tubulointerstitial disease

TUBULOİNTERSTİTİAL DİSEASE

Prof Dr.Gülçin KantarcıYeditepe University Nephrology Department

Aims & objectives

State the definition of tubulointerstitial disease.

Identify clinical signs of tubulointerstitial disease.

Explain the pathophysiology of tubulointerstitial disease.

The tubulointerstitial compartment is affected in all the forms of renal disease. We can find the pathology as tubular damage, tubular atrophy, edema, interstitial inflammation or fibrosis. Acute interstitial or tubular damage can produce acute renal failure,Chronic changes are a good indicator of irreversible lesions primary injury to renal tubules and interstitium resulting decreased renal function.

Tubulointerstitial Nephrithis

The acute form is most often due to allergic drug reactions or to infections.

Acute Tubulointerstitial Nephrithis

Diagnosis of ATIN

suggested by history and urine and blood tests and confirmed by biopsy.

Exclusion of glomerular disease Urinalysis: proteinuria<1 g/day (Proteinuria is

usually minimal but may reach nephrotic range with combined ATIN-glomerular disease induced by NSAIDs)

WBC casts and granular casts Eosinophiluria Low molecular weight proteinuria (LMW-P) ( B2 micglobulin, Tamm-Horsfall gylcoprotein)

Tamm-Horsfall gylcoprotein

The most abundant protein of renal origin

Synthesized by cells of the thick ascending limb of the loop of Henle

Excreted in the urine at a relatively constant rate

Urinary excretion can increase following injury to the distal tubule

Diagnosis of ATIN

Eosinophiluria has a positive predictive value of 50% and a negative predictive value of 90% for ATIN; absence significantly excludes disease.

Blood test findings of tubular dysfunction include; hyperkalemia (defect in K excretion) metabolic acidosis (defect in acid excretion)

Ultrasound findings: The kidneys may be greatly enlarged and echogenic by examination because of interstitial inflammatory cells and edema.

Renal biopsy

not often performed for diagnostic purposes but has helped characterize the nature and progression of tubulointerstitial disease.

Glomeruli are usually normal. The earliest finding is interstitial edema, typically followed by interstitial infiltration with lymphocytes, plasma cells, eosinophils, and a few PMNs.

The presence of granulomas suggests sarcoidosis.

Acute Tubulointerstitial Nephritis

Acute tubulointerstitial nephritis (ATIN) associated with an inflammatory

infiltrate and edema involving the renal interstitium (days to months).

Over 95% of cases result from infection or an allergic drug reaction;

a syndrome of ATIN associated with uveitis (renal-ocular syndrome-TINU) also occurs and is idiopathic.

causes Acute Kidney Injury (AKI) severe cases, delayed therapy, or continuance of an offending drug

can lead to permanent injury with Chronic Renal Failure (CRF)

Symptoms and signs of ATIN

Fever urticarial rash

Onset may be as long as several weeks after a 1st toxic exposure or as soon as 3 to 5 days after a 2nd exposure;

extremes in latency range from 1 day with rifampin to 18 mo with an NSAID.

Symptoms and signs of ATIN

•Abdominal pain, weight loss, and bilateral renal masses (caused by interstitial edema) may also occur and with fever may mistakenly suggest renal malignancy or polycystic kidney disease.

•Many patients develop polyuria and nocturia (defect in concentration and Na reabsorption).

•Peripheral edema and hypertension are uncommon unless renal insufficiency or renal failure occurs

Maculopapular rash in a patient with drug–induced acute interstitial nephritis

On light microscopy, interstitial infiltration with mononuclear cells, with normal glomeruli. It is usually associated with interstitial edema, and with tubular lesions

prognosis

vary by the etiology and potential reversibility of the disorder at the time of diagnosis.

Prognosis

In drug-induced ATIN, renal function usually recovers within 6 to 8 wk when the offending drug is withdrawn, although some residual scarring is common.

Recovery may be incomplete, with persistent azotemia above baseline

histologic changes usually are reversible if the cause is recognized and removed; however, some severe cases progress to fibrosis and renal failure.

Regardless of cause, diffuse rather than patchy interstitial infiltrates, delayed response to prednisone , and persistent acute renal failure (> 3 wk) suggest irreversible injury.

