CSN_VA_Education__Chapter.1_AV_Access_Selection_and_Evaluation_July2016.ppt

Vascular Access Education Initiative | 2016
CHAPTER 1
ARTERIOVENOUS VASCULAR ACCESS
SELECTION AND EVALUATION
AUTHORS:
Jennifer M MacRae MSc MD, Matthew Oliver MD MSc, Edward Clark MD,
MSc, Christine Dipchand MD MSc, Swapnil Hiremath MD MPH, Joanne
Kappel MD, Mercedeh Kiaii MD, Charmaine Lok MD MSc, Rick Luscombe RN,
Lisa Miller MD, Louise Moist MD MSc.
On behalf of the Canadian Society of Nephrology Vascular Access Work Group

2
CONTENTS
Introduction
Arteriovenous (AV) Access Considerations
Role of the Multi-Disciplinary Team in Access Choice
Evaluation for AV Vascular Access Creation
Surgical Considerations for AV Access Placement
Hemodynamics of Arteriovenous Fistula (AVF) Creation
Clinical Evaluation of Fistula Maturation
Aspects of Cannulation
Summary of Recommendations

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INTRODUCTION
When making decisions regarding vascular access creation, the
clinician and vascular access team must evaluate each patient
individually with consideration of life expectancy, timelines for
dialysis start, risks and benefits of access creation, referral wait times
as well as the risk for access complications. The role of the
multidisciplinary team in facilitating access choice is reviewed as well
as the clinical evaluation of the patient.

4
Arteriovenous
access
considerations
Patient
Choice
Life
expectancy
and
morbidity
Centre
specific
variation
Suitable
vasculature
Timing of
AV access
creation
Impact of
primary
failure
• Clinician and vascular team
must evaluate each patient and
weigh these issues to
determine the best course of
action
• Together with the patient, the
vascular access team should
plan out the dialysis access
options
ARTERIOVENOUS (AV) ACCESS
CONSIDERATIONS

5
AV ACCESS CONSIDERATIONS
Patient Choice • Life circumstances, goals and preferences
• Understanding of the risks/benefits of various access types
• Suitability of access type to patient characteristics
Life Expectance
and
Comorbidities
• Life expectancy
• Comorbidities (i.e. metastatic cancer, severe heart failure,
significant peripheral vascular disease)
• Young patient with low comorbidity, good vessels and long
expected time on HD should be strongly recommended a fistula
• Choices may be limited for a patient at the opposite spectrum, but
fistula creation in the elderly can be successful
Centre Specific
Variation
• Recommendation varies depending on program factors such as
infrastructure, program culture or philosophy regarding vascular
access, impact access choice and access placement

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AV ACCESS CONSIDERATIONS
Suitable
Vasculature
• Fistula and graft maturation requires an adequate cardiac output,
arterial conduit, vein size, compliance, and unobstructed outflow veins
Timing of AV
Access Creation
• Timing for creation is complex
• Guidelines recommend evaluation for fistula at GFR of 15 – 20
ml/min/1.73m2 with progressive kidney disease
• Study in Ontario found 40% of fistulas placed placed within 3-12
months from start of hemodialysis
• Grafts require a shorter maturation time: 3-4 wks after placement for a
standard graft, to same day for an early cannulation graft
• Time to dialysis is influenced by rate of progression
• Use of ESKD risk equations can help predict risk of progression
Impact of
Primary Failure
(also see Chapter 2: AV
access failure, stenosis
and thrombosis)
• Occurs when a fistula either thromboses prior to its use or lacks
suitability for use on dialysis
• Defined by reliability of cannulation, adequate blood flow on dialysis,
appropriate clearance and whether catheter-free use is achieved
• Primary failure rates for fistula is variable between 25-60%; should be
considered in decision making

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ROLE OF MULTI-DISCIPLINARY TEAM IN
ACCESS CHOICE
• Model of care should be individualized, patient centered
• Decision-making requires input from the multi-disciplinary team: vascular
access nurse or nurse educator, nephrologist, surgeon, radiologist, patient
and family members
Timely Referral
to
Nephrologist
and Surgeon
Patient
Education and
Discussion
Investigations
and
Interventions
Desired
Dialysis Access
Access
Creation
Coordinate
Evaluation
Use and
Maintenance
Process
Facilitated by regular and inclusive
multi-disciplinary communication
and coordination

