Sandbox: abdominal mass: Difference between revisions

Latest revision as of 21:17, 2 July 2018

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sargun Singh Walia M.B.B.S.[2]

Differential Diagnosis

S.No.	Disease	Symptoms			Signs		Diagnosis			Comments
S.No.	Disease	Abdominal Pain	Hematuria	Headache	Abdominal mass	Abdominal tenderness	Ultrasonography	CT scan	Histology	Comments
1.	Wilms tumor	+	+	-	+	+	It is the best initial diagnostic study used in cases suspected with Wilms tumor. Ultrasonography can help identify the mass as a kidney mass. It can distinguish tumor mass from other causes of renal swelling like hydronephrosis.^[1] Doppler ultrasonography can help to detect invasion of renal vein and IVC by the tumor.^[2]	Findings on CT scan which can be suggestive of Wilms tumor include:^[3] Heterogeneous soft-tissue density masses These masses have frequent areas of calcification (~10%) and fat-density regions Lymph node metastasis CT scan of the renal mass can further reveal: Invasion of surrounding organs Thrombus in or occlusion of the renal vein and/or the inferior vena cava Abdominal lymph nodes and contralateral involvement	Wilms tumor has a triphasic appearance. It is comprised of 3 types of cells: Stromal Epithelial Blastemal All the 3 types are not required for the diagnosis of Wilms tumor. Primitive tubules and glomeruli are often seen comprised of neoplastic cells. Beckwith and Palmer reported in NWTS the different histopathologic types of Wilms tumor to categorize them based on prognosis.^[4] Spindled cell stroma surrounding abortive tubules and glomeruli is characteristic. The stroma may include: Striated muscle cartilage bone Fat tissue Fibrous tissue.
2.	Renal cell carcinoma	+	+	+/-	+	-	Ultrasound (US) may be helpful when CT scan results are equivocal. It is noteworthy to mention that not all renal cell carcinomas are detectable on ultrasound.	Both CT and MRI may be used to detect neoplastic masses that may define renal cell carcinoma or metastasis of the primary cancer. CT scan and use of intravenous (IV) contrast is generally used for work-up and follow-up of patients with renal cell carcinoma.	The histological pattern of renal cell carcinoma depends whether it is papillary, chromophobe or collecting duct renal cell carcinoma.
3.	Rhabdoid kidney disease	+	+	-	+	-	Ultrasound shows a complex cystic mass.	CT scan may be diagnostic of malignant rhabdoid tumor. Findings on CT scan suggestive of malignant rhabdoid tumor include a large, heterogenous, centrally located mass, which is lobulated with individual lobules separated by intervening areas of decreased attenuation, relating to either previous hemorrhage or necrosis. Enhancement is similarly heterogeneous. Calcification is relatively common, observed in 20-50% of cases and is typically linear and tends to outline tumor lobules.	Malignant rhabdoid tumor is characterized by the round blue tumor cells of high cellularity composed of atypical cells with eccentric nuclei, small nucleoli, and abundant amounts of eosinophilic cytoplasm with frequent mitotic figures.
4.	Polycystic kidney disease	+	+	+ (from hypertension)	+	-	Ultrasound may be helpful in the diagnosis of polycystic kidney disease. Findings on an ultrasound diagnostic of polycystic kidney disease include:^[5]^[6] At least three unilateral or bilateral cysts in patients 15 - 39 years old Atleast two cysts in each kidney in patients 40 - 59 years old Atleast four cysts in each kidney in patients 60 years of age or older	Renal CT scan may be helpful in the diagnosis of polycystic kidney disease. Findings on CT scan diagnostic of ADPKD include: Numerous renal cysts of varying size and shape with little intervening parenchyma with water attenuation and very thin wall. Reduction in sinus fat due to expansion of the cortex Occasional complex cysts with hyperdense appearance, with possible septations or calcifications Multiple homogeneous and hypoattenuating cystic lesions in the liver in patients with liver involvement	On microscopic histopathological analysis, interstitial fibrosis, tubular atrophy, thickening and lamellation of tubular basement membranes, microcysts and negative immunofluorescence for complement and immunoglobulin are characteristic findings of ADPKD.^[7]^[8]^[9]^[10]
5.	Pheochromocytoma	-	-	+ (as a part of the hypertension paroxysm)	-	-	CT is the preferred imaging modality for the diagnosis of pheochromocytoma.	The following findings may be observed on CT scan:^[11] Most common extra-adrenal locations are superior and inferior abdominal paraaortic areas, the urinary bladder, thorax, head, neck and pelvis.^[12] In sporadic pheochromocytoma, CT and MRI are good choices. The choice depends on availability and cost.^[13] In patients with the multiple endocrine neoplasia type 2 (MEN2) syndrome, CT may miss the tumors.^[14]	On microscopic pathology, Pheochromocytoma typically demonstrates a nesting (Zellballen) pattern on microscopy. This pattern is composed of well-defined clusters of tumor cells containing eosinophilic cytoplasm separated by fibrovascular stroma.
