Lamb and Goat
| Reference | Product | Type of Meat | Microorganism Tested | Process / Intervention | Pathogen Effect | Operational Parameters | Critical Operational Parameters | Comments |
|---|---|---|---|---|---|---|---|---|
| Arya, R., M. Bryant, H. L. Degala, A. K. Mahapatra, G. Kannan. 2018. Effectiveness of a low-cost household electrolyzed water generator in reducing the populations of Escherichia coli K12 on inoculated beef, chevon, and pork surfaces. Journal of Food Processing and Preservation. DOI: 10.1111/jfpp.13636 | Beef pieces (retail source) Pork pieces (retail source) Goat pieces, boneless |
Chilled Beef Pork Goat (chevon) |
E. coli O157:H7 surrogate | (i) acidic electrolyzed water (ii) alkaline electrolyzed water |
Bactericidal | Time: 2, 4, 6, 8, 10, and 12 minutes Temperature: NE Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): spray Point of Application (hot cx, cold cx, subprimal, trim): subprimals (presumed; not explicitly stated) |
Time: 2, 4, 6, 8, 10, and 12 minutes |
Generally, acidic electrolyzed water was more effective than the alkaline treatment in producing surrogate reductions on products from all three species. A reduction of 0.96-log or greater was seen for all species with acidic application times of 4 minutes and above. For alkaline treatments, reductions of 0.91-log or greater was seen across species with application times 8 minutes and greater, with one exception (chevon at 10 min). |
| Degala, H. L, A. K. Mahapatra, A. Demirci, and G. Kannan. 2016. Evaluation of non-thermal hurdle technology for ultraviolet-light to inactivate Escherichia coli K12 on goat meat surfaces. Food Control. 90:113-120. https://doi.org/10.1016/j.foodcont.2018.02.042 | Goat pieces, boneless | Goat | E. coli O157:H7 surrogate | (i) Pulsed-light (UV-C) (ii) Lemongrass oil (LG) |
Bactericidal | (i) Pulsed-light Time: see "Other" below Temperature: NE Concentration: NE Volume: NE Equipment Settings: The unit was factory calibrated at 254 nm. Pressure Delivery: NE Treatment Application Type (spray/wash): pulsed light Point of Application (hot cx, cold cx, subprimal, trim): subprimals Equipment specs: Spectrolinker, XL-1500 Series (Spectronics Corporation, Westbury, NY). Other: Distances: Energy dosage used for each treatment was calculated based on intensities and treatment time used. Intensities of 100 and 200 mWcm^2, and treatment time 2, 4, 6, 8, 10, and 12 min were selected for this study which yielded the energy dosages as 0.2 to 2.4 mJ cm^2. (ii) Lemongrass oil Time: 2, 4, 6, 8, 10, and 12 min Temperature: NE Concentration: 0.25, 0.5, and 1% Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): surface spread Point of Application (hot cx, cold cx, subprimal, trim): subprimals |
(i) Pulsed-light Equipment Settings: The unit was factory calibrated at 254 nm. Equipment specs: Spectrolinker, XL-1500 Series (Spectronics Corporation, Westbury, NY). Other: Distances: Energy dosage used for each treatment was calculated based on intensities and treatment time used. Intensities of 100 and 200 mWcm^2, and treatment time 2, 4, 6, 8, 10, and 12 min were selected for this study which yielded the energy dosages as 0.2 to 2.4 mJ cm^2. (ii) Lemongrass oil Time: 2, 4, 6, 8, 10, and 12 min Concentration: 0.25, 0.5, and 1% |
When UV-C was tested alone, an intensity of 100 mWcm^-2 achieved about 0.5 to 0.6 log reduction regardless of treatment time. Similarly, time did not seem to be a significant at the higher intensity (100 mWcm^-2) with approximately 0.9 to 1.2 log reductions seen across treatment times. LG also was independently evaluated and approximate log reductions of 0.5, 1.4, and 2 were seen across all treatment times for concentrations of 0.25, 0.5, and 1.0%, respectively. Authors' summary of findings: The combination of 1% LG + UV-C with 200 mW cm^2 treatment for 2min resulted in a synergistic microbial reduction of 6.66 log10 CFU mL^-1 (below detection levels) of E. coli K12 compared to the control, the level of which was significantly higher than individual and other hurdle treatments (P < 0.05). |
