Primary Outcome Measures:
- Number of transfusions during hospitalization [ Time Frame: at discharge ] [ Designated as safety issue: No ]
- MDI at 18-22 months corrected age [ Time Frame: 18-22 months ] [ Designated as safety issue: No ]
Secondary Outcome Measures:
- hematocrit [ Time Frame: at discharge ] [ Designated as safety issue: No ]
- reticulocyte count [ Time Frame: at discharge ] [ Designated as safety issue: No ]
- volume of transfusions [ Time Frame: at discharge ] [ Designated as safety issue: No ]
- Epo concentrations [ Time Frame: at discharge ] [ Designated as safety issue: No ]
- PDI at 18-22 months [ Time Frame: 18-22 months ] [ Designated as safety issue: No ]
- overall neurodevelopmental impairment at 18-22 months [ Time Frame: 18-22 months ] [ Designated as safety issue: No ]
- incidence of retinopathy of prematurity stage 3 or greater [ Time Frame: during hospitalization ] [ Designated as safety issue: Yes ]
A novel erythropoiesis stimulating protein, Darbepoetin alfa (Darbepoetin) has been developed by Amgen Inc. and has been shown to be effective in increasing hematocrit using once weekly or once every other week dosing in adults with anemia due to end stage renal disease or cancer. However, it is presently being evaluated for use in children with hyporegenerative anemias, and has not yet been evaluated for use in infants with anemia of prematurity. Preterm infants respond to human recombinant erythropoietin (Epo) by increasing reticulocytes, yet the multiple subcutaneous doses diminish its routine use in the NICU. With the possibility of once a week or once every other week dosing, the use of Darbepoetin in this population appears promising. While it is likely that the use of red cell growth factors such as rHuEpo or darbepoetin will not eliminate the need for all erythrocyte transfusions in all infants, it is reasonable to postulate that the use of darbepoetin will eliminate the need for transfusion in some preterm infants, and reduce the need in others. European studies evaluating rHuEpo in preterm infants have successfully decreased donor exposure to 1 per patient. Our goal is to achieve similar success, which we define as a donor exposure of ≤1 donor per infant in clinical practice. This can be achieved through the use of red cell growth factors, judicious use of blood work for monitoring, and stringent transfusion guidelines. By decreasing total transfusions to <4 per infant, we can achieve this goal of ≤1 donor exposure per infant.
There will remain a population of extremely small, extremely ill infants in whom phlebotomy losses exceed the capacity to increase red cell mass through the use of Epo. Some investigators believe a combination of single donor erythrocyte transfusions and recombinant erythropoietin can serve to maintain an adequate circulating erythrocyte volume. A reasonable algorithm can be developed to assist in these determinations only through continued research. Continued critical evaluation of transfusion criteria, outcomes, new technologies limiting phlebotomy loss, and novel biologic and pharmacologic treatments can only serve to improve the care of ELBW infants who are highest risk for repeated transfusions. Our research aim is to study the safety and efficacy of darbepoetin in preterm infants in order to improve the outcomes of preterm infants by significantly decreasing the number of transfusions. Moreover, improving neurodevelopmental outcomes for preterm infants continues to be a goal for neonatal care providers that might begin to be approached through darbepoetin therapy. This study differs from previous erythropoietin studies in the following ways:
- Darbepoetin will be compared to placebo and to rHuEpo, allowing two thirds of the patients to receive some form of red cell growth factor, and allowing SC dosing to occur once a week in the darbepoetin recipients compared with the usual three times a week SC dosing in the rHuEpo recipients (those in the placebo group will not receive sham injections)
- Dosing will begin 1-2 days earlier on average than in any previously published study
- Transfusion guidelines are the most rigorous applied to date, and will be used at sites that are all at altitudes > 4,000 feet
- A target Epo concentration of >500 mU/mL in the treatment group is proposed in order to evaluate neurodevelopmental differences between groups, and the study is powered to determine a difference between treatment groups and placebo