Pathology of Kidney and Collecting System

1. Pathology of Kidney and Collecting System Assoc. Professor Jan Laco, MD, PhD

2. Congenital and developmental disorders • 1. bilateral agenesis of kidneys • kidneys and ureters absent • + other disorders – oligohydramnion • Potter‘s syndrome (beak-like nose, low set ears, abnormally bent lower limbs) • 2. unilateral agenesis • boys, compensatory hyperplasia • 3. fixed dystopy • caudal position of kidney, short ureter, renal a. from iliac a. • 4. ren migrans • normal development, secondary descent, long („folded“) ureter, renal a. in normal position • 5. malformation: merge of poles – “horseshoe“ kidney

3. Renal cysts • 1. simple cysts (solitary x multiple); indolent • cortex: mm to 5-10 cm, clear fluid, diff. dg. tumor • Micro: cuboidal or flat epithelium • 2. autosomal recessive polycystic kidney disease • fibrocystin gene • G: large kidneys (bilateral) - multiple tiny cysts (1-2 mm) - huge abdomen, pulmonary hypoplasia, oligohydramnion = Potter‘s syndrome • Mi: elongated cysts from collecting tubuli • clinical course: • stillborn or die very soon (pulmonary or renal failure) • who survive infancy - impaired concentration ability, uremia, congenital hepatic fibrosis

4. Renal cysts • 3. autosomal dominant polycystic kidney disease • PKD1 gene (chr. 16) for polycystin-1; 1: 800 • G: huge kidneys (1-3 kg), cysts up to 40 mm • Mi: cysts from all parts of nephron (flat epithelium), atrophy of residual renal parenchyma • clinical course: • 4th decade, flank pain, hypertension, hematuria, renal failure (end stage kidney) • intracystic bleeding, inflammation, tumor + liver & pancreatic cysts + aneurysms of cerebral aa. (10-30%)

5. Renal cysts • 4. cystic dysplasia • developmental disorder, abnormal shape and structure - + urinary tract defects - uni- or bilateral, segmental, diff. dg. tumor - Mi: cysts and ducts with smooth muscle and fibrous tissue, cartilage • 5. dialysis-associated acquired cysts • long term HD - cysts up to 1.5 - 2 cm • 6. medullary cysts • in papillae („sponge kidney“) • cortico-medullary junction („juvenile familiary nephronophtisis“)

6. Glomerular diseases • Normal glomerulus: - mesangium - basement membrane - podocytes - endotelial fenestrations - Bowman‘s capsule • Light microscopy + IF + EM • IF: Ig (IgG, IgM, IgA, …) + complement • EM: localization: mesangial, subendothelial, subepithelial

7. Glomerular injury – terminology • Diffuse – damage of > 80% glomeruli • Focal – damage of some glomeruli (< 80 % G) • Global – damage of whole glomerulus • Segmental – damage of a part of glomerulus

8. Reaction of glomerulus to injury • Proliferation: of cells (mesangial, endothelial, parietal) • Exsudation: leukocytes, monocytes, fibrin (crescents) • Thickening of BM: deposition of immune complexes, • Sclerotization: deposition of homogenous material (mesangial matrix, basement membrane material) • Hyalinization : advanced stage – homogenous substance (glycoproteins) !!! Glomerular diseases are always bilateral (both kidneys are affected) !!!

9. I. Immune glomerular injury • 1. Circulating ImmC • viruses, streptococci, SLE, tumors • IF: granular positivity in G • 2. In situ ImmC • Ag into G or Ag in G + subsequently Ab+Ag • IF: granular positivity in G • 3. Heymann nephritis • experimental membranous GN • 4. Ab × BM • IF: linear positivity in G • 5. ANCA (anti neutrophil cytoplasmic antibodies) • pauciimmune

10. II. Non-immune damage of glomeruli • 1. Loss of polyanion in BM • 2. Hyperfiltration • decrease of number of G  increased flow in G  capillary hypertension  proliferation of mesangial cells and matrix  sclerosis • 3. Hereditary defects of BM • Alport syndrome • 4. Glomerular ischemia • collapse and glomerulosclerosis

