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Modeling changes in biomarkers in Gaucher disease patients receiving enzyme replacement therapy using a pathophysiological model.

ABSTRACT: BACKGROUND: Gaucher disease (GD) is a rare recessively inherited disorder caused by deficiency of a lysosomal enzyme, glucocerebrosidase. Accumulation of glucosylceramide or glucosylsphingosine in macrophages leads to increased production of ferritin and chitotriosidase and to decreases in hemoglobin concentration and platelet count, which are used as blood biomarkers. GD is treated by enzyme replacement therapy (ERT) or, sometimes by substrate reduction therapy. However, no physiological model for analysis of biomarkers change during ERT has been proposed. We aimed to develop a pathophysiological model to analyze biomarker's response to ERT and several covariates impact. METHODS: Changes in blood ferritin, chitotriosidase, hemoglobin and platelets were analyzed in French GD Registry patients receiving imiglucerase/alglucerase as ERT. We used simplified exponential pathophysiological model, with initial concentration, biomarkers amplitude of variation and rate constant of normalization during ERT. Changes in four biomarkers were analyzed separately and then all four together from initiation to discontinuation of ERT, or until the end of follow-up. Several covariates were tested, including age at ERT initiation, splenectomy, sex, genotype (N370S/N370S), and ERT dose. RESULTS: An exponential model gave a good data fit. The four biomarkers analysis showed that the rate of nomalization was the same for all biomarkers, with a half-life of 0.5 years. Predicted values of biomarkers at ERT's steady state were 40% and 10% of initial concentrations, for ferritin and chitotriosidase, respectively, and 120% and 200% for hemoglobin and platelets, respectively. We found that 3 covariates had an effect on initial concentration or on amplitude of variation in ferritin, hemoglobin and platelets: women and patients under 15 years of age had lower ferritin and hemoglobin concentrations, and patients under 15 years of age had higher platelet count. Splenectomized patients had higher ferritin concentrations and platelet count and lower amplitude of variation of hemoglobin. CONCLUSION: We report the first dynamic model of biomarker changes in GD. It enabled us to estimate that 95% of biomarker response to ERT was achieved in 2 years, but with high inter-patient variability. We also found that with the current treatment, normalization of chitotriosidase and ferritin will occur in about 65% of patients.

SUBMITTER: Vigan M

PROVIDER: S-EPMC4094900 | biostudies-other | 2014

REPOSITORIES: biostudies-other

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Modeling changes in biomarkers in Gaucher disease patients receiving enzyme replacement therapy using a pathophysiological model.

Vigan Marie M Stirnemann Jérôme J Caillaud Catherine C Froissart Roseline R Boutten Anne A Fantin Bruno B Belmatoug Nadia N Mentré France F

Orphanet journal of rare diseases 20140630

<h4>Background</h4>Gaucher disease (GD) is a rare recessively inherited disorder caused by deficiency of a lysosomal enzyme, glucocerebrosidase. Accumulation of glucosylceramide or glucosylsphingosine in macrophages leads to increased production of ferritin and chitotriosidase and to decreases in hemoglobin concentration and platelet count, which are used as blood biomarkers. GD is treated by enzyme replacement therapy (ERT) or, sometimes by substrate reduction therapy. However, no physiological ...[more]

PMID: 24980507

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Project description:OBJECTIVE: To evaluate the cost-effectiveness of enzyme replacement therapy (ERT) compared to standard medical care without ERT in the Dutch cohort of patients with type 1 Gaucher disease (GD I). DESIGN: Cost-effectiveness analysis was performed using a life-time state-transition model of the disease's natural course. Transition probabilities, effectiveness data and costs were derived from retrospective data and prospective follow-up of the Dutch study cohort. SETTING: The tertiary referral center for Gaucher disease in the Netherlands. PARTICIPANTS: The Dutch cohort of patients with GD I. INTERVENTION: ERT versus standard medical care without ERT in symptomatic patients. MAIN OUTCOME MEASURES: Years free of end organ damage (YFEOD) (splenectomy, bone complication, malignancy, multiple complications), quality adjusted life years (QALY), and costs. RESULTS: Over an 85 year lifetime, an untreated GD I patient will generate 48.9 YFEOD and 55.86 QALYs. Starting ERT in a symptomatic patient increases the YFEOD by 12.8 years, while the number of QALYs gained increases by 6.27. The average yearly ERT medication costs range between € 124,000 and € 258,000 per patient. The lifetime costs of ERT starting in the symptomatic stage are € 5,716,473 against € 171,780 without ERT, a difference of € 5,544,693. Consequently, the extra costs per additional YFEOD or per additional QALY are € 434,416 and € 884,994 respectively. After discounting effects by 1.5% and costs by 4% and under a reasonable scenario of ERT unit cost reduction by 25%, these incremental cost-effectiveness ratios could decrease to € 149,857 and € 324,812 respectively. DISCUSSION: ERT is a highly potential drug for GD I with substantial health gains. The conservatively estimated incremental cost-effectiveness ratios are substantially lower than for Pompe and Fabry disease. We suggest that the high effectiveness has contributed importantly to acceptance of reimbursement of ERT for GD I. The present study may further support discussions on acceptable price limits for ultra-orphan products.

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Modeling changes in biomarkers in Gaucher disease patients receiving enzyme replacement therapy using a pathophysiological model.

Publications

Modeling changes in biomarkers in Gaucher disease patients receiving enzyme replacement therapy using a pathophysiological model.

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