Adsorption of thiotepa anticancer by the assistance of aluminum nitride nanocage scaffolds: A computational perspective on drug delivery applications

G. G. Reivan Ortiz; B. Cespedes-Panduro; I. Saba; J. C. Cotrina-Aliaga; M. Mohany; S. S. Al-Rejaie; J. L. Arias-Gonzales; A. A. Ramiz-Cornell; M. J. Kadham; R. Akhavan-Sigari

doi:10.1016/j.colsurfa.2023.131276

Adsorption of thiotepa anticancer by the assistance of aluminum nitride nanocage scaffolds: A computational perspective on drug delivery applications

G. G. Reivan Ortiz, B. Cespedes-Panduro, I. Saba, J. C. Cotrina-Aliaga, M. Mohany, S. S. Al-Rejaie, J. L. Arias-Gonzales, A. A. Ramiz-Cornell, M. J. Kadham, R. Akhavan-Sigari

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Abstract

This work was carried out by the importance of providing insights into the nano-based drug delivery of anticancers. To this aim, a representative model of aluminum nitride (AN) nanocage scaffold and two of its boron and gallium doped forms (BAN and GAN) were investigated towards the adsorption of thiotepa (Tep) anticancer. Density functional theory (DFT) calculations were performed to evaluate the stabilized structures and their corresponding electronic features. The results indicated the contribution of N-head and S-head of Tep to interactions with each scaffold resulting six complexes; NTep@AN and STep@AN, NTep@BAN and STep@BAN, NTep@GAN and STep@GAN. In each complex model, the characteristic features were obtained based on the interactions details and frontier molecular orbitals related features. In this regard, the investigated scaffolds were found suitable for adsorbing the Tep substance with different strengths and frontier molecular orbitals levels yielding the possibility of assigning specified recovery time and conductance. As a consequence, the models of investigated scaffolds were found suitable to work as possible carriers of Tep anticancer for approaching the nano-based drug delivery purposes.

Original language	English
Article number	131276
Journal	Colloids and Surfaces A: Physicochemical and Engineering Aspects
Volume	666
DOIs	https://doi.org/10.1016/j.colsurfa.2023.131276
State	Published - 5 Jun 2023

Keywords

Adsorption
Anticancer
Conductance
Nano drug delivery
Recovery time

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10.1016/j.colsurfa.2023.131276

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Reivan Ortiz, G. G., Cespedes-Panduro, B., Saba, I., Cotrina-Aliaga, J. C., Mohany, M., Al-Rejaie, S. S., Arias-Gonzales, J. L., Ramiz-Cornell, A. A., Kadham, M. J., & Akhavan-Sigari, R. (2023). Adsorption of thiotepa anticancer by the assistance of aluminum nitride nanocage scaffolds: A computational perspective on drug delivery applications. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 666, Article 131276. https://doi.org/10.1016/j.colsurfa.2023.131276

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title = "Adsorption of thiotepa anticancer by the assistance of aluminum nitride nanocage scaffolds: A computational perspective on drug delivery applications",

abstract = "This work was carried out by the importance of providing insights into the nano-based drug delivery of anticancers. To this aim, a representative model of aluminum nitride (AN) nanocage scaffold and two of its boron and gallium doped forms (BAN and GAN) were investigated towards the adsorption of thiotepa (Tep) anticancer. Density functional theory (DFT) calculations were performed to evaluate the stabilized structures and their corresponding electronic features. The results indicated the contribution of N-head and S-head of Tep to interactions with each scaffold resulting six complexes; NTep@AN and STep@AN, NTep@BAN and STep@BAN, NTep@GAN and STep@GAN. In each complex model, the characteristic features were obtained based on the interactions details and frontier molecular orbitals related features. In this regard, the investigated scaffolds were found suitable for adsorbing the Tep substance with different strengths and frontier molecular orbitals levels yielding the possibility of assigning specified recovery time and conductance. As a consequence, the models of investigated scaffolds were found suitable to work as possible carriers of Tep anticancer for approaching the nano-based drug delivery purposes.",

keywords = "Adsorption, Anticancer, Conductance, Nano drug delivery, Recovery time",

author = "{Reivan Ortiz}, {G. G.} and B. Cespedes-Panduro and I. Saba and Cotrina-Aliaga, {J. C.} and M. Mohany and Al-Rejaie, {S. S.} and Arias-Gonzales, {J. L.} and Ramiz-Cornell, {A. A.} and Kadham, {M. J.} and R. Akhavan-Sigari",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier B.V.",