6.	Burkitt lymphoma	+/- (in non-endemic or sporadic form of the disease)	-	-	-	-	Abdominal ultrasonography may show splenomegaly and ascites.	Chest, abdomen, and pelvis CT scan may be helpful in the diagnosis of Burkitt's lymphoma but it is not done routinely.^[15]	On microscopic histopathological analysis, characteristic findings of Burkitt's lymphoma include:^[16] Medium-sized (~1.5-2x the size of a RBC) with uniform size ("monotonous") -- key feature (i.e. tumor nuclei size similar to that of histiocytes or endothelial cells) Round nucleus Small nucleoli Relatively abundant cytoplasm (basophilic) Brisk mitotic rate and apoptotic activity Cellular outline usually appears squared off "Starry-sky pattern": The stars in the pattern are tingible-body macrophages (macrophages containing apoptotic tumor cells. The tumour cells are the sky
7.	Intussusception	+	-	-	+/-	+	Ultrasound is the gold standard imaging modality used to diagnose intussusception^[17] Target or doughnut sign^[18] Edematous intussuscipien forms an external ring around the centrally located intussusceptum Target sign is usually seen in right lower quadrant Layers of intussusception forms pseudo-kidney appearance on the transverse view	CT scan may be helpful in the diagnosis of intussusception. CT scan maybe used when other image modalities like x-ray and ultrasound have not given positive results but suspicion of intussusception is high.	Intussusception occurs if there is an imbalance between the longitudinal and radial smooth muscle forces of intestine that maintain its normal structure. This imbalance leads to a segment of intestine to invaginate into another segment and cause entero-enteral intussusception. Etiology of intussusception is either idiopathic or pathologic (lead point).
8.	Hydronephrosis	+	+/-	-	-	+ (CVA tenderness in case of pyelonephritis)	Ultrasound allows for visualization of the ureters and kidneys and can be used to assess the presence of hydronephrosis and/or hydroureter.	In the case of renal colic (one sided loin pain usually accompanied by a trace of blood in the urine) the initial investigation is usually an intravenous urogram. This has the advantage of showing whether there is any obstruction of flow of urine causing hydronephrosis as well as demonstrating the function of the other kidney. Many stones are not visible on plain x ray or IVU but 99% of stones are visible on CT and therefore CT is becoming a common choice of initial investigation.	The kidney undergoes extensive dilation with atrophy and thinning of the renal cortex.
9.	Dysplastic kidney	N/A	N/A	N/A	N/A	N/A	MCDK is usually diagnosed by ultrasound examination before birth. Mass of non-communicating cysts of variable size. Unlike severe hydronephrosis, in which the largest cystic structure (the renal pelvis) lies in a central location and is surrounded by dilated calices, in multicystic dysplastic kidney the cyst distribution shows no recognizable pattern. Dysplastic, echogenic parenchyma may be visible between the cysts, but no normal renal parenchyma is seen.	MCKD can be discovered accidentally on CT scan. CT scan shows myltiple cysts with absence of renal parenchyma.	MCKD is the result of abnormal differentiation of the renal parenchyma.
10.	Pediatric Neuroblastoma	+	-	-	+/-	+/-	On ultrasound, neuroblastoma is characterized by a heterogeneous echogenicity due to the vascular, necrotic, and calcified content of the mass.^[19]	CT scan is the investigation of choice for the diagnosis of neuroblastoma.^[20] On CT scan, neuroblastoma is characterized by:^[21] Heterogeneous mass Calcification Necrosis Compression of the surrounding vessels Invasion of the psoas muscle or kidneys Swollen lymph nodes	On microscopic histopathological analysis the presence of round blue cells separated by thin fibrous septa are characteristic findings of neuroblastoma. Other findings of neuroblastoma on light microscopy may include:^[22] Homer-Wright rosettes (rosettes with a small meshwork of fibers at the center) Neuropil-like stroma (paucicellular stroma with a cotton candy-like appearance) On electron microscopy neuroblastoma is characterized by: Dendritic processes with longitudinally oriented microtubules Membrane bound electron-dense granules that contain catecholamines Presence of desmosomes Absence of glycogen
11.	Pediatric Rhabdomyosarcoma	+	+/-	+/-	-	+/-		On CT scan, rhabdomyosarocma is characterized by: Soft tissue density Some enhancement with contrast Adjacent bony destruction (over 20% of cases)	Rhadbomyosarcoma has an appearance similar to the other round blue cell tumors such as Ewing sarcoma and small cell osteoblastoma.
12.	Mesoblastic nephroma	+	+	-	+	-	Ultrasound may be helpful in the diagnosis of mesoblastic nephroma. Mesoblastic nephroma may presents as a well-defined mass with low-level homogeneous echoes.^[23] The presence of concentric echogenic and hypoechoic rings can be a helpful diagnostic feature of mesoblastic nephroma.	CT scan may be helpful in the diagnosis of mesoblastic nephroma. Findings on CT scan suggestive of mesoblastic nephroma include: Solid hypoattenuating renal lesion Variable contrast enhancement No calcification	Classic mesoblastic nephroma Spindle cells in fascicles Infiltrative border Cellular mesoblastic nephroma Plump cells with vesicular nuclei Well-defined border Mitotically active Mixed mesoblastic nephroma Both classic pattern and cellular pattern areas are present	Most common renal tumor that occurs in 1st month of life

