Renal Tumors PDF

Summary

This document provides a comprehensive overview of renal tumors. It discusses various types of benign and malignant tumors, including their characteristics, risk factors, and potential symptoms. The document also covers renal cell carcinoma (RCC), nephroblastoma, and other related conditions. The information is presented in structured format with headings and subheadings.

Full Transcript

Renal Tumors

 BENIGN RENAL TUMORS:
 The most common benign tumor: Angiomyolipoma, oncocytoma
 Angiomyolipoma: consists of a BVs (Angio) & SMCs (myo) & fat (lipo),
seen in 25-50% of patients with tuberous sclerosis (TS)
 TS: disease in which there is loss of function mutations in TS1 + TS2 gene
 these patients have Brain Tumors and skin lesions (Ash-Leaf Pathches)
 Oncocytoma:
 10% of renal tumors & it's encapsulated tan or brown in color (mahogany)
 Eosinophilic cells packed with Mitochondria
 genetic changes: loss of chromosomes 1 and Y

 RENAL CELL CARCINOMA (RCC) (Malignant)
 1-3% of all visceral cancers, 85% of all renal cancer
 Most common in elderly (60-70 years), M: F = 2:1
 Risk factors:
 Smoking, obesity, hypertension
 Unopposed estrogen Rx (Tamoxifen)
 Asbestos, petroleum products & heavy metals
 CRF & acquired cystic disease (30 folds, not considered as premalignant)
 Familial: 4% (most common are sporadic)
 Von Hippel-Lindau (VHL) sy: mutations in VHL gene-ch 3
 Hereditary clear cell carcinoma
 Hereditary papillary carcinoma
 Morphology of RCC: Grossly
 Mainly polar, spherical yellow (fill with fat) Variegated tumor
 with hemorrhagic, necrotic and cystic areas.
 May extend into renal vein (metastasis)
 Morphology of RCC: Microscopically
 Clear cell carcinoma
 Most common ,70-80% of renal CA
 Clear cells with clear or granular Cytoplasm
 Majority are sporadic but there are Familial forms like vHL
 Papillary RCC
 10-15% of all renal CA, Papillary growth pattern
 Frequently multifocal and bilateral, Appear as early stage tumor
 Sporadic: Trisomy 7,16,17 loss of Y Chromosome
 Familial: MET protooncogene on Chromosome 7and trisomy 7

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  Chromophobe RCC
 5% of all RCC, Arise from cortical collecting ducts or Their intercalated cells
 Multiple losses of entire chromosomes (1,2,6,10,13,17,21)
 General good prognosis (have the same origin) as oncocytoma which is benign Tumor
 Usually no mets (only in 10% of cases) & no LN involvement, No lymphovascular invasion
 Microscope: resinoid nucleus, halo around the nucleus and a distinct cell membrane
 Sarcomatoid carcinoma: dedifferentiation towards sarcoma, but its carcinoma in origin

 Clinical features of RCC
 Most cases are Asymptomatic/incidental finding
 Hematuria (50%), costovertebral pain, mass (all 10%)
 Constitutional symptoms (Fever /malaise/ weight loss)
 Advanced stage present with mets (lungs & bones)
 Paraneoplastic syndromes:
 Polycythemia 5-10% (EPO), Hypercalcemia (PTHrp)
 Cushing’s syndrome (ACTH), HTN (Renin)
 Feminization or masculinization
 Prognosis: 5 years’ survival is around 70%
 Stage is the most important prognostic factor, depends on:
 Tumor size, R.V involvement, extending outside the capsule of the kidney
 If the tumor is small (2-3cm) usually undergo partial nephrectomy (not radical)

 NEPHROBLASTOMA (WILM’STUMOR)
 Uncommon tumor but one of the Commonest childhood
neoplasms (up to 5 years old)
 Risk factors:
 Congenital malformations with abnormalities of chromosome 11
(WT-1 & WT-2) -stand for wilms tumor suppressor gene
 These patients usually have denys drash syndrome or beckwith
wiedemann syndrome
 Grossly: Large well circumscribed soft Tan-gray homogenous Tumor
 Microscopically: Blastemal, stromal and epithelial elements
 Presents with abdominal mass (most common), hematuria, Pain or HTN
 Prognosis: currently 90% long term survival

