PACKAGING PROCEDURES TO EXTEND THE SHELFLIFE OF FRESH PORK.

Bojorquez Romo, Antonio.

January 1985

No description available.

Food -- Packaging.

Pork -- Preservation.

Effects of modified atmosphere packaging and low-dose irradiation on the shelf life and microbiological safety of fresh pork

Lambert, Anne

January 1991

The effects of irradiation dose (0, 0.5 and 1.0 kGy), various gas atmospheres and storage temperature (5, 15 and 25$ sp circ$C) on the physical, chemical, microbiological, and organoleptic changes in fresh pork were studied using factorial design experiments. The effects on toxin production by Clostridium botulinum were also investigated using challenge studies. Shelf life could be extended to 21 d when product was packaged in 0% O$ sb2$, irradiated at 1.0 kGy and stored at 5$ sp circ$C compared to 4 d for control samples. While the presence of O$ sb2$ in the package headspace enhanced the antimicrobial effects of low-dose irradiation, it adversely affected the organoleptic qualities of pork. Botulinum toxin was detected after only 2 d in all inoculated treatments stored at 25$ sp circ$C. At 15$ sp circ$C, toxin was produced faster when pork was initially packaged with O$ sb2$ or low levels of CO$ sb2$ (15-30%) as compared to 100% N$ sb2$. Higher levels of CO$ sb2$ (45-75%) delayed toxin production. In most treatments, spoilage preceded toxigenesis. Models were developed relating the above factors to the time until toxin production and to the probability of toxigenesis. Temperature, initial O$ sb2$ and irradiation were all significant factors.

Pork -- Preservation.

Pork -- Spoilage.

Pork -- Packing.

Irradiated foods.

Protective atmospheres.

The combined effect of modified atmosphere packaging (MAP) and chitosan on the growth of Lysteria monocytogenes in model systems and in fresh pork loin

Morris, Jennifer E. (Jennifer Elizabeth)

January 1995

Listeria monocytogenes is a pathogenic, psychrotrophic microorganism that is ubiquitous in nature. L. monocytogenes has been isolated from numerous meat products, both fresh and processed, the incidence of contamination varying greatly. The ability of Listeria to grow in meats depends on temperature, pH, water activity (a$ sb{ rm w}$), nutrients, species and numbers of competing microorganisms, gaseous conditions, and levels of additional barriers. Therefore, methods to control the growth of L.monocytogenes are of great importance to food processors since this organism can grow under a wide range of environmental and storage conditions. Two methods of control, in conjunction with temperature, were studied in this project: (i) modified atmosphere packaging (MAP) and (ii) chitosan, to determine the optimum levels of these "hurdles" needed to effectively control the outgrowth of L.monocytogenes in both model broth and agar systems and in fresh pork loin. On the basis of these preliminary studies, a combination of chitosan as a dipping solution and modified atmosphere packaging were investigated to control the growth of L.monocytogenes in fresh pork loin. Pork loin samples were dipped in a 0.2% chitosan solution for 60 seconds and packaged under various atmospheres in Cryovac bags and stored at 5, 10 and 15$ sp circ$C up to 28 days. Samples were monitored for physical, chemical and microbiological changes throughout the storage period. Optimum control over the growth of L. monocytogenes was achieved using a combination of 100%N$ sb2$ + an Ageless FX oxygen absorbent and dipping in a 0.2% chitosan solution. Based on these studies, a combination of 0.2% chitosan and MAP could be used to extend the shelf life of pork without adversely affecting color, odor and exudate loss while inhibiting the growth of the pathogenic microorganism, L.monocytogenes. (Abstract shortened by UMI.)

Pork -- Preservation.

Pork -- Spoilage.

Pork -- Packaging.

Protective atmospheres.

Effects of modified atmosphere packaging and low-dose irradiation on the shelf life and microbiological safety of fresh pork

Lambert, Anne

January 1991

No description available.

Pork -- Packing.

Pork -- Preservation.

Protective atmospheres.

Irradiated foods.

Pork -- Spoilage.

The combined effect of modified atmosphere packaging (MAP) and chitosan on the growth of Lysteria monocytogenes in model systems and in fresh pork loin

Morris, Jennifer E. (Jennifer Elizabeth)

January 1995

No description available.

Pork -- Spoilage.

Protective atmospheres.

Pork -- Preservation.

Pork -- Packaging.

Antimicrobial properties of monolaurin and selected antioxidants in vitro and in ground pork

Cheng, Tai Ben.

January 1985

Call number: LD2668 .T4 1985 C475 / Master of Science

Microorganisms--Effect of drugs on.

Monoglycerides--Analysis.

Antioxidants--Analysis.

Pork--Preservation.

