Embodiments herein include systems and methods for forming meat products into chunks. In an embodiment, a system for producing irregular shredded meat pieces from a meat log is included. The system can include a conveying mechanism, a first rotational shredding shaft positioned adjacent to the conveying mechanism, a first plurality of shredding fingers connected to the first rotational shredding shaft, a second rotational shredding shaft positioned adjacent to the conveying mechanism, and a second plurality of shredding fingers connected to the second rotational shredding shaft. The first and second rotation shredding shafts configured to rotate in directions opposite from one another. In some embodiments, the system can also include a cutting blade disposed downstream from the first and second rotational shredding shafts. Other embodiments are also included herein.

A method of enhancing the growth of an animal is provided. The method includes causing the animal to ingest or absorb an effective amount of one or more Fe III complex compounds, including but not limited to Fe III complexes comprising ligands bound to the iron centre selected from amino acids or ?-hydroxy acids, o-hydroxy benzoic acids or pyridine-2-carboxylic acids, such as ferric quinate, ferric tyrosine, ferric DOPA and ferric phenylalanine. Compounds which are structural and/or functional variants, derivatives and/or analogs of the foregoing compounds, as further described herein are also disclosed. Methods for inhibiting, reducing, or preventing biofilm formation or buildup on a surface; the treatment of, inhibition of growth of, and inhibition of colonization by, bacteria, both in biological and non-biological environments; disinfecting surfaces, potentiating the effects of antibiotics and other anti-microbial agents, and increasing the sensitivity of bacteria and other microorganisms, to anti-microbial agents are also provided.

A method of enhancing the growth of an animal is provided. The method includes causing the animal to ingest or absorb an effective amount of one or more Fe III complex compounds, including but not limited to Fe III complexes comprising ligands bound to the iron centre selected from amino acids or ?-hydroxy acids, o-hydroxy benzoic acids or pyridine-2-carboxylic acids, such as ferric quinate, ferric tyrosine, ferric DOPA and ferric phenylalanine. Compounds which are structural and/or functional variants, derivatives and/or analogs of the foregoing compounds, as further described herein are also disclosed. Methods for inhibiting, reducing, or preventing biofilm formation or buildup on a surface; the treatment of, inhibition of growth of, and inhibition of colonization by, bacteria, both in biological and non-biological environments; disinfecting surfaces, potentiating the effects of antibiotics and other anti-microbial agents, and increasing the sensitivity of bacteria and other microorganisms, to anti-microbial agents are also provided.

A method of enhancing the growth of an animal is provided. The method includes causing the animal to ingest or absorb an effective amount of one or more Fe III complex compounds, including but not limited to Fe III complexes comprising ligands bound to the iron centre selected from amino acids or ?-hydroxy acids, o-hydroxy benzoic acids or pyridine-2-carboxylic acids, such as ferric quinate, ferric tyrosine, ferric DOPA and ferric phenylalanine. Compounds which are structural and/or functional variants, derivatives and/or analogs of the foregoing compounds, as further described herein are also disclosed. Methods for inhibiting, reducing, or preventing biofilm formation or buildup on a surface; the treatment of, inhibition of growth of, and inhibition of colonization by, bacteria, both in biological and non-biological environments; disinfecting surfaces, potentiating the effects of antibiotics and other anti-microbial agents, and increasing the sensitivity of bacteria and other microorganisms, to anti-microbial agents are also provided.

A method of enhancing the growth of an animal is provided. The method includes causing the animal to ingest or absorb an effective amount of one or more Fe III complex compounds, including but not limited to Fe III complexes comprising ligands bound to the iron centre selected from amino acids or ?-hydroxy acids, o-hydroxy benzoic acids or pyridine-2-carboxylic acids, such as ferric quinate, ferric tyrosine, ferric DOPA and ferric phenylalanine. Compounds which are structural and/or functional variants, derivatives and/or analogs of the foregoing compounds, as further described herein are also disclosed. Methods for inhibiting, reducing, or preventing biofilm formation or buildup on a surface; the treatment of, inhibition of growth of, and inhibition of colonization by, bacteria, both in biological and non-biological environments; disinfecting surfaces, potentiating the effects of antibiotics and other anti-microbial agents, and increasing the sensitivity of bacteria and other microorganisms, to anti-microbial agents are also provided.

