Multicomponent solids of lamotrigine with some selected coformers and their characterization by thermoanalytical, spectroscopic and X-ray diffraction methods

Chadha, Renu; Saini, Anju; Arora, Poonam; Jain, Dharamvir Singh; Dasgupta, Archi; Row, Tayur N. Guru

doi:10.1039/c1ce05458a

Cited by 55 publications

(54 citation statements)

References 49 publications

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“…It produced acidic microenvironment around the LMT molecule that favored its ionization and thus caused more drugs to dissolve in the media. Similar results were reported about the saccharinate salt of LMT resulted in an insignificant increase in its solubility by the same principle (11,40). Most remarkable improvement in the solubility of LMT was observed in water (0.23±0.01 and 4.36±0.11 mg/ml for LMT and its salt, respectively) whereby it caused 19-fold increase in its solubility.…”

supporting

confidence: 85%

Improvement of Physicochemical Properties of an Antiepileptic Drug by Salt Engineering

et al. 2012

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Abstract. The focus of the present investigation was to evaluate the feasibility of using cyclamic salt of lamotrigine in order to improve its solubility and intrinsic dissolution rate (IDR). The salt was prepared by solution crystallization method and characterized chemically by fourier transform infrared spectroscopy (FTIR), proton ( 1 H) and carbon ( 13 C) nuclear magnetic resonance (liquid and solid, NMR) spectroscopy, physically by powder X-ray diffraction (PXRD), thermally by differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA), physicochemically for solubility, IDR, solution and solid-state stability, and polymorphism by solution recrystallization and slurry conversion studies. The FTIR, NMR, PXRD, DSC, and TGA spectra and thermograms indicated the salt formation. The salt formation increased lamotrigine solubility by 19-fold and IDR by 4.9-fold in water. The solution and solid-state stability were similar to parent molecule and were resistant to polymorphic transformation. In conclusion, cyclamic salt of lamotrigine provides another potential avenue for the pharmaceutical development of lamotrigine with improved physicochemical properties especially for pediatric population. It is also possible that appropriate dosage forms can be formulated with much lower drug amount and better safety profile than existing products.

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confidence: 85%

Improvement of Physicochemical Properties of an Antiepileptic Drug by Salt Engineering

et al. 2012

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“…The melting point of the extruded LAM-SAC crystal was 262 C measured by DSC (shown in Fig. S2), slightly different from the reported melting points (Chadha et al, 2011;Galcera and Molins, 2008).…”

Section: 2mentioning

confidence: 91%

“…Various methodologies for cocrystal screening are employed, such as solvent evaporation (Weyna et al, 2009), slurry conversion (Luu et al, 2013;Zhang et al, 2007), grinding technique (Karki et al, 2007;Friš9 ci c et al, 2006;Trask et al, 2006) and thermal methods (Lu et al, 2008;Yamashita et al, 2014;Berry et al, 2008;Chadha et al, 2011;Lekši c et al, 2012). However, solution-based approach is environmentally unfriendly and has the risks of single component crystallization and solvate formation.…”

Section: Introductionmentioning

confidence: 98%

In - situ synchrotron wide-angle X-ray diffraction as a rapid method for cocrystal/salt screening

Dong

et al. 2015

International Journal of Pharmaceutics

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“…, not many changes in 2θ occurred but a significant shift of CTM was observed. The shifting of diffractogram has exhibited the interaction of material in solid state or changes of internal space group of molecular structure [20][21]. The result of diffractogram showed shifting for several peaks at 2Ɵ angle, it showed the changes in space group of structural [14].…”

Section: Fig 1: Pct (A) Ctm (C) and Their Physical Mixture (B)mentioning

confidence: 97%

Solid State Characterization of a Novel Physical Interaction (Paracetamol-Chlorpheniramine Maleate)

2018

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Objective: Interactions of active pharmaceutical ingredients (API) as well as pharmaceutical excipients don't occur in a pharmaceutical dosage form. Base on structures of paracetamol (PCT) and chlorphenamine maleate (CTM), its combination is possible to give a physical interaction in the solid state. This study was conducted to investigate the physical interaction of PCT and CTM in the solid state.Methods: Characterization used the polarization microscope, solubility test, powder x-ray diffraction (PXRD) to observe peak shifting in 2Ɵ angle, and fourier transform infrared spectroscopy (FT-IR) to examine wavenumber shifting. Results:Results of solubility exhibited an increased solubility percentage with increasing concentration. Polarization microscope analysis presented a combination of crystal morphology after the two substances were mixed in an equimolar ratio. The result of melting point determination of each pure substance was 172 °C for PCT, 132 °C for CTM, and 170 °C for the mixture of the two substances in various ratios. Diffractogram showed the shifting at angle 2Ɵ: 20.715, 19.355-23.500 and 21.840, 26.455-20.330 for concentration ratio of PCT: CTM in (132:0.5) and (330:1) respectively and any change in the functional group was observed from infrared spectrum. Conclusion:All evaluation of PCT and CTM in the solid state has exhibited the interaction in solid condition.

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Multicomponent solids of lamotrigine with some selected coformers and their characterization by thermoanalytical, spectroscopic and X-ray diffraction methods

Cited by 55 publications

References 49 publications

Improvement of Physicochemical Properties of an Antiepileptic Drug by Salt Engineering

Improvement of Physicochemical Properties of an Antiepileptic Drug by Salt Engineering

In - situ synchrotron wide-angle X-ray diffraction as a rapid method for cocrystal/salt screening

Solid State Characterization of a Novel Physical Interaction (Paracetamol-Chlorpheniramine Maleate)

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