Cardiovascular Variation

Question 1

How did a duplicated SVC appear on CXR in the case study by Singh et al., (2005)?

Answer 1

Widened mediastinum

Question 2

Why are incidence rates for duplicated SVC often inaccurate?

Answer 2

Often a silent variation

Question 3

What clinical issues arise in duplicated SVC?

Answer 3

Can be mistaken for lymphatics during radiography
Suspicious mass
Surgery; excessive bleeding if sectioned during:
- Hilar lymphadenectomy
- Cardiac surgery

Question 4

What precedes the development of the axial system?

Answer 4

Complex capillary and reticular plexus

Question 5

What veins develop above the developing heart?

Answer 5

Pre-cardinal veins

Bilateral anterior cardinal veins

Question 6

What veins develop below the developing heart?

Answer 6

Post-cardinal veins

Bilateral posterior cardinal veins

Question 7

What structures form the SVC?

Answer 7

Right pre-cardinal/anterior cardinal vein
Right common cardinal vein
Right horn sinus venosus (posterior primitive right atrium)

Question 8

What do the pre-cardinal veins, post-cardinal veins and the common cardinal veins form?

Answer 8

Veins of heart
SVC
Tributaries to SVC

Question 9

What does the right supracardinal vein form?

Answer 9

Azygous vein

Question 10

What does the left supracardinal vein form?

Answer 10

Hemiazygous vein

Accessory hemiazygous vein

Question 11

How does a duplicated SVC arise?

Answer 11

If left anterior cardinal vein (left pre-cardinal vein) doesn’t regress

Question 12

What percentage of aortic arch duplications are:
A) Right dominated
B) Left dominated
C) Co-dominated?

Answer 12

Right dominated = 70% (abnormal arch often bigger)
Left dominated = 25%
Co-dominated = 5%

Question 13

Describe the structure of a right dominant duplicated aortic arch?

Answer 13

Large right and small left arches:

• Arise from ascending aorta
• Form a vascular ring around trachea and oesophagus

Question 14

What are the clinical implications of a right dominant duplicated aortic arch?

Answer 14

Vascular ring can cause:

• Respiratory distress in babies if tight and compressing trachea
• Asthma-like symptoms/silent in adults if loose ring

Question 15

In a duplicated aortic arch, what implications does this usually have from the branches of the aortic arch?

Answer 15

Right common carotid artery and right subclavian artery arise separately from right aortic arch instead of from the brachiocephalic trunk

Question 16

What forms the dorsal aortae in humans?

Answer 16

Primitive gill arteries which are modified

Question 17

Where do the dorsal aortae extend and meet with?

Answer 17

Extend caudally

Meet with umbilical arteries

Question 18

How many dorsal aortae are there initially?

Answer 18

2

Question 19

What do the two ventral aortae fuse to form and where?

Answer 19

Aortic sac

Just cranial to truncus arteriosus

Question 20

How does the truncus arteriosus form and when?

Answer 20

A lengthening of the connection between the bulbus cordis (primitive heart) and the 1st aortic arches
End of week 4

Question 21

How does the cranial end of the truncus arteriosus connect to the dorsal aortae?

Answer 21

6 pairs of aortic arches

Question 22

What does the truncus arteriosus become?

Answer 22

Ascending aorta

Question 23

What aortic arches usually regress?

Answer 23

I
II
V

Question 24

What does the 3rd pair of aortic arches form?

Answer 24

On both sides:

• Proximal internal carotid artery
• Part of common carotid artery

Question 25

What does the 4th pair of aortic arches form?

Answer 25

On right = Right subclavian artery
On left = Arch of aorta:
- Between left common carotid and ductus arteriosus

Question 26

What does the 6th pair of aortic arches form?

Answer 26

On right = Proximal right pulmonary artery
On left:
- Left pulmonary artery
- Ductus arteriosus

Question 27

When do the two dorsal aortae fuse and what do they form?

Answer 27

In week 4

Single definitive descending aorta (T4-L4)

Question 28

What results in a double aortic arch?

Answer 28

Distal part of right dorsal aorta persists

Question 29

What are the alternate names for Chromosome 22q11 deletion?

