First solid-state NMR spectroscopy evaluation of complexes of benznidazole with cyclodextrin derivatives

•Evidences for one molecule in the asymmetric unit of crystalline benznidazole.•Solid dispersions of benznidazole (BZL) and cyclodextrins (CDs) were studied.•Evidences for the inclusion complex formation between BZL and Me-β-CD.•BZL conformation differs from raw crystal and benzene is encapsulated i...

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Veröffentlicht in:	Carbohydrate polymers 2015-10, Vol.131, p.90-97
Hauptverfasser:	Priotti, Josefina, Ferreira, M. João G., Lamas, Maria C., Leonardi, Darío, Salomon, Claudio J., Nunes, Teresa G.
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Sprache:	eng
Schlagworte:	2-Hydroxypropyl-beta-cyclodextrin Benznidazole beta-Cyclodextrins - chemistry Carbon - chemistry Carbon-13 Magnetic Resonance Spectroscopy - methods Chagas’ disease Cyclodextrins - chemistry Inclusion complex Nitroimidazoles - chemistry Protons Solid-state NMR Time Factors β-Cyclodextrins
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creator	Priotti, Josefina Ferreira, M. João G. Lamas, Maria C. Leonardi, Darío Salomon, Claudio J. Nunes, Teresa G.
description	•Evidences for one molecule in the asymmetric unit of crystalline benznidazole.•Solid dispersions of benznidazole (BZL) and cyclodextrins (CDs) were studied.•Evidences for the inclusion complex formation between BZL and Me-β-CD.•BZL conformation differs from raw crystal and benzene is encapsulated into the CD.•Formation of the inclusion complex enables stabilizing amorphous benznidazole. Complexation of benznidazole (BZL), a drug of choice for the treatment of Chagas’neglected disease, with cyclodextrin (CD) derivatives was analyzed by solid-state NMR. 13C cross polarization/magic angle spinning spectra were recorded from BZL and from BZL:β-CD, BZL:methyl β-CD and BZL:hydroxypropyl β-CD complexes, which were obtained by the solvent evaporation technique. No significant evidence was obtained on BZL inclusion complexes involving either β-CD or hydroxypropyl β-CD. Conversely, BZL:methyl β-CD displayed BZL resonances characteristic of an amorphous drug and data analysis confirmed the presence of stable BZL:methyl β-CD inclusion complexes, with benzene encapsulated into the host cavity. Further evidences on complex structure and dynamics were obtained from proton and carbon spin–lattice relaxation times in the rotating frame. These data are consistent with a common guest–host spin reservoir. The BZL interaction with methyl β-CD provided a route to stabilize amorphous BZL. Physical mixtures with identical BZL and CD compositions were also studied for comparison.
doi_str_mv	10.1016/j.carbpol.2015.05.045
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João G. ; Lamas, Maria C. ; Leonardi, Darío ; Salomon, Claudio J. ; Nunes, Teresa G.</creator><creatorcontrib>Priotti, Josefina ; Ferreira, M. João G. ; Lamas, Maria C. ; Leonardi, Darío ; Salomon, Claudio J. ; Nunes, Teresa G.</creatorcontrib><description>•Evidences for one molecule in the asymmetric unit of crystalline benznidazole.•Solid dispersions of benznidazole (BZL) and cyclodextrins (CDs) were studied.•Evidences for the inclusion complex formation between BZL and Me-β-CD.•BZL conformation differs from raw crystal and benzene is encapsulated into the CD.•Formation of the inclusion complex enables stabilizing amorphous benznidazole. Complexation of benznidazole (BZL), a drug of choice for the treatment of Chagas’neglected disease, with cyclodextrin (CD) derivatives was analyzed by solid-state NMR. 13C cross polarization/magic angle spinning spectra were recorded from BZL and from BZL:β-CD, BZL:methyl β-CD and BZL:hydroxypropyl β-CD complexes, which were obtained by the solvent evaporation technique. No significant evidence was obtained on BZL inclusion complexes involving either β-CD or hydroxypropyl β-CD. Conversely, BZL:methyl β-CD displayed BZL resonances characteristic of an amorphous drug and data analysis confirmed the presence of stable BZL:methyl β-CD inclusion complexes, with benzene encapsulated into the host cavity. Further evidences on complex structure and dynamics were obtained from proton and carbon spin–lattice relaxation times in the rotating frame. These data are consistent with a common guest–host spin reservoir. The BZL interaction with methyl β-CD provided a route to stabilize amorphous BZL. 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João G.</creatorcontrib><creatorcontrib>Lamas, Maria C.</creatorcontrib><creatorcontrib>Leonardi, Darío</creatorcontrib><creatorcontrib>Salomon, Claudio J.</creatorcontrib><creatorcontrib>Nunes, Teresa G.