11. Glomerular disorders • „Primary glomerulonephritis and glomerulopathy“ • immune based nonpurulent inflammation of G with alteration, exsudation or proliferation • Damage of G in systemic disorders • SLE, vasculitis, DM, amyloidosis, endocarditis

12. Glomerular syndromes • 1. Nephrotic sy: • proteinuria > 3.5 g / 24 h, hypoalbuminemia, edema • hyperlipidemia, lipiduria • 2. Nephritic sy: • acute onset • grossly visible hematuria • proteinuria (mild) • hypertension • oliguria, anuria • azotemia, mineral dysbalance

13. Glomerular syndromes • 3. Rapid progressive nephritic sy (RPGN): • hematuria, proteinuria + rapid progressive loss of renal functions (renal failure) • 4. Recurrent and persistent hematuria: • long term macro- or microhematuria without proteinuria • no other symptoms of nephritic syndrome • 5. Slowly developing uremia: • chronic G injury = sclerosis and hyalinization of G

14. Nephrotic syndrome • 1. Minimal change disease („lipoid nephrosis“) • 2. Membranous GN • 3. Focal segmental glomerulosclerosis • 4. Membranoproliferative GN (type I-III) • 5. Systemic disorders • DM, SLE, amyloidosis, drugs

15. 1. Minimal change disease • in 75 % preschool children, 2nd – 4th Y • selective albuminuria, edemas • causes ? • Mi: minimal G changes lipids in proximal tubules – reabsorption • IF: negative • EM: loss (effacement) of epithelial foot processes of podocytes • therapy: corticosteroids - sensitive, dependent, resistant • prognosis good, rarely sclerosis of G

16. 2. Membranous GN • adults (30-50 Ys), non-selective albuminuria • autoimmune ??? • most common cause of nephrotic sy in adults • 80% idiopatic x 20% (SLE, RA, drugs, hepatitis B, tumors) • Mi: thickening BM (Jones spikes) • IF: granular positivity in BM (IgG+C) • EM: subepithelial deposits • prognosis: in 40 % (G sclerosis) - end stage kidney

17. 3. Focal segmental glomerulosclerosis • adults and children, NS + non-selective proteinuria • cause ??? • idiopathic (10%) x secondary (IgA, SLE, HIV, heroin, ...) • Mi: FSGs + hyalinosis • IF: granular positivity (IgM + C) • EM: effacement of the foot processes, podocyte detachment • prognosis: bad - 50 % renal failure within 10 years

18. 4. Membranoproliferative GN (I-III) • children + adults • idiopathic x secondary (SLE, tumors, hepatitis B and C) • MPGN I • Mi: lobular pattern of G, thickening of BM, mesangial proliferation • IF: granular positivity (IgG + C3) • EM: subendothelial deposits, interposition of mesangium into BM • prognosis bad • MPGN II (dense deposit disease) • C3NeF in serum - autoAb × C3 convertase = activation of C by alternative pathway • EM: deposits of unknown composition in BM • prognosis bad (100% recurrence after tranplantation) • MPGN III - deposits variably in BM

19. Acute nephritic syndrome • 1. acute proliferative (postinfectious) GN • 2. rapidly progressive GN • 3. IgA nephropathy • 4. Henoch-Schoenlein purpura

20. 1. Acute proliferative (postinfectious) GN • 1-4 weeks after infection (ß-hemolytic STR, viruses, …) • school children • typical nephritic syndrome • macrohematuria, mild proteinuria, oliguria, azotemia, edema • ASLO, fatigue, fever, vomiting, hypertension • G: large pale kidneys with punctuate bleeding • Mi: large, hypercellular G (mesangium, endothelim, leuko) • IF: granular positivity (IgG + C3 in mesangium and BM) • EM: subepithelial deposits (“humps“) in BM • prognosis: in children excellent, in adults relatively good

