Module 6 : Liver Vasculature

Question 1

hepatic artery

Answer 1

• primary blood supplier (30%)
• tortuous
• low resistance

Question 2

proximal HA

Answer 2

• best seen in transverse
• at celiac axis
  + is celiac axis occluded then HA can still get flow from collaterals

Question 3

distal HA

Answer 3

• viewed intercostally
• ## at level of main portal vein

Question 4

spectral tracing of normal HA

Answer 4

• low resistance
• fill in of spectral window due to small artery diameter
• variable viscosities due to tortuosity
• RI 0.5-0.7

Question 5

resistive index RI

Answer 5

• EDV/PSV
• EDV decreases = more resistive
• stronger indicator of stenosis then velocity

Question 6

inferior vena cava IVC

Answer 6

• formed by union of the common iliac veins
• anterior to the spine and to the right of the aorta
• intercostal scans are best to visualize

Question 7

IVC spectral waveform

Answer 7

• spontaneous waveform (no provocative maneuver)
• Proximal = more pulsatile closer to heart
• distally = phasic (further from heart)
• respiratory changes

Question 8

IVC size

Answer 8

• changes with size of patient
• respiration
• right atrial pressure CHF
• > 3.7 dilated

Question 9

hepatic veins

Answer 9

• three major veins
• accessory veins are common (more on right)
• drain into IVC
• hepatic veins enlarge as they approach the IVC
• intersegmental
• commonly left and middle come together first
• with agenisis RHV usually absent followed by middle then left

Question 10

right hepatic vein RHV

Answer 10

• runs coronally between anterior and posterior segments of the right lobe
• largest

Question 11

middle hepatic vein MHV

Answer 11

• lies between right and left lobes

- medial left lobe

Question 12

left hepatic vein LHV

Answer 12

• runs between the medial and lateral segment of the left lobe
• commonly duplicated

Question 13

caudate lobe

Answer 13

• has its own drainage directly into IVC

Question 14

spectral trace hepatic veins

Answer 14

• multiphasic
• pulsatile flow
• flow away from transducer
• if not showing this flow there may be an obstruction

Question 15

walls of hepatic veins

Answer 15

• less defined then PV

- no echogenic sheath

Question 16

patency and distension hepatic veins

Answer 16

• indications of Budd Chiari or CHF
• BC = narrowed or absent
• CHF = not phasic or pulsatile

Question 17

hv scanning window for confluence

Answer 17

• trans subxiphoid

- lots of color close to heart

Question 18

hv scanning window RHV

Answer 18

• right intercostal

Question 19

hv scanning window MHV

Answer 19

• midline subxiphoid

- intercostal

Question 20

hv scanning window LHV

Answer 20

• anterior subcostal

- angle heel toward left

Question 21

portal veins

Answer 21

• drains nutrient rich blood from bowel and spleen to the liver (70%)
• formed by confluence of the splenic vein and SMV
  + IMV and coronary veins contribute
• enters liver at porta hepatic

Question 22

portal veins spectral trace

Answer 22

- low velocity 
   \+ range = 15-40 cm/sec
   \+ mean = 15-18 cm/sec
- continuous signal
- subtle phasic variations (undulations)
- windstorm sound

Question 23

portal veins flow

Answer 23

• hepatopedal (toward flow)
• increases post prandially
  + vessels dilate near bowel when you eat which increases flow

Question 24

scanning window MPV

Answer 24

• anterior subcostal
• intercostal
• always over ivc

Question 25

scanning window RPV

Answer 25

• intercostal

- coronal

Question 26

scanning window LPV

Answer 26

• subxipoid

- intercostal

Question 27

liver duplex exam - assessing

Answer 27

• flow direction
• normal waveform
• patency

Question 28

liver duplex exam - routine vessels

Answer 28

• hepatic veins
• portal vein
• splenic vein
• hepatic artery
• collaterals

Question 29

dopper assessment liver duplex

Answer 29

• assess flow quality

- only assessed during quiet respiration

Question 30

patient positon

Answer 30

• supine

Question 31

anterior window

Answer 31

- assess
  \+ LPV
  \+ LHV
  \+ SV
  \+ MPV

Question 32

coronal intercostal

Answer 32

- assess
   \+ RHV
   \+ MHV
   \+ RPV and MPV
   \+ HA

Question 33

color and spectral doppler of liver

Answer 33

• done in every picture
• flow direction
• quality of flow NOT QUANTITY
• patency

