Hemodialysis Arteriovenous Fistula Maturation Failure Clinical Trial
Official title:
Access Flow Based Intervention for Management of Arteriovenous Hemodialysis Access Dysfunction. A Prospective Randomized Controlled Study.
Hemodialysis (HD) vascular access dysfunction is a huge clinical problem which results in
significant clinical morbidity in patients with End Stage Renal Disease (ESRD), causing a
severe economic burden on any health care system. Arteriovenous (A-V) dialysis accesses are
the preferred form of permanent dialysis access as compared to central venous catheters
(CVC) . One of the reasons for CVC use is poor long term patency rates of A-V access.
Arteriovenous Grafts (AVG) have a primary patency rates of just under 50% at 12 months and
around 33% at 18 months. Native arteriovenous fistula (AVF) are slightly better with primary
patency rates of around 60 percent at one year and 51 percent at 2 years. The most common
cause for AVF and AVG dysfunction is stenosis development due to neointimal hyperplasia
(NIH) within the circuit leading to access thrombosis. Percutaneous transluminal angioplasty
(PTA) is the current standard of treatment for these lesions. Despite being the treatment of
choice for these lesions patency rates after PTA continue to be dismal. One of the problems
with poor long term outcomes after successful intervention is how you assess immediate
intervention success. Successful angioplasty is defined by Dialysis Outcome Quality
Initiative (DOQI) guidelines as one where only less than 30% residual stenosis remains at
the end of intervention. Unfortunately angiographic images post angioplasty correlate poorly
with improvement of access flows through the arteriovenous circuit. There are two main
problems with these practice standards. First, they are based on a 2-dimensional
angiographic view of the lesion which may be misleading. Secondly, this assessment of recoil
is very subjective and not base on objective data.
Access flow monitoring can now be performed intra-procedurally with thermal dilution
technique. Its benefit was shown in a small pilot study. To date there have not been any
randomized controlled trials to assess the benefit of such an approach where intervention is
based on improvements in access flow at the time of intervention. We hypothesize that such
an approach will improve outcomes after interventions related to access dysfunction. This
may also identify the right scenarios in which stent placement may benefit thus improving
outcomes after stent placement as well.
Background:
The number of patients with End Stage Renal Disease (ESRD) requiring renal replacement
therapy (RRT) in the form of dialysis is on the rise. Hemodialysis (HD) remains the most
prevalent form of RRT for patients with ESRD. Just in the United States there are more than
350,000 patients with ESRD on hemodialysis (HD) and the number is expected to increase to
500,000 by the year 2023. Recent data provided by Saudi Centre for Organ Transplantation
shows that there are just over 13000 patients with ESRD on hemodialysis in the Kingdom of
Saudi Arabia (KSA). This number is expected to rise at a rate of 7-8% annually reaching
18000 by year 2018. Establishing a viable vascular access is crucial and is considered the
'life-line' for such patients.
HD vascular access dysfunction is a huge clinical problem which results in significant
clinical morbidity in patients with ESRD, causing a severe economic burden on any health
care system. In the United States <50% of all hemodialysis accesses remain patent at 3 years
with the economic burden of maintaining vascular access patency calculated to exceed $1
billion annually. Arteriovenous (A-V) dialysis accesses are the preferred form of permanent
dialysis access as compared to central venous catheters (CVC) due to less complications and
better patient outcomes. Native arteriovenous fistulae (AVF) and synthetic arteriovenous
grafts (AVG) are the two main types of A-V access used for HD. Despite the obvious benefits
many patients on HD continue to dialyze with CVC as there dialysis access. One of the
reasons for CVC use is poor long term patency rates of A-V access. AVG have a primary
patency rates of just under 50% at 12 months and around 33% at 18 months. AVF are slightly
better with primary patency rates of around 60 percent at one year and 51 percent at 2
years. The most common cause for AVF and AVG dysfunction is stenosis development due to
neointimal hyperplasia (NIH) within the circuit leading to access thrombosis. Percutaneous
transluminal angioplasty (PTA) is the current standard of treatment for these lesions.
Despite being the treatment of choice for these lesions patency rates after PTA continue to
be dismal. Long-term success rates are generally listed as either primary/unassisted rates
(patency without additional procedures)) or secondary/assisted patency (patency with
additional procedures). Unassisted patency rates for angioplasty generally range from 41 to
76 percent at six months and 31 to 45 percent at one year. To improve the primary patency
after intervention many strategies have been looked at. Placement of covered stents at the
time of intervention has been used, but patency rates after stent placements although better
than PTA, are still not optimal. One of the problems with poor long term outcomes after
successful intervention is how you assess immediate intervention success. Successful
angioplasty is defined by Dialysis Outcome Quality Initiative (DOQI) guidelines as one where
less than 30% residual stenosis remains at the end of intervention. It is suggested that if
residual stenosis is >30% after angioplasty with adequately sized fully effaced angioplasty
balloon than stent placement should be considered. Unfortunately angiographic images post
angioplasty correlate poorly with improvement of access flows through the arteriovenous
circuit. There are two main problems with these practice standards. First, this is based on
a 2-dimensional angiographic view of the lesion which may be misleading. Secondly, this
assessment of recoil is very subjective and not base on objective data.
