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D5LR (5% dextrose in lactated Ringer solution) D50 – 50% dextrose in water; The percentage is a mass concentration, so a 5% glucose/dextrose solution contains 50 g/L of glucose/dextrose (5 g per 100 ml). This usage is imprecise but widely used, as discussed at Mass concentration (chemistry) § Usage in biology. Glucose provides energy 4 kcal ...
This page was last edited on 8 March 2014, at 14:49 (UTC).; Text is available under the Creative Commons Attribution-ShareAlike 4.0 License; additional terms may ...
Maltodextrins are classified by a dextrose equivalent (DE), [5] [6] a number between 3 and 20 that corresponds to the number of free chain ends in a certain sample. A lower DE value means the polymer chains are longer (contain more glucose units) whereas a higher DE value means the chains are shorter. [6]
The formula is used in therapeutic feeding centers where children are hospitalized for treatment. [1] F-75 is considered the "starter" formula, and F-100 the "catch-up" formula. [ 2 ] The designations mean that the product contains respectively 75 and 100 kcals per 100 ml. F-75 provides 75 kcal and 0.9 g protein per 100 mL, while F-100 provides ...
A gel refers to the semi- solid, 3-dimensional matrix formed from an interspersed system of colloidal particles or the permeation of a solvent into an entwined polymer chain network. [1] [2] [5] [3] [8] Pharmaceutical gels are formed by adding a gelator (gelling agent) to the solvent [5] [6] and active ingredient mixture.
Maltitol provides between 2 and 3 calories per gram [cal/g] (8–10 J/g). [5] Maltitol is largely unaffected by human digestive enzymes and is fermented by gut flora , with about 15% of the ingested maltitol excreted unchanged in the feces.
Dextran chains are of varying lengths (from 3 to 2000 kilodaltons). The polymer main chain consists of α-1,6 glycosidic linkages between glucose monomers, with branches from α-1,3 linkages. This characteristic branching distinguishes a dextran from a dextrin, which is a straight chain glucose polymer tethered by α-1,4 or α-1,6 linkages. [2]
Glucose (dextrose) has a molecular mass of 180, while water has a molecular mass of 18. For each 2 glucose monomers binding, a water molecule is removed. Therefore, the molecular mass of a glucose polymer can be calculated by using the formula (180*n - 18*(n-1)) with n the DP (degree of polymerisation) of the glucose polymer.