21. Rapidly progressive (crescentic) GN • = syndrome; NOT specific etiologic form of GN • common feature = crescents in most of G (at least 50%) • rapid  renal functions (days, week), hematuria, proteinuria • in 1-2 M – loss of all G • ETI • 1. IgG × BM (+ lungs–Goodpasture sy): linear positivity IgG • 2. ImmC GN (SLE, Henoch-Schoenlein purpura...) • 3. ANCA associated vasculitides • (microscopic polyangiitis, Wegener granulomatosis, Churg-Strauss sy) • Mi: severe injury of G (BM) - necrosis, perforation of capillaries  fibrin into urinary space (Bowmann capsule)  proliferation of parietal cells + migration of monocytes (cellular crescent)  later fibrosis and sclerosis of G • prognosis ~ number of crescents, stage

22. 3. IgA nephropathy (Berger disease) • most common G disease worldwide; Japan • young adults, children • macrohematuria 1-2 days after inflammation of respiratory tract • Mi:  mesangial cells, later sclerosis of G • IF: IgA in mesangium • EM: deposits in mesangium • prognosis: variable (20-40% in 20 years = renal failure) 4. Henoch-Schönlein purpura • children, skin purpuric rash, arthritis, GIT, ± kidneys • Mi: similar to IgA nephropathy

23. Hereditary nephropathies • Alport‘s syndrome • mostly X-linked, mutations of colagen IV gene • boys, 50% deafness, 15% eye disorders (cataracta) • hematuria, later proteinuria • males affected more frequently and severely, RF between 25-50Ys • in females only mild persisting hematuria • Mi: slight mesangial proliferation, later glomerulosclerosis • EM: thick and thin BM, splitting of lamina densa of BM • Benign familial hematuria (thin BM glomerulopathy) • EM: very thin BM • prognosis favorable

24. Renal involvement in systemic disorders • Systemic lupus erythematodes • females, kidney – one of affected organs x critical !!! • autoAb × nuclear DNA • hematuria, proteinuria, nephrotic / nephritic syndrome • WHO - 6 types: • I normal G • II mesangial GN ( mesangial cells, deposits) – 20% • III FSGN (proliferation, neurophiles, fibrin) – 25% • IV diffuse lupus GN (proliferation, necroses, crescents, wire loops) – 50% • variable IF deposits, EM: subendothelial depositis,  prognosis • V membranous GN – 15% • VI sclerosing GN – terminal stage

25. Renal involvement in systemic disorders • GN in infective endocarditis • ImmC – focal GN with necrosis of parts of G • Amyloidosis • in AA amyloidosis – kidney always involved, in AL in majority • Mi: amorphous material in G (mesangium ± BM) walls of arterioles / capillaries + peritubular stroma Congo red + polarized light, Sirius red, IHC • EM: fibrils in mesangium and in BM • clinically: proteinuria  nephrotic syndrome, renal failure

26. Chronic sclerosing GN • 30-50% patients requiring HD • end stage of a variety entities • RPGN, FSGN, MGN, MPGN, IgA nephropathy, DM, SLE • micro impossible to ascertain primary disease !!! • G: small, contracted kidneys with granulated surface • Mi: G sclerotic replaced by hyaline „targets“ fibrosis of interstitium + chronic inflammation atrophy of tubules („thyroid-like“) sclerosis of vessels (hypertension) • clinical course: slowly progressive RF – HE + RX • END STAGE KIDNEY

27. Diseases affecting tubules and interstitium Tubules and interstitium - „intimal relation“ = tubular injury can also involve the interstitium and vice versa • Tubulointerstitial nephritis - bacterial TIN - pyelonephritis - non-infectious TIN metabolic diseases, drugs, immune, irradiation • Acute tubular necrosis • ischemic and toxic

28. Acute pyelonephritis • bacterial suppurative inflammation of the K and the pelvis • important manifestation of UTI + infection of lower UT !!! • etiology: E. coli, Proteus, Enterobacter, Klebsiella • 2 routes of infection • ascending - from lower UT - most common • hematogenous - by bloodstream - rare Ascending route: rectum/perineum into urethra = urethritis (F:M = 10:1) after instrumentation (F : M = 1 : 1) Retention of urine = condition for  bacteria growth in UB cong. disorders, stones, gravidity, prostate, UB dysfunction, uterine prolapse, DM, tumors  urocystitis