Answer 29

DiGeorge syndrome

CATCH22

Question 30

What is Chromosome 22q11 deletion associated with?

Answer 30

Congenital heart disease
Isolated conotruncal anomalies:
- Tetralogy of Fallot
- Transposition of great vessels
- Aortic arch anomalis

Question 31

What are isolated conotruncal anomalies essentially?

Answer 31

Cardiac outflow tract anomalies

Question 32

Under normal conditions, where do neural crest cells migrate from?

Answer 32

Hindbrain

Question 33

Under normal conditions, where do neural crest cells migrate to?

Answer 33

The caudal 3 pharyngeal arches via circumpharyngeal region

Question 34

Under normal conditions, some neural crest cells continue migrating beyond the usual final destination. What do these form? What are these cells therefore responsible for?

Answer 34

Outflow tract of developing heart

Cells are responsible for aortic arch formation by becoming smooth muscle cells in tunica media of persistent arteries

Question 35

What does incomplete migration of neural crest cells result in?

Answer 35

Vessel malformation

Question 36

What did the Momma et al., (1996) study investigate?

Answer 36

Isolated aortic anomalies in 22q11 deletion

Question 37

Describe case 1 in the Momma et al., (1996) study

Answer 37

Isolation of innominate (brachiocephalic) artery

Question 38

Describe case 2 in the Momma et al., (1996) study

Answer 38

Right high stenotic aortic arch
Left patent ductus arteriosus
Left descending aorta (vascular ring)
Aberrant left subclavian artery

Question 39

Describe case 3 in the Momma et al., (1996) study

Answer 39

Right high aortic arch
Right patent ductus arteriosus
Left pulmonary artery stenosis

Question 40

Describe case 4 in the Momma et al., (1996) study

Answer 40

Isolation of right subclavian artery

Question 41

Describe case 5 in the Momma et al., (1996) study

Answer 41

Right high aortic arch
Left patent ductus arteriosus
Left descending aorta
Aberrant left subclavian artery

Question 42

Described the duplicated IVC anomalies in the case study by Natsis et al., (2010)

Answer 42

Left IVC crossed aorta at L2 and joined right IVC at L1
Right renal vein -> Right IVC at L1
Left renal vein -> Left IVC at L2
Left suprarenal vein -> Left IVC
Duplicated left testicular vein -> Common vessel -> Left renal vein

Question 43

What is the normal aformation of the IVC?

Answer 43

Common iliac veins join at L5

Question 44

What is the prevalence of duplicated IVC? What does this make the anomaly?

Answer 44

0.2-3.0%

Most common IVC anomaly

Question 45

What is Type I IVC duplication?

Answer 45

Same calibre trunks and pre-aortic trunk

Question 46

What is Type II IVC duplication?

Answer 46

Same calibre trunks (narrow) but larger pre-aortic trunk

Question 47

What is Type III IVC duplication?

Answer 47

Asymmetric trunks:

- Right IVC has larger calibre than left IVC

Question 48

What study described the types of IVC duplication?

Answer 48

Natsis et al., (2010)

Question 49

What are the four segments of a normal IVC?

Answer 49

Hepatic
Suprarenal
Renal
Infrarenal

Question 50

What forms the hepatic part of the IVC?

Answer 50

Vitelline veins (which drain yolk sac)

Question 51

Why is there usually left variation of the hepatic part of the IVC?

Answer 51

There is (usually) only 1 liver

Question 52

What form the prerenal/suprarenal part of the IVC?

Answer 52

Hepatic part

Right subcardinal vein

Question 53

What forms the renal part of the IVC?

Answer 53

Supra-subcardinal anastomosis

Post-subcardinal anastomosis

Question 54

What forms the infrarenal part of the IVC?

Answer 54

Right supracardinal vein

Question 55

What do the posterior cardinal veins form?

Answer 55

Iliac veins

Question 56

How does a duplicated IVC arise?

Answer 56

If both supracardinal veins persist

Question 57

What can duplicated IVC be misdiagnosed as?

