Anemia is a complication in patients with Chronic Kidney Disease (CKD). IV injection of iron colloid preparations (iron-hydroxide core complexes in carbohydrate shells) is a current FDA approved treatment regimen. One approved iron preparation is sodium ferric gluconate, manufactured under the brand name Ferrlecit. A generic version named Nulecit was FDA approved in March 2011. Shortly thereafter, the European Medicines Agency published a paper that proposed that generic iron preparations, including ferric gluconate, deliver increased levels of `labile iron' [also known as non-transferrin bound iron (NTBI)] leading to toxicity. Thus, clinical studies to compare in vivo levels of `labile iron' from IV delivered generic versus brand iron-formulations are urgently needed. The goal of this study is to perform a prospective, randomized, 2-way crossover study to compare plasma, total iron (TI), transferrin bound iron (TBI), and non-transferrin bound iron (NTBI) (or `labile iron') in healthy subjects treated with either Ferrlecit (reference) or Nulecit (generic) injections to determine if there are differences in `labile iron' concentrations between the two formulations. The effects of treatment with each complex on levels of oxidative stress and toxicity will be measured. The following specific aims will be pursued: (1) Market brand (RLD) and generic sodium ferric gluconate products will be characterized with respect to potency, impurity, and other drug product quality attributes; (2) Rigorous bio-analytical methods to determine plasma TI, TBI, and NTBI concentrations will be developed; (3) A prospective, randomized, 2-way crossover study to compare plasma TI, TBI, NTBI levels in healthy subjects treated with generic and RLD will be carried out; (4) Oxidative stress and toxicity caused by generic and RLD will be measured with in vitro and in vivo biomarkers; (5) Side effects or adverse reactions during the study period will be monitored; (6) Statistical analysis to determine whether there are any significant differences between generic and RLD in NTBI levels and others will be performed. At the conclusion of these studies, the PIs will have collected comparative in vitro data regarding the physiochemical and structural properties of the reference and generic ferric gluconate products. Clinical data that quantifies in vivo levels of free (labile or non-transferrin bound) iron, oxidative stress biomarkers and toxicity, as a function of the type of iron gluconate product delivered will also have been obtained.
Iron gluconate products, sold under the brand name Ferrlecit and generic name Nulecit, are administered via IV to treat anemia in patients with Chronic Kidney Disease. It has been proposed that the generic iron complex preparation results in increased levels of `free iron' and subsequently increased oxidative stress and toxicity. A clinical trial to compare the iron speciation (total iron, transferrin bound iron and non-transferrin or `free' iron) between the reference and brand name formulations along with measurements of oxidative stress and toxicity will be performed. In conjunction with the clinical study, an in vitro study to characterize the physiochemical and structural properties of the two products will test the hypothesis that the generic iron preparation leads to increased ?free iron? (non- transferrin bound iron) and toxicity.
Oner, Z Gulsen; Michel, Sarah L J; Polli, James E (2017) Equivalence and regulatory approaches of nonbiological complex drug products across the United States, the European Union, and Turkey. Ann N Y Acad Sci 1407:26-38 |
Byrareddy, Siddappa N; Arthos, James; Cicala, Claudia et al. (2016) Sustained virologic control in SIV+ macaques after antiretroviral and ?4?7 antibody therapy. Science 354:197-202 |