Splanchnic Artery Evaluation Lackawanna College Vascular Technology Program

  • Slides: 49
Download presentation
Splanchnic Artery Evaluation Lackawanna College Vascular Technology Program

Splanchnic Artery Evaluation Lackawanna College Vascular Technology Program

Splanchnic Arteries n n n Refers to the vessels that supply blood to the

Splanchnic Arteries n n n Refers to the vessels that supply blood to the bowel Principally, the celiac axis, superior mesenteric artery (SMA) and the inferior mesenteric artery (IMA) Stenosis or occlusion cause acute or chronic bowel ischemia; however, collaterals usually prevent ischemic bowel

Three Principal Collateral Paths n The pancreaticoduodenal arcade – Links the celiac artery and

Three Principal Collateral Paths n The pancreaticoduodenal arcade – Links the celiac artery and SMA via branches around the duodenum and pancreas n n The arc of Riolan The marginal artery of Drummond – Both link the SMA and IMA via mesenteric arterial branches

Anatomical Variations

Anatomical Variations

Mesenteric Ischemia n n n Interruption of blood to the small intestine or the

Mesenteric Ischemia n n n Interruption of blood to the small intestine or the right colon Diagnosis is frequently delayed, increasing mortality Aging population, mesenteric ischemia encountered more often Male and female effected equally Early diagnosis improves outcomes

Mesenteric Ischemia n n n 50% are due to SMA occlusion from thrombus or

Mesenteric Ischemia n n n 50% are due to SMA occlusion from thrombus or embolus 25% are due to nonocclusive infarct Remainder are due to IMA occlussion, mesenteric venous thrombosis, or arteritis

Causes of Mesenteric Ischemia n n Diagnosis must be suspected in older patients with

Causes of Mesenteric Ischemia n n Diagnosis must be suspected in older patients with pain or unexplained GI symptoms The conditions that put the patient at risk: – – – CHF Cardiac arrhythmias, particularly a-fib Recent MI Atherosclerosis Hypovolemia The presence of digoxin may play a role by acting as a splanchnic vasoconstrictor – Patients with history of hypercoagulable state

Incidence n n Symptomatic patients have obstructive lesions of celiac and SMA 98 -99%

Incidence n n Symptomatic patients have obstructive lesions of celiac and SMA 98 -99% of the time One half of those patients also have IMA disease One third have RAS One fourth have infrarenal AAA or occlusive disease

Frequency, Mortality/Morbidity n n AMI is involved in. 1% of all hospital admits Death

Frequency, Mortality/Morbidity n n AMI is involved in. 1% of all hospital admits Death rates of 70 -90% with traditional methods of diagnosis and therapy More aggressive approach may reduce the mortality rate to 45% Boley, et al, reported a survival rate of 90% if angio was obtained prior to onset of peritonitis

Acute Versus Chronic Acute Sudden occlusion prior to collateral formation Needs to be treated

Acute Versus Chronic Acute Sudden occlusion prior to collateral formation Needs to be treated immediately Chronic Develops over vast time spans Abdominal bruit Allows formation of collaterals Symptomatic when two of the three mesenteric arteries are effected

Clinical History n n Severe abdominal pain, poorly localized Sudden onset if embolic, however

Clinical History n n Severe abdominal pain, poorly localized Sudden onset if embolic, however gradual onset is more common in mesenteric ischemia Pain is severe and refractory to narcotics Intestinal angina n n Nausea, vomiting and diarrhea may occur in 50% of patients with mesenteric ischemia Classic triad of SMA embolism: GI emptying, abdominal pain, underlying CAD

Collateralization n n Because of extensive collateralization, most splanchnic occlusions are asymptomatic When symptoms

Collateralization n n Because of extensive collateralization, most splanchnic occlusions are asymptomatic When symptoms do occur, two or three of the splanchnic branches are diseased Autopsies show hemodynamic stenosis in 6 -10% of the population There always exceptions

Physical n n Normal abdominal exam in the face of severe abdominal pain Increased

Physical n n Normal abdominal exam in the face of severe abdominal pain Increased abdominal distension, ileus, peritoniti (noted in advanced ischemia)

Normal Physiology

Normal Physiology

Normal Physiology n n n Celiac artery is normally low resistive Pre- and post-prandial

Normal Physiology n n n Celiac artery is normally low resistive Pre- and post-prandial waveforms are similar Hepatic and Splenic arteries arise from the celiac axis and thus have a low resistive waveform as well Hepatic artery is hepatopedal Splenic artery is hepatofugal

Celiac Artery Post Prandial

Celiac Artery Post Prandial

SMA Pre-prandial n n Supplies a changing vascular bed Preprandial signals exhibit: – Highly

SMA Pre-prandial n n Supplies a changing vascular bed Preprandial signals exhibit: – Highly pulsatile signals – Are triphasic – And have somewhat of a reversal component below baseline

SMA (post prandial) n n Changes dramatically post prandial Becomes hyperemic Should remain above

SMA (post prandial) n n Changes dramatically post prandial Becomes hyperemic Should remain above baseline Exhibit antegrade flow throughout the cardiac cycle

Abnormal Physiology

Abnormal Physiology

Abnormal Physiology n n Mesenteric stenosis is difficult to detect below 50 % When

Abnormal Physiology n n Mesenteric stenosis is difficult to detect below 50 % When over 50% waveform characteristics begin to change – Velocity increase – Downstream turbulence – Loss of downstream phasicity – Decreased downstream velocities

