Block 7 Fall 2024 Kidney Pathology Exam PDF

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UAG School of Medicine

2024

David Salinas Aguirre,Keyshla M. Morales Muñoz,Irmaris López López,Carisa O. Jiménez Chaparro

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kidney pathology nephritic syndrome glomerular diseases medical lectures

Summary

This document is a set of slides from a medical lecture on kidney pathology, focusing on conditions such as nephritic syndrome, different types of glomerular diseases, and their associated clinical features. It includes information on various aspects of kidney pathology, such as the different types of casts in urine and post-streptococcal glomerulonephritis.

Full Transcript

# Block 7 Fall 2024 Kidney Pathology Exam ## Teaching Assistant * David Salinas Aguirre * Keyshla M. Morales Muñoz * Irmaris López López * Carisa O. Jiménez Chaparro ## Nephritic Syndrome * Slides created by: Keyshla M. Morales Muñoz * Edited by: David S ## Glomerular Diseases | Type | Etiology...

# Block 7 Fall 2024 Kidney Pathology Exam ## Teaching Assistant * David Salinas Aguirre * Keyshla M. Morales Muñoz * Irmaris López López * Carisa O. Jiménez Chaparro ## Nephritic Syndrome * Slides created by: Keyshla M. Morales Muñoz * Edited by: David S ## Glomerular Diseases | Type | Etiology | Clinical Presentation | Examples | |---|---|---|---| | Nephritic syndrome |Glomerular inflammation → GBM damage → loss of RBCs into urine → dysmorphic RBCs, hematuria |Hematuria, RBC casts in urine + GFR → oliguria, azotemia ↑ renin release, HTN Proteinuria often in the subnephrotic range (< 3.5 g/day) but in severe cases may be in nephrotic range |Infection-associated glomerulonephritis Goodpasture syndrome IgA nephropathy (Berger disease) Alport syndrome Membranoproliferative glomerulonephritis | Nephrotic syndrome | Podocyte damage impaired charge barrier → proteinuria |Massive proteinuria (> 3.5 g/day) with edema, hypoalbuminemia → ↑ hepatic lipogenesis → hypercholesterolemia Frothy urine with fatty casts Associated with hypercoagulable state due to antithrombin III loss in urine and ↑ risk of infection (loss of IgGs in urine and soft tissue compromise by edema) |May be 1º (eg, direct podocyte damage) or 2º (podocyte damage from systemic process): Focal segmental glomerulosclerosis (1° or 2°) • Minimal change disease (1° or 2°) Membranous nephropathy ( 1° or 2°) Amyloidosis (2°) Diabetic glomerulonephropathy (2°) | ## Casts in Urine * Presence of casts indicates that hematuria/pyuria is of glomerular or renal tubular origin. * Bladder cancer, kidney stones → hematuria, no casts. * Acute cystitis → pyuria, no casts. * All casts contain a matrix composed primarily of Tamm-Horsfall mucoprotein (uromodulin), secreted by renal tubular cells to prevent UTIs. | Cast Type | Description | |---|---| | RBC casts |Glomerulonephritis, hypertensive emergency. | | WBC casts |Tubulointerstitial inflammation, acute pyelonephritis, transplant rejection. | | Granular casts |Acute tubular necrosis (ATN). Can be "muddy brown" in appearance. | | Fatty casts ("oval fat bodies") | Nephrotic syndrome. Associated with "Maltese cross" sign | | Waxy casts |End-stage renal disease/chronic kidney disease. | | Hyaline casts | Nonspecific, can be a normal finding with dehydration, exercise, or diuretic therapy. | ## Nephritic Syndrome * Inflammatory response → disrupts GBM → loss of renally excreted RBCs (acanthocytes) and ↓ GFR → hematuria, oliguria, azotemia, ↑ renin → edema and HTN * Conditions including autoimmune, hereditary, and infectious diseases can cause nephritic Syndrome * Manifest with varying degrees of severity, ranging from asymptomatic hematuria to systemic involvement, as in rapidly progressive glomerulonephritis. * The urine sediment is typically characterized by red blood cell casts, mild to moderate proteinuria (< 3.5 g/day), and sterile pyuria, oligouria and azotemia. * Remember: Hematuria with acanthocytes, RBC casts in urine, Proteinuria (< 3.5 g/24 h), Hypertension. ## Post Streptococcal GN * Type III HSR to GAS β-hemolytic (nephritis strain) after GAS pharyngitis (1-2 weeks after) or GAS impetigo (3-6 weeks after). In adults Staphylococcus can cause it. * Symptoms: edema (periorbital, peripheral), HTN, Coke urine & HF (adults). * Children 3-12yrs: self-limiting & Elderly: RPGN → renal insufficiency * ASO (antistrep O), ADB (Anti-Dnase B titer) * ↓ C3/CH50 (Consumption) because pyrogenic exotoxin B enters circulation and localizes to glomeruli and activates complement * **LM**: Hypercellular / Enlarged glomeruli * **IF**: granular subepithelial immune complex depositions IgG, IgM, C3 across GBM-> Starry sky, lumpy bumpy * **EM**: dome-shaped subepithelial immune complex deposits (humps) * **Tx**. benzathine penicillin or cephalosporins ## IgA nephropathy (Berger's) * Mesangial proliferative GN with diffuse IgA mesangial deposition * Most common Idiopathic, Nephritic Sx.