Answer 57

Lymphadenopathy

Question 58

In a patient with duplicated IVC, what implications was this found to have in a case study by Hashmi and Smarolf, (2007)?

Answer 58

Patient suffered bilateral PEs 1 month after surgery for foot trauma
IVC filter planned:
- Venograms taken = Double IVC
Left IVC small diameter:
- Filter insertion difficult

Question 59

Describe the case study by Hardwick et al., (2011). (IVC interruption)

Answer 59

69 year old female:
- Non-smoker
- Cough for 3 months
- Normal physical exam
CXR = Large mass in right lung
CT chest:
- 5cm mass
- Invasion into very large azygous vein

Question 60

What were the variations seen in the Hardwick et al., (2011) case study?

Answer 60

IVC interrupted so drained into swollen azygous then into SVC
Hepatic veins directly into right atrium

Question 61

How does an interrupted IVC arise?

Answer 61

Failure of fusion of prerenal and hepatic segments

Question 62

What is the incidence of interrupted IVC and why is this questionable?

Answer 62

1 in 5000

Usually silent variation

Question 63

How did the patient in the Cizginer et al., (2007) study present?

Answer 63

26 year old male

1 week history of abdominal pain radiating to testes

Question 64

What did abdominal CT show in the Cizginer et al., (2007) case study?

Answer 64

Para-aortic mass near renal hilum

Thrombosis of infrarenal segment of IVC

Question 65

What did axial gradient echo steady state imaging show in the Cizginer et al., (2007) case study?

Answer 65

Suprarenal IVC absent

Dilated azygous vein

Question 66

What did contrast-enhanced MR venogram show in the Cizginer et al., (2007) case study? What did these mimic?

Answer 66

Infrarenal IVC thrombosed
Retro-aortic left renal vein distended and thrombosed
Both mimicked a mass

Question 67

What other structures were thrombosed in the Cizginer et al., (2007) case study?

Answer 67

All iliac veins

Right femoral vein

Question 68

What veins were dilated in the Cizginer et al., (2007) case study?

Answer 68

Inferior mesenteric veins

Lumbar veins

Question 69

Why was biopsy not possible in the Cizginer et al., (2007) case study?

Answer 69

Patient placed on heparin

Question 70

What is the prevalence of a retro-aortic left renal vein?

Answer 70

2.1%

Question 71

How did the patient in the Kondo et al., (2009) case study present?

Answer 71

27 year old man

1 month history of painful swelling in both legs

Question 72

What was the cause of presentation in the Kondo et al., (2009) case study? What treatment was given?

Answer 72

DVT
Treatment:
- Anticoagulation
- Compression stockings

Question 73

What did MR angiography show in the Kondo et al., (2009) case study?

Answer 73

Absence of infrahepatic IVC
Dilated renal and lumbar collaterals
Swollen azygos and hemiazygos veins

Question 74

How did the patient in the Gil et al., (2006) case study present?

Answer 74

14 year old boy
Mass in abdomen
Left leg DVT

Question 75

What did CT abdomen and pelvis show in the Gil et al., (2006) case study?

Answer 75

Absence of ENTIRE IVC
Enlarged azygos and hemiazygos veins
Cluster of thrombosed collateral veins in right pelvis (abdominal mass)
Hepatic veins directly to right atrium

Question 76

What is the prevalence of IVC anomalies in healthy individuals?

Answer 76

0.3-0.5%

Question 77

What is prevalence of IVC anomalies in cardiovascular patients?

Answer 77

0.6-2.0%

Question 78

What is the prevalence of IVC agenesis in the general population?

Answer 78

0.0005-1%

Question 79

What is the prevalence of IVC agenesis in young DVT patients?

Answer 79

Up to 5%

Question 80

What is the prevalence of ICA agenesis?

Answer 80

<0.01%

Question 81

Is ICA agenesis usually unilateral or bilateral?

Answer 81

Unilateral

Question 82

What forms the ICA in utero?

Answer 82

3rd aortic arches and cranial parts of dorsal aortae

Question 83

What is the hypothesised cause of ICA agenesis?