↑ Hartman DS, Sanders RC (April 1982). "Wilms' tumor versus neuroblastoma: usefulness of ultrasound in differentiation". J Ultrasound Med. 1 (3): 117–22. PMID 6152936.
↑ De Campo JF (1986). "Ultrasound of Wilms' tumor". Pediatr Radiol. 16 (1): 21–4. PMID 3003660.
↑ Cahan LD (1985). "Failure of encephalo-duro-arterio-synangiosis procedure in moyamoya disease". Pediatr Neurosci. 12 (1): 58–62. PMID 4080660.
↑ Jolly RD, Stellwagen E, Babul J, Vodkaĭlo LV, Titov VL, Moldomusaev DM, Maianskiĭ AN (November 1975). "Mannosidosis of Angus Cattle: a prototype control program for some genetic diseases". Adv Vet Sci Comp Med. 19 (23): 1–21. PMID 1978.
↑ Chapman AB, Devuyst O, Eckardt KU, Gansevoort RT, Harris T, Horie S, Kasiske BL, Odland D, Pei Y, Perrone RD, Pirson Y, Schrier RW, Torra R, Torres VE, Watnick T, Wheeler DC (July 2015). "Autosomal-dominant polycystic kidney disease (ADPKD): executive summary from a Kidney Disease: Improving Global Outcomes (KDIGO) Controversies Conference". Kidney Int. 88 (1): 17–27. doi:10.1038/ki.2015.59. PMC 4913350. PMID 25786098.
↑ Pei Y, Obaji J, Dupuis A, Paterson AD, Magistroni R, Dicks E, Parfrey P, Cramer B, Coto E, Torra R, San Millan JL, Gibson R, Breuning M, Peters D, Ravine D (January 2009). "Unified criteria for ultrasonographic diagnosis of ADPKD". J. Am. Soc. Nephrol. 20 (1): 205–12. doi:10.1681/ASN.2008050507. PMC 2615723. PMID 18945943.
↑ Stavrou C, Koptides M, Tombazos C, Psara E, Patsias C, Zouvani I, Kyriacou K, Hildebrandt F, Christofides T, Pierides A, Deltas CC (October 2002). "Autosomal-dominant medullary cystic kidney disease type 1: clinical and molecular findings in six large Cypriot families". Kidney Int. 62 (4): 1385–94. doi:10.1111/j.1523-1755.2002.kid581.x. PMID 12234310.
↑ Bleyer AJ, Kmoch S, Antignac C, Robins V, Kidd K, Kelsoe JR, Hladik G, Klemmer P, Knohl SJ, Scheinman SJ, Vo N, Santi A, Harris A, Canaday O, Weller N, Hulick PJ, Vogel K, Rahbari-Oskoui FF, Tuazon J, Deltas C, Somers D, Megarbane A, Kimmel PL, Sperati CJ, Orr-Urtreger A, Ben-Shachar S, Waugh DA, McGinn S, Bleyer AJ, Hodanová K, Vylet'al P, Živná M, Hart TC, Hart PS (March 2014). "Variable clinical presentation of an MUC1 mutation causing medullary cystic kidney disease type 1". Clin J Am Soc Nephrol. 9 (3): 527–35. doi:10.2215/CJN.06380613. PMC 3944763. PMID 24509297.
↑ Faguer S, Decramer S, Chassaing N, Bellanné-Chantelot C, Calvas P, Beaufils S, Bessenay L, Lengelé JP, Dahan K, Ronco P, Devuyst O, Chauveau D (October 2011). "Diagnosis, management, and prognosis of HNF1B nephropathy in adulthood". Kidney Int. 80 (7): 768–76. doi:10.1038/ki.2011.225. PMID 21775974.
↑ Heidet L, Decramer S, Pawtowski A, Morinière V, Bandin F, Knebelmann B, Lebre AS, Faguer S, Guigonis V, Antignac C, Salomon R (June 2010). "Spectrum of HNF1B mutations in a large cohort of patients who harbor renal diseases". Clin J Am Soc Nephrol. 5 (6): 1079–90. doi:10.2215/CJN.06810909. PMC 2879303. PMID 20378641.
↑ Bravo EL (1991). "Pheochromocytoma: new concepts and future trends". Kidney Int. 40 (3): 544–56. PMID 1787652.
↑ Whalen RK, Althausen AF, Daniels GH (1992). "Extra-adrenal pheochromocytoma". J Urol. 147 (1): 1–10. PMID 1729490.
↑ Baid SK, Lai EW, Wesley RA, Ling A, Timmers HJ, Adams KT; et al. (2009). "Brief communication: radiographic contrast infusion and catecholamine release in patients with pheochromocytoma". Ann Intern Med. 150 (1): 27–32. PMC 3490128. PMID 19124817.
↑ Bravo EL (1991). "Pheochromocytoma: new concepts and future trends". Kidney Int. 40 (3): 544–56. PMID 1787652.
↑ Burkitt lymphoma. MedlinePlus. https://www.nlm.nih.gov/medlineplus/ency/article/001308.htm Accessed on September 30, 2015
↑ Bellan C, Lazzi S, De Falco G, Nyongo A, Giordano A, Leoncini L (2003). "Burkitt's lymphoma: new insights into molecular pathogenesis". J. Clin. Pathol. 56 (3): 188–92. PMC 1769902. PMID 12610094. Unknown parameter |month= ignored (help)
↑ Ko HS, Schenk JP, Tröger J, Rohrschneider WK (2007). "Current radiological management of intussusception in children". Eur Radiol. 17 (9): 2411–21. doi:10.1007/s00330-007-0589-y. PMID 17308922.
↑ Boyle MJ, Arkell LJ, Williams JT (1993). "Ultrasonic diagnosis of adult intussusception". Am. J. Gastroenterol. 88 (4): 617–8. PMID 8470658.
↑ Neuroblastoma. Radiopaedia (2015) http://radiopaedia.org/articles/neuroblastoma Accessed on October, 8 2015
↑ Colon NC, Chung DH (2011). "Neuroblastoma". Adv Pediatr. 58 (1): 297–311. doi:10.1016/j.yapd.2011.03.011. PMC 3668791. PMID 21736987.CS1 maint: PMC format (link)
↑ Neuroblastoma. Radiopaedia (2015) http://radiopaedia.org/articles/neuroblastoma Accessed on October, 8 2015
↑ Neuroblastoma. Libre Pathology(2015) http://librepathology.org/wiki/index.php/Adrenal_gland#Neuroblastoma Accessed on October, 5 2015
↑ Mesoblastic nephroma.Dr Ayush Goel and Dr Yuranga Weerakkody et al. Radiopaedia.org 2015. http://radiopaedia.org/articles/mesoblastic-nephroma