The CTIN is irreversible and rather than allergic condition, it is associated with geneticmetabolic obstructive uropathychronic environmental toxins drugs and herbs.

Chronic tubulointerstitial nephritis

Chronic tubulointerstitial nephritis (CTIN)

chronic tubular insults cause gradual interstitial infiltration and fibrosis, tubular atrophy and dysfunction, and a gradual deterioration of renal function, usually over years.

Glomerular involvement (glomerulosclerosis) is much more common in CTIN than in ATIN.

Causes of CTIN

infections, reflux or obstructive nephropathy, drugs, and other diseases. toxins, metabolic diseases, hypertension inherited disorders results in symmetric and

bilateral disease;

Diagnosis of CTIN

Findings of CTIN are generally similar to those of ATIN, though urinary RBCs and WBCs are uncommon. Because CTIN is insidious in onset and is associated with interstitial fibrosis, imaging tests may show small kidneys with evidence of scarring and asymmetry.

Pathogenesis of tubulointerstitial fibrosisInjury to the tubule

and peritubular capillary leads to the

generation of chemotactic and adhesive factors that result in macrophage and T–cell accumulation.

Local macrophage and fibroblast activation ensues, driven by growth factors such as PDGF(platelet–derived growth factor) and TGF-β (transforming growth factor- β), which results in collagen production by tubular cells and fibroblasts,eventually culminating in the fibrotic lesion.

Renal biyopsy In CTIN, glomeruli

vary from normal to completely destroyed.

The interstitium contains varying degrees of inflammatory cells and fibrosis.

Tubular atrophy

Tubules may be absent or atrophied

Nonscarred areas appear almost normal. Grossly, the kidneys are small and atrophic

Tubular casts. Casts are periodic acid–Schiff stain (PAS) positive and usually contain Tamm–Horsfall protein. Some may contain desquamated tubular cells and macrophages. (Periodic acid–Schiff ×400).

An intravenous urogram of a patient with analgesic nephropathy

The pyelogram shows evidence of a necrotic papilla in the lateral minor calyx producing a 'ring' sign

Prognosis of CTIN

depends on the cause and on the ability to recognize and stop the process before irreversible fibrosis occurs.

Many genetic (cystic kidney disease), metabolic (cystinosis), and toxic (heavy metal) causes may not be modifiable, in which case CTIN usually evolves to end-stage renal disease

ANALGESIC ABUSE NEPHROPATHY

Analgesic abuse nephropathy (AAN) is CTIN caused by cumulative lifetime use of large amounts (eg, ≥ 2 kg) of certain analgesics.

AAN predominates in women (peak incidence, 50 to 55 yr) and, in the US, is responsible for 3 to 5% of cases of end-stage renal disease (13 to 20% in Australia and South Africa).

AAN was originally described in conjunction with overuse of combination analgesics containing phenacetin (typically with aspirin, acetaminophen, codeine, or caffeine).

Patients present with;

renal insufficiency, a bland urinary sediment, non-nephrotic proteinuria.

Hypertension and impaired urinary concentration are common.

Flank pain and hematuria are signs of papillary necrosis that occur late in the course of disease.

Chronic complaints of musculoskeletal pain, headache, malaise, and dyspepsia may be precipitants of long-term analgesic use rather than effects of AAN.

Renal function stabilizes when analgesics are stopped unless renal insufficiency is advanced, in which case it may progress to renal failure.

Patients with AAN are at greater risk

of transitional cell carcinomas of the urinary tract.

METABOLIC NEPHROPATHIESAcute urate nephropathy: This is

not a true form of ATIN but rather an intraluminal obstructive uropathy caused by uric acid crystal deposition within the lumen of renal tubules; acute oliguric or anuric renal failure results.

It most commonly occurs from tumor lysis syndrome

Chronic urate nephropathy: This condition is CTIN caused by deposition of Na urate crystals in the medullary interstitium in the setting of chronic hyperuricemia.

Chronic urate nephropathy was once common in patients with tophaceous gout but is now rare because of treatment

Hyperoxaluria

a cause of both acute and chronic tubulointerstitial nephritis.

