Ultrasound of Kidneys.pdf
SailendraMahato2
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Sep 03, 2023
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About This Presentation
Usg of kidneys
Slide Content
Ultrasound of Kidneys
PRESENTER: DR. AMIT GAUTAM
1
ST
YEAR RESIDENT,
DEPARTMENT OF RADIOLOGY, CMCTH(TU)
PRESENTER: DR. AMIT GAUTAM
1
ST
YEAR RESIDENT,
DEPARTMENT OF RADIOLOGY, CMCTH(TU)
OBJECTIVES
ANATOMY OF KIDNEYS
NORMAL ANATOMICAL VARIANTS AND CONGENITAL ANOMALIES
DISEASE OF RENAL PARENCHYMA AND ITS SONOGRAPHIC FINDINGS
ANATOMY OF KIDNEYS
NORMAL ANATOMICAL VARIANTS AND CONGENITAL ANOMALIES
DISEASE OF RENAL PARENCHYMA AND ITS SONOGRAPHIC FINDINGS
EMBRYOLOGY
ANATOMY
Adult kidney: 9-13 cm long, 2.5 cm thick and 5 cm wide (approximately)
Right kidney smaller than left kidney ( but not more than 1.5 cm).
Left kidney 1.2 cm higher than right kidney.
Borders
lateral-convex
medial-concave with hilum
Adult kidney: 9-13 cm long, 2.5 cm thick and 5 cm wide (approximately)
Right kidney smaller than left kidney ( but not more than 1.5 cm).
Left kidney 1.2 cm higher than right kidney.
Borders
lateral-convex
medial-concave with hilum
Internal Structure of Kidney
Sonographic Technique
Should be assessed in both sagittal and transverse plane.
Should be assessed in both sagittal and transverse plane.
Contd…
Normal Anatomical Variation
1. Persistent fetal lobulations
◦due to incomplete fusion of developing renal lobules
◦seen as smooth indentations of renal outline
1. Persistent fetal lobulations
◦due to incomplete fusion of developing renal lobules
◦seen as smooth indentations of renal outline
Contd..
2. Junctional Parenchymal defect
due to incomplete fusion of renal lobes
located between upper and mid poles of the kidney
typically triangular in shape.
2. Junctional Parenchymal defect
due to incomplete fusion of renal lobes
located between upper and mid poles of the kidney
typically triangular in shape.
Contd..
3. Hypertrophied column of Bertin
◦Columns of Bertin: extension of renal cortical tissue which separates the pyramids
◦They become of radiologic importance when they are unusually enlarged and may
be mistaken for a renal mass.
3. Hypertrophied column of Bertin
◦Columns of Bertin: extension of renal cortical tissue which separates the pyramids
◦They become of radiologic importance when they are unusually enlarged and may
be mistaken for a renal mass.
Contd..
4. Extrarenal Pelvis
Renal pelvis is outside the confinement of hilum
More distensile than the intrarenal pelvis thus
may be confused for proximal hydroureter.
4. Extrarenal Pelvis
Renal pelvis is outside the confinement of hilum
More distensile than the intrarenal pelvis thus
may be confused for proximal hydroureter.
5. Dromadaryhump
Prominent superolateral border of the left kidney
due to impression of spleen or fetal lobulation.
It may be mistaken for a renal mass.
Prominent superolateral border of the left kidney
due to impression of spleen or fetal lobulation.
It may be mistaken for a renal mass.
Congenital Anomalies of Kidney
1. Anomalies related to renal growth
a. Hypoplasia: too few nephrons. Unilateral Vs. Bilateral.
US findings: kidney is small but otherwise normal
b. Compensatory hypertrophy:
Diffuse Vs. Focal
1. Anomalies related to renal growth
a. Hypoplasia: too few nephrons. Unilateral Vs. Bilateral.
US findings: kidney is small but otherwise normal
b. Compensatory hypertrophy:
Diffuse Vs. Focal
Contd..
2. Anomalies related to ascent of kidney
a. Ectopia: failure to ascend during embryonic development.
2. Anomalies related to ascent of kidney
a. Ectopia: failure to ascend during embryonic development.