Surveillance of AV access with access flow monitoring is recommended to identify AV access
with stenosis before they develop thrombosis. One of the methods most commonly used to
assess access flows is ultrasound dilution technique. This can be performed at the time of
dialysis by trained staff to assess access flows. Access flow measurements are usually done
monthly in units who have access surveillance programs in place. It has been shown that
improvement in access flows after intervention from baseline or pre intervention values can
predict long term outcomes after intervention. Although helpful, but access flows are
performed at HD unit on the following days after the patient had intervention. At that time
it is impractical to bring the patient back for intervention and leads to additional cost
and inconvenience. As such the clinical benefit of this approach is minimal. In addition
many dialysis units do not have access flow measurement available and no surveillance
programs implemented. Unfortunately this is true for most hemodialysis units in the Kingdom
of Saudi Arabia (KSA). Fortunately access flow monitoring can now be performed
intra-procedurally with the same ultrasound dilution technique. Its benefit was shown in a
small pilot study. To date there have not been any randomized controlled trials to assess
the benefit of such an approach where intervention is based on improvements in access flow
at the time of intervention. The researchers hypothesize that such an approach will improve
outcomes after interventions related to access dysfunction. This may also identify the right
scenarios in which stent placement may benefit thus improving outcomes after stent placement
as well. This approach should also improve outcomes and reduce repeat hospital visits in
areas where access flow monitoring at HD units is not readily available as is the case in
most centers in the Kingdom of Saudi Arabia.
Specific Aims In a randomized, controlled, blinded trial the researchers would like to
assess the clinical utility of an access flow based intervention approach as compared to
conventional approach for managing dialysis arteriovenous access dysfunction.
Materials and Methods
A. Study Design:
Prospective, Randomized Controlled, single centre trial comparing access flow based
intervention versus conventional standard approach for dialysis access dysfunction.
B. Study Subjects ESRD patients on HD referred for access dysfunction to the interventional
nephrology service at King Faisal Specialist Hospital and Research Center in Riyadh, KSA.
Sample Size:
116 patients are required to have an 80% chance of detecting, at significance level of 5%,
an increase in the primary patency outcome measure from 45% in the control group to 70% in
the experimental group at 6 months meaning 58 patients in each arm. The researchers plan to
enroll a total of 140 patients with 70 in each group.
Data Collection:
Patient Demographics:
Age Sex ESRD or Chronic Kidney Disease stage 5 needing HD Currently on Dialysis Y N
If yes: currently used access type:
Years on Dialysis:
Diabetes Mellitus Hypertension Peripheral Vascular Disease Smoking Coronary artery disease
Cerebrovascular accidents Antiplatelet medications
Location of AVF:
Location of AVG:
Reason for procedure: Excessive bleeding post HD Low Access flows High venous or low
arterial pressures Physical Examination abnormality Other
Pre-procedure within 3 month baseline access flows known Y N
If known, Value:
Data on 1st Angiogram:
Stenosis present: Y N If yes: Location of Stenosis: Arterial Juxta anastomosis Arterial
1/3rd Middle 1/3rd Venous 1/3rd or venous outflow
Pre-intervention access flow in case of no thrombosis (A):
Targeted access flow:
Stenosis successfully treated radiologically Y N Targeted access flow successfully reached:
Y N
Post-intervention access flow (B):
Percentage access flow reached of target (B/A x 100):
Residual Stenosis in %:
By Operator By Blinded Interpreter:
Max diameter of balloon used:
Max inflation pressure of balloon used:
Stent used: Y N
If used, size of stent: # of stent:
Follow up:
Access Flows:
Within 1st three treatments post intervention 3rd month 6th month
Physical Examination abnormalities if any:
3rd month 6th month
Time to first intervention after initial procedure:
If intervention, reason for the need of intervention:
Primary patency at 6 months: Y N
If no, exact duration of primary patency:
Secondary patency at 6 months: Y N
Statistical Considerations:
The researchers will use block-randomization for the recruited subjects into the two arms.
Researchers will take the risk difference as an effect measure. The chi-square test will be
used to assess the superiority of the new treatment as compared to the standard protocol.
Researchers will set the type I error rate at 5%. Baseline comparisons between the two
groups will be conducted using the two independent samples t-test for continuous data which
will be summarized as means ± standard deviation, and using the chi-square test for
categorical data.
Ethical Considerations / Consent Documents The proposal of this study has been approved by
the local review authority which is the Office of Research Affairs at King Faisal Specialist
Hospital and Research Centre.
All participants will be assigned serial numbers in order of data collection. Each medical
record number will be assigned a specific serial number and this list will be kept in the
PI's office. All investigators mentioned in the study will have access to them. Databases
created will be password protected.
The study will be managed by the PI in cooperation with other Co-Investigators
;
Allocation: Randomized, Intervention Model: Parallel Assignment, Masking: Double Blind (Investigator, Outcomes Assessor), Primary Purpose: Treatment