2004
DOI: 10.1039/b402150a
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Crystal engineering of the composition of pharmaceutical phases. Do pharmaceutical co-crystals represent a new path to improved medicines?

Abstract: The evolution of crystal engineering into a form of supramolecular synthesis is discussed in the context of problems and opportunities in the pharmaceutical industry. Specifically, it has become clear that a wide array of multiple component pharmaceutical phases, so called pharmaceutical co-crystals, can be rationally designed using crystal engineering, and the strategy affords new intellectual property and enhanced properties for pharmaceutical substances.

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Cited by 984 publications
(745 citation statements)
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“…Pharmaceutical co-crystals, combining an API and an acceptable co-former, 11 have the potential for enhancing the physical properties of the API, positively impacting its solubility, stability, oral bioavailability and processability, without compromising its biological function 1,9,[12][13][14][15][16][17][18][19][20][21] .…”
Section: Introductionmentioning
confidence: 99%
“…Pharmaceutical co-crystals, combining an API and an acceptable co-former, 11 have the potential for enhancing the physical properties of the API, positively impacting its solubility, stability, oral bioavailability and processability, without compromising its biological function 1,9,[12][13][14][15][16][17][18][19][20][21] .…”
Section: Introductionmentioning
confidence: 99%
“…Suitable cocrystals can enable the tuning of the crucial physical and chemical parameters such as the solubility, vapour pressure, crystal habit etc., of a an active ingredient in pharmaceutical, 35 agrochemical or other areas. 3 The prevailing model for cocrystal engineering is using a supramolecular synthon approach, where supramolecular synthons, which consist of intermolecular interactions (especially hydrogen bonds), are viewed as bonds for the construction of supermolecules, i.e. crystals.…”
mentioning
confidence: 99%
“…Synthons formados por interações entre dois grupos funcionais iguais são classificados como homosynthons, enquanto que as interações entre dois grupos funcionais diferentes são mais favoráveis e caracterizam os heterosynthons (Figura 6). 27 Além de interações baseadas em complementaridade molecular, cabe ressaltar que outros fenômenos podem estar envolvidos na formação de um cocristal. O empacotamento, a estereoquímica dos componentes e características intrínsecas do fármaco, como a polaridade e o pK a , também devem ser considerados durante a seleção do coformador para a síntese do cocristal.…”
Section: Desenho Do Cocristalunclassified
“…Desta forma, agentes solubilizantes podem induzir pontos de transição. [14][15][16]27,106,107 Um exemplo interessante é o cocristal de indometacina-sacarina (IND-SAC), cuja vantagem da solubilidade, 26 vezes maior do que a indometacina em pH 2, 11 é eliminada na presença de lauril sulfato de sódio, Brij 99 ou Tween 80, onde o cocristal apresenta menor solubilidade. 11,107 Os agentes solubilizantes podem, de fato, aumentar a solubilidade de ambos, cocristal e fármaco, porém a razão da solubilização (S cocristal /S fármaco ) é variável, dependendo da natureza e da concentração destes agentes.…”
Section: Agentes Solubilizantesunclassified