?

Answer 25

Bovine. Cysts effecting different lobes.

Question 26

What can be seen here?

Answer 26

Porcine large cysts effecting cortex and medulla

Question 27

What can be seen here?

Answer 27

Feline multiple cysts can be seen from surface

Question 28

What can be seen here?

Answer 28

Canine multiple cysts thin walled with fluid in centre

Dilation of pelvis

Question 29

List Non-inflammatory nephropathies/uropathies?

Answer 29

• Renal haemorrhage
• Renal infarction
• Acute tubular necrosis
• Hydronephrosis, hydroureter
• Amyloidosis

Question 30

Discuss Renal haemorrhage?

Answer 30

• Usually caused by bacterial infections
• Bacteraemia (porcine erysipelas, salmonellosis)
• Viraemia (classical swine fever, African swine fever, canine herpesvirus type 1,…)
• Other possible causes include: Coagulopathies, vasculitis, trauma

Question 31

Discuss renal infarction?

Answer 31

-Localised coagulative necrosis produced by embolic or thrombotic occlusion of the renal artery or of one of its branches

Question 32

What causes renal infarctions?

Answer 32

• *Causes:**
• Thrombotic valvular endocarditis (septic emboli)
• Systemic vasculitis (immune-mediated, infectious…)
• Mural cardiac thrombosis (feline cardiomyopathy)
• Aortic thrombosis (verminous arteritis)

Consequences: Acute renal insufficiency

Question 33

Where is the common site for renal infarctions?

Answer 33

The interlobar artery branches at right angles at the corticomedullary junction to give rise to arcuate arteries that in turn branch to form interlobular arteries that extend into the cortex. Interlobular arteries give rise to smaller branches (intralobular arteries), eventually forming glomerular afferent arterioles that enter the glomerular capillary tuft and then exit at the glomerular vascular pole as efferent arterioles.

Question 34

How do infarcts appear?

Answer 34

Infarcts are usually wedge-shaped in a cross section of kidney, with the base against the cortical surface and the apex pointing toward the medulla, conforming to a zone of cortical parenchyma supplied by the site of the obstruction.

Question 35

What does an acute haemhorrhage look like?

Answer 35

Acute renal infarcts. Initially, renal infarcts are swollen, intensely cyanotic, and congested by the blood that oozes into the vessels from collateral vessels.

Question 36

What does a chronic haemhorrhage look like?

Answer 36

Chronic infarcts are pale, shrunken, and fibrotic, resulting in distortion and depression of the renal contour.

Question 37

What is Acute tubular necrosis?

Answer 37

= Acute necrosis of the epithelium of renal tubules

Question 38

What are the main causes of acute tubular necrosis?

Answer 38

Main causes:
Hypoxia/ischaemia:
Hypotension: hypovolaemic shock, cardiogenic shock, severe dehydration…
Nephrotoxicity:
Lead, aminoglycosides, tetracyclines, monensin, NSAIDs, oak, Ochratoxin A, Vitamin D, ethylene glycol, cisplatin…

-Often exacerbated by haemoglobin when there is haemolysis (haemoglobinuric nephrosis) or myoglobin pigments (myoglobinuric nephrosis)

Consequences:
Acute renal failure or chronic interstitial nephritis (possible chronic renal failure)

Question 39

What can be seen here?

Answer 39

Haemoglobinuric nephrosis

Dark red tinged urine due to haemoglobinuria. Cu toxicity in sheep

Question 40

What can be seen here?

Answer 40

Tubular necrosis due to lead toxicosis, renal cortex, rat – Acid-fast intra-nuclear inclusion bodies present in the proximal convoluted tubular epithelium – diagnositic of lead poisoning.

Question 41

What can be seen here?

Answer 41

Papillary (medullary crest) necrosis in a horse. Dark yellow/tan area in the medullary crest.

Question 42

What is Hydronephrosis, hydroureter?

Answer 42

= Dilation of renal pelvis or ureter due to obstruction of urine outflow, causing progressive atrophy and dilation

Question 43

What are the causes of Hydronephrosis, hydroureter?