ATIN and AKI may develop in susceptible patients who ingest high-oxalate foods (eg, tea, chocolate, spinach, star fruit) or who are exposed to exogenous substances that are metabolized into oxalate (eg, ethylene glycol ingestion, methoxyflurane anesthesia, large doses of ascorbic acid).

CTIN and progressive chronic renal failure develop in patients with inherited disorders of excessive oxalate production (types I and II primary hyperoxaluria) or acquired GI diseases (eg, short bowel syndrome with increased gut absorption).

Symptoms and signs

Differ by form of disease and include;

hematuria renal colic from oxalate calculi, UTI and pyuria, hypertension, renal tubular acidosis

HEAVY METAL NEPHROPATHY

Lead: accumulates in proximal tubular cells.

Chronic lead exposure (5 to 30 yr) causes progressive tubular atrophy, interstitial fibrosis, hypertension, and gout.

Chronic low-level exposure may cause renal insufficiency and hypertension independent of tubulointerstitial disease.

Children exposed to lead paint dust or chips, battery workers, and drinkers of moonshine alcohol are most at risk.

Diagnosis

usually made by whole blood lead levels. Alternatively, x-ray fluorescence

HEAVY METAL NEPHROPATHY

Cadmium: Cadmium from contaminated water, food, and tobacco and from workplace exposures can cause nephropathy.

Diagnosis - a history of occupational exposure, - increased levels of urinary β2-

microglobulin,- increased urinary cadmium levels

(> 7 μg/g creatinine).

HEAVY METAL NEPHROPATHY

Other heavy metals: Those that are nephrotoxic include copper, gold, uranium, arsenic, iron, mercury, bismuth, and chromium.

All cause tubular damage and dysfunction but glomerulopathies may predominate with some compounds (mercury, gold).

Treatment involves removal of the patient from further exposure and chelating agents (copper, arsenic, bismuth) or dialysis (chromium, arsenic, bismuth).

REFLUX NEPHROPATHY

Reflux nephropathy is renal scarring induced by vesicoureteral reflux of infected urine into the renal parenchyma.

Chronic pyelonephritis also may play a role, but UTI without intrarenal reflux is unlikely to cause nephropathy.

Vesicoureteral reflux (VUR)

VUR affects about 1% of newborns and 30 to 45% of young children with a UTI

Few symptoms and signs are present in young children, and the diagnosis is often overlooked until adolescence, when patients present with proteinuria, hypertension, and/or renal insufficiency.

Diagnosis of VUR

voiding cystourethrogram (VCUG), radionuclide cystography (DMSA) 99m-technetium

dimercaptosuccinic acid (Renal scarring is diagnosed with radionuclide scanning or with IVU, which is less sensitive)

voiding cystourethrogram (VCUG),

MYELOMA-RELATED KIDNEY DISEASE

Patients with multiple myeloma overproduce monoclonal Ig light chains (Bence Jones proteins); these light chains are filtered by glomeruli, are nephrotoxic, and can damage virtually all areas of the kidney parenchyma.

The mechanisms of nephrotoxicity are unknown. Tubulointerstitial and glomerular damage are most common.

MYELOMA-RELATED KIDNEY DISEASE

Tubulointerstitial disease: Light chains saturate the reabsorptive capacity of the proximal tubule, reach the distal nephron, and combine with filtered proteins and Tamm-Horsfall mucoprotein (secreted by the thick ascending limb cells) to form obstructive casts.

Factors that predispose to cast formation: low urine flow, elevation of luminal NaCl concentration (eg,

due to a loop diuretic), radiocontrast agents, increased intratubular Ca (hypercalcemia

frequently occurring from bone lysis)

MYELOMA-RELATED KIDNEY DISEASE

Other types of tubulointerstitial lesions associated with Bence Jones proteinuria include proximal tubular transport dysfunction producing Fanconi syndrome and light chain interstitial deposition with inflammatory infiltrates and active tubular damage.

Suggested readings:•Current Medical Diagnosis and Treatment, Maxine A. Papadakis, Stephen J. McPhee, Eds. Michael W. Rabow, Associate Ed.•Andreoli and Carpenter's Cecil Essentials of Medicine 8th edition, Andreoli and Carpenter, ElsevierPART 11: RENAL AND GENITOURINARY DISEASES 123• http://www.uptodate.com