Effect of Experimental Design on the Prediction Performance of Calibration Models Based on Near-Infrared Spectroscopy for Pharmaceutical Applications

Bondi, Robert W.; Igne, Benoît; Drennen, James K.; Anderson, Carl A.

doi:10.1366/12-06689

Cited by 43 publications

(27 citation statements)

References 34 publications

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“…commonly used in the¯elds of agriculture, 3 food, 4 environment, 5 medicine, 6 and pharmaceuticals, 7 among others. 8 NIR spectroscopy has been extensively applied in biomedicine.…”

Section: Near-infrared (Nir) Spectroscopy Mainly Re°ects Absorption Omentioning

confidence: 99%

Quantification of glycated hemoglobin indicator HbA1c through near-infrared spectroscopy

Pan

Chen

et al. 2014

J. Innov. Opt. Health Sci.

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A new strategy for quantitative analysis of a major clinical biochemical indicator called glycated hemoglobin (HbA1c) was proposed. The technique was based on the simultaneous near-infrared (NIR) spectral determination of hemoglobin (Hb) and absolute HbA1c content (Hb HbA1c) in human hemolysate samples. Wavelength selections were accomplished using the improved moving window partial least square (MWPLS) method for stability. Each model was established using an approach based on randomness, similarity, and stability to obtain objective, stable, and practical models. The optimal wavebands obtained using MWPLS were 958 to 1036 nm for Hb and 1492 to 1858 nm for Hb HbA1c, which were within the NIR overtone region. The validation root mean square error and validation correlation coe±cients of prediction (V -SEP, V -R P ) were 3.4 g L À1 and 0.967 for Hb, respectively, whereas the corresponding values for Hb HbA1c were 0.63 g L À1 and 0.913. The corresponding V -SEP and V -R P were 0.40% and 0.829 for the relative percentage of HbA1c. The experimental results con¯rm the feasibility for the quanti¯cation of HbA1c based on simultaneous NIR spectroscopic analyses of Hb and Hb HbA1c.

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“…commonly used in the¯elds of agriculture, 3 food, 4 environment, 5 medicine, 6 and pharmaceuticals, 7 among others. 8 NIR spectroscopy has been extensively applied in biomedicine.…”

Section: Near-infrared (Nir) Spectroscopy Mainly Re°ects Absorption Omentioning

confidence: 99%

Quantification of glycated hemoglobin indicator HbA1c through near-infrared spectroscopy

Pan

Chen

et al. 2014

J. Innov. Opt. Health Sci.

View full text Add to dashboard Cite

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“…Several papers have addressed the question of how many samples are needed to ensure a robust calibration [19]. The fact that models with similar performance were developed on a reduced design compared to its full-factorial counterpart suggests the presence of redundant information in full-factorial designs [36].…”

Section: Design Of Experiments Strategymentioning

confidence: 99%

Multivariate Calibration for the Development of Vibrational Spectroscopic Methods

Tomuță¹,

Porfire²,

Casian³

et al. 2018

Calibration and Validation of Analytical Methods - A Sampling of Current Approaches

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Vibrational spectroscopy, namely near infrared (NIR) and Raman spectroscopy, is based on the interaction between the electromagnetic radiation and matter. The technique is sensitive to chemical and physical properties and delivers a wide range of information about the analyzed sample, but in order to extract the information, multivariate calibration of the spectral data is required. The main goal of this work will be to present in detail the available multivariate calibration strategy for development of NIR and Raman spectroscopic methods, which was successfully applied in pharmaceutics.

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“…One of the principal advantages of laboratory samples is that it facilitates the use of design of experiments (DOE) to obtain calibration samples that avoid strong correlations in the concentrations of excipients and API and build in the method's robustness [31,32]. The laboratory calibration samples could also include excipients and API from various lots received from the companies suppliers.…”

Section: High Cost High Volume Of Materialsmentioning

confidence: 99%

A Procedure for Developing Quantitative Near Infrared (NIR) Methods for Pharmaceutical Products

Romañach

Román-Ospino

Alcalà

2016

Methods in Pharmacology and Toxicology

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The pharmaceutical industry uses procedures to describe all the instructions needed to perform a process in a consistent manner. Procedures are based on process knowledge and the desire to consistently meet desired specifications. This chapter proposes a procedure for the development of NIR partial least squares (PLS) calibration models for pharmaceutical applications. The chapter captures the lessons learned for more than a decade in studies where NIR spectroscopy has been used for quantitative determinations of drug concentration, moisture, polymorphs, and other important applications. Two examples of recent initiatives to develop NIR calibration models in a more efficient manner reducing the number of calibration samples are also discussed. The procedure differs from previously published guidelines since it is based on specific examples of method validations for pharmaceutical processes and provides clear instructions for method development and validation. The procedure and tutorial should advance the implementation of near infrared spectroscopic (NIRS) quantitative methods in the pharmaceutical industry.

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Effect of Experimental Design on the Prediction Performance of Calibration Models Based on Near-Infrared Spectroscopy for Pharmaceutical Applications

Cited by 43 publications

References 34 publications

Quantification of glycated hemoglobin indicator HbA1c through near-infrared spectroscopy

Quantification of glycated hemoglobin indicator HbA1c through near-infrared spectroscopy

Multivariate Calibration for the Development of Vibrational Spectroscopic Methods

A Procedure for Developing Quantitative Near Infrared (NIR) Methods for Pharmaceutical Products

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