B. Crossed renal ectopia:
both kidneys are on same side and typically fused ( Crossed-fused ectopia)
both kidneys are on same side and typically fused ( Crossed-fused ectopia)
C. Horse-shoe Kidney:
Occurs when metanephric blastema fuse prior to ascent.
Sonographic findings:
isthmus crossing the midline anterior to the great vessels.
Occurs when metanephric blastema fuse prior to ascent.
Sonographic findings:
isthmus crossing the midline anterior to the great vessels.
Abnormal rotation of pelves
PUJ obstruction
Infection and stone formation
Associated Anomalies: VUR, duplex collecting system, retrocaval ureter, anorectal
malformation, rectovaginal fistula, omphalocele, etc.
PUJ obstruction
Infection and stone formation
Associated Anomalies: VUR, duplex collecting system, retrocaval ureter, anorectal
malformation, rectovaginal fistula, omphalocele, etc.
3. Anomalies related to ascent of kidney
a. Renal agenesis
Unilateral Vs. Bilateral
Occurs due to:
Absence of metanephric blastema
Absence of ureteric bud development
Absence of interaction of ureteric bud with metanephric blastema
a. Renal agenesis
Unilateral Vs. Bilateral
Occurs due to:
Absence of metanephric blastema
Absence of ureteric bud development
Absence of interaction of ureteric bud with metanephric blastema
Sonographic finding
Although kidney is absent, adrenal gland is usually present ( absent in upto17%
patient )
Compensatory hypertrophy of another kidney
Usually colon falls into empty renal bed.
Associated anomalies: anorectal malformation and crptoorchidism
Although kidney is absent, adrenal gland is usually present ( absent in upto17%
patient )
Compensatory hypertrophy of another kidney
Usually colon falls into empty renal bed.
Associated anomalies: anorectal malformation and crptoorchidism
b. Supernumerary kidney:
c. Duplex collecting system
Acongenitalabnormalitywheredrainageofthekidneyis
viatwocollectingsystems(occurringin10%ofindividuals)
Maybecompleteorincomplete(incomplete>complete)
Acongenitalabnormalitywheredrainageofthekidneyis
viatwocollectingsystems(occurringin10%ofindividuals)
Maybecompleteorincomplete(incomplete>complete)
WEIGERT-MEYER RULE
Contd..
HYDRONEPHROSIS
Refers to dilatation of the collecting system.
Sonographic evaluation should include assessment of the degree of dilatation,
appearance of surrounding parenchyma, level of obstruction and any
obstructing lesion.
Hydronephrosis that persists after voiding suggests an anatomic obstruction.
Refers to dilatation of the collecting system.
Sonographic evaluation should include assessment of the degree of dilatation,
appearance of surrounding parenchyma, level of obstruction and any
obstructing lesion.
Hydronephrosis that persists after voiding suggests an anatomic obstruction.
Grading of Hydronephrosis
Hydronephrosis Vs. Parapelvic Cysts
Pyelonephritis
1. Acute Pyelonephritis
Tubulointerstitial inflammation of kidney.
Ascending Vs. Hematogenous seeding.
In most cases, sonography is normal .
1. Acute Pyelonephritis
Tubulointerstitial inflammation of kidney.
Ascending Vs. Hematogenous seeding.
In most cases, sonography is normal .
2. Renal and perinephric abscess:
Complication of acute pyelonephritis leading to parenchymal necrosis and abscess formation.
Renal abscess tends to be solitary and may spontaneously decompress into the collecting
system or perinephric space.
SONOGRAPHIC FINDINGS
Renal abscesses appear as round thick-walled hypoechoic complex
Internal mobile debris and septation may be seen
Occasionally dirty shadowing may be seen posterior to gas within abscess.
D/D: hemorrhagic or infected cyst, parasitic cyst, multiloculated cysts and cystic neoplasms.
Complication of acute pyelonephritis leading to parenchymal necrosis and abscess formation.
Renal abscess tends to be solitary and may spontaneously decompress into the collecting
system or perinephric space.