A method of enhancing the growth of an animal is provided. The method includes causing the animal to ingest or absorb an effective amount of one or more Fe III complex compounds, including but not limited to Fe III complexes comprising ligands bound to the iron center selected from amino acids or ?-hydroxy acids, o-hydroxy benzoic acids or pyridine-2-carboxylic acids, such as ferric quinate, ferric tyrosine, ferric DOPA and ferric phenylalanine. Compounds which are structural and/or functional variants, derivatives and/or analogs of the foregoing compounds, as further described herein are also disclosed. Methods for inhibiting, reducing, or preventing biofilm formation or buildup on a surface; the treatment of, inhibition of growth of, and inhibition of colonization by, bacteria, both in biological and non-biological environments; disinfecting surfaces, potentiating the effects of antibiotics and other anti-microbial agents, and increasing the sensitivity of bacteria and other microorganisms, to anti-microbial agents are also provided.

A method of enhancing the growth of an animal is provided. The method includes causing the animal to ingest or absorb an effective amount of one or more Fe III complex compounds, including but not limited to Fe III complexes comprising ligands bound to the iron center selected from amino acids or ?-hydroxy acids, o-hydroxy benzoic acids or pyridine-2-carboxylic acids, such as ferric quinate, ferric tyrosine, ferric DOPA and ferric phenylalanine. Compounds which are structural and/or functional variants, derivatives and/or analogs of the foregoing compounds, as further described herein are also disclosed. Methods for inhibiting, reducing, or preventing biofilm formation or buildup on a surface; the treatment of, inhibition of growth of, and inhibition of colonization by, bacteria, both in biological and non-biological environments; disinfecting surfaces, potentiating the effects of antibiotics and other anti-microbial agents, and increasing the sensitivity of bacteria and other microorganisms, to anti-microbial agents are also provided.

Process and an apparatus adapted to carry out the process steps for producing sausage products, which includes the following steps: Comminuting raw meat with fat, adding seasoning, salt and further additives, mixing in order to produce a raw sausage mass, forming the raw sausage mass, warming and fermenting the formed raw sausage mass, warming the formed fermented sausage mass to a temperature of approximately 57 C., and incubating at approximately 57 C. for germ reduction, immediately subsequently cooling the cooked fermented sausage mass to 1 C. or below with reduced pressure being applied, in order to produce a dried and cooled cooked sausage mass.

Disclosed are various embodiments of either self-contained, separate or combinations thereof of modular units for the processing of comestible products. The modular unit is configured with sections to create hygienic zoning of food to be processed. The modular unit is can contain components to process food from a raw state, such as an animal carcass or freshly harvested produce, through primary and (optionally) secondary processing. The modular unit can be utilized to process various types of food, and, therefore, the modular unit is provided in various embodiments depending on the food to be processed therein, and the types of processing that are desired. The modular unit is constructed and the sections therein are configured such that as the food undergoes processing, it flows through the sections of the modular unit in an orderly manner, which helps to minimize or prevent food safety problems, such as cross contamination.

Disclosed are various embodiments of either self-contained, separate or combinations thereof of modular units for the processing of comestible products. The modular unit is configured with sections to create hygienic zoning of food to be processed. The modular unit is can contain components to process food from a raw state, such as an animal carcass or freshly harvested produce, through primary and (optionally) secondary processing. The modular unit can be utilized to process various types of food, and, therefore, the modular unit is provided in various embodiments depending on the food to be processed therein, and the types of processing that are desired. The modular unit is constructed and the sections therein are configured such that as the food undergoes processing, it flows through the sections of the modular unit in an orderly manner, which helps to minimize or prevent food safety problems, such as cross contamination.