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02761nam a2200289Ia 4500 |
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10.3390-ijms23095086 |
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220706s2022 CNT 000 0 und d |
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|a 16616596 (ISSN)
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|a A General Use QSAR-ARX Model to Predict the Corrosion Inhibition Efficiency of Drugs in Terms of Quantum Mechanical Descriptors and Experimental Comparison for Lidocaine
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|b MDPI
|c 2022
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|z View Fulltext in Publisher
|u https://doi.org/10.3390/ijms23095086
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|a A study of 250 commercial drugs to act as corrosion inhibitors on steel has been developed by applying the quantitative structure-activity relationship (QSAR) paradigm. Hard-soft acid-base (HSAB) descriptors were used to establish a mathematical model to predict the corrosion inhibition efficiency (IE%) of several commercial drugs on steel surfaces. These descriptors were calculated through third-order density-functional tight binding (DFTB) methods. The mathematical modeling was carried out through autoregressive with exogenous inputs (ARX) framework and tested by fivefold cross-validation. Another set of drugs was used as an external validation, obtaining SD, RMSE, and MSE, obtaining 6.76%, 3.89%, 7.03%, and 49.47%, respectively. With a predicted value of IE% = 87.51%, lidocaine was selected to perform a final comparison with experimental results. By the first time, this drug obtained a maximum IE%, determined experimentally by electrochemical impedance spectroscopy measurements at 100 ppm concentration, of about 92.5%, which stands within limits of 1 SD from the predicted ARX model value. From the qualitative perspective, several potential trends have emerged from the estimated values. Among them, macrolides, alkaloids from Rauwolfia species, cephalosporin, and rifamycin antibiotics are expected to exhibit high IE% on steel surfaces. Additionally, IE% increases as the energy of HOMO decreases. The highest efficiency is obtained in case of the molecules with the highest ω and ∆N values. The most efficient drugs are found with pKa ranging from 1.70 to 9.46. The drugs recurrently exhibit aromatic rings, carbonyl, and hydroxyl groups with the highest IE% values. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
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|a ARX model
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|a corrosion inhibition
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|a FROLS algorithm
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|a lidocaine
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|a lidocaine
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|a QSAR
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|a tight binding
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|a Beltran-Perez, C.
|e author
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|a Espinoza-Vázquez, A.
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|a Martínez-Jiménez, A.
|e author
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|a Miralrio, A.
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|a Orozco-Cruz, R.
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|a Serrano, A.A.A.
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|a Solís-Rosas, G.
|e author
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|t International Journal of Molecular Sciences
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