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Titolo:
Influence of crystal structure on the tableting properties of sulfamerazine polymorphs
Autore:
Sun, CQ; Grant, DJW;
Indirizzi:
Univ Minnesota, Dept Pharmaceut, Minneapolis, MN 55455 USA Univ MinnesotaMinneapolis MN USA 55455 maceut, Minneapolis, MN 55455 USA
Titolo Testata:
PHARMACEUTICAL RESEARCH
fascicolo: 3, volume: 18, anno: 2001,
pagine: 274 - 280
SICI:
0724-8741(200103)18:3<274:IOCSOT>2.0.ZU;2-4
Fonte:
ISI
Lingua:
ENG
Soggetto:
PHYSICOCHEMICAL CHARACTERIZATION; COMPRESSION; CARBAMAZEPINE; PARACETAMOL; GRANULATION;
Keywords:
plasticity; porosity; slip planes; sulfamerazine polymorphs; tabletability; tensile strength;
Tipo documento:
Article
Natura:
Periodico
Settore Disciplinare:
Life Sciences
Citazioni:
21
Recensione:
Indirizzi per estratti:
Indirizzo: Grant, DJW Univ Minnesota, Dept Pharmaceut, Weaver Densford Hall,308 Harvard St SE, Minneapolis, MN 55455 USA Univ Minnesota Weaver Densford Hall,308Harvard St SE Minneapolis MN USA 55455
Citazione:
C.Q. Sun e D.J.W. Grant, "Influence of crystal structure on the tableting properties of sulfamerazine polymorphs", PHARM RES, 18(3), 2001, pp. 274-280

Abstract

Purpose. To understand the influence of polymorphic structure on the tableting properties of sulfamerazine. Methods. Bulk powders of sulfamerazine polymorph I and of two batches, TI(A) and II(B) of different particle size, of polymorph It were crystallized. The powders were compressed to form tablets whose porosity and tensile strength were measured. The relationships between tensile strength, porosity and compaction pressure were analyzed by the method developed by Joiris, E.,et al. Pharm. Res. 25:1122-1130 (1998). Results. The sensitivity of tensile strength to compaction pressure, knownas the tabletability, follows the order; I much greater than II(A) > II(B)and the porosity at the same compaction pressure, which measures the compressibility follows the order, I much less than II(A) < II(B). Therefore, the superior tabletability of I over II(A) or II(B) is attributed to its greater compressibility. Molecular simulation reveals slip planes in crystals of I but not in II. Slip planes provide I crystals greater plasticity and therefore greater compressibility and tabletability. Larger crystal size of II(B) than of II(A) leads to fewer contact points between crystals in the tablets and results in a slightly lower tabletability. Conclusions. Slip planes confer greater plasticity to crystals of L than II and therefore greater tabletability.

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Documento generato il 02/04/20 alle ore 21:41:36