%0 Journal Article %1 Mao2005 %A Mao, GZ %A Chen, DZ %A Handa, H %A Dong, WF %A Kurth, DG %A Mohwald, H %C 1155 16TH ST, NW, WASHINGTON, DC 20036 USA %D 2005 %I AMER CHEMICAL SOC %J LANGMUIR %K dgkurth %N 2 %P 578-585 %R 10.1021/la047802i %T Deposition and aggregation of aspirin molecules on a phospholipid bilayer pattern %U http://dx.doi.org/10.1021/la047802i %V 21 %X Aspirin and 1,2-dimyristoyl-sn-glycero-3-phosphoethanolamine (DMPE) are deposited from their alcoholic mixed solution onto highly oriented pyrolytic graphite (HOPG) by spin coating. The film structure and morphology are characterized by atomic force microscopy (AFM). The barely soluble DMPE forms a highly oriented stripe phase as a result of its one-dimensional epitaxy with the HOPG lattice. The bilayer stripe pattern exposes the cross section of the lipid bilayer lamellae and enables the direct visualization of the molecular interactions of drug or biological molecules with either the hydrophobic or the hydrophilic part of the phospholipid bilayer. The bilayer pattern affects the aspirin molecular deposition and aggregation. AFM shows that the aspirin molecules prefer to deposit and aggregate along the aliphatic interior part of the bilayer pattern, giving rise to parallel dimer rods in registry with the underlying pattern. The nonpolar interactions between aspirin and the phospholipid bilayer are consistent with the lipophilic nature of aspirin. The bilayer pattern not only stabilizes the rodlike aggregate structure of aspirin at low aspirin concentration but also inhibits crystallization of aspirin at high aspirin concentration. Molecular models show that the width of the DMPE aliphatic chain interior can accommodate no more than two aspirin dimers. The bilayer confinement may prevent aspirin from reaching its critical nucleus size. This study illustrates a general method to induce a metastable or amorphous form of an active pharmaceutical ingredient (A-PI) by chemical confinement under high undercooling conditions. Metastable and amorphous solids often display better solubility and bioavailability than the stable crystalline form of the API.

@article{Mao2005, abstract = {Aspirin and 1,2-dimyristoyl-sn-glycero-3-phosphoethanolamine (DMPE) are deposited from their alcoholic mixed solution onto highly oriented pyrolytic graphite (HOPG) by spin coating. The film structure and morphology are characterized by atomic force microscopy (AFM). The barely soluble DMPE forms a highly oriented stripe phase as a result of its one-dimensional epitaxy with the HOPG lattice. The bilayer stripe pattern exposes the cross section of the lipid bilayer lamellae and enables the direct visualization of the molecular interactions of drug or biological molecules with either the hydrophobic or the hydrophilic part of the phospholipid bilayer. The bilayer pattern affects the aspirin molecular deposition and aggregation. AFM shows that the aspirin molecules prefer to deposit and aggregate along the aliphatic interior part of the bilayer pattern, giving rise to parallel dimer rods in registry with the underlying pattern. The nonpolar interactions between aspirin and the phospholipid bilayer are consistent with the lipophilic nature of aspirin. The bilayer pattern not only stabilizes the rodlike aggregate structure of aspirin at low aspirin concentration but also inhibits crystallization of aspirin at high aspirin concentration. Molecular models show that the width of the DMPE aliphatic chain interior can accommodate no more than two aspirin dimers. The bilayer confinement may prevent aspirin from reaching its critical nucleus size. This study illustrates a general method to induce a metastable or amorphous form of an active pharmaceutical ingredient (A-PI) by chemical confinement under high undercooling conditions. Metastable and amorphous solids often display better solubility and bioavailability than the stable crystalline form of the API.}, added-at = {2011-01-12T12:48:25.000+0100}, address = {1155 16TH ST, NW, WASHINGTON, DC 20036 USA}, affiliation = {Mao, GZ (Reprint Author), Wayne State Univ, Dept Chem Engn \& Mat Sci, 5050 Anthony Wayne Dr, Detroit, MI 48202 USA. Wayne State Univ, Dept Chem Engn \& Mat Sci, Detroit, MI 48202 USA.}, author = {Mao, GZ and Chen, DZ and Handa, H and Dong, WF and Kurth, DG and Mohwald, H}, author-email = {gzmao@eng.wayne.edu}, biburl = {https://www.bibsonomy.org/bibtex/23f8a65cdf5c5530f8d2cbdcd16724dc3/lctm}, doc-delivery-number = {887ZD}, doi = {10.1021/la047802i}, interhash = {b128abd87eb5c692bff01e753a68020d}, intrahash = {3f8a65cdf5c5530f8d2cbdcd16724dc3}, issn = {0743-7463}, journal = {LANGMUIR}, journal-iso = {Langmuir}, keywords = {dgkurth}, keywords-plus = {ATOMIC-FORCE MICROSCOPY; CRYSTAL-STRUCTURES; GRAPHITE; NUCLEATION; MONOLAYERS; INTERFACE; ACIDS}, language = {English}, month = {JAN 18}, number = 2, number-of-cited-references = {30}, pages = {578-585}, publisher = {AMER CHEMICAL SOC}, subject-category = {Chemistry, Multidisciplinary; Chemistry, Physical; Materials Science, Multidisciplinary}, times-cited = {10}, timestamp = {2011-01-12T12:48:25.000+0100}, title = {Deposition and aggregation of aspirin molecules on a phospholipid bilayer pattern}, type = {Article}, unique-id = {ISI:000226343100015}, url = {http://dx.doi.org/10.1021/la047802i}, volume = 21, year = 2005 }