 Renal pelvis carcinoma
 The lining of the renal pelvis is transitional epithelium (urethelium)
 Types: transitional CC or squamous CC (with long standing irritation)
 5-10% of renal neoplasms, Often small and present early with:
 Painless Hematuria
 Pain or mass due to hydronephrosis (due to obstruction)
 May be multifocal
 Prognosis: Variable, depend on stage and grade,
Despite removal by nephrectomy, the 5y survival rate is 50% (bad 😔)
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 Ureters
 Like the renal pelvis, the lining of the ureters is transitional epithelium (urethelium)
 types: transitional CC or squamous CC
 Sites of narrowing: Ureteropelvic & Ureterovesical junction, Crossing of iliac vessels.
 In female pelvis, the ureters lie close to uterine Arteries and the cervix.
 Operations of the Female genital tract & diseases of the Cervix & uterus may affect ureters
 Causes of Ureteral Obstruction:
 Intrinsic: Calculi /Strictures /Tumors /Blood clots /Neurogenic
 Extrinsic: Pregnancy/Periureteral inflammation/Endometriosis /Tumors
 Endometriosis: Presence of the endometrial gland & stromal cells outside endometrium
 Usually in fallopian tubes & ovary & abdominal wall especially after the cesarean section

 Cystitis: Inflammation of the urinary bladder
 Bacterial cystitis:
 Etiology:
 Ecoli (most common)  Proteus vulgaris
 Klebsiella pneumonia  Pseudomonas aeruginosa
 Streptococcus fecalis  Chlamydia
 ureaplasma  Mycoplasma
 Chlamydia, ureaplasma & mycoplasma have a tendency to develop stones.
 Predisposing factors:
 Sexually active females  Diverticula
 Short female urethra  Benign prostatic hyperplasia (BPH)
 Foreign bodies (stones, catheter)
 Diagnosis: depends on symptoms & culture
 Symptoms: inflammation, frequency of urine, hematuria
 Urine analysis & culture
 Biopsy: acute inflammation with erosions of the urinary bladder
 Schistosomal Cystitis:
 Etiology: Scistosoma hematobium (parasitic infection)
 Pathogenesis:
 Cercariae penetrates the skin → Mature worms lay eggs in the bladder wall
 Eggs irrigate the bladder causing granulomatous inflammation → calcifying the eggs
 Complications: lower UTI, hydroureter, Hydronephrosis
 Long standing schistosomal cystitis ↑ risk of developing Bladder carcinoma (mostly SCC)

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 Bladder cancer
 The lining of the urinary bladder is transitional epithelium (urethelium)
 7% of male CA, 2% of female CA, Mean age 65Y (50-80) (M: F 3:1)
 >90% are transitional (urothelial) cell Carcinoma.
 Etiology: mostly unknown, but there are some possible causes:
 Induction time ~22Y
 Cigarette smoking, Cyclophosphamide
 Phenacetin containing Analgesics, S. Hematobium Infestation
 Dye & rubber Industry:
 Aromatic amines 2 –naphthylamine
 4-aminobiphenyl, Benzidine, Azo dyes
 Could be benign or malignant
 Papilloma: only benign tumor in the urothelial neoplasms
 Not very common, usually seen in children
 Very low tendency to transform into carcinoma (1-2%)
 Low grade TCC & High grade TCC

 Papilloma & NIP carcinoma: same pattern (differ in Histomorphologic F).
 Most of TCCs express papillary pattern
 IPC: invade the lamina Propria & SMCs
 Flat non-invasive carcinoma: does not invade, Like CIS.
 Flat invasive carcinoma: invades to underlying Structures

 Urothelial carcinoma in situ:
 High grade intraurothelial neoplasia
 A non-papillary, flat lesion (Surface epithelium contains cells
that are Cytologically malignant).
 Accounts for less than 1-3% of urothelial Neoplasms
 Is seen in association with invasive Carcinoma (45-65%)
 Asymptomatic or with frequency, urgency or even hematuria

 Other bladder tumors: SCC 5% (schistosomiasis & tobacco smoking),
Adenocarcinoma 2%, Sarcomas, Paraganglioma, Carcinoid

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 Miscellaneous

 Summary of genetic relationship of RCC:

In papillary RCC:
Macrophages in
the papillae

 To measure proteinuria:
 Qualitative (urine dipstick): +1 → +4
 Quantitative: protein in 24 hours
 Types of ectopic kidneys:
 Simple: proper side but abnormal location
 Crossed: opposite side

 NOTES:
 Biopsy of the kidney shouldn’t be taken directly (risk of mets)
 PT & PTT Should be checked before operations
 Maignant HTN diagnosed clinically
 IF in amyloidosis: monoclonal staining of accumulated amyloid

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