Celiac Artery: Abnormal n n n Velocities >200 cm/s suggest a stenosis > or

Celiac Artery: Abnormal n n n Velocities >200 cm/s suggest a stenosis > or = 70 % Downstream HA & SA exhibit decreased pulsatility and increase in acceleration time In the presence of severe disease the Hepatic artery may be retrograde, and the splenic artery damped

Example of Decreased AT

Example of Decreased AT

SMA Stenosis n n n Velocities > 275 cm/s signifies a stenosis >= 70%

SMA Stenosis n n n Velocities > 275 cm/s signifies a stenosis >= 70% Doppler bruit at stenotic site Downstream turbulence Decreased downstream velocity Broadened waveform Loss of phasicity downstream

SMA Critical Stenosis/Occlusion n n Loss of waveforms reverse component Waveform becomes monophasic and

SMA Critical Stenosis/Occlusion n n Loss of waveforms reverse component Waveform becomes monophasic and continuous Velocities will drop Pulsatility will decrease

The Median Arcuate Ligament n n Formed by the fibers of the diaphram Fibers

The Median Arcuate Ligament n n Formed by the fibers of the diaphram Fibers from all origins converge to form a central tendon, which is shaped like a clover leaf – Medial arcuate – over psoas major – Lateral arcuate – over quadratus lumborum – Median arcuate – formed by the union of

The Median Arcuate Ligament

The Median Arcuate Ligament

Median Arcuate Ligament

Median Arcuate Ligament

Extrinsic Compression n n n Median arcuate ligament can extrinsically compress celiac axis Compression

Extrinsic Compression n n n Median arcuate ligament can extrinsically compress celiac axis Compression varies with respiration as the ligament slides up and down Expiration impinges, inspiration releases Important to differentiate extrinsic compression from atherosclerotic stenosis The celiac should be interrogated with inspiration and expiration Most are asymptomatic; psychosocial disorder

Splanchnic Aneurysms n n n Not very common Most common, splenic (60%) Hepatic artery

Splanchnic Aneurysms n n n Not very common Most common, splenic (60%) Hepatic artery (20%) Superior mesenteric artery (5. 5%) Celiac artery (4%)

Splenic Artery Aneurysm

Splenic Artery Aneurysm

Splenic Artery Aneurysm 3 D

Splenic Artery Aneurysm 3 D

Splanchnic Aneurysms Ultrasound Appearance n n n Dilated segment of the vessel Swirling effect

Splanchnic Aneurysms Ultrasound Appearance n n n Dilated segment of the vessel Swirling effect with color flow analysis Multi-directional, low velocity spectral analysis

Mesenteric Ultrasound Examination

Mesenteric Ultrasound Examination

History & Physical n History – Post prandial abdominal pain – Onset, and duration

History & Physical n History – Post prandial abdominal pain – Onset, and duration of symptoms – Fear of food – Recent weight loss – Risk factors: CAD, Diabetes, Smoker, PVD, CVA/TIA

Physical n Auscultation – Bruit: strength, duration, changes with respiration – Bowel sounds

Physical n Auscultation – Bruit: strength, duration, changes with respiration – Bowel sounds

Scanning Protocol

Scanning Protocol

Longitudinal and cross sectional images of proximal, mid, and distal aorta

Longitudinal and cross sectional images of proximal, mid, and distal aorta

Proximal Celiac Artery (Doppler angle 60 degrees or less)

Proximal Celiac Artery (Doppler angle 60 degrees or less)

Hepatic Artery (Doppler angle 60 degrees or less)

Hepatic Artery (Doppler angle 60 degrees or less)

Splenic artery (Doppler angle 60 degrees or less) This is a bad example

Splenic artery (Doppler angle 60 degrees or less) This is a bad example

SMA (Doppler angle 60 degrees or less)

SMA (Doppler angle 60 degrees or less)

Inferior Mesenteric Artery n n Difficult to visualize with ultrasound Can be a collateral

Inferior Mesenteric Artery n n Difficult to visualize with ultrasound Can be a collateral pathway

Scanning Considerations n Casual investigation may miss occlusions when normal flow direction is noted

Scanning Considerations n Casual investigation may miss occlusions when normal flow direction is noted – Celiac occlusion, flow may be reversed in the gastroduodenal and common hepatic arteries

Diagnostic Criteria

Diagnostic Criteria

Celiac Axis Diagnostic Criteria Normal Flow n No focal velocity increase n No spectral

Celiac Axis Diagnostic Criteria Normal Flow n No focal velocity increase n No spectral broadening distal turbulence Stenosis >= 70% n PSV>200 cm/sec, EDV >=100 cm/sec n Doppler bruit, distal turbulence and spectral broadening n Dampened waveform in the hepatic and splenic arteries Occlusion of Celiac Axis n No flow detected in the celiac artery n Retrograde flow in the common hepatic artery n Flow in the splenic artery is dampened

SMA Diagnostic Criteria Normal Flow n No focal velocity increase n No spectral broadening

SMA Diagnostic Criteria Normal Flow n No focal velocity increase n No spectral broadening or distal turbulence n SMA stenosis <50% is difficult to detect accurately Stenosis >= 70% n Peak systolic velocity >= 275 cm/sec n End diatolic velocity >= 70 cm/sec n Downstream bruit, turbulence and velocity decrease n Spectral broadening Impending Occlusion n Total loss of phasicity with low downstream velocity and low pulsatility n Collateral flow detected Occlusion n No flow noted through the SMA n Collateral flow detected