[pmid61529362-1] Hartman DS, Sanders RC (April 1982). "Wilms' tumor versus neuroblastoma: usefulness of ultrasound in differentiation". J Ultrasound Med. 1 (3): 117–22. PMID 6152936.

[pmid30036602-2] De Campo JF (1986). "Ultrasound of Wilms' tumor". Pediatr Radiol. 16 (1): 21–4. PMID 3003660.

[pmid4080660-3] Cahan LD (1985). "Failure of encephalo-duro-arterio-synangiosis procedure in moyamoya disease". Pediatr Neurosci. 12 (1): 58–62. PMID 4080660.

[pmid1978-4] Jolly RD, Stellwagen E, Babul J, Vodkaĭlo LV, Titov VL, Moldomusaev DM, Maianskiĭ AN (November 1975). "Mannosidosis of Angus Cattle: a prototype control program for some genetic diseases". Adv Vet Sci Comp Med. 19 (23): 1–21. PMID 1978.

[pmid25786098-5] Chapman AB, Devuyst O, Eckardt KU, Gansevoort RT, Harris T, Horie S, Kasiske BL, Odland D, Pei Y, Perrone RD, Pirson Y, Schrier RW, Torra R, Torres VE, Watnick T, Wheeler DC (July 2015). "Autosomal-dominant polycystic kidney disease (ADPKD): executive summary from a Kidney Disease: Improving Global Outcomes (KDIGO) Controversies Conference". Kidney Int. 88 (1): 17–27. doi:10.1038/ki.2015.59. PMC 4913350. PMID 25786098.

[pmid18945943-6] Pei Y, Obaji J, Dupuis A, Paterson AD, Magistroni R, Dicks E, Parfrey P, Cramer B, Coto E, Torra R, San Millan JL, Gibson R, Breuning M, Peters D, Ravine D (January 2009). "Unified criteria for ultrasonographic diagnosis of ADPKD". J. Am. Soc. Nephrol. 20 (1): 205–12. doi:10.1681/ASN.2008050507. PMC 2615723. PMID 18945943.

[pmid12234310-7] Stavrou C, Koptides M, Tombazos C, Psara E, Patsias C, Zouvani I, Kyriacou K, Hildebrandt F, Christofides T, Pierides A, Deltas CC (October 2002). "Autosomal-dominant medullary cystic kidney disease type 1: clinical and molecular findings in six large Cypriot families". Kidney Int. 62 (4): 1385–94. doi:10.1111/j.1523-1755.2002.kid581.x. PMID 12234310.

[pmid24509297-8] Bleyer AJ, Kmoch S, Antignac C, Robins V, Kidd K, Kelsoe JR, Hladik G, Klemmer P, Knohl SJ, Scheinman SJ, Vo N, Santi A, Harris A, Canaday O, Weller N, Hulick PJ, Vogel K, Rahbari-Oskoui FF, Tuazon J, Deltas C, Somers D, Megarbane A, Kimmel PL, Sperati CJ, Orr-Urtreger A, Ben-Shachar S, Waugh DA, McGinn S, Bleyer AJ, Hodanová K, Vylet'al P, Živná M, Hart TC, Hart PS (March 2014). "Variable clinical presentation of an MUC1 mutation causing medullary cystic kidney disease type 1". Clin J Am Soc Nephrol. 9 (3): 527–35. doi:10.2215/CJN.06380613. PMC 3944763. PMID 24509297.

[pmid21775974-9] Faguer S, Decramer S, Chassaing N, Bellanné-Chantelot C, Calvas P, Beaufils S, Bessenay L, Lengelé JP, Dahan K, Ronco P, Devuyst O, Chauveau D (October 2011). "Diagnosis, management, and prognosis of HNF1B nephropathy in adulthood". Kidney Int. 80 (7): 768–76. doi:10.1038/ki.2011.225. PMID 21775974.

[pmid20378641-10] Heidet L, Decramer S, Pawtowski A, Morinière V, Bandin F, Knebelmann B, Lebre AS, Faguer S, Guigonis V, Antignac C, Salomon R (June 2010). "Spectrum of HNF1B mutations in a large cohort of patients who harbor renal diseases". Clin J Am Soc Nephrol. 5 (6): 1079–90. doi:10.2215/CJN.06810909. PMC 2879303. PMID 20378641.

[pmid1787652-11] Bravo EL (1991). "Pheochromocytoma: new concepts and future trends". Kidney Int. 40 (3): 544–56. PMID 1787652.

[pmid1729490-12] Whalen RK, Althausen AF, Daniels GH (1992). "Extra-adrenal pheochromocytoma". J Urol. 147 (1): 1–10. PMID 1729490.

[pmid191248172-13] Baid SK, Lai EW, Wesley RA, Ling A, Timmers HJ, Adams KT; et al. (2009). "Brief communication: radiographic contrast infusion and catecholamine release in patients with pheochromocytoma". Ann Intern Med. 150 (1): 27–32. PMC 3490128. PMID 19124817.

[pmid17876522-14] Bravo EL (1991). "Pheochromocytoma: new concepts and future trends". Kidney Int. 40 (3): 544–56. PMID 1787652.

[medlineplus-15] Burkitt lymphoma. MedlinePlus. https://www.nlm.nih.gov/medlineplus/ency/article/001308.htm Accessed on September 30, 2015

[pmid12610094-16] Bellan C, Lazzi S, De Falco G, Nyongo A, Giordano A, Leoncini L (2003). "Burkitt's lymphoma: new insights into molecular pathogenesis". J. Clin. Pathol. 56 (3): 188–92. PMC 1769902. PMID 12610094. Unknown parameter |month= ignored (help)

[pmid17308922-17] Ko HS, Schenk JP, Tröger J, Rohrschneider WK (2007). "Current radiological management of intussusception in children". Eur Radiol. 17 (9): 2411–21. doi:10.1007/s00330-007-0589-y. PMID 17308922.

[pmid8470658-18] Boyle MJ, Arkell LJ, Williams JT (1993). "Ultrasonic diagnosis of adult intussusception". Am. J. Gastroenterol. 88 (4): 617–8. PMID 8470658.

