Thickeners and nutritional products to promote safe swallowing for individuals with dysphagia and methods of making and using same

The invention claimed is: 1 . A thickener comprising a beta-glucan and an additive, wherein the thickener is formulated for providing a nutritional product a relaxation time, determined by a Capillary Breakup Extensional Rheometry (CaBER) experiment, of more than 10 ms (milliseconds) at a temperature of 20° C., wherein the additive comprises a combination selected from the group consisting of (1a) CMC in combination with guar gum, or locust bean gum; (1b) locust bean gum in combination with guar gum; (1c) Tara gum in combination with guar gum; (1d(i)) HPMC in combination with carrageenan iota or carrageenan kappa; (1d(ii)) HPMC in combination with guar gum, and at least one of carrageenan iota, carrageenan kappa, carrageenan lambda, konjac, or locust bean gum; (1d(iii)) HPMC in combination with locust bean gum, and at least one of carrageenan iota, carrageenan kappa, or tara gum; (1d(iv)) HPMC in combination with tara gum, and at least one of carrageenan kappa, konjac, or locust bean gum; (1d(v)) HPMC in combination with carrageenan iota, and at least one of konjac or locust bean gum; and (1d(vi)) HPMC in combination with konjac, and at least one of carrageenan kappa, sodium alginate, or locust bean gum. 2 . The thickener of claim 1 , wherein the additive comprises a gum. 3 . The thickener of claim 1 , wherein a weight ratio of the beta-glucan and the additive is from about 1:1 to about 1:10. 4 . The thickener of claim 1 , wherein the additive comprises a combination of HPMC, konjac, and at least one of carrageenan kappa, sodium alginate, or locust bean gum. 5 . The thickener of claim 1 , wherein the beta-glucan has a molecular weight (MW) above about 1,200,000 Da. 6 . A nutritional product comprising a diluent and further comprising a beta-glucan and an additive, the nutritional product having a relaxation time, determined by a Capillary Breakup Extensional Rheometry (CaBER) experiment, of more than 10 ms (milliseconds) at a temperature of 20° C., wherein the additive comprises at least two gums selected from the group of gum arabic, carrageenan lambda, carrageenan iota, carrageenan kappa, sodium alginate, konjac, locust bean gum, carboxymethyl cellulose (CMC), chitosan, pectin, acacia gum, hydroxypropyl methylcellulose (HPMC), tara gum, guar gum, and xanthan. 7 . The nutritional product of claim 6 , wherein a weight ratio of the beta-glucan and the additive is from about 1:1 to about 1:10. 8 . The nutritional product of claim 6 , wherein the additive comprises at least one of a protein or a carbohydrate. 9 . The nutritional product of claim 6 , wherein the additive comprises a combination of HPMC and at least one of iota carrageenan or kappa carageenan. 10 . The nutritional product of claim 6 , wherein the additive comprises a combination of HPMC, guar gum, and at least one of carrageenan kappa, carrageenan lambda, konjac, or locust bean gum. 11 . The nutritional product of claim 6 , wherein the additive comprises a combination of HPMC, guar gum, and locust bean gum. 12 . The nutritional product of claim 6 , wherein the additive comprises a combination of HPMC, carrageenan kappa, and at least one of konjac or locust bean gum. 13 . The nutritional product of claim 6 , wherein the additive comprises a combination of HPMC, konjac, sodium alginate, and at least one of carrageenan kappa or locus bean gum. 14 . The nutritional product of claim 6 , wherein the nutritional product is in an administrable form selected from the group consisting of a pharmaceutical formulation, a nutritional formulation, a dietary supplement, a functional food and beverage product, and a ready-to-drink (RTD) beverage. 15 . The nutritional product of claim 6 , wherein the relaxation time of the nutritional product is more than about 100 ms, determined by a Capillary Breakup Extensional Rheometry (CaBER) experiment, at a temperature of 20° C. 16 . A method of preventing, alleviating, and/or compensating swallowing dysfunction in a patient in need thereof, the method comprising: providing a nutritional product comprising a thickener comprising a beta-glucan and an additive, an amount of the thickener providing to the nutritional product a relaxation time, determined by a Capillary Breakup Extensional Rheometry (CaBER) experiment, of more than 10 ms (milliseconds), wherein the additive comprises at least two gums selected from the group of gum arabic, carrageenan lambda, carrageenan iota, carrageenan kappa, sodium alginate, konjac, locust bean gum, carboxymethyl cellulose (CMC), chitosan, pectin, acacia gum, hydroxypropyl methylcellulose (HPMC), tara gum, guar gum, and xanthan; and orally administering the nutritional product to the patient. 17 . The method of claim 16 , comprising: identifying a level of severity of the swallowing disorder in the patient; and selecting, based on the level of severity of the swallowing disorder in the patient, the amount of the thickener for diluting into the nutritional product, wherein the amount of the thickener is selected from a plurality of predetermined amounts that each corresponds to a different level of swallowing disorder severity. 18 . The method of claim 16 , wherein the thickener is diluted from a unit dosage form of the thickener that is an amount effective for administration of the nutritional product to an individual who suffers from dysphagia to achieve at least one of (i) supplemental nutrition, (ii) hydration or (iii) replacement of one or more full meals. 19 . The thickener of claim 1 , wherein the additive comprises a combination selected from the group consisting of (1) a combination of CMC and guar gum, wherein a weight ratio of the beta-glucan, the CMC, and the guar gum is from about 5:2:3 to about 2:1:1; (2) a combination of CMC and locust bean gum, wherein a weight ratio of the beta-glucan, the CMC, and the locust bean gum is from about 10:3:7 to about 2:1:1; (3) a combination of locust bean gum and guar gum, wherein a weight ratio of the beta-glucan, the locust bean gum, and the guar gum is about 5:2:3; (4) a combination of tara gum and guar gum, wherein a weight ratio of the beta-glucan, the tara gum, and the guar gum is about 5:3:2; (5) a combination of HPMC and at least one of carrageenan iota or carrageenan kappa, wherein a weight ratio of the beta-glucan, the HPMC, and the at least one of iota carrageenan or kappa carrageenan is from about 3:1:2 to about 3:2:1; (6) a combination of HPMC and carrageenan kappa, wherein a weight ratio of the beta-glucan, the HPMC, and the carrageenan kappa is from about 3:1:2 to about 3:2:1; (7) a combination of HPMC, guar gum, and at least one of carrageenan kappa, carrageenan lambda, konjac, or locust bean gum, wherein a weight ratio of the HPMC, the guar gum, and the at least one of kappa carrageenan, lambda carrageenan, konjac, or locust bean gum is from about 1:2:3 to about 1:6:8; (8) a combination of HPMC, guar gum, and locust bean gum, wherein a weight ratio of the HPMC, the guar gum, and the locust bean gum is about 1:6:8; (9) a combination of HPMC, locust bean gum, and at least one of carrageenan iota, carrageenan kappa, or tara gum, wherein a weight ratio of the HPMC, the locust bean gum, and the at least one of carrageenan iota, carrageenan kappa, or tara gum is from about 1:6:8 to about 1:8:6; (10) a combination of HPMC, locust bean gum, and carrageenan iota, wherein a weight ratio of the HPMC, the locust bean gum, and the carrageenan iota is about 1:4:10 to about 1:10:4; (11) a combination of HPMC, tar