Patients and physicians have contacted the National Gaucher Foundation regarding recent discussions and decisions by US insurance carriers and specifically United Health Care to establish a preferred status category for one of the three enzyme replacement therapies currently approved by FDA for treatment of patients with Gaucher disease. The position of the National Gaucher Foundation and its Medical Advisory Board is as follows: Imiglucerase, velaglucerase alfa, and taliglucerase alfa are bio-similar products that are not bio-identical. They are all highly purified pharmacologic recombinant human glucocerebrosidase glycoproteins produced using different technologies and derived from different cell lines: Imiglucerase (Chinese hamster ovary cell line); Velaglucerase alfa (human fibroblasts derived from a fibrosarcoma cell line); Taliglucerase (carrot root cell line). Although the conformational crystal structures of all three appear to be similar, there are minor differences in primary amino acid structure and more significant differences in glycosylation [1,2]. Globally since 1994, more than 5,000 phenotypically and genotypically diverse Gaucher disease patients have been treated with imiglucerase with an extensive observational record of efficacy and safety. Since 2010, other enzyme therapies for Gaucher disease, velaglucerase alfa, and taliglucerase, were also approved by the FDA. Randomized and observational clinical trials comprising a few hundred treatment-na€ive and “switch” patients suggest that during the initial 1–3 years of treatment, velaglucerase alfa and taliglucerase are arguably safe and of comparable efficacy to imiglucerase for reversing disease manifestations such as anemia, thrombocytopenia, and hepatosplenomegaly, for reduction of biomarkers and, in the case of velaglucerase alfa, for maintaining therapeutic gains in patients previously treated with imiglucerase [3–14]. Velaglucerase alfa and taliglucerase appear to reduce bone marrow Gaucher cell infiltration measured indirectly with quantitative chemical shift MRI imaging similarly to imiglucerase [8,15,16]. Compared to imiglucerase, currently published clinical trial and post-marketing data for velaglucerase alfa and taliglucerase with respect to patient-centered outcomes, such as osteopenia, osteonecrosis, fractures, need for hospitalization for splenectomy, and health-related quality of life are rudimentary [17–23]. Although taliglucerase is currently authorized for use only in adults, imiglucerase and velaglucerase alfa are approved for pediatric use. However, published data showing that enzyme replacement therapy (ERT) reverses Gaucher disease-associated growth and development retardation in pre-pubertal children are only available for imiglucerase [24,25]. Finally, in stable patients during the “maintenance” phase of treatment, the safety and efficacy of infusion schedules less frequent than every two weeks is supported by clinical trial evidence only for imiglucerase [26]. Before endorsing a position that imiglucerase, velaglucerase alfa, and taliglucerase are interchangeable or that one ERT should be granted preferential status over the others, we believe further study and clinical experience is warranted and advisable. Differences in antigenicity and seroconversion (apparently less likely with velaglucerase compared with imiglucerase and taliglucerase) to date appear to have little overall effect on safety and efficacy although some severe adverse reactions have been reported [6,7,9–13,27]. The long-term effect of antigenic variation, if any, is not known. Differences in safety profiles not directly related to the recombinant enzymes themselves but rather to some other aspect of the variant manufacturing process are also possible and may explain atypical late-onset severe adverse events that are beginning to appear in the literature [28]. Because imiglucerase has had much longer “exposure time” than either velaglucerase or taliglucerase, the reports of late onset events are largely confined to that product. That pattern may not necessarily hold up in the future. In vitro and animal studies of differential cellular uptake of the three ERTs have been inconsistent although most studies were not done using Gaucher monocytes or macrophages or in Gaucher animal models [1,2,29,30]. In the D409V/null Gaucher mouse model, “significant differential molecular responses were observed in direct transcriptome (the set of all RNA molecules, including mRNA, rRNA, tRNA, and other non-coding RNA) comparisons from imigluceraseand velaglucerase-treated tissues” [31]. Whether these cellular differences may ultimately relate to different long-term clinical outcomes including late onset complications of Gaucher disease such as cancers and Parkinson disease is also currently unknown. We understand that the United Health Care decision to assign preferential status to a single ERT was heavily, if not entirely, based on important and legitimate financial considerations. We strongly endorse efforts to reduce personal and societal costs of health care, including therapies for rare, orphan diseases such as Gaucher disease. However, should each insurance company have a preferential and exclusive ERT, patients may have to switch treatments every time a new negotiation is concluded and every time they change from one health insurance company to another, possibly with a
Read full abstract