[radio-19] Neuroblastoma. Radiopaedia (2015) http://radiopaedia.org/articles/neuroblastoma Accessed on October, 8 2015

[pmid21736987-20] Colon NC, Chung DH (2011). "Neuroblastoma". Adv Pediatr. 58 (1): 297–311. doi:10.1016/j.yapd.2011.03.011. PMC 3668791. PMID 21736987.CS1 maint: PMC format (link)

[radio2-21] Neuroblastoma. Radiopaedia (2015) http://radiopaedia.org/articles/neuroblastoma Accessed on October, 8 2015

[patho-22] Neuroblastoma. Libre Pathology(2015) http://librepathology.org/wiki/index.php/Adrenal_gland#Neuroblastoma Accessed on October, 5 2015

[radio3-23] Mesoblastic nephroma.Dr Ayush Goel and Dr Yuranga Weerakkody et al. Radiopaedia.org 2015. http://radiopaedia.org/articles/mesoblastic-nephroma

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-*It is the best initial diagnostic study used in cases suspected with wilms tumor.
+*It is the best initial diagnostic study used in cases suspected with [[Wilms tumor]].
-*Ultrasonography can help identify the mass as a kidney mass.
+*[[Ultrasonography]] can help identify the mass as a kidney mass.
-*It can distinguish tumor mass from other causes of renal swelling like [[hydronephrosis]].<ref name="pmid61529362">{{cite journal |vauthors=Hartman DS, Sanders RC |title=Wilms' tumor versus neuroblastoma: usefulness of ultrasound in differentiation |journal=J Ultrasound Med |volume=1 |issue=3 |pages=117–22 |date=April 1982 |pmid=6152936 |doi= |url=}}</ref>
+*It can distinguish [[tumor]] mass from other causes of renal swelling like [[hydronephrosis]].<ref name="pmid61529362">{{cite journal |vauthors=Hartman DS, Sanders RC |title=Wilms' tumor versus neuroblastoma: usefulness of ultrasound in differentiation |journal=J Ultrasound Med |volume=1 |issue=3 |pages=117–22 |date=April 1982 |pmid=6152936 |doi= |url=}}</ref>
-*Doppler ultrasonography can help to detect invasion of [[renal vein]] and [[Inferior vena cava|IVC]] by the tumor.<ref name="pmid30036602">{{cite journal |vauthors=De Campo JF |title=Ultrasound of Wilms' tumor |journal=Pediatr Radiol |volume=16 |issue=1 |pages=21–4 |date=1986 |pmid=3003660 |doi= |url=}}</ref>
+*[[Doppler ultrasonography]] can help to detect invasion of [[renal vein]] and [[Inferior vena cava|IVC]] by the tumor.<ref name="pmid30036602">{{cite journal |vauthors=De Campo JF |title=Ultrasound of Wilms' tumor |journal=Pediatr Radiol |volume=16 |issue=1 |pages=21–4 |date=1986 |pmid=3003660 |doi= |url=}}</ref>
 |
-*Findings on CT scan which can be suggestive of  wilms tumor include:<ref name="pmid4080660">{{cite journal |vauthors=Cahan LD |title=Failure of encephalo-duro-arterio-synangiosis procedure in moyamoya disease |journal=Pediatr Neurosci |volume=12 |issue=1 |pages=58–62 |date=1985 |pmid=4080660 |doi= |url=}}</ref>
+*Findings on [[CT scan]] which can be suggestive of  [[Wilms tumor]] include:<ref name="pmid4080660">{{cite journal |vauthors=Cahan LD |title=Failure of encephalo-duro-arterio-synangiosis procedure in moyamoya disease |journal=Pediatr Neurosci |volume=12 |issue=1 |pages=58–62 |date=1985 |pmid=4080660 |doi= |url=}}</ref>
 **Heterogeneous soft-tissue density masses
-**These masses have frequent areas of calcification (~10%) and fat-density regions
+**These masses have frequent areas of [[calcification]] (~10%) and fat-density regions
-**Lymph node metastasis
+**[[Lymph node]] metastasis
-*CT scan of the renal mass can further reveal:
+*[[CT scan]] of the renal mass can further reveal:
 **Invasion of surrounding organs
-**Thrombus in or occlusion of the renal vein and/or the inferior vena cava
+**[[Thrombus]] in or occlusion of the [[renal vein]] and/or the [[inferior vena cava]]
 **Abdominal lymph nodes and contralateral involvement
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 |2.
-|[[Clear cell sarcoma of the kidney|Clear cell sarcoma]]
+|[[Renal cell carcinoma]]
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+|<nowiki>+</nowiki>
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+|<nowiki>+</nowiki>
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+|<nowiki>+/-</nowiki>
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+|<nowiki>+</nowiki>
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+* [[Ultrasound]] (US) may be helpful when CT scan results are equivocal. It is noteworthy to mention that not all renal cell [[carcinomas]] are detectable on [[ultrasound]].
+|Both [[CT]] and [[MRI]] may be used to detect [[neoplastic]] masses that may define renal cell carcinoma or metastasis of the primary cancer. [[CT]] scan and use of intravenous (IV) contrast is generally used for work-up and follow-up of patients with [[Renal cell carcinoma|renal cell carcinom]]<nowiki/>a.
+|The histological pattern of renal cell [[carcinoma]] depends whether it is [[Papillary|papillary,]] [[chromophobe]] or [[collecting duct]] renal cell carcinoma.
 |
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 |3.
-|[[Renal cell carcinoma]]
+|[[Malignant rhabdoid tumor|Rhabdoid kidney disease]]
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+| +
+|<nowiki>+</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>+</nowiki>
+|<nowiki>-</nowiki>
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+* [[Ultrasound]] shows a complex cystic mass.
 |