Answer 43

-Causes:
Calculi, chronic inflammation, neoplasia, congenital malformations, iatrogenic

-Unilateral or bilateral

-Consequences:
Chronic renal failure

Question 44

What can be seen here?

Answer 44

Canine, hydronephrosis, transitional cell carcinoma

Question 45

What can be seen here?

Answer 45

Bovine, hydronephrosis

Question 46

What can be seen here?

Answer 46

Canine, nephrolithiasis, hydronephrosis

Question 47

What can be seen here?

Answer 47

Canine, hydronephrosis, transitioncal cell carcinoma bladder. Mass obstructing outflow leading to hydronephrosis

Question 48

Look at this Revision of the normal glomerulus?

Answer 48

Question 49

What is Amyloidosis?

Answer 49

= Extracellular deposition of amyloid

• Kidney is probably the organ most commonly involved
• Usually glomerular, but medullary location predominates in cats and Shar-Pei dogs

(eosinophilic, homogeneous and proteinaceous material)

Question 51

What breeds are predisposed to amyloidosis?

Answer 51

Predisposed breeds:
Shar-Pei dogs, Abyssinian and Siamese cats

Most common form:
Reactive systemic amyloidosis (caused by accumulation of AA amyloid) – chronic Ag stimulation

Clinically leads to:
Chronic renal insufficiency and proteinuria
(nephrotic syndrome)

Question 52

What can be seen here?

Answer 52

Amyloidosis

Papillary necrosis from NSAIDs can be seen too

Question 53

What can be seen here?

Answer 53

Amyloidosis

The renal glomerulus contains extracellular deposits of pale homogeneous eosinophilic amyloid. H&E stain.

Question 54

What can be seen here?

Answer 54

Congo red stain, polarized light used to confirm amyloidosis.

Question 55

What can be seen here?

Answer 55

The amyloid in the glomerulus stains red-orange with Congo red stain.

Congo red stain used to confirm amyloidosis

Question 56

List Inflammatory nephropathies/uropathies?

Answer 56

• Glomerulonephritis
• Tubulointerstitial nephritis
• Pyelonephritis
• Cystitis

Question 57

Discuss Glomerulonephritis (GN)?

Answer 57

• Inflammation of glomeruli with secondary tubulointerstitial and vascular changes (glomerulitis -when inflammation is restricted to glomeruli)
• Common in domestic animals
• Damaged glomerular filtration barrier – leading to proteinuria (protein-losing nephropathy)

Question 58

Discuss -Types of glomerulonephritis (based on histological presentation):

Answer 58

i. Proliferative (horses)
ii. Membranous (cats)
iii. Membranoproliferative (dogs)

Question 59

What are the causes of GN?

Answer 59

Immune-mediated:

• Deposition of immune complexes
• Antibodies directed against glomerulus (rare)

Prolonged antigenemia
(persistent infections or other diseases)

-Viral infections
(FeLV, FIV, FIPV, canine adenovirus type 1, EIAV, BVDV, ASFV…)

-Chronic bacterial infections
(pyometra, pyoderma…)

-Chronic parasitism
(dirofilaria, leishmania, trypanosoma, encephalitozoon cuniculi…)

-Neoplasia

Question 60

Look at these different types of GN?

Answer 60

Question 61

Discuss Glomerulosclerosis?

Answer 61

•Chronic glomerulonephritis evolves to glomerulosclerosis

•Histology:
Shrunken, eosinophilic and hypocellular glomeruli

•Proteinuria, in absence of urinary tract inflammation, is indicative of glomerular damage

Question 62

Look what protein losing nephropathy can lead to?

Answer 62

Question 63

What can be seen here?

Answer 63

Histo:

• There are bright pink intratubular casts of protein.
• Thyroidization, kidney, dog, tubular hyaline casts
• In dogs, accumulation of protein with a colloid-like appearance in tubules and
• glomerular capsules dilated from scarring produces a thyroid-like
• histologic appearance, called “thyroidization”.