year = "2023",

month = jun,

day = "5",

doi = "10.1016/j.colsurfa.2023.131276",

language = "English",

volume = "666",

journal = "Colloids and Surfaces A: Physicochemical and Engineering Aspects",

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Reivan Ortiz, GG, Cespedes-Panduro, B, Saba, I, Cotrina-Aliaga, JC, Mohany, M, Al-Rejaie, SS, Arias-Gonzales, JL, Ramiz-Cornell, AA, Kadham, MJ & Akhavan-Sigari, R 2023, 'Adsorption of thiotepa anticancer by the assistance of aluminum nitride nanocage scaffolds: A computational perspective on drug delivery applications', Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol. 666, 131276. https://doi.org/10.1016/j.colsurfa.2023.131276

Adsorption of thiotepa anticancer by the assistance of aluminum nitride nanocage scaffolds: A computational perspective on drug delivery applications. / Reivan Ortiz, G. G.; Cespedes-Panduro, B.; Saba, I. et al.
In: Colloids and Surfaces A: Physicochemical and Engineering Aspects, Vol. 666, 131276, 05.06.2023.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Adsorption of thiotepa anticancer by the assistance of aluminum nitride nanocage scaffolds

T2 - A computational perspective on drug delivery applications

AU - Reivan Ortiz, G. G.

AU - Cespedes-Panduro, B.

AU - Saba, I.

AU - Cotrina-Aliaga, J. C.

AU - Mohany, M.

AU - Al-Rejaie, S. S.

AU - Arias-Gonzales, J. L.

AU - Ramiz-Cornell, A. A.

AU - Kadham, M. J.

AU - Akhavan-Sigari, R.

PY - 2023/6/5

Y1 - 2023/6/5

N2 - This work was carried out by the importance of providing insights into the nano-based drug delivery of anticancers. To this aim, a representative model of aluminum nitride (AN) nanocage scaffold and two of its boron and gallium doped forms (BAN and GAN) were investigated towards the adsorption of thiotepa (Tep) anticancer. Density functional theory (DFT) calculations were performed to evaluate the stabilized structures and their corresponding electronic features. The results indicated the contribution of N-head and S-head of Tep to interactions with each scaffold resulting six complexes; NTep@AN and STep@AN, NTep@BAN and STep@BAN, NTep@GAN and STep@GAN. In each complex model, the characteristic features were obtained based on the interactions details and frontier molecular orbitals related features. In this regard, the investigated scaffolds were found suitable for adsorbing the Tep substance with different strengths and frontier molecular orbitals levels yielding the possibility of assigning specified recovery time and conductance. As a consequence, the models of investigated scaffolds were found suitable to work as possible carriers of Tep anticancer for approaching the nano-based drug delivery purposes.

AB - This work was carried out by the importance of providing insights into the nano-based drug delivery of anticancers. To this aim, a representative model of aluminum nitride (AN) nanocage scaffold and two of its boron and gallium doped forms (BAN and GAN) were investigated towards the adsorption of thiotepa (Tep) anticancer. Density functional theory (DFT) calculations were performed to evaluate the stabilized structures and their corresponding electronic features. The results indicated the contribution of N-head and S-head of Tep to interactions with each scaffold resulting six complexes; NTep@AN and STep@AN, NTep@BAN and STep@BAN, NTep@GAN and STep@GAN. In each complex model, the characteristic features were obtained based on the interactions details and frontier molecular orbitals related features. In this regard, the investigated scaffolds were found suitable for adsorbing the Tep substance with different strengths and frontier molecular orbitals levels yielding the possibility of assigning specified recovery time and conductance. As a consequence, the models of investigated scaffolds were found suitable to work as possible carriers of Tep anticancer for approaching the nano-based drug delivery purposes.

KW - Adsorption

KW - Anticancer

KW - Conductance

KW - Nano drug delivery

KW - Recovery time

UR - http://www.scopus.com/inward/record.url?scp=85150435639&partnerID=8YFLogxK

U2 - 10.1016/j.colsurfa.2023.131276

DO - 10.1016/j.colsurfa.2023.131276

M3 - Article

AN - SCOPUS:85150435639

SN - 0927-7757

VL - 666

JO - Colloids and Surfaces A: Physicochemical and Engineering Aspects

JF - Colloids and Surfaces A: Physicochemical and Engineering Aspects

M1 - 131276

ER -

Adsorption of thiotepa anticancer by the assistance of aluminum nitride nanocage scaffolds: A computational perspective on drug delivery applications

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