SONOGRAPHIC FINDINGS
Renal abscesses appear as round thick-walled hypoechoic complex
Internal mobile debris and septation may be seen
Occasionally dirty shadowing may be seen posterior to gas within abscess.
D/D: hemorrhagic or infected cyst, parasitic cyst, multiloculated cysts and cystic neoplasms.
3. Emphysematous Pyelonephritis
Uncommon life-threatening infection of renal parenchyma characterize by gas
formation
Two types of disease: EPN 1 and EPN 2
EPN 1: Parenchymal destruction and mottled gas.
EPN 2:Renal or perirenal fluid collections with loculated gas in the collecting
system
Uncommon life-threatening infection of renal parenchyma characterize by gas
formation
Two types of disease: EPN 1 and EPN 2
EPN 1: Parenchymal destruction and mottled gas.
EPN 2:Renal or perirenal fluid collections with loculated gas in the collecting
system
4. Chronic Pyelonephritis
Interstitial nephritis often associated with VUR.
Sonographic findings:
Dilated blunt calix is seen, associated with cortical scar or atrophy.
Interstitial nephritis often associated with VUR.
Sonographic findings:
Dilated blunt calix is seen, associated with cortical scar or atrophy.
5. XanthogranulomatousPyelonephritis
Chronic suppurative renal infection in which destroyed renal parenchyma is replaced by lipid-
laden macrophages.
Typically unilateral
Diffuse ,focal or segmental
Associated with nephrolithiasis and obstructive nephropathy.
Chronic suppurative renal infection in which destroyed renal parenchyma is replaced by lipid-
laden macrophages.
Typically unilateral
Diffuse ,focal or segmental
Associated with nephrolithiasis and obstructive nephropathy.
Sonographic finding
Renal enlargement.
Maintenance of reniform shape
Loss of CMD
Renal enlargement.
Maintenance of reniform shape
Loss of CMD
Pyonephrosis
Purulent material in an obstructed collecting system.
Sonography: layering collecting system echoes
Purulent material in an obstructed collecting system.
Sonography: layering collecting system echoes
Papillary Necrosis
Etiology: Analgesic abuse, diabetes, UTI, renal vein thrombosis, prolonged
hypotension, dehydration, urinary tract obstruction,hemophila
Initially papilla swells, then a communication with the caliceal system occurs
The central area of papilla slough and cavitates.
Etiology: Analgesic abuse, diabetes, UTI, renal vein thrombosis, prolonged
hypotension, dehydration, urinary tract obstruction,hemophila
Initially papilla swells, then a communication with the caliceal system occurs
The central area of papilla slough and cavitates.
Renal Tuberculosis
Hematogenous seeding of the kidney from an extra urinary source typically
lungs
Typically unilateral.
SONOGRAPHIC FINDINGS
Early changes includes development of multiple small bilateral tuberculoma
Most frequently encountered abnormality was focal renal lesions
Papillary involvement is noted when sonolucent linear tract is shown extending
from the involved calix into the papilla.
Hematogenous seeding of the kidney from an extra urinary source typically
lungs
Typically unilateral.
SONOGRAPHIC FINDINGS
Early changes includes development of multiple small bilateral tuberculoma
Most frequently encountered abnormality was focal renal lesions
Papillary involvement is noted when sonolucent linear tract is shown extending
from the involved calix into the papilla.
Chronic form of genitourinary tract TB : fibrotic, strictures, extensive cavitation, calcification,
mass lesions, perinephric abscess and fistula.
With time calcification in the areas of caseation or sloughed papilla may occur
If renal infection ruptures perirenal abscess is formed.
The hallmark of chronic renal TB is a small, non functional calcified kidney called PUTTY kidney
mass lesions, perinephric abscess and fistula.
With time calcification in the areas of caseation or sloughed papilla may occur
If renal infection ruptures perirenal abscess is formed.
The hallmark of chronic renal TB is a small, non functional calcified kidney called PUTTY kidney
Fig A. caseous cavity
Fig B.Tuberculouscavity
with fine septaewithin
Fig c. Irregular
hypoechoic cavities
43
Fig B.Tuberculouscavity
with fine septaewithin
Fig c. Irregular
hypoechoic cavities
43
Renal Hydatid Disease
Usually solitary and typically involves the renal poles.