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PROPOSED ROLES FOR THE MULTI-
DISCIPLINARY TEAM
Team Member Role Pre-Creation Role Post-Creation
Nephrologist • Educate patients w CKD educator
regarding CKD progression and renal
replacement therapy (RRT) modality
options
• Educate patient re: choice of dialysis
access based on clinical circumstances
(comorbidities, rate of progression)
• Discuss risks and benefits of peritoneal
catheter and hemodialysis vascular access.
• Provide timely referral to the surgeon and/
or interventionist
• Monitor w the VA coordinator, the
access after creation for signs of
complications and facilitate
interventions to maintain long-term
function
• Manage vascular access
complications (e.g. catheter related
malfunction or infection or fistula or
graft complication)
Surgeon/
Interventional
Radiologist or
Nephrologist
• Evaluate re: choice of vascular access
based on patient and vessel characteristics
• Discuss surgical and interventional risks
and benefits for each access with
patient/family
• Create the vascular access and
manage immediate perioperative
complications including revisions as
required
• Perform facilitative and/or
corrective procedures to attain
and/or maintain patency e.g. coil
embolization, angioplasty,
thrombolysis

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Team Member Role Pre Creation Role Post Creation
Peritoneal
and/or
Vascular
Access
coordinator
• Facilitate communication between
nephrologist, surgeon, radiologist and
patient/family
• Coordinate peritoneal dialysis or HD
vascular access management (e.g. booking
of diagnostic tests, communicates with
patient re: dialysis access appointments)
• Monitor patient’s dialysis access on
a regular basis and informs
nephrologist and/or
surgeon/interventionist of concerns
• Key “point person” for patient when
access issues arise
Patient and
Family
• Provide information about patient’s life
circumstances (social, occupational,
cultural, religious, functional, etc.).
• Provide information about patient dialysis
access preferences, life goals, and
concerns.
• Ask questions to ensure they understand
various dialysis access options to their
satisfaction
• Provide information regarding any
changes in life circumstances or
preferences
PROPOSED ROLES FOR THE MULTI-
DISCIPLINARY TEAM

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Vessel anatomy of the arm
•Knowledge of vessel anatomy is important for access creation (See Figure 1)
•Cephalic vein most commonly used for upper extremity AV fistula (See Figure 2)
•Radiocephalic fistula at wrist is 1st choice HD access (See Figure 2) followed by
brachiocephalic fistula at elbow (See Figure 2)
•Basilic vein on ulnar side and median basilic vein near elbow are other options
•Basilic vein in medial of upper arm is most common deep vein to create the
“transposed basilic vein” AVF
•Brachial veins in upper arm are used for dialysis access as last resort
•Grafts made from synthetic material are used if AVF not suitable. The forearm
loop, upper arm straight and thigh loop grafts are most common (See Figure 3)
See Atlas Dialysis Vascular Access by Tushar J. Vachharajani, MD, FASN, FACP
http://c.ymcdn.com/sites/www.asdin.org/resource/resmgr/imported/atlas%20of%20dialysis%20access.pdf
EVALUATION FOR AV ACCESS CREATION

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Figure 1: Vasculature
Axillary V
Brachial A
Cephalic V
Radial A
Ulnar A
Basilic V
Median ante-brachial V
Radial-Cephalic
@ the wrist (1st
choice)
Brachial-Cephalic
(2nd choice)
Proximal Radial -
Median Ante-brachial
Radial-Cephalic
@ the snuffbox
Figure 2: AVF Creation
Visual provided with permission by Spergel et al.
EVALUATION FOR AV ACCESS CREATION-
ANATOMY OF THE ARM

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Figure 3: Graft Creation
Radial-Cephalic
Transposition (Loop)
Radial-Basilic
Transposition (Straight
or loop)
Radial-Cephalic
Transposition (Straight)
Brachial-Basilic
Transposition
Transposed
Saphenous V (Loop)
Saphenous V
Translocation
to the arm or forearm
Femoral V
Saphenous V
Femoral A
EVALUATION FOR AV ACCESS CREATION-
ANATOMY OF THE ARM
Visual provided with permission by Spergel et al.