Answer 83

Mechanical insults:

• Pressure
• Excessive folding
• Amniotic bands

Question 84

After surgery, how did the patient respond in the Gil et al., (2006) case study?

Answer 84

Reduced pelvic venous thrombosis

Development of abdominal well venous plexus

Question 85

Describe the patient’s case in the Naeini et al., (2005) case study?

Answer 85

38 year old woman with acute right-sided headaches
No neurological deficit
Cerebral angiography:
- No right ICA
- Left vertebral artery direct from aortic arch

Question 86

What implications can an aberrant ICA have?

Answer 86

Aberrant circle of willis

Question 87

What effects on the Circle of Willis did the absent right ICA in the Naeini et al., (2005) case study?

Answer 87

Right middle cerebral artery arose from hypertrophies right posterior communicating artery:
- ie. Posterior vertebral supply
Anterior communicating artery from left anterior cerebral artery became right anterior cerebral artery
Right ophthalmic artery from posterior communicating artery

Question 88

What are anomalous vessels?

Answer 88

Vessels that do not exist
OR
Vessels that do normally exists but have an unusual pathway

Question 89

What are the implications of anomalous vessels?

Answer 89

May displace other structures
At risk during routine procedures or trauma
May require surgical procedure modification:
- Especially if laparoscopic

Question 90

Regarding the common carotid artery, what did the Anangwe et al., (2008) study show?

Answer 90

Separate branching of superior laryngeal artery from CCA

Question 91

Regarding the common carotid artery, what did the Al-Rafiah et al., (2011) study show?

Answer 91

Superior thyroid artery from CCA in 11 CCAs:

• Out of 30 cadavers (therefore 60 CCAs)
• ~18.5% of CCAs

Question 92

Regarding the common carotid artery, what did the Lemaire et al., (2000) study show?

Answer 92

The superior thyroid artery and lingual artery can arise from a thyrolingual branch of the CCA

Question 93

What other branches can arise from the CCA?

Answer 93

Occipital artery
Thyroid ima artery
Right vertebral artery

Question 94

What is the normal level of bifurcation of the CCA? In the Anange et al., (2008) study on a Kenyan population, what was the prevalence of bifurcation at this level?

Answer 94

C3-C4

18 CCAs out of 80

Question 95

What was the most common level of bifurcation of the CCA in the Anange et al., (2008) study on a Kenyan population?

Answer 95

C3:

- 31 out of 80 CCAs

Question 96

Where did the anomalous branch of the CCA arise in the case study by Simic et al., (2004)?

Answer 96

From left CCA 2cm above aortic arch that coursed inferiorly

Question 97

Where did the anomalous branch of the CCA bifurcate in the case study by Simic et al., (2004)?

Answer 97

At level of aortic arch

Question 98

What did the branches of the anomalous branch of the CCA anastomose with in the case study by Simic et al., (2004)?

Answer 98

Left branch anastomosed with left pericardiophrenic artery

Right branch anastomosed with right internal thoracic artery

Question 99

What did the right internal thoracic artery in the patient in the in the case study by Simic et al., (2004) bifurcate into? Where?

Answer 99

Bifurcated into:
- Musculophrenic artery
- Superior epigastric artery
Level of 3rd rib

Question 100

What did the anomalous vessel in the case study by Simic et al., (2004)?

Answer 100

Left phrenic nerve
Parietal peritoneum
Mediastinal pleura

Question 101

What are the implications of having an anomalous vessel supplying structures it usually doesn’t, such as that in the case study by Simic et al., (2004)?

Answer 101

Damage to the left CCA in this case would damage structures not normally expecting to be affected by left CCA damage
Chemotherapy or angiographic dye could have unwanted effects due to different dissemination
Radical neck surgery = Unexpected haemorrhage

Question 102

Regarding the radial artery, what did the study of 100 limbs by Nasr, (2012) find?

Answer 102

8 variant origins
Several different branching patterns
3 modes of termination

Question 103

What racial differences can be seen regarding the origin of the radial artery?

Answer 103

Axillary origin:
- 5% of African people
- 2.7% of Caucasians
High brachial origin:
- 5.9-12.1% of Caucasians
- 2.3% of Koreans
- 0.33% of the Chinese

Question 104

Describe the case study by Mannan et al., (2005)?

