The present invention relates to improved contact lens products which not only have an improved and sustainable wettability. The contact lens product of the invention comprises a soft hydrogel contact lens immersed and autoclaved in a packaging solution including a polyoxyethylene-polyoxybutylene block copolymer and a high molecular weight copolymer of N-vinylpyrrolidone and at least one amino-containing vinylic monomer. The present invention also provides methods for making contact lens products of the invention.

The present invention relates to improved contact lens products which not only have an improved and sustainable wettability. The contact lens product of the invention comprises a soft hydrogel contact lens immersed and autoclaved in a packaging solution including a polyoxyethylene-polyoxybutylene block copolymer and a high molecular weight copolymer of N-vinylpyrrolidone and at least one amino-containing vinylic monomer. The present invention also provides methods for making contact lens products of the invention.

A multilayer container for elevated temperature, high pressure processing of a material within the container, using a pressure transmission liquid within the container, the multilayer container having, a container wall having an inner layer formed of a plastic for containing the liquid in contact with the inner side thereof and at least one further layer outboard of the inner layer and formed of different plastic from the inner layer, wherein the inner layer has a compression heating coefficient at least as high as the compression heating coefficient of the pressure transmission liquid in contact with the inner side thereof and the at least one further layer has a lower thermal conductivity at ambient pressure and temperature than the inner layer.

A multilayer container for elevated temperature, high pressure processing of a material within the container, using a pressure transmission liquid within the container, the multilayer container having, a container wall having an inner layer formed of a plastic for containing the liquid in contact with the inner side thereof and at least one further layer outboard of the inner layer and formed of different plastic from the inner layer, wherein the inner layer has a compression heating coefficient at least as high as the compression heating coefficient of the pressure transmission liquid in contact with the inner side thereof and the at least one further layer has a lower thermal conductivity at ambient pressure and temperature than the inner layer.

The disclosed apparatus, systems and methods relate to modified atmosphere and pasteurized retail fresh protein preparations. Protein is packaged in a modified atmosphere lacking significant amounts of oxygen and then exposed to high-pressure pasteurization. The protein can be sealed or bagged within the modified atmosphere, and that combined with high-pressure pasteurization can extend the shelf-life of the packaged protein.

A confection containing device that contains a confection consumed frozen. The device includes a stick-spout-pouch assembly, and a stick cap. The stick-spout-pouch assembly includes a latching portion integral with a stick portion, and a pouch bag attached to the latching portion. The stick cap attaches to the latching portion of the stick-spout-pouch assembly. The pouch bag contains a confection in a non-frozen state surrounding the stick portion of the stick-spout-pouch assembly. The pouch bag of the stick-spout-pouch assembly is sealed to the latching portion of the stick-spout-pouch assembly. The stick cap attaches to the latching portion of the stick-spout-pouch assembly by a sealed connection. Further, the pouch bag is filled with the confection in a liquid state through at least one opening on the stick-spout-pouch assembly. The opening is on the latching portion of the stick-spout-pouch assembly.

The present disclosure provides methods for manufacturing a shelf-stable food product. In a general embodiment, the methods include acoustically mixing the food product with an acoustic mixing device during thermal processing of the food product. The methods of the present disclosure provide several advantages including, but not limited to, rapid achievement of a uniform temperature distribution during thermal processing, retention of nutrient content and organoleptic properties of the food product, and retention of particle integrity in the food product during and after mixing.

The present disclosure provides methods for manufacturing a shelf-stable food product. In a general embodiment, the methods include acoustically mixing the food product with an acoustic mixing device during thermal processing of the food product. The methods of the present disclosure provide several advantages including, but not limited to, rapid achievement of a uniform temperature distribution during thermal processing, retention of nutrient content and organoleptic properties of the food product, and retention of particle integrity in the food product during and after mixing.

The invention relates to a continuous sterilizing system comprising a sterilizing body into which a thermal fluid is introduced for sterilizing products, the products to be sterilized being arranged in containers that circulate inside the sterilizing body, said sterilizing body being divided into different sterilization zones by means of dividing walls, and each of said dividing walls having a through-opening that is substantially the same shape as a container, such that the containers close the through-openings of the dividing walls, rendering the sterilization zones thermally isolated from one another.

The invention relates to a continuous sterilizing system comprising a sterilizing body into which a thermal fluid is introduced for sterilizing products, the products to be sterilized being arranged in containers that circulate inside the sterilizing body, said sterilizing body being divided into different sterilization zones by means of dividing walls, and each of said dividing walls having a through-opening that is substantially the same shape as a container, such that the containers close the through-openings of the dividing walls, rendering the sterilization zones thermally isolated from one another.