Question 64

Discuss Tubulointerstitial nephritis?

Answer 64

Diseases involving primarily the interstitium and tubules

Question 65

What are the two portals of entrance for Tubulointerstitial nephritis?

Answer 65

Two portals of entrance:

–Haematogenous (descendent)

–Urinary (ascendant)

Question 66

What are the main types of Tubulointerstitial nephritis?

Answer 66

Main types:

a. Embolic suppurative (haematogenous)
b. Non-suppurative (haematogenous or ascendant)
c. Pyelonephritis (mostly ascendant)

Question 67

Discuss Embolic suppurative Tubulointerstitial nephritis?

Answer 67

Embolic suppurative:

–Bacteria

–Vascular (bacteraemia or septic thromboembolism)

–Multiple small abscesses or fewer large ones

Question 69

Discuss Non-suppurative interstitial Tubulointerstitial nephritis?

Answer 69

-Acute, subacute or chronic (most common in cats and dogs)

‘White-spotted kidney’ of calves – common, largely incidental finding

Question 70

Discuss Chronic Tubulointerstitial nephritis?

Answer 70

– Common end-stage of chronic glomerulonephritis, acute tubular necrosis, acute pyelonephritis or acute interstitial nephritis
- Granulomatous
(infection with Aspergillus, Toxocara, Encephalitozoon, Prototheca, mycobacteria, FIPV, PCV2 …)

-Consequences: Chronic renal failure

Question 71

What can be seen here?

Answer 71

Granulomatous interstitial nephritis due to FIP

Feline, FIP, granulomatous nephritis. Intertitium expanded by large numbers of inflammatory cells, which will be mostly lymphocytes and histiocytes. Perivascular distribution prominent.

Question 72

What can be seen here?

Answer 72

Toxocara interstitial nephritis

Histo: A mature granuloma composed of a central ascarid larva surrounded by epithelioid macrophages and concentrically arranged fibrous connective tissue and inflammatory cells. Inset, Ascarid larva.

Question 73

What can be seen here?

Answer 73

Chronic interstitial nephritis

•Irregular surface
(retraction, fibrosis)

• Small
• Pale
• Histologically: Interstitial lymphocytes and plasma cell infiltration, fibrosis, tubular atrophy

Question 74

What is Pyelonephritis:

Answer 74

= Inflammation of pelvis and renal parenchyma

Question 75

What is Cystitis:

Answer 75

= Inflammation of the urinary bladder
Usually caused by ascending infection

Question 76

What are the risk factors for Pyelonephritis and cystitis?

Answer 76

Risk factors:

• Female gender (short urethras, urethral trauma during pregnancy or parturition)
• Urine stasis/obstruction

-Others:
Diabetes, hyperestrogenism, congenital malformations (ureteral ectopia, urinary bladder aplasia…)

Question 77

Discuss Causes of pyelonephritis:

Answer 77

-Endogenous bacteria of the bowel and skin

Some specific pathogens of the urinary tract

• Corynebacterium renale (cattle)
• Actinobaculum suis (swine)

(E coli, staphylococci, streptococci, Enterobacter…)

Question 78

Discuss Causes of cystitis:

Answer 78

• Same bacteria as in pyelonephritis (mostly opportunistic)
• Viruses: Malignant catarrhal fever, classical swine fever, West Nile
• Toxins: Bracken fern in bovines (enzootic haematuria), cyclophosphamide treatment in cats and dogs (sterile haemorrhagic cystitis)

Question 79

Look at these images of Pyelonephritis?

Answer 79

Question 80

Look at these images of cystitis?

Answer 80

Question 81

Discuss Renal neoplasia?

Answer 81

-Primary renal tumours are uncommon

• Most common are renal carcinomas (most common primary renal tumour in dogs, cattle and horses; mostly mature and old animals)
• typically highly malignant with common metastasis

-Metastatic lymphoma not uncommon in cattle and cats

(< 1% of all neoplasms in domestic animals)

Question 83

Discuss Neoplasia of the lower urinary system?