Suggestive featues: including floating membranes, daughter cysts, and thick, double-contour
cyst walls.
Usually solitary and typically involves the renal poles.
Suggestive featues: including floating membranes, daughter cysts, and thick, double-contour
cyst walls.
D. ACQUIRED IMMUNODEFICIENCY SYNDROME.
SONOGRAPHIC FINDINGS
Greatly increased renal echogenicity
Globular appearing kidney
Decreased corticomedullary differentiation
Decrease renal sinus fat and heterogeneity
45
SONOGRAPHIC FINDINGS
Greatly increased renal echogenicity
Globular appearing kidney
Decreased corticomedullary differentiation
Decrease renal sinus fat and heterogeneity
45
RENAL CALCULI
60-80 % composed of calcium.
Predisposing factors : dehydration, urinary stasis, hyperuricemia, hyperparathyroidism and
hypercalciuria.
Caliceal calculi that are non-obstructing are usually asymptomatic.
Obstruction at three areas of ureteric narrowing a) just past the PUJ b) where the ureter
crosses the iliac vessels and c) VUJ
46
60-80 % composed of calcium.
Predisposing factors : dehydration, urinary stasis, hyperuricemia, hyperparathyroidism and
hypercalciuria.
Caliceal calculi that are non-obstructing are usually asymptomatic.
Obstruction at three areas of ureteric narrowing a) just past the PUJ b) where the ureter
crosses the iliac vessels and c) VUJ
46
Sonographic finding
F. NEPHROCALCINOSIS:
Renal parenchymal calcification
Two types dystrophic and metastatic.
DYSTROPHIC: deposition of calcium in ischemic or necrotic tissue
occurs in tumors, abscess and hematomas.
METASTATIC: Due to hypercalcemic state caused by hyperparathyroidism, renal
tubular acidosis and renal failure.
Metastatic calcification have 2 types: cortical (5%) and medullary (95%)
49
Renal parenchymal calcification
Two types dystrophic and metastatic.
DYSTROPHIC: deposition of calcium in ischemic or necrotic tissue
occurs in tumors, abscess and hematomas.
METASTATIC: Due to hypercalcemic state caused by hyperparathyroidism, renal
tubular acidosis and renal failure.
Metastatic calcification have 2 types: cortical (5%) and medullary (95%)
49
NEPHROCALCINOSIS CONT…..
CORTICAL NEPHROCALCINOSIS CAUSE:
Acute cortical nephrosis
Chronic glomerulonephritis
Hypercalcemia
Ethylene glycol poisoning
Sickle cell anemia
Renal transplant rejection
MEDULLARY NEPHROCALCINOSIS CAUSE
•Hyperparathyroidism
•Renal tubular acidosis
•Medullary spongy kidney
•Bone metastases
•Chronic pyelonephritis
•Cushing syndrome
•Hyperthyroidism
•Malignancy
•Renal papillary necrosis
•Sarcoidosis
50
CORTICAL NEPHROCALCINOSIS CAUSE:
Acute cortical nephrosis
Chronic glomerulonephritis
Hypercalcemia
Ethylene glycol poisoning
Sickle cell anemia
Renal transplant rejection
MEDULLARY NEPHROCALCINOSIS CAUSE
•Hyperparathyroidism
•Renal tubular acidosis
•Medullary spongy kidney
•Bone metastases
•Chronic pyelonephritis
•Cushing syndrome
•Hyperthyroidism
•Malignancy
•Renal papillary necrosis
•Sarcoidosis
50
Sonographic findings
Early medullary calcification are non shadowing echogenic rims surrounding medullary
pyramids.
Further calcium deposition results in acoustic shadowing.
Early cortical calcification may be suggested by increased cortical echogenicity.
With progressive calcification, a continuous,shadowingcalcified rim develops.
Early medullary calcification are non shadowing echogenic rims surrounding medullary
pyramids.
Further calcium deposition results in acoustic shadowing.