Answer 104

86 year old male cadaver
Superficial ulnar artery from 3rd part (lateral to pectoralis minor) of axillary artery:
- Ran over forearm flexor muscles
- Anastomosed with ‘normal’ ulnar artery in distal 1/3 of forearm

Question 105

What are the risks of the variation in the case study by Mannan et al., (2005)?

Answer 105

Risk of accidental damage to:

• Venepuncture
• Acupuncture

Question 106

Where do the lumbar veins usually run?

Answer 106

Between transverse process and psoas

Question 107

What variation of a lumbar vein was noted in a case study by Karcaaltincaba and Akata, (2004)?

Answer 107

Right lumbar vein through foramen in L3 pedicle

Left lumbar vein was normal

Question 108

What did the variation in the case study by Karcaaltincaba and Akata, (2004) mimic and why was this concerning?

Answer 108

An osteolytic lesion

Patient had known rectal cancer

Question 109

What procedure may be risky if carried out in a patient with the variation noted in the case study by Karcaaltincaba and Akata, (2004)?

Answer 109

Percutaneous vertebroplasty:

- Needle passed through pedicle

Question 110

What did Schulz and Rothwell, (2011) study?

Answer 110

Plaque formation of the carotids

Question 111

What did Schulz and Rothwell, (2011) hypothesise might be the cause of some people, with similar risk factors, developing plaques in the carotids and them only developing unilaterally?

Answer 111

Bifurcation patterns of the CCA

Question 112

What was the method used in the Schulz and Rothwell, (2011) study?

Answer 112

Measure vessel diameters of ICA and ECA and area ratios from angiograms

Question 113

What were the inter-individual results of the study by Schulz and Rothwell, (2011)?

Answer 113

4-fold variation in outflow;inflow area ratio (0.38 to 1.28)

‘Normal’ ICA diameter ranged from 1/2 of ICA to 1/3 greater

Question 114

What were the intra-individual results of the study by Schulz and Rothwell, (2011)?

Answer 114

5% calibre difference between ICAs

42% of patients had an outflow:inflow variation of >25% between the 2 sides

Question 115

What were the conclusions of the study by Schulz and Rothewell, (2011)?

Answer 115

Relationships found between:
- Haemodynamics
- Bifurcation anatomy
- Atheroma
Does the shape of vessel affect haemodynamics and hence predict plaque formation?

Question 116

What did all the 134 patients included in the study on the Circle of Willis by Nathan et al., (1992) have in common?

Answer 116

All treated for anterior communicating artery aneurysm:

- Commonest side for cerebral aneurysm

Question 117

What were the results and conclusions of the study by Nathan et al., (1992)?

Answer 117

High association between anomalies and cerebrovascular disease:
- 46 patients (34.4%) had anatomical variations of anterior communicating artery
- Compared to ‘normal’ anatomy
Outcome dependent on clinical grade on admission and NOT the anatomical variation

Question 118

What were the methods of the study by Horikoshi et al., (2002) into aneurysms of the anterior communicating artery?

Answer 118

MR angiograms:

• 131 patients with cerebral aneurysms
• 440 patients without

Question 119

What is Type A anatomy as described by Horikoshi et al., (2002)?

Answer 119

Nonvisualised unilateral A1 segment:

- The A1 segment is the horizontal segment from its origin from the ICA to the anterior communicating artery

Question 120

What is Type P anatomy as described by Horikoshi et al., (2002)?

Answer 120

A ‘foetal’ type of posterior cerebral artery

Question 121

Why is there a close correlation between aneurysm development in the ACoA and anterior cerebral artery asymmetry?

Answer 121

Increased shear stress due to increased blood flow

Question 122

What does Type P anatomy predispose to and why?

Answer 122

ICA aneurysm

Increased ICA flow proximally to PCoA turbulence

Question 123

In what individuals does Type P anatomy occur more?

Answer 123

Women:

• 21% (vs 9.7% in men; without aneurysms)
• 20.4% (vs 4.6% in men; with aneurysms)

Question 124

In what individuals is Type A anatomy more common?