29. from UB into ureter - vesicoureteral reflux • children - congenital incompetence - short intravesical portion • adults – acquired - after inflammation, stone passage, flaccid UB • infected urine  ureter (ureteritis)  pelvis (pyelitis)  renal parenchyma through collecting ducts (intrarenal reflux) or by ruptured calyces into interstitium (pyelonephritis) Hematogenous :by bloodstream from heart (endocarditis) G (ascending): unilateral x bilateral K (edema), raised long cortical and medullar yellow abscesses, reddish pelvis G (hematogenous): bilateral, small cortical abscesses

30. Mi (asc.): WBC in interstitium and in tubules = tubules melted by inflammation - abscesses • Mi (hemat): bacteria in G and arteries - abscesses in interstitium • Complications: - necrotizing papillitis (DM) - pyonephros – pelvis + calyces filled by pus - perinephritic abscess (subcapsular) - paranephritic abscess (pus in perinephric fat tissue) - urosepticemia (renal failure + septicemia) • Clinical course: sudden onset, costovertebral angle pain, fever, chills, dysuria, bacteriuria, pyuria

31. Chronic pyelonephritis and reflux nephropathy • interstitial inflammation + scarring of renal parenchyma + scarring and deformity of pelvicalyceal system • chronic obstructive • reccurent acute inflammations • stones, ureteral obstruction, prostate hyperplasia, obstruction of urethra • chronic reflux-associated • vesicoureteral reflux - infection ? • G: unilateral x bilateral /// diffusely x in patches diffusely = small, contracted K in patches = cortical flat scars + blunted calyces - scarring of the pelvicalyceal system = deformation obstructive = whole K reflux = polar scarring • Mikro: atrofie kanálků („tyreoidizace“), fibróza intersticia, chronický zánět, periglomerulární fibróza, skleróza cév • Klinicky: pomalý rozvoj poklesu ren funkcí, snížená koncentrační schopnost, hypertenze. Někdy se zjistí až v terminálním stádiu -častá příčina CHRI

32. Micro: - uneven interstitial fibrosis + inflammation - tubular dilation, epithelial atrophy (thyreoidisation) - arteriosclerosis (hypertension) - inflammation and fibrosis of calyceal mucosa and wall - periglomerular fibrosis, glomerulosclerosis • clinically: - progressive deterioration of renal functions - loss of concentrating ability - arterial hypertension !!! chronic pyelonephritis is important cause of chronic renal failure !!!

33. Non-infectious TIN • graft rejection /see later/ • acute drug-induced (alergic) TIN • drugs (ATB, PNC, diuretics, sulphonamides, NSAID...) - haptens • 2 weeks after exposure = hematuria, fever, eosinophilia, rash • Mi: interstitial edema, lymphocytes, eosinophils, leukocytes, tubular changes, rarely granulomas • complete remission in months

34. Analgesic nephropathy • a few years lasting abusus of analgesics (phenacetin, aspirin) • metabolits are inhibitors of vasodilation = papillary ischemia • chronic TIN + papillary necrosis • G: contracted kidneys with yellowish brown necrotic papillae (into the pelvis = hydronephrosis) • Mi: necrotic papillae without leukocytic reaction, interstitial scarring, tubular atrophy, inflammation, analgesic microangiopathy (BM thickening) • clinicalally: chronic renal failure, hypertension, increased incidence of urothelial carcinoma (pelvis + UB)

35. Non- infectious TIN • Hypokalemic nephrosis • loss of K+ (diarrhoea) - vacuoles in cells of distal tubules • Osmotic nephrosis • hypertonic solutions (infusions) - fine vacuolization within proximal tubules • Hepatorenal syndrome • renal failure in liver disorder (bile in tubules) • Myeloma cast nephropathy • Bence-Jones protein casts in the tubular system • Radiation nephropathy • after ionizing radiation for malignancy of the retroperitoneum • tubular atrophy, interstitial fibrosis