Thomas, C. L., A. M. Stelzleni, A. G. Rincon, S. Kumar, M. Rigdon, R. W. McKee, and H. Thippareddi. 2019. Validation of Antimicrobial Interventions for Reducing Shiga Toxin–Producing Escherichia coli Surrogate Populations during Goat Slaughter and Carcass Chilling. Journal of Food Protection. 82: 364-370. doi:10.4315/0362-028X.JFP-18-298 |
Goat carcass, hot and chilled | Goat | E. coli O157:H7 surrogates | (i) lactic acid (LA) (ii) peroxyacetic acid (PAA) (iii) Citrilow (hydrochloric and citric acid blend;CL) (iv) 5% levulinic acid plus 0.5% sodium dodecyl sulfate (LVA+SDS) |
Bactericidal | (i) lactic acid (LA) Time: NE Temperature: 25C Concentration: 4.5% (pH 2.1) Volume: 380mL/min Equipment Settings: NE Pressure Delivery: 172.37 kPa Treatment Application Type (spray/wash): spray Point of Application (hot cx, cold cx, subprimal, trim): hot and chilled carcasses (ii) peroxyacetic acid (PAA) Time: NE Temperature: 25C Concentration: 400 ppm (pH 4.7) Volume: 380mL/min Equipment Settings: NE Pressure Delivery: 172.37 kPa Treatment Application Type (spray/wash): spray Point of Application (hot cx, cold cx, subprimal, trim): hot and chilled carcasses (iii) Citrilow (hydrochloric and citric acid blend;CL) Time: NE Temperature: 25C Concentration: pH 1.2 Volume: 380mL/min Equipment Settings: NE Pressure Delivery: 172.37 kPa Treatment Application Type (spray/wash): spray Point of Application (hot cx, cold cx, subprimal, trim): hot and chilled carcasses (iv) 5% levulinic acid plus 0.5% sodium dodecyl sulfate (LVA+SDS) Time: NE Temperature: 25C Concentration: 5% LVA; 0.5% SDS (pH 2.6) Volume: 380 mL/min Equipment Settings: NE Pressure Delivery: 172.37 kPa Treatment Application Type (spray/wash): spray Point of Application (hot cx, cold cx, subprimal, trim): hot and chilled carcasses |
(i) lactic acid (LA) Temperature: 25C Concentration: 4.5% (pH 2.1) (ii) peroxyacetic acid (PAA) Temperature: 25C Concentration: 400 ppm (pH 4.7) (iii) Citrilow (hydrochloric and citric acid blend;CL) Temperature: 25C Concentration: pH 1.2 (iv) 5% levulinic acid plus 0.5% sodium dodecyl sulfate (LVA+SDS) Temperature: 25C Concentration: 5% LVA; 0.5% SDS (pH 2.6) |
Authors' summary of findings: Mean log reductions achieved after prechill treatment with LA, PAA, CL, and LVA+SDS were 2.00, 1.86, 2.26, and 1.90 log CFU/cm2, respectively. Antimicrobial treatment after the 24-h chilling, resulted in additional reductions of surrogate E. coli by 0.99, 1.03, 1.94, and 0.47 log CFU/cm^2 for LA, PAA, CL, and LVA+SDS, respectively. |
| Andres, A. I., M. J. Petron, J. D. Adamez, M. Lopez, M. L. Timon. 2017. Food by-products as potential antioxidant and antimicrobial additives in chill stored raw lamb patties. Meat Science. 129:62-70. http://dx.doi.org/10.1016/j.meatsci.2017.02.013 | Lamb patties | Lamb | Naturally occurring: APC Psychrotrophs Enterobacteriaceae Lactic acid bacteria Salmonella spp. Listeria monocytogenes |
Aqueous extracts from: (i) tomato (TOM) (ii) red grape (GRA) (iii) olive (OLI) (iv) pomegranate (POM) Positive control: (v) sodium ascorbate (ASC) |
Both | All interventions: Time: NE Temperature: NE Concentration: 1000mg extract per 1 kg meat Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): added ingredient Point of Application (hot cx, cold cx, subprimal, trim): minced lamb |
All interventions: Concentration: 1000mg extract per 1 kg meat |
**NOT AN INOCULATION STUDY** Compared to control samples, mesophile counts were lower for all treatments regardless of storage day. Although differences between treatments are variable, some advantages of the additives can be seen in psychrotrophs and Enterobacteriaceae at days 3 and 7. No pathogens were detected. |
| Dubal, Z., A. Paturkar, V. Waskar, R. Zende, C. Latha, D. Rawool, and M. Kadam. 2004. Effect of food grade organic acids on inoculated S-aureus, L-monocytogenes, E-coli and S-Typhimurium in sheep/goat meat stored at refrigeration temperature. Meat Science 66: 817-821. doi:10.1016/j.meatsci.2003.08.004 | Hot carcass | Sheep/goat | Staphylococcus aureus Listeria monocytogenes Escherichia coli (Generic) Salmonella Typhimurium |