Question 34

hepatic veins assess

Answer 34

• hepatofugal (away from liver) flow

- multiphase waveform

Question 35

portal veins assess

Answer 35

• hepatopedal

- subtle phasicity

Question 36

MPV - protocal

Answer 36

- 2D (anterior subcostal)
  \+ measure AP
  \+ anterior to IVC
  \+ with quiet respiration 
  \+ normal measurement less than 13mm
- color and spectral trace (coronal intercostal)
  \+ sample MPV outside of liver
  \+ coronal intercostal
    = zero angle 
  \+ anterior subcostal 
    = 60 angle 
  \+ measure peak velocity with generic calliper

Question 37

normal range of peak velocity of MPV

Answer 37

• 15-40 cm/sec

Question 38

splenic vein - protocol

Answer 38

• color and spectral (anterior subcostal)

- long axis

Question 39

left hepatic - protocol

Answer 39

• color and spectral (anterior subcostal)

- long axis

Question 40

left portal vein - protocol

Answer 40

• color and spectral
• subxiphoid window
• long axis
• not doing velocity

Question 41

right hepatic vein - protocol

Answer 41

• color and spectral
• right intercostal window
• long axis
• closest to diaphragm

Question 42

middle hepatic vein - protocol

Answer 42

• color and spectral
• midline subxiphoid
• intercostal
• long axis

Question 43

right portal vein - protocol

Answer 43

• color ade spectral
• coronal intercostal
  + same as MPV
• not doing velocity

Question 44

hepatic artery - protocol

Answer 44

• color and spectral (coronal intercostal)
• same window and area as MPV
• measure PSV
• patient may hold breath for this image only

Question 45

splenic vein - protocol

Answer 45

• closer to heart

- more crazy waveform

Question 46

IVC - protocol

Answer 46

• subxiphoid
• long axis
• close to diaphragm

Question 47

flow tips - portal vs vein

Answer 47

• portal venous flow is slower than hepatic vein so adjust flow

Question 48

sweep speed

Answer 48

• medium

Question 49

portal vein baseline

Answer 49

• move down a little

Question 50

hepatic vein baseline

Answer 50

• move up slightly

Question 51

intercostal scanning tips

Answer 51

• rotate transducer to go between ribs

- point transducer indicator toward patient right scapula

Question 52

portal hypertension

Answer 52

• elevated pressure in portal venous system

+ impedes blood flow through the liver

Question 53

portal hypertension - causes

Answer 53

• volume overload

- increased resistance to flow

Question 54

three classifications of portal hypertension

Answer 54

• pre-hepatic
• intrahepatic
  + most common
• post hepatic

Question 55

pre-hepatic portal hypertension - casues

Answer 55

• portal of splenic thrombosis
• portal or splenic invasion
• extrinsic compression by a tumor

Question 56

intrahepatic portal hypertension - causes

Answer 56

• hepatocelluar disease
  + CIRRHOSIS
  + hepatitis
  + fatty infiltration

Question 57

post hepatic portal hypertension - causes

Answer 57

• thrombosis of hepatic veins (Budd chiari)
• thrombosis of IVC
• congestive heart failure
• right sided heart disease

Question 58

risk factors of portal hypertension

Answer 58

• chronic liver diseases that precedes fibrosis or cirrhosis
• heart disease resulting in increased right sided heart pressures

Question 59

chronic liver disease that precedes fibrosis or cirrhosis

Answer 59

• viral hep (chronic hep B or C)
• alcoholic liver disease
• autoimmune disorder
  + primary biliary cirrhosis, primary sclerosing, cholangitis
• metabolic and genetic disorders
  + hemochromatosis, Wilsons disease
• schistosomiasis
• non alcoholic steatohepatitis NASH
• sarcoidosis

Question 60

heart disease leading to increased right sided heart pressure s

Answer 60

• tricuspid regurge
• congestive heart failure
• constrictive pericarditis

Question 61

patient clinical signs - portal hypertension

Answer 61

• ascites (abdominal distention)
• splenomegaly
• GI bleed
• JAUNDICE (COMMON SIGN OF CIRRHOSIS)
• abnormal LFTs

Question 62

can patients be asymptomatic with portal hypertension

Answer 62

• yes

Question 63

manifestations of signs and symptoms associated with underlying disease - portal hypertension

Answer 63

• pancreatitis

- liver diseases

Question 64

patient history - portal hypertension

Answer 64

• could have variceal hemorrhage (hematemesis and melena)

- bacterial peritonitis

Question 65

physical exam of patient would see - portal hypertension

Answer 65

• jaundice (if liver sufficiently impaired)
• splenomegaly (could lead to low platelet counts)
• dilated abdominal wall veins
• hepatic encephalopathy (confusion due to poor liver function)

Question 66

ultrasound evaluation would document - portal hypertension

Answer 66

• portal vein diameter > 13mm
• cavernous transformation (intraabdominal collaterals)
• portocaval anastomoses
• dilation/ recannalization of umbilical vein
• splenomegaly > 13cm

