Kidney Failure, Chronic Clinical Trial
Official title:
Resistance to ErythroPoietin Effectiveness Algorithm Trial
A strategy for optimizing erythropoietin therapy in patients with erythropoietin resistance. A multi-centered, open-label, randomized, controlled trial.
Study Rationale
Many treatable causes of erythropoietin resistance (also known as erythropoietin
hypo-responsiveness) exist in patients with chronic kidney disease (CKD) stages 3 to 5 .
Well recognized causes of erythropoietin resistance include iron deficiency, severe
hyperparathyroidism, chronic infection, vitamin deficiency, aluminum toxicity and poor
dialysis adequacy. Furthermore, many diseases resulting in the chronic inflammatory state
have also been associated with erythropoietin resistance in Non-CKD patients with diseases
such as chronic congestive heart failure, chronic liver disease and many connective tissue
diseases including rheumatoid arthritis and systemic lupus.
It is now well recognized that CKD stage 5 patients receiving dialysis may also be at risk
of developing chronic inflammation resulting in a more severe syndrome characterized by
malnutrition and resistance to exogenous erythropoietin replacement therapy. Markers of a
chronic inflammatory state that are observed in dialysis patients include hypoalbuminemia,
elevated C-reactive protein (CRP), elevated ferritin, increased serum amyloid A and low
transferrin saturation. In addition, pro-inflammatory cytokines such as interleukin 6
(IL-6), tumour necrosis factor alpha (TNF-alpha) and interleukin 1 (IL-1) have been shown in
vivo to suppress erythroid colony forming units. Erythrocyte lifespan can also be shortened
through increased clearance by macrophages that are activated by inflammatory signals and
immunoglobulin coated erythrocytes.
Inflammation also affects iron metabolism at many levels. Inflammatory cytokines can lead to
reduced serum concentrations of iron and transferrin. Reduction in transferrin then leads to
decreased iron absorption via the gut. Lactoferrin in polymorphonuclear cells can act as an
iron scavenger with bactericidal activity. Lactoferrin levels have been shown to increase in
inflammation and can bind large amounts of free iron, thereby reducing overall availability.
Functional iron deficiency, which is also a characteristic the inflammatory state associated
with erythropoietin resistance is defined as low availability of iron for erythropoiesis
despite normal or high iron stores. Functional iron deficiency can occur in two ways; when
high doses of exogenous erythropoietin stimulate erythropoiesis and it exceeds the capacity
to deliver adequate iron or alternatively, when delivery of iron from the
reticuloendothelial system to hematopoietic cells is blocked. Both mechanisms may occur in
patients with chronic inflammation and erythropoietin resistance.
Erythropoietin resistance has been defined in several ways. In studies that analyzed Eprex®
use, authors have utilized a dose cut off point of >200units of Eprex®/kg/week as a
reasonable marker of 'true' erythropoietin resistance, or erythropoietin resistance
occurring with no obvious cause contributing to a poor Eprex® response. Other authors have
used the dose cut point of >300units /kg/week to define erythropoietin resistance.
Furthermore, a measure of erythropoietin resistance called the Eprex® dose to hematocrit
ratio (Eprex®/Hct) has been used as a continuous variable in some studies and has been shown
to be positively correlated with certain markers of erythropoietin resistance.
Markers of erythropoietin resistance in dialysis patients have been studied. Previous
studies have shown that CRP levels greater than 20mg/L are associated with Eprex® resistance
in dialysis patients. Other markers include low albumin, high fibrinogen, low transferrin
and high ferritin. Other novel markers of inflammation such as plasma
N-acetyl-seryl-aspartyl-lysyl-proline, procalcitonin, fetuin and neopterin have also been
studied.
The true prevalence of Eprex® resistance is not known in Canada. It is estimated to be
approximately 10% based on the early Eprex® therapy trials. The Canadian Nephrology Practice
Patterns Study (CNPPS), which collected data on a large subset of Canadian dialysis patients
from 1995 to 1998 provides some further estimates. Several authors have analyzed the CNPPS
data and applied Eprex® resistance measures to this study population. Using the dose cut off
point of >200units/kg/week of Eprex®, the authors found that the prevalence of Eprex®
resistance was 15.7% for hemodialysis (HD) patients and 5.5% for peritoneal dialysis (PD)
patients. Further analysis using the Eprex®/Hct measure showed a significant negative
correlation between Eprex®/Hct and serum albumin in both HD and PD patients. Body mass index
(BMI) was also positively correlated with Eprex®/Hct in both groups. This study also found
that when the dose cut off of >200units/kg/week was utilized as a measure of exogenous
erythropoietin resistance, 15% of the HD patients above this cut off point were utilizing
34% of all the Eprex® administered to HD patients in the study period. Similarly, 5.5% of
Eprex® resistant PD patients required 16.2% of all the Eprex® given to PD patients during
the same period.
Little is known about the optimal way to manage 'true' erythropoietin resistance or
erythropoietin hypo-responsiveness. Traditionally, nephrologists have overcome
erythropoietin resistance by prescribing large or escalating Eprex® doses over prolonged
periods of time. There is minimal data that suggests the optimal way to manage these
patients. There are no published protocols that have studied systematic increases or
decreases in Eprex® in such patients. Furthermore, there are few studies on the safety of
the use of high dose Eprex® over prolonged periods of time. It is not known whether a dose
ceiling beyond which Eprex® is no longer pharmacologically effective exists in patients with
'true' Eprex® resistance. Studies into the cost effectiveness of high dose Eprex® therapy in
Eprex® resistant patients are limited.
Patients with Eprex® resistance may be able to maintain their hemoglobin levels on reduced
dose Eprex®, but evidence for the efficacy and safety of an Eprex® dose reduction protocol
is limited to small open-label studies. In contradistinction, perhaps escalating Eprex®
doses to a maximum dose well above the recommended clinical practice guideline target is
what is required to improve hemoglobin levels in these patients.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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