Early cortical calcification may be suggested by increased cortical echogenicity.
With progressive calcification, a continuous,shadowingcalcified rim develops.
NEPHROCALCINOSIS CONT……
SONOGRAPHIC FINDINGS:
Early medullary calcification are non shadowing echogenic rims surrounding medullary pyramids.
Further calcium deposition results in acoustic shadowing
Early cortical calcification may be suggested by increase cortical echogenicity.
With progressive calcification, a continuous, shadowing calcified rim develops.
52
SONOGRAPHIC FINDINGS:
Early medullary calcification are non shadowing echogenic rims surrounding medullary pyramids.
Further calcium deposition results in acoustic shadowing
Early cortical calcification may be suggested by increase cortical echogenicity.
With progressive calcification, a continuous, shadowing calcified rim develops.
52
Renal Cell Carcinoma
Accounts for approximately 3% of all adult malignancy and 86% of all primary malignant renal
parenchymal tumors.
Histological subtypes include:
a) Clear cell ( 70% –75%)
b) Papillary (15%)
c) Chromophobe(5%)
d) Oncocytic(2% -3%)
e) Collecting duct or medullary(<1%)
Accounts for approximately 3% of all adult malignancy and 86% of all primary malignant renal
parenchymal tumors.
Histological subtypes include:
a) Clear cell ( 70% –75%)
b) Papillary (15%)
c) Chromophobe(5%)
d) Oncocytic(2% -3%)
e) Collecting duct or medullary(<1%)
Sonographic findings
May be hypoechoic, hyperechoic or isoechoic.
RCCs less than 3cm are mostly echogenic.
A small Echogenic RCC may be difficult to differentiate from a benign angiomyolipoma at
ultrasound.
5-7 % of all RCCs are cystic.
May be hypoechoic, hyperechoic or isoechoic.
RCCs less than 3cm are mostly echogenic.
A small Echogenic RCC may be difficult to differentiate from a benign angiomyolipoma at
ultrasound.
5-7 % of all RCCs are cystic.
Robson Staging Classification for RCC
STAGE I :Tumor confined within renal capsule
STAGE II : Invasive of perinephric fat
STAGE III:Involves lymph nodes or vascular structures
STAGE IV: Invasion of adjacent organs or distant metastasis
STAGE I :Tumor confined within renal capsule
STAGE II : Invasive of perinephric fat
STAGE III:Involves lymph nodes or vascular structures
STAGE IV: Invasion of adjacent organs or distant metastasis
Transitional Cell Carcinoma
TCC of renal pelvis accounts for 7% of all primary renal tumors.
> 65 years old.
SONOGRAPHIC FINDINGS
Morphology of lesions a) papillary b) non-papillary c) infiltrative
Small non obstructing tumors may be impossible to visualize in ultrasound.
With growth, papillary tumors will be seen as discrete, solid, central, hypoechoic renal sinus
masses with or without associated proximal caliectasis.
D/Ds: Blood clots, Sloughed, papillae and fungus balls.
TCC of renal pelvis accounts for 7% of all primary renal tumors.
> 65 years old.
SONOGRAPHIC FINDINGS
Morphology of lesions a) papillary b) non-papillary c) infiltrative
Small non obstructing tumors may be impossible to visualize in ultrasound.
With growth, papillary tumors will be seen as discrete, solid, central, hypoechoic renal sinus
masses with or without associated proximal caliectasis.
D/Ds: Blood clots, Sloughed, papillae and fungus balls.
Squamous Cell Carcinoma
Chronic infection, irritation, and stones lead to squamous metaplasia and
leukoplakia of the urothelium.
As with other infiltrating renal lesions, renal SCC appears at sonography as a
diffusely enlarged kidney that has maintained its reniform shape.
Normal renal echotexture is damaged and renal stone may be presented .
Chronic infection, irritation, and stones lead to squamous metaplasia and
leukoplakia of the urothelium.
As with other infiltrating renal lesions, renal SCC appears at sonography as a
diffusely enlarged kidney that has maintained its reniform shape.
Normal renal echotexture is damaged and renal stone may be presented .