(i) Lactic Acid (2%) Spray (ii) Acetic Acid (1.5%) + Propionic Acid (1.5%) Spray |
Bactericidal | (i) Lactic Acid Spray Time: 2-4 min Temperature: NE Concentration: 2% Volume: NE Equipment Settings: NE Pressure Delivery: 3 kg/cm2 Treatment Application Type (spray/wash): Spray Point of Application: Hot carcass pieces to represent a hot carcass (ii) Acetic + Propionic Acid Spray Time: 2-4 min Temperature: NE Concentration: Acetic: 1.5% and Propionic: 1.5% Volume: NE Equipment Settings: NE Pressure Delivery: 3 kg/cm2 Treatment Application Type (spray/wash): Spray Point of Application: Hot carcass pieces to represent a hot carcass |
(i) Lactic Acid Spray Time: 2-4 min Concentration: 2% Pressure Delivery: 3 kg/cm2 (ii) Acetic + Propionic Acid Spray Time: 2-4 min Concentration: Acetic: 1.5% and Propionic: 1.5% Pressure Delivery: 3 kg/cm2 |
Both treatments resulted in a reduction of TVC Lactic Acid spray (2%) completely inhibited S. aureus, L. monocytogenes, and S. Typhimurium and reduced E. coli |
| Degala, H., J. Scott, P. Nakkiran, A. Mahapatra, and G. Kannan. 2016. Inactivation of E. coli O157:H7 on goat meat surfave using ozonated water alone and in combination with electrolyzed oxidizing water. ASABE Annual International Meeting 162462209. | Subprimals | Goat | Escherichia coli K12 | (i) Ozonated Water Wash (ii) Ozonated Water Wash + Electrolyzed Oxidizing Water Wash |
Bactericidal | (i) Ozonated Water Wash Time: 1, 2, 3, 4, 6, 8, 10, and 12 min Temperature: NE Concentration: NE Volume: NE Equipment Settings: Ozonated Water Generator Pressure Delivery: NE Treatment Application Type (spray/wash): Wash Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass pieces (ii) Electrolyzed Oxidizing Water Wash Time: 1, 2, 3, 4, 6, 8, 10, and 12 min Temperature: NE Concentration: 0.045% salt solution Volume: NE Equipment Settings: Hydracide HC-3000 water ionizer Pressure Delivery: NE Treatment Application Type (spray/wash): Wash Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass pieces |
(i) Ozonated Water Wash Time: 1, 2, 3, 4, 6, 8, 10, and 12 min (ii) Electrolyzed Oxidizing Water Wash Time: 1, 2, 3, 4, 6, 8, 10, and 12 min Concentration: 0.045% electrolyzed salt solution |
The maximum reduction in E. coli was a result of the combination treatment of ozonated water (6 min) and acidic electrolyzed oxidating water (6 min) The use of acidic electrolyzed oxidizing water with ozonated water significantly improved the inactivation rate |
| Fregonesi, R., R. Portes, A. Aguiar, L. Figueira, C. Goncalves, V. Arthur, C. Lima, A. Fernandes, and M. Trindade. 2014. Irradiated vacuum-packed lamb meat stored under refrigeration: Microbiology, physicochemical stability and sensory acceptance. Meat Science 97: 151-155. doi:10.1016/j.meatsci.2014.01.026 | Subprimals | Lamb | Anaerobic psychotropic bacteria Anaerobic mesophilic bacteria Salmonella spp. Staphylococcus aureus Coliforms Lactic Acid Bacteria |
(i) Gamma radiation |
Bactericidal | (i) Gamma Radiation Time: NE Temperature: NE Concentration: 1.5 and 3.0 kGy Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): NE Point of Application (hot cx, cold cx, subprimal, trim): subprimals |
(i) Gamma Radiation Concentration: 1.5 and 3.0 kGy |
For all microorganisms, initial counts were decreased in irradiated samples |
| Kochevar, S., J. Sofos, S. LeValley, and G. Smith. 1997. Effect of water temperature, pressure and chemical solution on removal of fecal material and bacteria from lamb adipose tissue by spray-washing. Meat Science 45: 377-388. doi:10.1016/S0309-1740(96)00104-0 | Hot Carcass | Lamb | Escherichia coli (Generic) | (i) Knife Trimming (ii) Water Wash (iii) Trisodium phosphate (12%) Spray (iv) Acetic Acid (2%) Spray (v) Hydrogen Peroxide (5%) Spray (vi) Chlorine (0.003%) Spray |