Answer 83

-Predominantly in the urinary bladder

-Uncommon
(< 1% of all canine neoplasms)

• Dogs > cats >> other
• Most common are epithelial tumours, typically urothelial cell carcinoma (formerly called transitional cell carcinoma)

(urinary bladder >> urethra, rare in ureter)

Question 84

What can be seen here?

Answer 84

Urothelial cell carcinoma

Appear at trigone of urinary bladder most commonly

About 50% of urothelial cell carcinomas metastasize: usual pattern: regional lymph nodes => lungs.

But peritoneal implantation or retrograde lymphatic spread to the soft tissue and bones of the hindlimbs or vertebrae may occur.

Other types of carcinoma of the lower urinary tract:

• Squamous cell
• Adenocarcinoma
• Undifferentiated carcinoma

Question 85

What is mechanism of these Systemic changes associated to renal failure:

• Parathyroid hyperplasia
• Fibrous osteodystrophy
• Metastatic mineralisation (stomach, lung, pleura, kidneys)

Answer 85

Altered calcium/phosphorus metabolism

Question 86

What is mechanism of these Systemic changes associated to renal failure:

Ulcerative and haemorrhagic gastritis and glossitis/stomatitis
(colitis in horses and cattle)

Answer 86

Direct urea vascular damage + bacterial production of ammonia from urea in saliva (caustic injury)

Question 87

What is mechanism of these Systemic changes associated to renal failure:

Pulmonary oedema and fibrinous pericarditis?

Answer 87

Increased vascular permeability is most likely

Question 88

What is mechanism of these Systemic changes associated to renal failure:

Atrial and vascular thrombosis?

Answer 88

Endothelial damage; nephrotic syndrome

Question 89

What is mechanism of these Systemic changes associated to renal failure:

Anaemia?

Answer 89

Increased erythrocyte fragility (due to azotaemia) and lack of erythropoietin; +/- gastrointestinal bleed

Question 90

What is mechanism of these Systemic changes associated to renal failure:

Polyuria/polydipsia?

Answer 90

Protein-losing nephropathies

Chronic renal failure
(prevents electrolyte and fluid reabsorption)

(osmotic effect)

Question 91

What is mechanism of these Systemic changes associated to renal failure: Hypertension?

Answer 91

Reduced renal blood flow

(by compression/obstruction of vessels by fibrosis, inflammation, thrombosis or neoplasia)

Question 92

Nephrotic Syndrome

Damage to glomerular filtration barrier =

Answer 92

leakage of various low MW proteins (e.g. albumin) into glomerular filtrate => overload of protein reabsorption capabilities of the PC tubules => protein-rich glomerular filtrate accumulates in tubules => protein in urine

Question 93

Renal diseases that result in proteinuria =

Answer 93

-protein-losing nephropathies (one of several causes of severe hypoproteinaemia in animals)

Question 94

Prolonged, severe renal protein loss =

Answer 94

-hypoproteinaemia, <plasma> Nephrotic Syndrome</plasma>

Question 95

What is Nephrotic Syndrome characterised by?

Answer 95

• Characterized by generalised oedema, ascites, pleural effusion, and hyperlipidaemia (hypercholesterolemia)
• There is : proteinuria (albuminuria), hypoproteinaemia (hypoalbuminaemia), hyperlipidaemia, generalised oedema (anasarca)

Question 96

Discuss Nephrotic Syndrome prognosis?

Answer 96

-In dogs, worse prognosis compared to patients with only proteinuria

Question 97

What is oedema caused by in nephrotic syndrome?

Answer 97

-Oedema – due to decreased plasma colloid osmotic pressure, stimulation of the renin-angiotensin-aldosterone system, and release of antidiuretic hormone (ADH) in response to hypovolaemia

Question 98

What is the Hepatic response to hypoproteinaemia?

Answer 98

-generalized increase in production of proteins, including lipoproteins => hyperlipoproteinemia and hypercholesterolemia