Masters theses

Effects of various home freezer wraps on frozen ground pork

Clark, Julie Diane.

January 1985

Call number: LD2668 .T4 1985 C525 / Master of Science

Pork--Preservation.

Plastics in packaging.

Aluminum in packaging.

Pork.

Frozen foods--Quality.

Masters theses

High pressure processing of milk and muscle foods : evaluation of process kinetics, safety and quality changes

Mussa, Dinna Mathemi.

January 1999

No description available.

High pressure (Technology)

Food industry and trade

Pork -- Preservation.

Dairy processing.

Milk -- Microbiology.

Meat -- Microbiology.

High pressure processing of milk and muscle foods : evaluation of process kinetics, safety and quality changes

Mussa, Dinna Mathemi.

January 1999

High pressure (HP) kinetics of the microbial destruction and changes in the physicochemical characteristics of milk and pork were studied. Raw milk samples containing indigenous microflora of approximately 106 CFU/mL were heat sealed in dual peel sterilization pouches and subjected to HP treatment from 150--400 MPa with holding times ranging 5--120 min. The kinetic parameters (rate constant, k and decimal reduction time, D) for the microorganisms, alkaline phosphatase, color and viscosity were evaluated, based on first order kinetics and the pressure dependence of kinetic parameters was evaluated using pressure destruction time (PDT) and Arrhenius models. Kinetic data was well described by the first order model (R 2 > 0.90). / The application of pressure pulse was explored for pressure destruction of microorganisms as well as changes in physical-chemical characteristics of pork chops. Pork chops (2 days post-rigor) were subjected to HP treatment from 200--350 MPa for 0--120 min. Results showed that pressure changes of pork variables followed a dual effect consisting of an instantaneous pressure kill (IPK) with the application of pressure pulse (no holding) and a subsequent first order rate of destruction during the pressure hold time. The IPK values were pressure dependent and increased with pressure level. Parameters k and D indicated a higher rate of pressure destruction of microorganisms compared to quality attributes. / Kinetics of pressure destruction of Listeria monocytogenes Scott A were studied in relation to those of indigenous microorganism of milk and pork. The IPK was more pronounced with L. monocytogenes than with indigenous microflora. However, the kinetic parameters (k and D values) indicated a larger pressure resistance for L. monoctyogenes. HP processes were developed based on the standard plate count (SPC) kinetic data for indigenous microflora of milk as well as L. monocytogenes in milk and pork. The results showed that SPC kinetics permitted good estimation of microbial destruction in low pressure-lethality processes of milk and pork but its application at higher pressure-lethality levels were inaccurate. On the other hand, processes established based an destruction of L. monocytogenes were more predictable. Pressure pulse application to microbial lethality was also well predicted. / The shelf-life of milk and pork increased with the level of applied pressure lethality, but Q10 values suggested that low storage temperature was nevertheless required to control microbial growth and maintain quality. Storage of HP treated park offered some improvement in the texture but resulted in large color changes and drip losses. L. monocytogenes were not detected in any of the stored milk samples HP treated to achieve a lethality ≥10D.

Food industry and trade

High pressure (Technology)

Dairy processing.

Milk -- Microbiology.

Meat -- Microbiology.

Pork -- Preservation.

Economic feasibility of minimally processed pork and fish in Quebec

Owusu-Manu, Michael.

January 1997

The focus of this thesis was on the economic feasibility of three food processing projects. They involved freezing of pork loin and fish using cryogenic freezing and stored at $-$18, $-$12 and $-$7$ sp circ$C, and modified atmosphere packaging (MAP) of pork loin using a combination of nitrogen and carbon dioxide gases, chitosan dip and stored at 5, 10, and 15$ sp circ$C. A production plan with similar layout and capacity was adopted for the Montreal area. The benefit-cost analysis (BCA) of each project was carried out assuming that each plant operated approximately 2000 hours per annum at full capacity. Net present value (NPV) and benefit cost ratio (B/C ratio) at 8% discount rate, and internal rate of return (IRR) were determined for each project. The calculations show the NPV of $2.4 million, $1.8 million, and $3.4 million; B/C ratio of 1.09, 1.09, and 1.10; IRR of 15 %, 13 %, and 18 % for frozen pork loin, frozen fish and MAP pork respectively. All IRRs were higher compared to the 1995 return rates of TSE of 9.7 % and the average return of capital of 8.8 % for some food and beverage industries. These economic values are sensitive to changes in working hours, price of raw materials and finished products. It is also found that MAP products could be stored at temperatures up to 15$ sp circ$C. Frozen products could be stored at temperatures of $-$12$ sp circ$C and below only if the length of distribution chain can be reduced. This would decrease electricity costs up to 36% at each level of distribution. It can be concluded that the three projects are economically profitable.