36. Transplantation nephropathology • Hyperacute rejection • minutes/hours after transplantation • ready antibodies against graft • G: graft cyanosis • Mi: necrotizing vasculitis, thrombi in capillaries • Acute rejection • days, weeks, months • impairment of renal functions, azotemia • T lymphocytes + antibodies • Mi.: lymph. in intersticium, tubulitis, endotelialitis, edema • Chronic rejection • months, years • G: shrunken kidney • Mi.: thickened arterial intima  ischemia, fibrosis,  G

37. Acute tubular necrosis (ATN) • destruction of tubular cells = ARF + oliguria < 400 ml • 2 causes: ISCHEMICand TOXIC • ischemic • hypoperfusion (shock), septicemia, pancreatitis, trauma • crush syndrome (myoglobinuria), mismatched transfusion • Toxic: • heavy metals (Hg), ethylenglycol, herbicids, solvents, ATB (gentamicin) patogenesis: tubular necrosis = oliguria - blockage by necrotic debris, vasoconstriction (RAA, endothelin), tubular fluid leakage into interstitium - edema = tubular collapse, inflammation (leukocytes)

38. G: pale cortex + dark medulla • Micro: • ischemic ATN • necrosis of segments of proximal and distal tubules • rupture of tubular BM = tubulorrhexis • necrotic material (myoglobin, Hb) + TH protein = casts in distal and collecting tubuli • interstitial edema, inflammation (lymphocytes) • toxic ATN • similar necrosis of proximal tubules • tubular BM are spared !!! • sometimes calcification of necrotic cells

39. after a week = regeneration of tubular cells • tubules with undestroyed BM - complete regeneration possible • clinical course: 3 stages - initiating phase (lasting 36 hours) decline in urine output, azotemia - maintenance phase (2nd-6th day, lasting up to 3 weeks) urine 50-400 ml/24 hrs. = uremia !, water overload DIALYSIS !!! - recoveryphase (regeneration) urine volume 3 litres /24 hrs. threat of dehydratation, mineral dysbalance, infection GF normalize in 2-3 months concentrating ability in 6 months survival 90-95 %

40. Rare types of tubular necrosis • Hypochloremic „nephrosis“ • repeated vomiting and diarrhoea (children) = dehydratation shock with tubular necrosis • Massive cortical necrosis • long term shock or DIC • G: bilateral damage, yellow necrotic cortex • Mi: arteriolar thromboses - massive necrosis • clinical course: ATN - like (anuria), adverse prognosis

41. Diabetic nephropathy • G: slightly enlarged, yellow, granulated kidneys • Vessels: • accelerated ARTS (plaques reach aa. arcuatae) • hyalinne arteriolosclerosis of vas afferens et efferens • Glomerular lesion:thickened BM • diffuse glomerulosclerosis (thickened BM + inc. mesang. matrix) • nodular Gsclerosis (Kimmelstiel-Wilson lesion) - ball-like nodules of laminated matrix within mesangium • clinically - proteinuria, nephrotic syndrome, later renal failure glomerulosclerosis = ischemia =scaring=cortex granulation • Tubulointerstitial lesion: • increased risk for repeated pyelonephritis + necrosis of papillae • storage of glykogen in proximal tubules - Armani cells

42. Diseases involving blood vessels • 1. renal artery stenosis • elderly (ARTS) x younger patients - fibromuscular hyperplasia (dysplasia) = hypertension • long term stenosis = atrophy • 2. kidney infarction • trombembolism from heart, atheroembolism from aorta • trombosis (ATS, PAN) • 3. arteriosclerotic nefrosclerosis • ARTS aorta = branches ren. artery in parenchyma = „V shaped“ scars • 4. benign nefrosclerosis: benign hypertension • G: symmetrical atrophy, finely granulated surface • Mi: hyalinne thickening of small arteries and arterioles