Question 67

duplex eval - patency of vessels (collaterals too)

Answer 67

• color doppler
  + flow or lack of flow
• power doppler
  + tortuous vessels and collaterals

Question 68

duplex eval - direction of flow

Answer 68

• color and spectral

- possibility of reversed flow in portal/splenic veins

Question 69

duplex eval - loss of phasic variation

Answer 69

• special tracing
• in response to respiration
• Changs to biphasic with progression to flow reversal
  + increased pressures

Question 70

duplex eval - presence or absence of thrombosis

Answer 70

• 2D
• color
  + decease or absent of flow
  + not indicative of hypertension in patients with chronic liver disease

Question 71

duplex eval - PV velocity

Answer 71

mean velocity 15-18 cm/s

Question 72

pulsatile and dilated IVC mean what

Answer 72

congestive heart failure

Question 73

portal vein thrombosis - primary condition

Answer 73

- can be found in patients with 
   \+ liver disease
   \+ hypercoagulable states
   \+ intestinal inflammation 
       = appendicitis, diverticulitis, 
- causes increased resistance in portal venous circulation

Question 74

ultrasound findings - portal vein thrombosis

Answer 74

• enlarged PV
• lack of flow or decreased flow
• collateral flow
• enlarged hepatic artery and increased flow
• tumor
• portal vein occlusion

Question 75

PVT - enlarged PV

Answer 75

• look for thrombus in lumen

+ variable echogenicity

Question 76

PVT - lack of flow or decreased flow

Answer 76

• spectral color or power doppler

Question 77

PVT - collateral flow

Answer 77

• chronic PV thrombosis

- cavernous transformation/shunts

Question 78

PVT -tumor

Answer 78

• invasion of portal vein
• typically hepatocellular and pancreatic carcinoma
• presence of arterial flow within thrombosis
• partial blockage
  + at site of obstruction = increase speed and disturbed flow patterns
  + distal to obstruction = continuous flow no respiratory changes

Question 79

PVT - portal vein occlusions

Answer 79

• usually permanent

- fibrotic changes cause vessel to virtually disappear

Question 80

three pitfalls of scanning for PVT

Answer 80

1) undetected anechoic thrombus/tumor
2) low velocity flow undetected
3) inadequate doppler angle precluding detection of flow

Question 81

hepatic vein occlusion (budd chiari syndrome) - causes

Answer 81

• post hepatic portal hypertension
• thrombosis
  + increases hypercoagulability
  = oral contraceptives, polycythemia, hemoglobinuria
• compression
• tumor invasion
• cirrhosis
• membraneous obstruction of IVC

Question 82

hepatic vein occlusion - signs and symptoms

Answer 82

• hepatomegaly
• abdominal pain
• acute development of ascites
• abnormal liver function tests
• splenomegaly and collaterals may be evident in chronic cases

Question 83

hepatic vein occlusion - ultrasound findings

Answer 83

• hepatomegaly
• caudate lobe hypertrophy
• thrombus or tumor in HV or IVC
• ABSENCE OF FLOW
• if veins are narrow
  + focal elevation of velocity
  + turbulence
• deep liver
  + segmental lack of flow and bicolor
• collaterals
  + connecting patent HV with the portal system
  + bypasses the occluded segment
• IVC should be evaluated to rule out thrombus or tumor causing secondary obstruction to hepatic veins

Question 84

normal portal vein - ultrasound

Answer 84

• low velocity (15-30cm/s)
  = hepatopedal flow
• respiratory variations

Question 85

hepatic artery - ultrasouns

Answer 85

• low resistance flow

- PSV 70-150 cm/s

Question 86

hepatic vein - ultrasound

Answer 86

• multiphase flow

Question 87

right sided heart failure/tricuspid regurge - ultrasound

Answer 87

• increase HV pulsatility

- pulsatile PV and IVC

Question 88

portosystemic collaterals and shunts

Answer 88

• obstruction of major vessels forces blood to take a secondary route
• flow directed toward mesenteric, splenic and portal veins

Question 89

collaterals

Answer 89

• preexisting vessels
• blood flow completes circulation back to IVC
• secondary vessels dilate
• high risk rupturing

Question 90

most common collateral routes

Answer 90

• at esophagus
  + near the stomach
  + under the left lobe of the liver
  + near the spleen

Question 91

coronary vein (left gastric vein)

Answer 91

• > 7mm
• most common collateral
  + reversed flow in 80-90% of PH cases
• can progress to esophageal varices
• presence clinically important
  + implies increased risk for variceal hemorrhage