</creatorcontrib><title>First solid-state NMR spectroscopy evaluation of complexes of benznidazole with cyclodextrin derivatives</title><title>Carbohydrate polymers</title><addtitle>Carbohydr Polym</addtitle><description>•Evidences for one molecule in the asymmetric unit of crystalline benznidazole.•Solid dispersions of benznidazole (BZL) and cyclodextrins (CDs) were studied.•Evidences for the inclusion complex formation between BZL and Me-β-CD.•BZL conformation differs from raw crystal and benzene is encapsulated into the CD.•Formation of the inclusion complex enables stabilizing amorphous benznidazole. Complexation of benznidazole (BZL), a drug of choice for the treatment of Chagas’neglected disease, with cyclodextrin (CD) derivatives was analyzed by solid-state NMR. 13C cross polarization/magic angle spinning spectra were recorded from BZL and from BZL:β-CD, BZL:methyl β-CD and BZL:hydroxypropyl β-CD complexes, which were obtained by the solvent evaporation technique. No significant evidence was obtained on BZL inclusion complexes involving either β-CD or hydroxypropyl β-CD. Conversely, BZL:methyl β-CD displayed BZL resonances characteristic of an amorphous drug and data analysis confirmed the presence of stable BZL:methyl β-CD inclusion complexes, with benzene encapsulated into the host cavity. Further evidences on complex structure and dynamics were obtained from proton and carbon spin–lattice relaxation times in the rotating frame. These data are consistent with a common guest–host spin reservoir. The BZL interaction with methyl β-CD provided a route to stabilize amorphous BZL. Physical mixtures with identical BZL and CD compositions were also studied for comparison.</description><subject>2-Hydroxypropyl-beta-cyclodextrin</subject><subject>Benznidazole</subject><subject>beta-Cyclodextrins - chemistry</subject><subject>Carbon - chemistry</subject><subject>Carbon-13 Magnetic Resonance Spectroscopy - methods</subject><subject>Chagas’ disease</subject><subject>Cyclodextrins - chemistry</subject><subject>Inclusion complex</subject><subject>Nitroimidazoles - chemistry</subject><subject>Protons</subject><subject>Solid-state NMR</subject><subject>Time Factors</subject><subject>β-Cyclodextrins</subject><issn>0144-8617</issn><issn>1879-1344</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkNGLEzEQxoMoXj39E5Q8-rI1s5tkt08ih6cHp4Loc8hOplxKulmTtHe9v96U1nt1GBgGvm8-5sfYWxBLEKA_bJZo0zjHsGwFqKWoLdUztoChXzXQSfmcLQRI2Qwa-gv2KueNqKVBvGQXrW6VBi0X7O7ap1x4jsG7JhdbiH__9pPnmbCkmDHOB057G3a2-DjxuOYYt3OgB8rHZaTpcfLOPsZA_N6XO44HDNHRQ0l-4o6S31fnnvJr9mJtQ6Y353nJfl9__nX1tbn98eXm6tNtg51WpRlHap1EN44KFAkEGMA6a5Ueul66HnoxKEA99FpJ2w-DRN3Ktheqa9crxO6SvT_dnVP8s6NczNZnpBDsRHGXTT3QtVJ0K1Wl6iTF-mlOtDZz8lubDgaEOUI2G3OGbI6Qjagtj75354jduCX35PpHtQo-ngRUH917SiajpwnJ-VS5Ghf9fyL-Aoatkf0</recordid><startdate>20151020</startdate><enddate>20151020</enddate><creator>Priotti, Josefina</creator><creator>Ferreira, M. 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João G.</creatorcontrib><creatorcontrib>Lamas, Maria C.</creatorcontrib><creatorcontrib>Leonardi, Darío</creatorcontrib><creatorcontrib>Salomon, Claudio J.</creatorcontrib><creatorcontrib>Nunes, Teresa G.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Carbohydrate polymers</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Priotti, Josefina</au><au>Ferreira, M. 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Complexation of benznidazole (BZL), a drug of choice for the treatment of Chagas’neglected disease, with cyclodextrin (CD) derivatives was analyzed by solid-state NMR. 13C cross polarization/magic angle spinning spectra were recorded from BZL and from BZL:β-CD, BZL:methyl β-CD and BZL:hydroxypropyl β-CD complexes, which were obtained by the solvent evaporation technique. No significant evidence was obtained on BZL inclusion complexes involving either β-CD or hydroxypropyl β-CD. Conversely, BZL:methyl β-CD displayed BZL resonances characteristic of an amorphous drug and data analysis confirmed the presence of stable BZL:methyl β-CD inclusion complexes, with benzene encapsulated into the host cavity. Further evidences on complex structure and dynamics were obtained from proton and carbon spin–lattice relaxation times in the rotating frame. These data are consistent with a common guest–host spin reservoir. The BZL interaction with methyl β-CD provided a route to stabilize amorphous BZL. 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subjects	2-Hydroxypropyl-beta-cyclodextrin Benznidazole beta-Cyclodextrins - chemistry Carbon - chemistry Carbon-13 Magnetic Resonance Spectroscopy - methods Chagas’ disease Cyclodextrins - chemistry Inclusion complex Nitroimidazoles - chemistry Protons Solid-state NMR Time Factors β-Cyclodextrins
title	First solid-state NMR spectroscopy evaluation of complexes of benznidazole with cyclodextrin derivatives
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