Answer 124

Men without aneurysms

Question 125

What type of anatomy is predominant in ACoA aneurysms?

Answer 125

Type A:

- 61.3% (p<0.001)

Question 126

What aneurysms are more common in males?

Answer 126

Middle cerebral artery

ACoA

Question 127

What aneurysms are more common in females?

Answer 127

ICA

Vertebrobasilar artery

Question 128

What were the methods used in the Bugnicourt et al., (2009) study into the Circle of Willis and migraine?

Answer 128

MR angiography of:

• 27 patients with migraines without aura
• 24 patients with migraines with aura
• 72 controls

Question 129

What did the results of the Bugnicourt et al., (2009) study show?

Answer 129

Incomplete Circle of Willis in:

• 49% of sufferers
• 18% of controls

Question 130

What were the conclusions of the Bugnicourt et al., (2009) study?

Answer 130

Incomplete Circle of Willis associated with migraine

No difference +/- aura

Question 131

What were the methods used in the Cucchiara et al., (2013) study into the Circle of Willis and migraine?

Answer 131

MR angiography and arterial spin perfusion MRI of:

• 61 patients with migraines without aura
• 56 patients with migraines with aura
• 53 controls

Question 132

What did the results of the Cucchiara et al., (2013) show?

Answer 132

Incomplete Circle of Willis in:

• 73% of patients with aura
• 67% of patients without aura
• 51% of controls

Question 133

What were the conclusions of the Cucchiara et al., (2013) study?

Answer 133

Incomplete Circle of Willis associated with migraine with aura vs. controls
No significant difference between those without aura and controls

Question 134

Why did Cucchiara et al., (2013) hypothesise individuals with incomplete Circle of Willis have migraine?

Answer 134

Increased asymmetry in hemispheric cerebral blood flow:

- Specifically in posterior cerebral artery territory

Question 135

Regarding brachiocephalic trunk variation, what did Iterezote et al., (2009) find?

Answer 135

Out of 110 cadavers 1 had a brachiocephalic trunk anomaly:

• 3.4cm long and 1.9cm diameter
• Completely anterior to trachea
• Off on a right trajectory

Question 136

Regarding brachiocephalic trunk variation, what did Comert et al., (2004) find?

Answer 136

Innominate artery (brachiocephalic trunk) arose on left of trachea before crossing and bifurcating into:

• Right CCA
• Right subclavian artery

Question 137

What was the sequelae of the variation found by Comert et al., (2004)? How could it be avoided?

Answer 137

Serious haemorrhage on percutaneous tracheostomy

Diagnostic USS

Question 138

When 104 uraemic patients underwent US imaging for central line insertion, what IJV variations were seen by Lin et al., (1998)?

Answer 138

19 variations in right IJV
17 variations in left IJV
Unilateral in 18 patients
Bilateral in 9 patients

Question 139

What was the sequelae of the variations found by Line et al., (1998)?

Answer 139

27 patients had variations that would make IJV lines difficult on external landmarks only

Question 140

What is the incidence of IJV duplication?

Answer 140

4 per 1,000 unilateral neck dissections

Question 141

How can IJV duplication vary?

Answer 141

Can be unilateral/bilateral
Vessels can vary in:
- Size
- Height of duplication

Question 142

What structure is related to IJV duplication?

Answer 142

CN XI running between duplicated parts of IJV

Question 143

What clinical implications can IJV duplication have?

Answer 143

Cervical node clearance during oncological surgery

Question 144

What are the potential embryological origins of IJV duplication?

Answer 144

CN XI development

Bony hypothesis at jugular foramen

Question 145

What IJV variations were noted in the case study by Nayak, (2006)?

Answer 145

Left duplicated IJV
Left anterior jugular vein communicated with anterior division of left IJV
Double jugular venous arch:
- Formed venous circle anterior to isthmus of thyroid

Question 146

What is the radial artery used for?

Answer 146

Blood gas analysis
Forearm flaps
Bypass surgeries

Question 147

How can the radial artery be tested?