Question 92

coronary vein - location

Answer 92

• anterior to CA bifurcation
• posterior to common hepatic artery or splenic artery
• follows oblique path travelling superior to the left of portosplenic confluence

Question 93

umbilical vein

Answer 93

• remnant of the umbilical vein
  + located in the lig teres
• from the umbilicus to the tip left portal vein
• hepatofugal flow
• normally measure less than 3mm no blood flow

Question 94

most common collaterals

Answer 94

• coronary vein
• umbilical vein
• splenorenal vein

Question 95

surgical shunts

Answer 95

• decompress the portal system
• surgical or endovascular
• in severe cases of portal hypertension or cirrhosis

Question 96

surgical shunts effective for

Answer 96

• reducing ascites
• preventing hemorrhage from gastroesophageal varices
• improving quality of life of patio nest with severe cirrhosis

Question 97

trans jugular intrahepatic portosystemic shunt TIPS

Answer 97

• most common
• metallic expandable stent
  + installed percutaneously
  + IJV into HV through liver tissue to PV
  + duplex US to assess
• success 90%
• subject to high rate of stenosis or occlusion
• compensatory increased flow seen in HA

Question 98

TIPS - early complication

Answer 98

• stenosis or thrombosis

- first few weeks of stent placement usually due to thrombosis

Question 99

TIPS - late complication

Answer 99

• neointimal hyperplasia invading stent

Question 100

TIPS - most common site of stenosis

Answer 100

• hepatic vein end

Question 101

post surgery

Answer 101

• baseline study

- regular follow up

Question 102

TIPS - normal ultrasound

Answer 102

• patent TIPS
• TIPS velocity range 90-190cm.s
• PV peak velocity 30cm/s
• similar velocities at each end
• pulsatile wave form
• MPV caliber up to 15mm
• PV and Sv - hepatofugal flow
• RPV/LPV flow towards stent

Question 103

TIPS - abnormal ultrasound

Answer 103

• no flow
• focal area narrowing
• velocity gradient > 100cm/s at stenosis
• TIPS velocity < 50cm/s
• PV velocity <30cm/s
• continuous flow
• RPV?LPV flow away from stent

Question 104

transplant liver

Answer 104

• treatment for end stage liver disease

- duplex US used inure and post op assessment of patient s

Question 105

pre op liver transplant scan

Answer 105

- assessment for patency of 
   \+ portal vien 
   \+ hepatic artery
   \+ hepatic vein 
   \+ IVC
- detect tumors in liver or surrounding tissue
- biliary tree status

Question 106

post op liver transplant scan - performed

Answer 106

• within 24 hours post op

- follow up at 1 6 and 12 month

Question 107

post op liver transplant scan - color and spectral

Answer 107

- confirms patency of all major vessels
   \+ hepatic artery (most important)
      = RI : 0.5-0.8
      = PSV : < 200 cm/s
      = acceleration time : < 0.08 sec
- assess anastomosis sites
- flow direction and vessel size
   \+ portal vein normal up to 15mm

Question 108

post op liver transplant scan - 2D

Answer 108

• liver parenchyma
• biliary tree
• perihepatic spaces

Question 109

post transplant complications

Answer 109

• HA thrombosis
• stenosis
• viability of liver is critical to hepatic artery inflow
• hematoma
• abscess formation
• AV fistulas

Question 110

HA thrombosis - liver transplant

Answer 110

• MOST COMMN
• within first 6 weeks
  + absence of flow
  + dampening of PSV
  + decreasing diastolic flow
• stenosis of anastomosis sites
• PV thrombosis, air (PV larger up to 15mm)

Question 111

stenosis - liver transplant

Answer 111

• at surgical anastomosis

Question 112

post op liver scan - doppler

Answer 112

• appropriate doppler angle critical
  + HA tortuous
  + sample along artery starting at celiac axis

Question 113

portal hypertension sonographic signs

Answer 113

• ascites
• MPV diameter > 13mm
• splenic vein diameter > 10mm
• patent umbilical vien
• paraumbilical vein > 2.5. mm
• splenic length > 13mm
• portal vein thrombosis
• +/- cavernous transformation of MPV
• slow PV flow
• alternating retrograde/antergrade PV flow
• hepatofugal flow in portal/splenic vessels
• coronary vein retrograde flow
• esophageal varices

Question 114

budd chiari (hepatic vein occlusion) - sonographic signs

Answer 114

• hepatomegaly
• caudate lobe hypertrophy
• decreased absent or reversed flow in any HV
• narrowed IVC
• thrombus in IVC or HV
• dampened HV spectral trace
• collaterals within liver tissue

Question 115

congestive heart failure

Answer 115

• increased right heart pressure
• PV pulsatile
• HV increased pressure
  + W PATTERN
• dilated IVC