Bactericidal | (i) Water Wash Time: NE Temperature: 16, 35, 74°C Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): spray Point of Application (hot cx, cold cx, subprimal, trim): hot carcass (ii) Trisodium Phosphate Spray Time: 18s Temperature: NE Concentration: 12% Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): Spray Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass (iii) Acetic Acid Spray Time: 18s Temperature: NE Concentration: 2% Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): Spray Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass (iv) Hydrogen Peroxide Spray Time: 18s Temperature: NE Concentration: 5% Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): Spray Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass (v) Chlorine Spray Time: 18s Temperature: NE Concentration: 0.003% Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): Spray Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass |
(i) Water Wash Temperature: 16, 35, 74°C (ii) Trisodium Phosphate Spray Time: 18s Concentration: 12% (iii) Acetic Acid Spray Time: 18s Concentration: 2% (iv) Hydrogen Peroxide Spray Time: 18s Concentration: 5% (v) Chlorine Spray Time: 18s Concentration: 0.003% |
Water wash at 74°C was the most effective method of reducing bacterial contamination The greatest reduction in APC was a result of a hot water wash (74°C) or a second wash with acetic acid (2%) spray |
| Ellerbroek, L., J. Wegener, and G. Arndt. 1993. Does spray washing of lamb carcasses alter bacterial surface contamination. Journal of Food Protection. 56: 432-436. | Hot Carcass | Lamb | APC Enterobacteriaceae |
Water Wash | Bactericidal | (i) Water Wash Time: 20s Temperature: 12°C Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: 6 bar Treatment Application Type (spray/wash): spray Point of Application (hot cx, cold cx, subprimal, trim): Carcass |
(i) Water Wash Time: 20s Temperature: 12°C Pressure Delivery: 6 bar |
Washing did not significantly change the state of contamination on the carcass There was a significant increase in the contaminationon the dorsal area after spray washing |
| Hauge, S., M. Wahlgren, O. Rotterud, and T. Nesbakken. 2011. Hot water surface pasteurisation of lamb carcasses: Microbial effects and cost-benefit considerations. International Journal of Food Microbiology 146: 69-75. doi:10.1016/j.ijfoodmicro.2011.02.003 | Hot Carcass | Lamb | APC Escherichia coli (Generic) Enterobacteriaceae Bacillus cereus Clostridium perfringens |
(i) Hot Water Pasteurization | Bactericidal | (i) Hot Water Pasteurization Time: 8s Temperature: 82°C Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): Point of Application (hot cx, cold cx, subprimal, trim): Carcass |
(i) Hot Water Pasteurization Time: 8s Temperature: 82°C |
Hot water pasteurization reduced E. coli by 99.5% (1.85 log CFU per carcass) |
| James, C., J. Thornton, L. Ketteringham, and S. James. 2000. Effect of steam condensation, hot water or chlorinated hot water immersion on bacterial numbers and quality of lamb carcasses. Journal of Food Engineering 43: 219-225. doi:10.1016/S0260-8774(99)00155-7 | Hot Carcass | Lamb | APC | (i) Steam Condensation (ii) Hot Water Immersion (iii) Chlorinated Hot Water Immersion |
Bactericidal | (i) Steam Condensation Time: 8 s Temperature: NE Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): NE Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass (ii) Hot Water Immersion Time: 8 s Temperature: 90°C Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): NE Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass (iii) Chlorine Hot Water Immersion Time: 8 s Temperature: 90°C Concentration: 250 ppm free chlorine Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): NE Point of Application (hot cx, cold cx, subprimal, trim): Hot carcass |