-> Males in their 20s 30s from Asia. * Asymptomatic microhematuria with intermittent gross hematuria during or directly after one or more of the following: post URT infection, Gl infection and strenuous exercise. * ↑ Serum IgA and Normal C3 complement levels * Renal pathology findings of IgA vasculitis * **LM**: mesangial proliferation * **IF**: mesangial IgA immune complex deposits * **EM**: mesangial immune complex deposits * **Tx**: methylprednisona or prednisone ## Alport Syndrome * 85% x-linked dominant M > F and 15% AR Type IV collagen gene mutation 3-a4-a5 network. * Associated with sensorineural hearing loss and abnormalities of the eye (anterior lenticonus, retinopathy) * Often leads to ESRD * Findings: Persistent microhematuria with intermittent gross hematuria, proteinuria and HTN. * **EM**: splitting and alternating thickening and thinning of the glomerular basement membrane (basket-weave appearance). * **IF**: Initially negative, but later Irregular IgG, IgM and C3. ## Rapid progressive GN * Proliferative cellular response and lymphocytic infilitration in bowman space-> crescent -> adhesions between Bowman's space and glomerular tuft. * Crescent formation (moon-shaped) made of plasma proteins like C3b and fibrin * Renal function declines rapidly over days to weeks * Not a disease entity itself but a possible manifestation of glomerulonephritis (Multiple causes) * Poor prognosis: can progress to ESRD within weeks to months * Can be caused by a variety of diseases categorized in three groups according to their IM pattern * **Linear**: Goodpasture syndrome (anti-GBM disease) (Type II) * **Granular** (immune complex RPGN) by Poststreptococcal Glomerulonephritis (Type III) * **Diffuse proliferative glomerulonephritis(most common with SLE)** (Type III) * **Negative** (pauci-immune RPGN) by Vasculitis (Type III) ## Diffuse proliferative glomerulonephritis (DPGN) * Most common and severe manifestation of lupus nephritis in systemic lupus erythematosus(SLE). Also see in others autoimmune disease. * Can be nephritic with nephrotic-range proteinuria * Can lead to immune complex RPGN * ↓ Serum C3 complementlevels & ANA, anti-dsDNA antibodies * **LM**: Thickening of glomerular capillaries (wire loops) * Characterized by increased glomerular cellularity in more than half of the glomeruli (mesangeal and endothelial proliferation) * **IM**: granular appearance * **EM**: Most commonly subendothelial immune deposits (IgG immune complexes, C3, and C1q) * Less commonly subepithelial or intramembranous deposits. ## Membranous Proliferative Glomerulonephritis * Pattern of glomerular injury from subendothelial and mesangial immune complex deposition and/or complement factor * **Type 1**: mesangial and subendothelial deposits (HBV & HCV) * **Type 2 (DDD)**: dense deposit disease in mesangial and intramembranous (BM) area in EM. (IgG Ab that stabilizes C3 convertase-> persistent activation) -> Decrease serum C3 * **Type 3**: subendothelial, intramembranous and subepithelial in EM * Nephritic, nephrotic if severe, concomitant nephrotic-range proteinuria * **LM**: mesangial ingrowth, which leads to thickening and splitting of the glomerular BM (tram-track appearance) * **Hallmark**: duplication of BM ## Tubulointerstitial * Slides created by: Ruben * Edited by: David ## Definition * **Acute Tubular Injury/Necrosis** * ATI is characterized by acute renal failure and often, but not invariably, morphologic evidence of tubular injury, in the form of necrosis of tubular epithelial cells * Not always necrotic so injury preferred term * Most common cause of acute kidney injury * Reversible process ## Causes * Ischemia due to interrupted or decreased blood flow – Ischemic ATI Pattern * Period of inadequate blood flow to the peripheral organs, accompanied by marked hypotension and shock * Direct toxic injury to tubules (endogenous or exogenous agents) – Nephrotoxic ATI Pattern * Caused by a multitude toxic agents * Mixed Patterns occur * i.e. mismatched blood transfusions, skeletal muscle injuries ## Pathogenesis * **Tubular Injury** * Proximal tubules most sensitive * High risk for injury due to toxin concentrating abilities and high energy demand * Early reversible alteration is loss of polarity due to redistribution of transport proteins * Tubuloglomerular feedback in response to increased sodium delivery to distal tubules results in lower GFR * Recruitment of leukocytes/inflammation occurs and exacerbates injury * Later changes are detachment of cells and subsequent luminal obstruction --. Increased intratubular pressure → decreases GFR further * Leaking of tubular filtrate into interstitium due to damaged endothelial cells results in increased interstitium pressure and further damage to tubules and decreased GFR * **Persistent and severe disturbances to blood flow** * Intrarenal vasoconstriction reduces GFR further → decreased blood flow and oxygen delivery * Increased endothelin and reduced nitric oxide and prostacyclin (prostaglandin 12) production ## Reversibility * Patchiness of damage allows non-damaged segments to repair and maintain renal function once disturbance removed * Proliferation and differentiation of epithelial cells allows reversibility (re-epithelialization) ## Clinical Features 1. Initiation Phase 36 hours: slight decline in urine output and increase in BUN; oliguria due to decrease in blood flow and decreasing GFR 2. Maintenance Phase; sustained decrease in urine, salt and water overload, rising BUN concentrations, hyperkalemia, metabolic acidosis. Reversible stage 3. Recovery Phase: steady increase in urine; large amounts of water, sodium, and potassium are lost in the flood of urine due to damage; hypokalemia arises; increased infection risk; creatinine and BUN begin to return to normal; subtle persistent functional impairment for months but eventually complete recovery occurs ## Tubulointerstitial Nephritis * This group of renal diseases involves inflammatory injuries of the tubules and interstitium that are often insidious in onset and are principally manifest by azotemia. * Acute: rapid clinical onset and is characterized histologically by interstitial edema, often accompanied by leukocytic infiltration of the interstitium and tubules, and tubular injury * Chronic: there is infiltra- tion with predominantly mononuclear leukocytes, prominent interstitial fibrosis, and widespread tubular atrophy ## Causes * Focus on pyelonephritis and toxin-induced tubulointerstitial nephritis ## Pyelonephritis * Pyelonephritis is one of the most common diseases of the kidney and is defined as inflammation affecting the tubules, interstitium, and renal pelvis * Acute: due to infection (bacterial)/UTI * Chronic: infection + vesicoureteral reflux + obstruction → repeat episodes * Affects bladder (cystitis), kidney and collecting ducts (pyelonephritis) * Lower UTI may remain localized to bladder or spread to kidney ## Pathogenesis * More than 85% of urinary tract infections are caused by the gram-negative bacilli that are normal inhabitants of the intestinal tract * most common is Escherichia coli, followed by Proteus, Klebsiella, and Enterobacter and * Streptococcus faecalis, also of enteric origin, staphylococci, and virtually every other bacterial and fungal agent can also cause lower urinary tract and renal infection * Polyomavirus, cytomegalovirus, and adenovirus in viral causes → kidney allografts, immunocompromised * Two routes: lower UTI spread > hematogenous ## UTI Ascending Infection 1. Colonization of distal urethra and introitus (female) by coliform bacteria 2. Spread from urethra to bladder * Catheterization common cause * More common in females due to shorter urethra 3. Bladder to kidney spread influenced by * Urinary tract obstruction and urine stasis * Vesicoureteral reflux impairment → valve allows for retrograde urine movement → its absence prevent progression to pyelonephritis * Impairment can be congenital, promoted by bacterial infection, SCI * Intrarenal reflux → open ducts at the tips of the papillae ## Clinical Features - Risk Factors * Urinary tract obstruction * Instrumentation * Vesicoureteral reflux * Pregnancy * Gender and age * Preexisting renal lesions * Diabetes * Immunosuppression and immunodeficiency ## Clinical Features * Sudden onset of pain at the costovertebral angle * Systemic evidence of infection, such as fever and malaise * Bladder and urethral irritation indications: dysuria, frequency, and urgency * Pyuria - urine with increased leukocyte concentration from inflammatory infiltrate → does not differentiate from lower UTI * Renal casts → indicative of renal involvement because they form in tubules * Infection diagnosed by quantitative urine culture * Antibiotic treatment results in symptom disappearance → recurrent infections may occur * Viral causes polyomavirus nephropathy: * nuclear enlargement and intranuclear inclusions visible by light microscopy * interstitial inflammatory response * Treatment consists of a reduction in immunosuppression ## Complications * urinary obstruction, diabetes mellitus, or immunodeficiency results in more serious manifestations and increased risk of repeat infections * Papillary necrosis may result in acute renal failure

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