+* [[CT]] scan may be diagnostic of malignant rhabdoid tumor. Findings on [[CT]] scan suggestive of malignant rhabdoid tumor include a large, heterogenous, centrally located mass, which is lobulated with individual lobules separated by intervening areas of decreased attenuation, relating to either previous [[hemorrhage]] or [[necrosis]]. Enhancement is similarly heterogeneous. [[Calcification]] is relatively common, observed in 20-50% of cases and is typically linear and tends to outline tumor [[lobules]].
 |
-|
+* [[Malignant]] rhabdoid tumor is characterized by the round blue tumor cells of high cellularity composed of atypical cells with eccentric nuclei, small nucleoli, and abundant amounts of [[eosinophilic]] cytoplasm with frequent mitotic figures.
-|Ultrasound (US) may be helpful when CT scan results are equivocal. It is noteworthy to mention that not all renal cell carcinomas are detectable on ultrasound.
-|Both CT and MRI may be used to detect neoplastic masses that may define renal cell carcinoma or metastasis of the primary cancer. CT scan and use of intravenous (IV) contrast is generally used for work-up and follow-up of patients with renal cell carcinoma.
-|The histological pattern of renal cell carcinoma depends whether it is papillary, chromophobe or collecting duct renal cell carcinoma.
 |
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 |4.
-|[[Malignant rhabdoid tumor|Rhabdoid kidney disease]]
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-|
-|
-* CT scan may be diagnostic of malignant rhabdoid tumor. Findings on CT scan suggestive of malignant rhabdoid tumor include a large, heterogenous, centrally located mass, which is lobulated with individual lobules separated by intervening areas of decreased attenuation, relating to either previous [[hemorrhage]] or [[necrosis]]. Enhancement is similarly heterogeneous. [[Calcification]] is relatively common, observed in 20-50% of cases and is typically linear and tends to outline tumur lobules.
-|Malignant rhabdoid tumor is characterized by the round blue tumor cells of high cellularity composed of atypical cells with eccentric nuclei, small nucleoli, and abundant amounts of eosinophilic cytoplasm with frequent mitotic figures.
-|
-|-
-|5.
 |[[Polycystic kidney disease]]
-|
+|<nowiki>+</nowiki>
-|
+|<nowiki>+</nowiki>
-|
+|<nowiki>+ (from hypertension)</nowiki>
-|
+|<nowiki>+</nowiki>
-|
+|<nowiki>-</nowiki>
 |
 Ultrasound may be helpful in the diagnosis of polycystic kidney disease. Findings on an ultrasound diagnostic of polycystic kidney disease include:<ref name="pmid25786098">{{cite journal |vauthors=Chapman AB, Devuyst O, Eckardt KU, Gansevoort RT, Harris T, Horie S, Kasiske BL, Odland D, Pei Y, Perrone RD, Pirson Y, Schrier RW, Torra R, Torres VE, Watnick T, Wheeler DC |title=Autosomal-dominant polycystic kidney disease (ADPKD): executive summary from a Kidney Disease: Improving Global Outcomes (KDIGO) Controversies Conference |journal=Kidney Int. |volume=88 |issue=1 |pages=17–27 |date=July 2015 |pmid=25786098 |pmc=4913350 |doi=10.1038/ki.2015.59 |url=}}</ref><ref name="pmid18945943">{{cite journal |vauthors=Pei Y, Obaji J, Dupuis A, Paterson AD, Magistroni R, Dicks E, Parfrey P, Cramer B, Coto E, Torra R, San Millan JL, Gibson R, Breuning M, Peters D, Ravine D |title=Unified criteria for ultrasonographic diagnosis of ADPKD |journal=J. Am. Soc. Nephrol. |volume=20 |issue=1 |pages=205–12 |date=January 2009 |pmid=18945943 |pmc=2615723 |doi=10.1681/ASN.2008050507 |url=}}</ref>
@@ Line 120: / Line 111: @@
 |
 |-
-|6.
+|5.
 |[[Pheochromocytoma]]
+|<nowiki>-</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>+ (as a part of the hypertension paroxysm)</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>-</nowiki>
 |
-|
+* CT is the preferred imaging modality for the diagnosis of pheochromocytoma.
-|
-|
-|
-|
 |The following findings may be observed on [[CT scan]]:<ref name="pmid1787652">{{cite journal| author=Bravo EL| title=Pheochromocytoma: new concepts and future trends. | journal=Kidney Int | year= 1991 | volume= 40 | issue= 3 | pages= 544-56 | pmid=1787652 | doi= | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=1787652  }}</ref>
 *Most common extra-[[Adrenal gland|adrenal]] locations are superior and inferior [[abdominal]] [[Paraaortic lymph node|paraaortic]] areas, the [[urinary bladder]], [[thorax]], [[head]], [[neck]] and [[pelvis]].<ref name="pmid1729490">{{cite journal| author=Whalen RK, Althausen AF, Daniels GH| title=Extra-adrenal pheochromocytoma. | journal=J Urol | year= 1992 | volume= 147 | issue= 1 | pages= 1-10 | pmid=1729490 | doi= | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=1729490  }}</ref>
@@ Line 133: / Line 125: @@
 *In sporadic pheochromocytoma, [[CT]] and [[MRI]] are good choices. The choice depends on availability and cost.<ref name="pmid191248172">{{cite journal| author=Baid SK, Lai EW, Wesley RA, Ling A, Timmers HJ, Adams KT et al.| title=Brief communication: radiographic contrast infusion and catecholamine release in patients with pheochromocytoma. | journal=Ann Intern Med | year= 2009 | volume= 150 | issue= 1 | pages= 27-32 | pmid=19124817 | doi= | pmc=3490128 | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=19124817  }}</ref>
