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  • 1.
    Bondesson, Laban
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Microscopic Interpretations of Drug Solubility2007Doktorsavhandling, sammanläggning (Övrigt vetenskapligt)
  • 2.
    Bondesson, Laban
    KTH, Skolan för bioteknologi (BIO).
    Microscopic views of drug solubility2006Licentiatavhandling, sammanläggning (Övrigt vetenskapligt)
    Abstract [en]

    The development of computational models for predicting drug solubility has increased drastically during the last decades. Nevertheless these models still have diffculties to estimate the aqueous solubility as accurate as desired. In this thesis di erent aspects that are known to have a large impact on the aqueous solubility of a molecule have been studied in detail using various theoretical methods with intension to provide microscopic view on drug solubility. The rst aspect studied is the hydrogen bond energies. Eight drug molecules have been calculated using density functional theory and the validity of additive model that has often been used in solubility models is examined. The impact of hydrogen bonds in Infrared and Raman spectra of three commonly used drug molecules has also been demonstrated. The calculated spectra are found to be in good agreement with the experimental data. Another aspect that is important in solubility models is the volume that a molecule occupies when it is dissolved in water. The volume term and its impact on the solvation energy has therefore also been calculated using three di erent methods. It was shown that the calculated volume di ered signi cantly dependent on which method that had been used, especially for larger molecules.

    Most of the solubility models assume the solute molecule to be in the bulk of the solvent. The molecular behavior at the water/gas interface has been investigated to see how it di ers from bulk. It was seen that the concentration close to the interface was almost three times higher than in the bulk. The increase in concentration close to the surface depends on the larger gap between the interface energy and the gas phase energy than between the bulk energy and the gas phase energy.

  • 3.
    Bondesson, Laban
    et al.
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Frediani, Luca
    Department of Chemistry, University of Tromsø, Norway.
    Ågren, Hans
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Mennucci, Bendetta
    Dipartimento di Chimica e Chimica Industriale, Università di Pisa, Italy.
    Solvation of N3- at the water surface: the Polarizable Continuum Model approach2006Ingår i: Journal of Physical Chemistry B, ISSN 1520-6106, E-ISSN 1520-5207, Vol. 110, nr 23, s. 11361-11368Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    We present a new quantum mechanical model to introduce Pauli repulsion interaction between a molecular solute and the surrounding solvent in the framework of the Polarizable Continuum Model. The new expression is derived in a way to allow naturally for a position-dependent solvent density. This development makes it possible to employ the derived expression for the calculation of molecular properties at the interface between two different dielectrics. The new formulation has been tested on the azide anion (N-3(-)) for which we have calculated the solvation energy, the dipole moment, and the static polarizability at the interface as a function of the ion position. The calculations have been carried out for different ion-surface orientations, and the results have also been compared with the parallel electrostatic-only solvation model.

  • 4.
    Bondesson, Laban
    et al.
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Hugosson, H. W.
    Calculations of the cavitation volumes and partial molar volumes of drugs in waterManuskript (preprint) (Övrigt vetenskapligt)
  • 5.
    Bondesson, Laban
    et al.
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Mikkelsen, Kurt V.
    Department of Chemistry, University of Copenhagen.
    Luo, Yi
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Garberg, Per
    Biovitrum AB, Stockholm.
    Ågren, Hans
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Density functional theory calculations of hydrogen bonding energies of drug molecules2006Ingår i: Journal of Molecular Structure, ISSN 0022-2860, E-ISSN 1872-8014, Vol. 776, nr 1-3, s. 61-68Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Hydrogen bonding energies of several drug molecules have been calculated using hybrid density functional theory with inclusion of basis set superposition error corrections. The calculated total hydrogen bonding energy of each drug molecule has been compared with the result of a conceptually simple additive model, from which the summation of hydrogen bonding energies of individual polar groups present in the drug molecule are considered. It is shown that the validity of the additive model is strongly conditional, and to some extent predictable: In cases where the hydrogen bonding group is isolated the addition model can be of relevance, while in cases where the hydrogen bonding groups are interconnected through pi-conjugation rings or chains of the drug molecules it introduces substantial errors. It is suggested that such strong cooperative effects of hydrogen bonds should always be taken into account for evaluation of the hydrogen bonding energies of drug molecules.

