Abstract: The present invention is directed to an excipient which can be used to manufacture tablets containing oily active ingredients such as oily drugs, and pharmaceutical compositions containing the same.
Abstract: The present invention is directed to an excipient which can be used to manufacture tablets containing oily active ingredients such as oily drugs, and pharmaceutical compositions containing the same.
Abstract: A compound comprises microcrystalline cellulose (MCC) in colloidal form and two different qualities of carboxymethyl cellulose (CMC), wherein the MCC and the two different qualities of CMC are combined by co-processing, wherein the two different qualities of CMC have different degrees of substitution (DS), wherein a low-substituted CMC is present with a DS of 0.6 to 0.9 and a high-substituted CMC is present with a DS of 1.10 to 1.45, wherein a percentage of CMC in the compound is between 5% and 18% by weight relating to a dry matter, and wherein the co-processing is done by homogenization.
Abstract: The invention relates to a compressible tablet material comprising the following components: an oil containing an active substance; silicified microcrystalline cellulose or microcrystalline cellulose as excipient.
Abstract: The invention relates to feedstuff for economically useful animals such as, for example, chicken, pigs, calves and fish that are being raised. The inventive feedstuff contains functional additives. The feedstuff contains a pure finely divided cellulose additive and optionally a prebiotic additive.
Abstract: The invention concerns a process for the production of a tableting excipient with the following process steps: At least two of the following components are made available: A filler/binding agent; A lubricant; A flow regulating agent; A disintegrant; The available components are mixed together.
Abstract: A composition containing finely-reduced utilizable material which is intended for human and/or animal consumption and a finely-reduced dispersion-promoting additive contain. The composition is pressed from an essentially homogeneous mixture of the finely-reduced utilizable material and the dispersing agent. The dispersing agent is in the form of a finely-reduced cellulose-containing material, which is compacted under mechanical pressure. An optional swelling material is provided as well as granulated forms for the materials. The composition has a characteristic of rapidity in dissolution.