7 research outputs found
Physicochemical studies of some compounds
Not availabl
Thermal analysis of some novel Chalcones
Decomposition characteristics of some newly synthesized chalcones have been studied by thermo gravimetric and differential scanning calorimetric analysis. From thermo grams, some kinetics parameters of decomposition were also evaluated. It is observed that thermal stability and decomposition kinetics depends on nature and position of substituent present in these compounds.
Modulation of morphology and efficacy of new CB1 receptor antagonist using simple and benign polymeric additives
1014-1021The compound 1, [(1H-[1]benzoxepino[5,4-c]pyrazole-3-carboxamide, 8-chloro-1-(2,4-dichlorophenyl)-4,5-dihydro-N-
1-piperidinyl], a known CB1 modulator has been synthesized and characterized by IR, NMR and single Crystal X-ray study.
The single crystal study of 1 displays a number of halogen bonds leading to 1-D network along with other weak noncovalent
interactions. The CB1 modulator 1 inherently possesses extremely low solubility in water, which makes its
application as drug difficult, and this may be attributed to multiple halogen bonds present in the crystal structure. A series of
polymer additives, which are Generally Regarded As Safe (GRAS), have been explored to investigate whether they can
modulate the halogen bond present in 1 through formation of various non-bonded interactions. Surprisingly, these polymers
are found to change crystal morphology, crystal packing while retaining efficacy and bioavailability. The polymer molecular
weight is found to play a significant role in crystal morphology modification especially in case of polyethylene glycol
(PEG). The formation of new polymorphic forms of 1 and modification of halogen bond has been established using powder
X-ray diffraction and IR study, respectively, in case of PEG 4000, PVPK-30, PVA polymers and compound 1 adducts
Modulation of morphology and efficacy of new CB1 receptor antagonist using simple and benign polymeric additives
The compound 1, [(1H-[1]benzoxepino[5,4-c]pyrazole-3-carboxamide, 8-chloro-1-(2,4-dichlorophenyl)-4,5-dihydro-N-1-piperidinyl], a known CB1 modulator has been synthesized and characterized by IR, NMR and single Crystal X-ray study. The single crystal study of 1 displays a number of halogen bonds leading to 1-D network along with other weak non-covalent interactions. The CB1 modulator 1 inherently possesses extremely low solubility in water, which makes its application as drug difficult, and this may be attributed to multiple halogen bonds present in the crystal structure. A series of polymer additives, which are Generally Regarded As Safe (GRAS), have been explored to investigate whether they can modulate the halogen bond present in 1 through formation of various non-bonded interactions. Surprisingly, these polymers are found to change crystal morphology, crystal packing while retaining efficacy and bioavailability. The polymer molecular weight is found to play a significant role in crystal morphology modification especially in case of polyethylene glycol (PEG). The formation of new polymorphic forms of 1 and modification of halogen bond has been established using powder X-ray diffraction and IR study, respectively, in case of PEG 4000, PVPK-30, PVA polymers and compound 1 adducts.
Coeficientes de reparto 1-octanol-agua de algunos compuestos derivados de cianopiridina y chalcona
The partition coefficients (P) of some synthesized cyanopyridine and chalcone compounds have been studied in 1-octanol-water system at different pH. It is observed that log P depends on pH and nature of substitution group present in the compounds. The central moiety also play important role to affect hydrophilic/hydrophobic nature of compounds. There is no regular trend for the variation of log P with different pH.Los coeficientes de reparto (P) de algunos compuestos sintetizados derivados de cianopiridina y chalcona se estudiaron en el sistema 1-octanol-agua a diferentes valores de pH. Se observa que log P depende del pH y de la naturaleza del gruposustituyente presente en los compuestos. El grupo central también desempeña un papel importante en la naturaleza hidrofílica/hidrofóbica de los compuestos. No hayuna tendencia regular para la variación de log P con el pH
1-Octanol-water partition coefficient of some cyanopyridine and chalcone compounds
The partition coefficients (P) of some synthesized cyanopyridine and chalcone compounds have been studied in 1-octanol-water system at different pH. It is observed that log P depends on pH and nature of substitution group present in the compounds. The central moiety also play important role to affect hydrophilic/hydrophobic nature of compounds. There is no regular trend for the variation of log P with different pH.Los coeficientes de reparto (P) de algunos compuestos sintetizados derivados de cianopiridina y chalcona se estudiaron en el sistema 1-octanol-agua a diferentes valores de pH. Se observa que log P depende del pH y de la naturaleza del gruposustituyente presente en los compuestos. El grupo central también desempeña un papel importante en la naturaleza hidrofílica/hidrofóbica de los compuestos. No hayuna tendencia regular para la variación de log P con el pH