Adenocarcinoma
Almost all patients with adenocarcinoma of the renal pelvis have a
history of chronic UTI
Two-thirds have a stone, typically a staghorn calculus.
Almost all patients with adenocarcinoma of the renal pelvis have a
history of chronic UTI
Two-thirds have a stone, typically a staghorn calculus.
Oncocytoma
There is no distinctive ultrasound appearance of oncocytomas
Lesions may be homogenous or heterogenous with a distinct or poorly
demarcated wall
Central scar, calcification may be seen
Lack of specificity of imaging features of oncocytomas typically prompts
surgical resection
There is no distinctive ultrasound appearance of oncocytomas
Lesions may be homogenous or heterogenous with a distinct or poorly
demarcated wall
Central scar, calcification may be seen
Lack of specificity of imaging features of oncocytomas typically prompts
surgical resection
Angiomyolipoma
Benign renal tumors composed of varying proportions of adipose tissue,
smooth muscle cells, and blood vessels
Up to 50% of patients with AMLs will have clinical stigmata of tuberous
sclerosis (mental retardation, epilepsy, facial sebaceous adenomas)
Benign renal tumors composed of varying proportions of adipose tissue,
smooth muscle cells, and blood vessels
Up to 50% of patients with AMLs will have clinical stigmata of tuberous
sclerosis (mental retardation, epilepsy, facial sebaceous adenomas)
Sonographic findings
the echo pattern of AMLs depends on the proportions of fat, smooth muscle, vascular elements,
and hemorrhage
If muscle, hemorrhage, or vascular elements predominate hypoechoic
Multiple fat and non fat interfaces in the more typical echogenic lesion with shadowing
the echo pattern of AMLs depends on the proportions of fat, smooth muscle, vascular elements,
and hemorrhage
If muscle, hemorrhage, or vascular elements predominate hypoechoic
Multiple fat and non fat interfaces in the more typical echogenic lesion with shadowing
Lymphoma
Lymphomatous involvement of the kidney occurs either from hematogenous dissemination or
contiguous extension of retroperitoneal disease.
Bilateral > Unilateral
Sonography:
depends on the pattern of involvement
Focal parenchymal involvement may appear as solitary or multiple nodules. These masses
appear homogeneous and hypoechoic or anechoic.
Solitary: Focal hypoechoic mass indistinct from renal cell carcinoma
Multiple: Usually bilateral, hypoechoic renal mass.
Lymphomatous involvement of the kidney occurs either from hematogenous dissemination or
contiguous extension of retroperitoneal disease.
Bilateral > Unilateral
Sonography:
depends on the pattern of involvement
Focal parenchymal involvement may appear as solitary or multiple nodules. These masses
appear homogeneous and hypoechoic or anechoic.
Solitary: Focal hypoechoic mass indistinct from renal cell carcinoma
Multiple: Usually bilateral, hypoechoic renal mass.
Metastases to Kidney
Hematogenous route.
The most common primary tumors giving rise to renal metastases :
(1) Lung carcinoma,
(2) Breast carcinoma, and
(3) RCC of the contralateral kidney
May manifest as a solitary mass, multiple masses, or a diffusely infiltrating
mass that enlarges the kidney.
Hematogenous route.
The most common primary tumors giving rise to renal metastases :
(1) Lung carcinoma,
(2) Breast carcinoma, and
(3) RCC of the contralateral kidney
May manifest as a solitary mass, multiple masses, or a diffusely infiltrating
mass that enlarges the kidney.
SONOGRAPHIC FINDING:
A solitary metastasis : solid mass indistinguishable from RCC; often occurs with
colon carcinoma.
Multiple metastases : small, poorly marginated, hypoechoic masses.
Involvement of the perinephric space is possible, particularly with malignant
melanoma and lung cancer.
infiltrating renal metastases are particularly subtle at ultrasound; as with other
infiltrating processes, the only manifestation at sonography may be an enlarged,
but still reniform, kidney.
A solitary metastasis : solid mass indistinguishable from RCC; often occurs with
colon carcinoma.
Multiple metastases : small, poorly marginated, hypoechoic masses.