(i) Steam Condensation Time: 8 s (ii) Hot Water Immersion Time: 8 s Temperature: 90°C (iii) Chlorine Hot Water Immersion Time: 8 s Temperature: 90°C Concentration: 250 ppm free chlorine |
The chlorinated hot water immersion resulted in a greater reduction in APC |
| Mirhosseini, M., and V. Arjmand. 2014. Reducing Pathogens by Using Zinc Oxide Nanoparticles and Acetic Acid in Sheep Meat. Journal of Food Protection 77: 1599-1604. doi:10.4315/0362-028X.JFP-13-210 | Hot Carcass | Lamb | Escherichia coli (Generic) Listeria monocytogenes Staphylococcus aureus Bacillus cereus |
(i) Zinc Oxide containing acetic acid (1%) | Bactericidal | (i) Zinc Oxide Suspensions containing acetic acid (1%) Time: NE Temperature: NE Concentration: 1, 2, 4, 6, and 8 mM Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): NE Point of Application (hot cx, cold cx, subprimal, trim): NE |
(i) Zinc Oxide Suspensions containing acetic acid (1%) Concentration: 1, 2, 4, 6, and 8 mM |
Inhibition zones increased as concentration of Zinc Oxide increased The treatments has a significant inhibitory effect on the growth of L. monocytogenes, E. coli, and S. aureus, byt no effect on B. cereus |
| Govaris, A., N. Solomakos, A. Pexara, and P. Chatzopoulou. 2010. The antimicrobial effect of oregano essential oil, nisin and their combination against Salmonella Enteritidis in minced sheep meat during refrigerated storage. International Journal of Food Microbiology 137: 175-180. doi:10.1016/j.ijfoodmicro.2009.12.017 | Trimmings | Lamb | Salmonella Enteritidis | (i) Oregano Essential Oil (ii) Nisin (iii) Oregano Essential Oil and Nisin |
Bactericidal | (i) Oregano Essential Oil Time: NE Temperature: 4, 10°C Concentration: 0.6%, 0.9% Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): NE Point of Application (hot cx, cold cx, subprimal, trim): Trim (ii) Nisin Time: NE Temperature: 4, 10°C Concentration: 500, 1000 IU/g Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): NE Point of Application (hot cx, cold cx, subprimal, trim): Trim |
(i) Oregano Essential Oil Concentration: 0.6%, 0.9% (ii) Nisin Concentration: 500, 1000 IU/g |
No antimicrobial effect was seen from either concentration of Nisin Treatment combining 0.9% Oregano Essential Oil and either concentration of Nisin showed a bactericidal effect against S. Enteritidis |
| Ramirez, A., G. Acuff, L. Lucia, and J. Savell. 2001. Lactic acid and trisodium phosphate treatment of lamb breast to reduce bacterial contamination. J. Food Prot. 64:1439-1441. | Hot Carcass | Lamb | Escherichia coli (Generic) APC |
(i) Lactic Acid (2%) Spray (ii) Trisodium Phosphate Dip (iii) Combined Treatment of Lactic Acid Spray and Trisodium Phosphate Dip |
Bactericidal | (i) Lactic Acid Spray Time: 9s Temperature: 55°C Concentration: 2% Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): Spray Point of Application (hot cx, cold cx, subprimal, trim): Hot Carcass (i) Trisodium Phosphate Dip Time: 60s Temperature: 55°C Concentration: 12% Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): Dip Point of Application (hot cx, cold cx, subprimal, trim): Hot Carcass |
(i) Lactic Acid Spray Time: 9s Temperature: 55°C Concentration: 2% (i) Trisodium Phosphate Dip Time: 60s Temperature: 55°C Concentration: 12% |
Lactic acid and trisodium phosphate used alone or in combination were effective in reducing E. coli The TSP treatment was less effective than the lactic acid spray in reducing APC Both treatments equally reduced E. coli |
| Dorsa, W., C. Cutter, G. Siragusa, and M. Koohmaraie. 1996. Microbial decontamination of beef and sheep carcasses by steam, hot water spray washes, and a steam-vacuum sanitizer. J. Food Prot. 59:127-135. | Hot Carcass | Beef Lamb |
Aerobic Plate Count (APC) Coliforms Escherichia coli (Generic) (inoculum was a fecal slurry with mATP test results > 15,000 relative light units) |
(i) Water spray wash - sheep (ii) Water and steam combination - sheep (iii) Hot water washes - beef (iv) Vacuum and steam combinations - beef |