 *In patients with the [[multiple endocrine neoplasia]] type 2 ([[Multiple endocrine neoplasia type 2|MEN2]]) syndrome, [[CT]] may miss the [[tumors]].<ref name="pmid17876522">{{cite journal| author=Bravo EL| title=Pheochromocytoma: new concepts and future trends. | journal=Kidney Int | year= 1991 | volume= 40 | issue= 3 | pages= 544-56 | pmid=1787652 | doi= | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=1787652  }}</ref>
-|On microscopic pathology, Pheochromocytoma typically demonstrates a nesting (Zellballen) pattern on microscopy. This pattern is composed of well-defined clusters of tumor cells containing eosinophilic cytoplasm separated by fibrovascular stroma.
+|
+* On microscopic pathology, [[Pheochromocytoma]] typically demonstrates a nesting (Zellballen) pattern on microscopy. This pattern is composed of well-defined clusters of tumor cells containing [[eosinophilic]] cytoplasm separated by fibrovascular [[stroma]].
 |
 |-
-|7.
+|6.
 |[[Burkitt's lymphoma|Burkitt lymphoma]]
+|<nowiki>+/- (in non-endemic or sporadic form of the disease)</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>-</nowiki>
 |
+* Abdominal [[ultrasonography]] may show [[splenomegaly]] and [[ascites]].
 |
-|
+* Chest, abdomen, and pelvis [[CT]] scan may be helpful in the diagnosis of [[Burkitt's lymphoma]] but it is not done routinely.<ref name="medlineplus">Burkitt lymphoma. MedlinePlus. https://www.nlm.nih.gov/medlineplus/ency/article/001308.htm Accessed on September 30, 2015</ref>
-|
-|
-|Abdominal US may show splenomegaly and ascites.
-|Chest, abdomen, and pelvis [[CT]] scan may be helpful in the diagnosis of Burkitt's lymphoma but it is not done routinely.<ref name="medlineplus">Burkitt lymphoma. MedlinePlus. https://www.nlm.nih.gov/medlineplus/ency/article/001308.htm Accessed on September 30, 2015</ref>
 |
 *On microscopic histopathological analysis, characteristic findings of Burkitt's lymphoma include:<ref name="pmid12610094">{{cite journal |author=Bellan C, Lazzi S, De Falco G, Nyongo A, Giordano A, Leoncini L |title=Burkitt's lymphoma: new insights into molecular pathogenesis |journal=J. Clin. Pathol. |volume=56 |issue=3 |pages=188–92 |year=2003 |month=March |pmid=12610094 |pmc=1769902 |doi= |url=http://jcp.bmj.com/cgi/pmidlookup?view=long&pmid=12610094}}</ref>
@@ Line 154: / Line 149: @@
 :*Cellular outline usually appears squared off
 :*"Starry-sky pattern":
-::*The ''stars'' in the pattern are tingible-body macrophages (macrophages containing [[apoptotic]] tumor cells)
+::*The ''stars'' in the pattern are tingible-body macrophages (macrophages containing [[apoptotic]] tumor cells.
 ::*The tumour cells are the ''sky''
 |
 |-
-|8.
+|7.
 |[[Intussusception]]
-|
+|<nowiki>+</nowiki>
-|
+|<nowiki>-</nowiki>
-|
+|<nowiki>-</nowiki>
-|
+|<nowiki>+/- </nowiki>
-|
+|<nowiki>+</nowiki>
 |
 * [[Ultrasound]] is the [[Gold standard (test)|gold standard]] imaging modality used to diagnose intussusception<ref name="pmid17308922">{{cite journal |vauthors=Ko HS, Schenk JP, Tröger J, Rohrschneider WK |title=Current radiological management of intussusception in children |journal=Eur Radiol |volume=17 |issue=9 |pages=2411–21 |year=2007 |pmid=17308922 |doi=10.1007/s00330-007-0589-y |url=}}</ref>
@@ Line 175: / Line 169: @@
 * [[Computed tomography|CT scan]] may be helpful in the [[diagnosis]] of intussusception. [[Computed tomography|CT scan]] maybe used when other image modalities like [[x-ray]] and [[ultrasound]] have not given positive results but suspicion of intussusception is high.
 |
+* Intussusception occurs if there is an imbalance between the longitudinal and radial [[smooth muscle]] forces of [[intestine]] that maintain its normal structure. This imbalance leads to a segment of [[intestine]] to invaginate into another segment and cause entero-enteral intussusception. [[Etiology]] of intussusception is either idiopathic or [[Pathology|pathologic]] (lead point).
 |
 |-
-|9.
+|8.
 |[[Hydronephrosis]]
+|<nowiki>+</nowiki>
+|<nowiki>+/-</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>+ (CVA tenderness in case of pyelonephritis)</nowiki>
 |
+* [[Ultrasound]] allows for visualization of the [[ureters]] and [[kidneys]] and can be used to assess the presence of [[hydronephrosis]] and/or [[hydroureter]].
 |
+* In the case of [[renal colic]] (one sided loin pain usually accompanied by a trace of blood in the urine) the initial investigation is usually an intravenous urogram. This has the advantage of showing whether there is any obstruction of flow of urine causing [[hydronephrosis]] as well as demonstrating the function of the other kidney. Many [[Stones- kidney|stones]] are not visible on [[X ray|plain x ray]] or IVU but 99% of [[Stones- kidney|stones]] are visible on [[CT]] and therefore CT is becoming a common choice of initial investigation.
 |
-|
+* The kidney undergoes extensive dilation with atrophy and thinning of the renal cortex.
-|
-|
-* Ultrasound allows for visualization of the ureters and kidneys and can be used to assess the presence of hydronephrosis and/or hydroureter.
-|