Involvement of the perinephric space is possible, particularly with malignant
melanoma and lung cancer.
infiltrating renal metastases are particularly subtle at ultrasound; as with other
infiltrating processes, the only manifestation at sonography may be an enlarged,
but still reniform, kidney.
Renal Cystic Disease
Cortical Cysts
1. Simple Cysts
Benign and fluid filled
Likely originated from distal or collecting ducts
Most cysts are asymptomatic while large cysts may present with flank pain and hematuria.
A cyst is confidently characterized at sonography when it is:
(1) anechoic
(2) Has a sharply defined, imperceptible back wall
(3) Is round or ovoid
(4) Enhances sound transmission
If all these criteria are met further follow up is not required.
Cortical Cysts
1. Simple Cysts
Benign and fluid filled
Likely originated from distal or collecting ducts
Most cysts are asymptomatic while large cysts may present with flank pain and hematuria.
A cyst is confidently characterized at sonography when it is:
(1) anechoic
(2) Has a sharply defined, imperceptible back wall
(3) Is round or ovoid
(4) Enhances sound transmission
If all these criteria are met further follow up is not required.
2. Complex Cysts
containing internal echoes, septations, calcifications, perceptible defined walls
and mural nodularity.
containing internal echoes, septations, calcifications, perceptible defined walls
and mural nodularity.
71
Medullary Cysts
1. Medullary Sponge Disease
dilated and ectaticcollecting tubules
2. Medullary Cystic Disease
Characterized by small cysts at the corticomedullary junction and medulla.
Tubulointerstialfibrosis is a hallmark of both entities.
At sonography small echogenic kidneys with medullary cysts 0.1 to 1.0 cm are
seen.
1. Medullary Sponge Disease
dilated and ectaticcollecting tubules
2. Medullary Cystic Disease
Characterized by small cysts at the corticomedullary junction and medulla.
Tubulointerstialfibrosis is a hallmark of both entities.
At sonography small echogenic kidneys with medullary cysts 0.1 to 1.0 cm are
seen.
Polycystic Kidney Disease
AUTOSOMAL RECESSIVE POLYCYSTIC KIDNEY DISEASE (ARPKD)
four types—perinatal, neonatal, infantile, and juvenile
characterized pathologically as a spectrum of dilated renal collecting tubules,
hepatic cysts, and periportal fibrosis .
SONOGRAPHIC FINDING:
lack of corticomedullary differentiation and massively enla.rgedechogenic kidneys
AUTOSOMAL RECESSIVE POLYCYSTIC KIDNEY DISEASE (ARPKD)
four types—perinatal, neonatal, infantile, and juvenile
characterized pathologically as a spectrum of dilated renal collecting tubules,
hepatic cysts, and periportal fibrosis .
SONOGRAPHIC FINDING:
lack of corticomedullary differentiation and massively enla.rgedechogenic kidneys
AUTOSOMAL DOMINANT POLYCYSTIC KIDNEY DISEASE:
Bilateral large cortical and medullary cysts
Associated anomalies :liver cysts (30%-60%); pancreatic cysts (10%); splenic cysts (5%)
Sonography finding:
Kidneys are enlarged and replaced by multiple bilateral, asymmetric cysts of varying size
Cysts complicated by hemorrhage or infection have thick walls, internal echoes, and/ or fluid-
debris levels
Dystrophic calcification within cyst walls or stones may be seen as echogenic foci with sharp,
distal acoustic shadowing.
Bilateral large cortical and medullary cysts
Associated anomalies :liver cysts (30%-60%); pancreatic cysts (10%); splenic cysts (5%)
Sonography finding:
Kidneys are enlarged and replaced by multiple bilateral, asymmetric cysts of varying size
Cysts complicated by hemorrhage or infection have thick walls, internal echoes, and/ or fluid-
debris levels
Dystrophic calcification within cyst walls or stones may be seen as echogenic foci with sharp,
distal acoustic shadowing.
Multicysticdysplastic kidney
nonhereditary developmental anomaly also known as renal dysplasia, renal dysgenesis, and
multicystickidney.