Answer 147

Allen test

Doppler US

Question 148

Regarding the superficial palmar arch, what percentage of hands had a complete arch according to Loukas et al., (2005)?

Answer 148

90%

Question 149

There are 5 types of complete superficial palmar arch, types III and IV have a median artery. What usually happens to this artery?

Answer 149

Regresses

Question 150

From where does the princeps pollicis artery usually arise and in what percentage of hands?

Answer 150

It is the 1st palmar metacarpal branch of the radial artery in 80% of hands

Question 151

What investigations were carried out in the Ozkan et al., (2006) study?

Answer 151

Aortofemoropopliteal angiography (for PAD)
OR
Renal angiography (for renovascular hypertension)

Question 152

What were the results of the Ozkan et al., (2006) study?

Answer 152

98% of main renal arteries arise between upper L1 and lower L2:
- 74% of accessory renal arteries also arise here
76% of people had 1 renal artery on each side

Question 153

What variations were seen in the Ozkan et al., (2006) study?

Answer 153

Multiple renal arteries in 24%
Bilateral multiple renal arteries in 5%
Pre-hilar division in 8%

Question 154

What racial differences are seen in renal artery variations?

Answer 154

More common in African populations (37%)

Less common in Indian populations (17%)

Question 155

Out of 701 organ donors and general surgery patients, how many had hepatic artery variations according to Gruttadauria et al., (2001)?

Answer 155

296 (42.22%)

Question 156

What variations of the hepatic artery were noted by Gruttadauria et al., (2001)?

Answer 156

Replaced or accessory right hepatic artery from SMA
Replaced or accessory left hepatic artery from LGA
Hepatic artery from coeliac axis and one of above
Early hepatic artery bifurcation
14 previously unreported variations also

Question 157

What hepatic artery variation was noted in the Pulakunta et al., (2008) case report?

Answer 157

Hepatic artery proper entered fissure for ligamentum venosusm
Accessory hepatic artery from SMA entered porta hepatis

Question 158

What lobe of liver is donated in living donors?

Answer 158

Right lobe

Question 159

If the left CCA arises as a variant instead of from aortic arch, what changes need to be made for access?

Answer 159

Adaptation of surgical technique

Scan first

Question 160

What vessel variation was noted in a case study by De-Giorgio et al., (2011)?

Answer 160

Anomalous right coronary artery origin from left coronary cusp

Question 161

What were the pathological sequelae of the variation noted by De-Giorgio et al., (2011)?

Answer 161

1.08cm right coronary artery aneurysm (vessel 0.5cm)

Question 162

Why did the pathology noted in the case by De-Giorgio et al., (2011) arise?

Answer 162

Functional stenosis of RCA between aorta and pulmonary trunk:
- Acute angle to aortic lumen resulting in haemodynamic changes and compressive trauma

Question 163

What is thoracic outlet syndrome?

Answer 163

Compression of brachial plexus and/or subclavian vessels

Question 164

What variation described by Konuskan et al., (2005) resulted in thoracic outlet syndrome?

Answer 164

Left subclavian artery perforated left scalene anterior muscle

Question 165

What variation was noted in a case study by Yoo et al., (2003)?

Answer 165

Persistent vitelline artery remnant
Fibroadipose band:
- From posterior leaflet of mesentery
- To anterior leaflet of mesentery
- Constricted and twisted ileal loop

Question 166

How did the patient with the variation noted by Yoo et al., (2003) present?

Answer 166

Small bowel (ileal) obstruction

Question 167

What usually happens to the vitelline arteries supplying the yolk sac?

Answer 167

1 regresses

1 remains and becomes SMA

Question 168

How do vein patterns form?

Answer 168

Individual environment in developing tissue

Question 169

What does the PatientSecure system at NYU Langone Medical Centre do?

Answer 169

Vein pattern analysis:

• Reduces errors
• Helps ID unconscious patients

Question 170

Apart from vein pattern, what other biometric systems exist?

Answer 170

Fingerprints

Iris scan

Question 171

What reliability issues arise with biometric systems?

Answer 171

False positives and negatives
How easy to mimic?
Vein pattern analysis requires living tissue