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History and physical examination
Perform past medical history; current medical issues; access-focused history:
• HD access focused history to reveal past access procedures (i.e. Peripherally inserted central
catheters (PICCs), Cardiac implantable electronic devices (CIED), past HD access history)
• Provides insight on potential complications i.e. fistula maturation failure and steal syndrome
Physical exam should detect:
• Scars from prior catheter insertions; arm or facial swelling or collateral veins
• CIED (wires are factor for central vein stenosis)
• Arterial evaluation to ensure adequate blood flow; dual blood supply to hand
• Vein anatomy augmentation –Inflate blood pressure cuff to 5 mmHg above measured
diastolic pressure
Vessel mapping:
• Ultrasound mapping practice varies by center and surgical expertise
• Vein and artery evaluation – see next slide
• Use in patients with high risk for fistula failure to mature; obesity; history consistent with
central vein stenosis (CVS)
Venography:
• Ideal for identifying and potentially treating CVS
EVALUATION FOR AV ACCESS CREATION

14
Vein Anatomy Artery Anatomy Central Vein
Anatomy
Physical
Exam
Compressible/distensible Compliant Absence of collateral
vein on chest or
abdomen
Absent occluded segments Palpable pulses Absent pacemaker
Length of vein sufficient for
cannulation (≥15 cm)
Difference of < 20 mmHg
between the two arms
Straight vein segment Patent palmar arch
Superficial vein
Ultrasound
Absence of stenosis/synechiae (fibrous
scars)
Absence of stenosis Absence of central vein
stenosis
Absence of intraluminal webs Normal flow and velocity
waveforms
Continuity of outflow vein with central
veins
Diameter of artery ≥2.0
mm or greater at the site
of planned anastomosis
Diameter of the venous outflow of
≥2.5mm for fistula and > 4mm for a
graft
Vein depth < 1 cm from surface of skin
EVALUATION OF VEIN AND ARTERY ANATOMY
FOR ACCESS PLANNING

15
• Preoperative evaluation and surgical technique are important for vessel maturation and
preventing primary failure
• Access creation during surgical training leads to better AV access outcomes
• Postoperative evaluation as well as interventions (if necessary) are critical in treating
secondary failure
Anesthesia issues
• The type of anesthetic may impact on subsequent vessel dilation and maturation
• Native fistulas can usually be constructed under local anesthetic. Transposed fistulas
and grafts may require regional nerve blocks or general anesthesia
Surgical factors
Fistula maturation will be affected by the following:
• Surgical angle of anastomosis of the artery to the vein affects wall shear stress; more
acute anastomotic angles promote neointimal hyperplasia and subsequent stenosis
formation
• Type of material used to create the anastomosis (vascular clip vs suture)
• Intraoperative blood flow of less than 120ml/min achieved post anastomosis is
predictive of primary failure
SURGICAL CONSIDERATIONS FOR AV ACCESS
PLACEMENT

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HEMODYNAMICS OF AVF CREATION
Arteriovenous Vessel Remodeling
• Physiological changes, including:
• Blood flow rapidly  10 to 20 fold after the fistula is created
• Cardiac output  in response to baroreceptor induced changes
• Results in  shear stress, sensed by the endothelial cells
• Mediators (eg/nitric oxide, metalloproteinases) induce vasodilation and
vascular remodelling to  pressure and shear stress in the vascular
system to accommodate the  flow from the fistula
• Larger vessel size can predict fistula maturation, e.g. upper arm fistulas
and fistulas in men are more likely to mature

17
Cardiac Hemodynamic Changes with AV Access Creation
• Fistula creation results in cardiac hemodynamic changes that are
characterized by a hyper-dynamic circuit
 Studies show in cardiac
output by 15-20% post fistula
creation
 in atrial natriuretic peptide
(ANP) and brain natriuretic
peptide within 2 weeks
reflecting left atrial and left
ventricle stretch from the
volume
 in ANP has been correlated to
in CO
 Left ventricle hypertrophy (LVH)
is an adaptive response to the
cardiac workload

18
Right Ventricle Remodeling and Pulmonary Hypertension
•  in blood volume +  RV performance may  pulmonary flow and
possibly  pulmonary pressure  pulmonary hypertension
• Prevalence of pulmonary hypertension in HD patients is ~ 40%
• Pulmonary hypertension post fistula creation is thought to be related to
chronic vasoconstriction and endothelial dysfunction in the pulmonary
circuit
• Hemodynamic changes associated with graft placement are less
pronounced than those with fistula creation
Cardiac Remodeling and Patient Selection
• Based on expected physiology of an  demand on CO some would avoid
placement of fistula in patients with severe heart failure

19
CLINICAL EVALUATION OF FISTULA
MATURATION
•Adequate maturation can be identified by appropriate blood flow
and diameter and adequate vein length for cannulation
•Vessel should be easy to palpate, easy to compress and should
collapse with arm elevation (indicating no CVS)
•KDOQI established ‘Rules of 6’: by 6 wks, the flow of a fistula
should be 600 ml/min, 0.6 cm diameter, < 0.6 cm below the skin,
and have at least 6 cm of straight segment for cannulation
•Use of ultrasound to assess flow and vessel diameter at 2 and 4
months post fistula creation has been shown to predict subsequent
dialysis suitability
•Routine maturation assessment should be obtained by month 2 in
order to facilitate interventions for the immature fistula