-* In the case of renal colic (one sided loin pain usually accompanied by a trace of blood in the urine) the initial investigation is usually an intravenous urogram. This has the advantage of showing whether there is any obstruction of flow of urine causing hydronephrosis as well as demonstrating the function of the other kidney. Many stones are not visible on plain xray or IVU but 99% of stones are visible on CT and therefore CT is becoming a common choice of initial investigation.
-|
 |
 |-
-|10.
+|9.
-|[[Renal cyst]]
-|
-|
-|
-|
-|
-|
-|
-|
-|
-|-
-|11.
-|Renal thrombosis
-|
-|
-|
-|
-|
-|
-|
-|
-|
-|-
-|12.
 |[[Dysplasia|Dysplastic kidney]]
+|N/A
+|N/A
+|N/A
+|N/A
+|N/A
 |
+MCDK is usually diagnosed by [[ultrasound]] examination before birth.
+* Mass of non-communicating cysts of variable size.
+* Unlike severe [[hydronephrosis]], in which the largest cystic structure (the renal pelvis) lies in a central location and is surrounded by dilated calices, in multicystic dysplastic kidney the cyst distribution shows no recognizable pattern.
+* [[Dysplasia|Dysplastic]], echogenic [[parenchyma]] may be visible between the cysts, but no normal renal parenchyma is seen.
 |
+* MCKD can be discovered accidentally on [[CT]] scan.
+* [[CT scan]] shows myltiple cysts with absence of renal parenchyma.
 |
-|
+* MCKD is the result of abnormal differentiation of the renal parenchyma.
-|
-|
-|
-|
 |
 |-
-|13.
+|10.
-|[[Hemorrhage|Renal hemorrhage]]
-|
-|
-|
-|
-|
-|
-|
-|
-|
-|-
-|14.
 |[[Neuroblastoma|Pediatric Neuroblastoma]]
+|<nowiki>+</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>+/-</nowiki>
+|<nowiki>+/-</nowiki>
 |
+* On ultrasound, neuroblastoma is characterized by a heterogeneous [[echogenicity]] due to the [[vascular]], [[necrotic]], and calcified content of the mass.<ref name="radio">Neuroblastoma. Radiopaedia (2015) http://radiopaedia.org/articles/neuroblastoma Accessed on October, 8 2015</ref>
 |
+*CT scan is the investigation of choice for the diagnosis of neuroblastoma.<ref name="pmid21736987">{{cite journal| author=Colon NC, Chung DH| title=Neuroblastoma. | journal=Adv Pediatr | year= 2011 | volume= 58 | issue= 1 | pages= 297-311 | pmid=21736987 | doi=10.1016/j.yapd.2011.03.011 | pmc=PMC3668791 | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=21736987  }}</ref>
+*On CT scan, neuroblastoma is characterized by:<ref name="radio2">Neuroblastoma. Radiopaedia (2015) http://radiopaedia.org/articles/neuroblastoma Accessed on October, 8 2015</ref>
+:*Heterogeneous mass
+:*[[Calcification]]
+:*[[Necrosis]]
+:*Compression of the surrounding vessels
+:*Invasion of the [[psoas]] [[muscle]] or [[kidney]]s
+:*Swollen [[lymph node]]s
 |
-|
+*On microscopic histopathological analysis the presence of round blue cells separated by thin [[fibrous]] septa are characteristic findings of neuroblastoma.
-|
+*Other findings of neuroblastoma on [[light microscopy]] may include:<ref name="patho">Neuroblastoma. Libre Pathology(2015) http://librepathology.org/wiki/index.php/Adrenal_gland#Neuroblastoma Accessed on October, 5 2015</ref>
-|
+:*Homer-Wright rosettes (rosettes with a small  meshwork of fibers at the center)
-|
+:*Neuropil-like [[stroma]] (paucicellular stroma with a cotton candy-like appearance)
-|
+*On [[electron microscopy]] neuroblastoma is characterized by:
+:*Dendritic processes with longitudinally oriented [[microtubule]]s
+:*Membrane bound electron-dense [[granule]]s that contain [[catecholamine]]s
+:*Presence of [[desmosomes]]
+:*Absence of [[glycogen]]
 |
 |-
-|15.
+|11.
 |[[Rhabdomyosarcoma|Pediatric Rhabdomyosarcoma]]
+|<nowiki>+</nowiki>
+|<nowiki>+/-</nowiki>
+|<nowiki>+/-</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>+/-</nowiki>
 |
+|On [[CT scan]], rhabdomyosarocma is characterized by:
+* Soft tissue density
+* Some enhancement with [[contrast]]
+* Adjacent bony destruction (over 20% of cases)
 |
-|
+* Rhadbomyosarcoma has an appearance similar to the other round blue cell tumors such as [[Ewing sarcoma]] and [[Osteoblastoma|small cell osteoblastoma]].
-|
-|
-|
-|
-|
 |
 |-
-|16.
+|12.
 |[[Mesoblastic nephroma]]
+|<nowiki>+</nowiki>
+|<nowiki>+</nowiki>
+|<nowiki>-</nowiki>
+|<nowiki>+</nowiki>
+|<nowiki>-</nowiki>
 |
+*[[Ultrasound]] may be helpful in the diagnosis of mesoblastic nephroma.
+*Mesoblastic nephroma may presents as a well-defined [[mass]] with low-level homogeneous echoes.<ref name="radio3">Mesoblastic nephroma.Dr Ayush Goel and Dr Yuranga Weerakkody et al. Radiopaedia.org 2015. http://radiopaedia.org/articles/mesoblastic-nephroma</ref>
+*The presence of concentric echogenic and hypoechoic rings can be a helpful diagnostic feature of [[mesoblastic nephroma]].
 |
+* [[CT scan]] may be helpful in the diagnosis of mesoblastic nephroma.
+* Findings on CT scan suggestive of mesoblastic nephroma include:
+:* Solid hypoattenuating renal lesion
+:* Variable contrast enhancement
+:* No [[calcification]]
 |
-|
+Classic mesoblastic nephroma
-|
+* [[Spindle cells]] in [[fascicles]]
-|
+* Infiltrative border
-|
+Cellular mesoblastic nephroma
-|
+* Plump cells with vesicular nuclei
+* Well-defined border
+* Mitotically active
+Mixed mesoblastic nephroma
+* Both classic pattern and cellular pattern areas are present
 |Most common renal tumor that occurs in 1st month of life
 |}
 <references />

Sandbox: abdominal mass: Difference between revisions

Latest revision as of 21:17, 2 July 2018

Differential Diagnosis

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