Described herein, are cleansing bar compositions comprising at least one cleanser chosen from soap and surfactant; taurine, in free or salt form; and at least one polymer. Methods of making using the cleansing bar compositions are also described.

The present invention concerns a detergent and a pharmaceutical composition comprising a deoxyribonuclease (DNase), wherein the DNase is obtained from a fungal source. It further concerns a laundering method and the use of DNase. The present invention further relates to polypeptides having DNase activity, nucleotides encoding the polypeptide, as well as methods of producing the polypeptides.

A method of isolating an antibody is disclosed. The method comprises contacting a hydrophobic chelator, a non-ionic detergent and metal ions so as to generate an aggregate comprising the hydrophobic chelator, the detergent and the metal ions; and contacting the aggregate with a medium comprising the antibody under conditions that allow partitioning of the antibody into the aggregate. Kits for isolating the antibody are also disclosed.

A method of isolating an antibody is disclosed. The method comprises contacting a hydrophobic chelator, a non-ionic detergent and metal ions so as to generate an aggregate comprising the hydrophobic chelator, the detergent and the metal ions; and contacting the aggregate with a medium comprising the antibody under conditions that allow partitioning of the antibody into the aggregate. Kits for isolating the antibody are also disclosed.

The invention relates to bars which provide specific combinations and amounts of nonionic polymer, polyol, short chain fatty acid and solid particles. These specific combinations provide both improved sensory and improved fragrance delivery.

A cleaning mixture comprising polymeric resin pellets having a Rockwell R hardness of 85 to 140, water, and a surfactant salt comprising at least one of sulfonate salts, C.sub.6 to C.sub.36 carboxylic acid salts, or mixtures thereof, is used to purge the mixing device. The cleaning mixture has a pH of 6.0 to 9.0.

The embodiments herein disclose a composition for a non-medicated liquid cleaning solution for personal care and hygiene and a method of synthesizing the same. The composition comprises cyclomethicone, DC5225C, ethyl lactate, sesame oil, Vitamin E, organic castile soap, sweet orange oil or fragrances. For synthesizing the composition, the ingredients are procured. The castile soap is treated to remove water content. All the ingredients except cyclomethicone are mixed to obtain clear solution mixture. The clear solution mixture is added to cyclomethicone. The clear solution mixture and cyclomethicone are mixed to obtain a homogeneous mixture. The composition is sprayed or applied on tissue paper/toilet paper. The composition makes the tissue paper into a moist wipe used for cleaning the body parts like private body parts, groin, face, genital area, groin and rear end.

The invention relates to bars which provide specific combinations and amounts of nonionic polymer, polyol, short chain fatty acid and solid particles. These specific combinations provide both improved sensory and improved fragrance delivery.

A method and material for 3D printing objects containing heat-sensitive molecules are disclosed. The composition consists of a water-saturated, polar thermoplastic polymer, such as highly hydrolyzed polyvinyl alcohol (PVA), into which functional moleculesproteins, peptides, pharmaceuticals, fragrances, or living cellsare dispersed. The polymer is first hydrated to form a gel, extruded and cut into pellets, then partially dried through a multi-stage dehydration process that leaves a moisture-rich core and a dry outer shell. During extrusion at typical FDM nozzle temperatures (200 C.), entrapped water within the material vaporizes at 100 C., providing in situ evaporative cooling and maintaining the temperature of the functional molecules below their degradation point. The process enables additive manufacturing of structurally sound objects that preserve the activity of heat-sensitive additives, opening new applications for 3D-printed consumables, pharmaceuticals, and bio-functional components.

A process for making a particulate laundry detergent composition.