  • 6.
    Bondesson, Laban
    et al.
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Mikkelsen, Kurt V.
    Department of Chemistry, University of Copenhagen.
    Luo, Yi
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Garberg, Per
    Biovitrum AB, Stockholm.
    Ågren, Hans
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Hydrogen bonding effects on infrared and Raman spectra of drug molecules2007Ingår i: Spectrochimica Acta Part A - Molecular and Biomolecular Spectroscopy, ISSN 1386-1425, E-ISSN 1873-3557, Vol. 66, nr 2, s. 213-224Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Infrared and Raman spectra of three drug molecules, aspirin, caffeine and ibuprofen, in gas phase and in aqueous solution have been simulated using hybrid density functional theory. The long range solvent effect is modelled by the polarizable continuum model, while the short range hydrogen bonding effects are taken care of by the super-molecular approach with explicit inclusion of water molecules. The calculated spectra are found to compare well with available experimental results. The agreement obtained make grounds for proposing theoretical modeling as a tool for characterizing changes in the bonding environments of drug molecules in terms of particular variations in their IR and Raman spectra.

  • 7.
    Bondesson, Laban
    et al.
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi (stängd 20110512).
    Rudberg, Elias
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi (stängd 20110512).
    Luo, Yi
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi (stängd 20110512).
    Salek, Pawel
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi (stängd 20110512).
    A linear scaling study of solvent-solute interaction energy of drug molecules in aqua solution2007Ingår i: Journal of Physical Chemistry B, ISSN 1520-6106, E-ISSN 1520-5207, Vol. 111, nr 34, s. 10320-10328Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Solvent-solute interaction energies for three well-known drug molecules in water solution are computed at the Hartree-Fock and B3LYP density functional theory levels using a linear scaling technique, which allows one to explicitly include in the model water molecules up to 14 A away from the solute molecule. The dependence of calculated interaction energies on the amount of included solvent has been examined. It is found that it is necessary to account for water molecules within an 8 A radius around the drug molecule to reach the saturated solvent interaction level. Effects of electron correlation and basis set on solvent-solute interaction energies are discussed.

  • 8.
    Bondesson, Laban
    et al.
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Rudberg, Elias
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Luo, Yi
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Salek, Pawel
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Basis set dependence of solute-solvent interaction energy of benzene in water: a HF/DFT study2008Ingår i: Journal of Computational Chemistry, ISSN 0192-8651, E-ISSN 1096-987X, Vol. 29, nr 11, s. 1725-1732Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Solute-solvent interaction energies for the benzene molecule dissolved in water are computed using Hartree-Fock and B3LYP density functional theories. Explicit solvent molecules up to 14-angstrom away from the dissolved benzene molecule are included in the calculation of interaction energies. Both basis set dependence and basis Set Superposition errors are carefully examined. It is found that the use of a larger basis set for the region near the solute together with a smaller basis set for the outer region gives results very close to what would have been obtained if the larger basis set had been used for the whole system. It is also shown that a correction for the basis Set superposition error is a necessary component in this kind of calculations. With this correction, results obtained with different tested basis sets converge to within 1 kcal/mol.

  • 9.
    Bondesson, Laban
    et al.
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Rudberg, Elias
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Luo, Yi
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Salek, Pawel
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi.
    Basis set dependence of solvent-solute interaction energy of benzene in water: a linear scaling ab initio studyArtikel i tidskrift (Refereegranskat)
  • 10.
    Bondesson, Laban
    et al.
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi och biologi. Royal Inst Technol, Dept Theoret Chem, SE-10691 Stockholm, Sweden..
    Rudberg, Elias
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi och biologi. Royal Inst Technol, Dept Theoret Chem, SE-10691 Stockholm, Sweden..
    Luo, Yi
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi och biologi. Royal Inst Technol, Dept Theoret Chem, SE-10691 Stockholm, Sweden..
    Salek, Pawel
    KTH, Skolan för bioteknologi (BIO), Teoretisk kemi och biologi. Royal Inst Technol, Dept Theoret Chem, SE-10691 Stockholm, Sweden..
    Erratum to: Basis set dependence of solute-solvent interaction energy of benzene in waterA HF/DFT study (vol 29, pg 1725, 2008)2012Ingår i: Journal of Computational Chemistry, ISSN 0192-8651, E-ISSN 1096-987X, Vol. 33, nr 3, s. 354-354Artikel i tidskrift (Refereegranskat)
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