43. = hyalinne arteriolosclerosis (insudation of plasma proteins into the wall = production of hyalinne matrix) thickening = stenosis = ischemia = atrophy (collapse and obliteration G) = granulated surface, tubular atrophy, intersticial fibrosis clinical course: slight functional impairment, NO uremia • 5. Malignant nefrosclerosis: malignant BP (dia 120) • fibrinogen into wall = endothelial injury = fibrinoid necrosis • intimal hyperplasia (hyperplastic arteriolosclerosis) = stenosis (ischemia) • ischemia (renin-ang.-aldos) = elev BP = malignant hypertension • G: petechial hemorrhages, granulated K, shrunken K • Mi: larger aa - concentric proliferation of intimal smooth m. cells („onion skin“ appearance) • arterioles - fibrinoid necrosis (inflammation = arteriolitis) • glomeruli - segmental necrosis, crescents

44. clinical course: - diastolic BP greater than 120 mm - papilledema (visual impairment) - encephalopathy (headaches, nausea, vomiting) - renal failure + proteinuria + hematuria

45. Systemic vasculitides • 1. Polyarteritis nodosa • aa interlobulares, aa. arcuatae • fibrinoid necrosis, inflammation, trombosis = infarctions • G are not affected • 2. Polyangiitis microscopica (pANCA+) • interlobular aa., vas afferens, G capillaries • focal segmental necrotizing glomerulonephritis with crescents • 3. Wegener granulomatosis (cANCA+) • morfology - see above • + periglomerular granulomas • 4. Alergic granulomatosis (Churg-Strauss syndrome) • focal segmental necrotizing GN + eosinophils

46. Thrombotic microangiopathies thrombosis in microcirculation clinically: hemolytic anemia, thrombocytopenia, renal failure Hemolytic - uremic syndrome children, E. coli infection (verocytotoxin) = endothelial injury bleeding (hematemesis, melena) + hematuria + TMA one of the main causes of acute renal failure in children !!! 25% children develop renal failure within 15-25 years Thrombotic thrombocytopenic purpura adult females + neurologic symptoms autoAB x enzyme cleaving von Willebrand factor multimers

47. Renal stones • urolithiasis: nephro-, uretero-, urocysto-litiasis 75 % calcium oxalate / phosphate - hard, dark 15 % magnesium ammonium phosphate - white 10 % uric acid or cystine - round, smooth-surfaced, brown • causes: often unclear 1. hypersaturation of urine by stone´s constituents - idiopatic hypercalciuria, hypercalcemia 2. persistent alkaline urine due to UTI (Proteus vulgaris) - - magnesium ammonium phosphate stones 3. high uric acid level in urineor acid urine (pH < 5.5) - uric acid stones; gout, cell break down 4. defective renal transport of cystine - cystine stones

48. Renal stones • predisposition dehydratation, bacteria colonies, epithelial desquamation, calcification = nidi for stones formation • morphology: - 80 % unilateral - 20 % bilateral number, shape and size vary (solitary x multiple), mm - cm, smooth, jagged, „staghorn“ • clinical course - large stones often asymptomatic or dysuria - small stones into ureter = hydronephrosis (+ infection) = renal colic = hematuria

49. Hydronephrosis • = dilation of renal pelvis and calyces + atrophy of renal parenchyma due to obstruction of outflow of urine • insidious x sudden, complete x incomplete • obstruction at any level of UT (renal pelvis - urethra) - below pelvis = hydroureter • congenital • atresia of uretra, valve formations in urethra • valve formation in ureter, aberrant renal a. compressing ureter • acquired • „foreign bodies“ (stones, necrotic papillae, blood clotts) • tumors (prostate, UB, ureter, cervix, retroperitoneum, rectum) • inflammations (prostate, retroperitoneal fibrosis, postinflammatory stricture of ureter) • neurogenic dysfunction of UB, pregnancy

50. bilateral HN (obstruction below level of ureters) • unilateral HN (obstruction at ureter or above) G: long term obstruction = dilation of pelvis + (ureter), flat papilae, atrophied K parenchyma Mi: tubular dilation, interstitial edema, later atrophy of tubular epithelia, interstitial fibrosis, glomerulosclerosis clinically: - sudden bilateral = ARF without dilation - rapid unilateral = GF declined in affected K, normal function (2. kidney) - long term unilateral = clinically silent dilation !!! HN  disposition to pyelonephritis !!!