Model‐Based Approach to Selecting Pegfilgrastim Dose for Pharmacokinetic and Pharmacodynamic Similarity Studies in Biosimilar Development

Li, Fang; Sun, Qin; Du, Shanshan; Florian, Jeffry; Wang, Yaning; Huang, Shiew‐Mei; Zineh, Issam; Wang, Yow‐Ming

doi:10.1002/cpt.2722

Cited by 3 publications

(4 citation statements)

References 16 publications

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“…Model-based Testing Markers [204] The FDA has also presented results on a Model-Based Approach for the Dose Selection of P e g f i l g r a s t i m , w h i c h t r e a t s n e u t r o p e n i a ( l o w w h i t e b l o o d c e l l c o u n t ) c a u s e d b y a n t i c a n c e r medications. There are several approved biosimilars for which PK and PD approaches, using the absolute neutrophil count biomarker, have been used to support biosimilar approval.…”

Section: Fda Researchmentioning

confidence: 99%

A Critical Analysis of the FDA Omics Perspective on Pharma-codynamic Biomarkers to Support Biosimilarity, and its Surrogates.

Niazi

2023

Preprint

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Demonstrating biosimilarity entails comprehensive analytical evaluations, clinical pharmacolo-gy profiling, and efficacy testing for at least one medical indication in patients. These require-ments are stipulated by the U.S. Biologics Price Competition and Innovation Act (BPCIA). The costliest element—efficacy testing—can be waived if other compliance benchmarks are satisfied, including comparing functional pharmacodynamic (PD) biomarkers, even when they do not di-rectly correlate with clinical outcomes. Most biological drugs, such as monoclonal antibodies (mAbs), lack identifiable PD biomarkers. The FDA has employed various 'omics' technologies to identify potential PD biomarkers, including proteomics, glycomics, transcriptomics, genomics, epigenomics, and metabolomics. Although these efforts provide a robust scientific basis for estab-lishing biosimilarity, they are neither practical nor necessarily superior to existing functional biomarkers, such as receptor binding and mode-of-action outcomes. As we report for the first time, these functional biomarkers can effectively serve as PD indicators for all FDA-licensed bio-logical drugs. We recommend that the FDA consider officially listing these functional biomarkers to expedite and reduce the cost of biosimilar development, thereby increasing the accessibility of biological drugs. PD surrogates, like the receptor binding and pharmacokinetic profiles, are more robust and offer a rational solution to finding PD markers to compare for establishing biosimi-larity.

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Section: Fda Researchmentioning

confidence: 99%

A Critical Analysis of the FDA Omics Perspective on Pharma-codynamic Biomarkers to Support Biosimilarity, and its Surrogates.

Niazi

2023

Preprint

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“…The primary results of these three trials are reported by Sheikhy et al (PSCK9 inhibitors), 5 Gershuny et al (IL-5 antagonists), 4 and Florian et al (interferon beta-1a products), 3 and Hyland et al reports the results of an evaluation of the utility of proteomics for identifying PD biomarkers from the interferon clinical trial. 14 In addition, Li et al 6 describe a model-based approach to inform dose selection, and Vaidyanathan et al 15 describe the evolution of regulatory requirements for insulin products to the current standard that stipulates PK and PD similarity data are sufficient to support approval of biosimilar insulin products.…”

Section: Using Pd Biomarkers and Midd As An Alternative To Comparativ...mentioning

confidence: 99%

“…One way to do this is to leverage the use of pharmacodynamic (PD) biomarkers in clinical pharmacology studies in place of comparative clinical studies with efficacy end point(s), which is discussed in multiple articles in this issue 1–5 . These articles and others 6 also discuss how modeling and simulation (or model‐informed drug development (MIDD)) can be used to optimize study design and analyses. Other articles focus on characterizing the relationship between product quality characteristics (e.g., structural and functional characterization) and clinical performance to further streamline clinical development 7–9 .…”

Section: Reference Product United States European Union Canada Japanmentioning

confidence: 99%

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Advancing Innovations in Biosimilars

Wang

Strauss

2022

Clin Pharma and Therapeutics

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A Critical Analysis of the FDA’s Omics-Driven Pharmacodynamic Biomarkers to Establish Biosimilarity

Niazi

2023

Pharmaceuticals

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Demonstrating biosimilarity entails comprehensive analytical assessment, clinical pharmacology profiling, and efficacy testing in patients for at least one medical indication, as required by the U.S. Biologics Price Competition and Innovation Act (BPCIA). The efficacy testing can be waived if the drug has known pharmacodynamic (PD) markers, leaving most therapeutic proteins out of this concession. To overcome this, the FDA suggests that biosimilar developers discover PD biomarkers using omics technologies such as proteomics, glycomics, transcriptomics, genomics, epigenomics, and metabolomics. This approach is redundant since the mode-action-action biomarkers of approved therapeutic proteins are already available, as compiled in this paper for the first time. Other potential biomarkers are receptor binding and pharmacokinetic profiling, which can be made more relevant to ensure biosimilarity without requiring biosimilar developers to conduct extensive research, for which they are rarely qualified.

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Model‐Based Approach to Selecting Pegfilgrastim Dose for Pharmacokinetic and Pharmacodynamic Similarity Studies in Biosimilar Development

Cited by 3 publications

References 16 publications

A Critical Analysis of the FDA Omics Perspective on Pharma-codynamic Biomarkers to Support Biosimilarity, and its Surrogates.

A Critical Analysis of the FDA Omics Perspective on Pharma-codynamic Biomarkers to Support Biosimilarity, and its Surrogates.

Advancing Innovations in Biosimilars

A Critical Analysis of the FDA’s Omics-Driven Pharmacodynamic Biomarkers to Establish Biosimilarity

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