20
ASPECTS OF CANNULATION
• Cannulation technique is an important aspect of long term AV access patency
• Each blood vessel puncture may incite local trauma and subsequent venous
neointimal hyperplasia and stenosis formation
• Nurse training, education and a focus on assessment and cannulation will
support AV survival
Needle technique options
• Three types of needling techniques; area wall, rope ladder and buttonhole
• Area wall - needling the same selection of fistula or graft which has highest
failure rate due to aneurysm growth and should be avoided
• Rope ladder - the rotation of needle sites in a ladder formation along entire
length of fistula or graft
• Button hole (only used in fistulas) - needling in same site epithelializes the
track of tissue. Reported as less painful needling by some but has higher risk
for infection, especially s. aureus
• Button hole is indicated in short length fistula, fistula with aneurysm or in
some home HD patients with use cannulation protocol

21
Impact of needle size and direction of placement
•Venous needle to be placed in the antegrade poistion, in the same direction
as the blood flow.
•Antegrade needle placement reduces hematoma formation and reduces the
tendency for pseudoaneurysm development upon needle withdrawl
•Most programs initiate needling at low pump speed with smallest guage
needle and slowly advance to the speed needed for adequate clearance
Other features of needling technique
•Tourniquet use – multinational study showed tourniquet use improved access
survival as compared to compression of fistula
•Bevel up – uncertainty and lack of evidence leads to recommendation to follow your
unit-specific protocol
•Ultrasound assisted needling – a tool to assist with cannulation but requires
specialized skill and training
•Steel vs Teflon needle use – steel is the most commonly used needle, however
Teflon (angiocatheters) may be used for new or fragile AV access, nocturnal or restless
patients but requires knowledge of the different needling technique required

22
Infiltration
•Referred to as a ‘blow’ and estimated to occur in ~35% of cannulations, is
when the needle is dislodged from inside the fistula or graft during needle
insertion or dialysis treatment
•It occurs when the needle slips out of the fistula, passes through the wall of
the fistula allowing blood to infuse into the surrounding tissue
•Infiltration is often associated with pain, warmth and bruising which can
involved the entire arm and even track into the thoracic region
•Risk factors include:
 Cannulator experience
 Immature fistula
 Deep vessel depth
 Stenotic accesses
 Hastened hemostasis
 Anticoagulant therapy
 Peripheral arterial and vascular disease
 Age

23
Cannulation of an AV access is a skill that deserves careful attention and
adequate staff resources to facilitate and ensure long term survival and AV
patency
•The following are links include details on cannulation technique:
http://www.ishd.org/7-the-care-and-keeping-of-vascular-access-for-home-hemodialysis-
patients
http://esrdncc.org/ffcl/change-concepts/change-concept-8/cannulation-of-the-av-fistula/
http://www.bcrenalagency.ca/resource-
gallery/Documents/Rope%20Ladder%20Cannulation%20of%20Fistulas%20and%20Gr
afts%20Guideline_0.pdf

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SUMMARY OF RECOMMENDATIONS
• Patients should undergo careful assessment by the VA team to
determine if they are eligible for AV access creation
• Potential candidates will have evaluation by a surgeon who may also
wish to perform Duplex US venous +/- arterial mapping to determine
eligibility
• Eligible candidates should be offered AVF creation but the VA team
should carefully consider baseline comorbidity, anatomical and other
relevant factors so the risks and benefits of the procedure can be well
explained to the patient
• Final decision to proceed with VA creation should be made by a
multidisciplinary team (nephrologist, surgeon, vascular access nurse)
and the patient/family

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• Despite the relatively high risk of primary failure, most patients who
are eligible should undergo AVF creation to reduce the risk of
catheter related complications
• Risk of AVF creation is relatively small and the risk of catheter
complications is very hard to predict
• An individualized approach that takes into consideration the patient’s
chronologic and physiologic age, comorbidities, anatomic factors and
patient concerns is suggested
• AVF creation results in an  in cardiac output
• Over time, AVF creation is associated with cardiac remodeling and LV
hypertrophy
• It is unclear if AVF creation facilitates the development of pulmonary
hypertension

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• Cannulation technique impacts access survival; infiltration and
subsequent hematoma  risk of access thrombosis
• Area wall technique should be avoided as it leads to aneurysm
formation
• Buttonhole is associated with  risk of infection; protocols should be
put in place to manage this risk including use of topical antimicrobial
prophylaxis

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