Sonography finding:
(1) Multiple noncommunicating cysts of varying size,
(2) Absence of normal parenchyma and normal
renal sinus, and
(3) Focal echogenic areas representing primitive
mesenchyme or tiny cysts
nonhereditary developmental anomaly also known as renal dysplasia, renal dysgenesis, and
multicystickidney.
Sonography finding:
(1) Multiple noncommunicating cysts of varying size,
(2) Absence of normal parenchyma and normal
renal sinus, and
(3) Focal echogenic areas representing primitive
mesenchyme or tiny cysts
Renal Injuries
May be blunt or penetrating
Classified into four category:
I)Minor Injury: Contusions, subcapsular hematoma, small cortical infract
and lacerations that do not extend into the collecting system
II) Major Injury: Renal lacerations that extends into the renal collecting system
and segmental renal infract
III) Catastrophic Injury: Vascular pedicle injury and shattered kidney
IV) Uteropelvic Junction Avulsion
May be blunt or penetrating
Classified into four category:
I)Minor Injury: Contusions, subcapsular hematoma, small cortical infract
and lacerations that do not extend into the collecting system
II) Major Injury: Renal lacerations that extends into the renal collecting system
and segmental renal infract
III) Catastrophic Injury: Vascular pedicle injury and shattered kidney
IV) Uteropelvic Junction Avulsion
Sonographic findings
Renal hematomas : hypoechoic, hyperechoic, or heterogeneous
Lacerations : linear defects
Associated perirenal collections
Subcapsular hemorrhage
Renal hematomas : hypoechoic, hyperechoic, or heterogeneous
Lacerations : linear defects
Associated perirenal collections
Subcapsular hemorrhage
Medical Genitourinary Diseases
1. ACUTE TUBULAR NECROSIS (ATN):
Related to deposition of cellular debris within the renal collecting tubules
Sonographic appearance depends on the underlying cause
ATN caused by hypotension : kidneys may appear normal
Drugs, metals, and solvents : enlarged, echogenic kidneys
1. ACUTE TUBULAR NECROSIS (ATN):
Related to deposition of cellular debris within the renal collecting tubules
Sonographic appearance depends on the underlying cause
ATN caused by hypotension : kidneys may appear normal
Drugs, metals, and solvents : enlarged, echogenic kidneys
2. Glomerulonephritis
Necrosis and mesangial proliferation of the glomerulus are the hallmarks of acute
glomerulonephritis.
The echo pattern of the cortex is altered; renal cortex may be normal, echogenic, or
hypoechoic, but the medulla is spared
Chronic glomerulonephritis
Profound, global, symmetrical parenchymal loss occurs.
The calices and papillae are normal, and the amount of peripelvicfat increases
Necrosis and mesangial proliferation of the glomerulus are the hallmarks of acute
glomerulonephritis.
The echo pattern of the cortex is altered; renal cortex may be normal, echogenic, or
hypoechoic, but the medulla is spared
Chronic glomerulonephritis
Profound, global, symmetrical parenchymal loss occurs.
The calices and papillae are normal, and the amount of peripelvicfat increases
3. ACUTE INTERSTITIAL NEPHRITIS :
Acute interstitial nephritis is an acute hypersensitivity reaction of the kidney most often
related to drugs
At sonography, enlarged echogenic kidneys are noted
DIABETES
At sonography, the kidneys are initially enlarged but, with time and progressive renal insufficiency, the kidneys
decrease in size and increase in cortical echogenicity .
Corticomedullary junctions are preserved.
With end-stage disease, the kidneys become smaller and more echogenic, and the medulla becomesas
echogenic as the cortex
83
Acute interstitial nephritis is an acute hypersensitivity reaction of the kidney most often
related to drugs
At sonography, enlarged echogenic kidneys are noted
DIABETES
At sonography, the kidneys are initially enlarged but, with time and progressive renal insufficiency, the kidneys
decrease in size and increase in cortical echogenicity .
Corticomedullary junctions are preserved.
With end-stage disease, the kidneys become smaller and more echogenic, and the medulla becomesas
echogenic as the cortex
83
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