Bactericidal | (ia) Water spray wash (sheep) Time: 10 s Temperature: 15.6, 54.4, and 82.2°C Concentration: NE Volume: NE Equipment Settings: 12 passes over each carcass half; 30 cm from surface Pressure Delivery: 75 PSI Treatment Application Type (spray/wash): spray wash Point of Application (hot cx, cold cx, subprimal, trim): hot sheep carcass Other: (ii) Water and steam combination (sheep) (iia) Water spray wash Time: 10 s Temperature: 15.6, 54.4, and 82.2°C Concentration: NE Volume: Equipment Settings: 12 passes over each carcass half; 30 cm from surface Pressure Delivery: 75 PSI Treatment Application Type (spray/wash): spray wash Point of Application (hot cx, cold cx, subprimal, trim): hot sheep carcass Other: (iib) Air dry step conducted after wash Time: 1 minute Temperature: Ambient Concentration: NE Volume: NE Equipment Settings: 5 cm from surface; through a 9.5 mm, 200 PSI air line and dispersion head nozzle Pressure Delivery: 120 PSI Treatment Application Type (spray/wash): air dry Point of Application (hot cx, cold cx, subprimal, trim): hot sheep carcass Other: (iic) Steam step conducted after air dry step Time: 30 s Temperature: Ambient Concentration: NE Volume: NE Equipment Settings: 18 rpm carcass rotation Pressure Delivery: 120 PSI Treatment Application Type (spray/wash): steam filled chamber Point of Application (hot cx, cold cx, subprimal, trim): hot sheep carcass Other: (iid) Water spray after steam step Time: 10 s Temperature: 15.6°C Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): spray Point of Application (hot cx, cold cx, subprimal, trim): hot sheep carcass Other: (iii) Hot water washes - beef (iiia) Hot water low pressure wash Time: 12 s Temperature: 72°C (hot) Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: 20 PSI (low) Treatment Application Type (spray/wash): spray wash Point of Application (hot cx, cold cx, subprimal, trim): short plates to represent hot beef carcass Other: (iiib) Warm water high pressure water wash Time: 12 s Temperature: 30°C (warm) Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: 125 PSI (high) Treatment Application Type (spray/wash): spray wash Point of Application (hot cx, cold cx, subprimal, trim): short plates to represent hot beef carcass Other: (iiic) Hot water low pressure wash followed by warm water high pressure water wash Time: 12 s Temperature: 72°C (hot) followed by 30°C (warm) Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: 20 PSI (low) followed by 125 PSI (high) Treatment Application Type (spray/wash): spray wash Point of Application (hot cx, cold cx, subprimal, trim): short plates to represent hot beef carcass Other: (iiid) Warm water high pressure wash followed by hot water low pressure wash Time: 12 s Temperature: 30°C (warm) folowed by 72°C (hot) Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: 125 PSI (high) followed by 20 PSI (low) Treatment Application Type (spray/wash): spray wash Point of Application (hot cx, cold cx, subprimal, trim): short plates to represent hot beef carcass Other: (iv) Vacuum treatments (beef) (iva) Vacuum only Time: NE Temperature: NE Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: NE Treatment Application Type (spray/wash): vacuum Point of Application (hot cx, cold cx, subprimal, trim): short plates to represent hot beef carcass Other: Kentmaster steam-vacuum sanitizer (ivb) Hot water low pressure wash followed by warm water high pressure water wash Time: 12 s Temperature: 72°C (hot) followed by 30°C (warm) Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: 20 PSI (low) followed by 125 PSI (high) Treatment Application Type (spray/wash): spray wash Point of Application (hot cx, cold cx, subprimal, trim): short plates to represent hot beef carcass Other: (ivc) Vacuum followed by hot water low pressure wash followed by warm water high pressure water wash Time: 12 s Temperature: 72°C (hot) followed by 30°C (warm) Concentration: NE Volume: NE Equipment Settings: NE Pressure Delivery: 20 PSI (low) followed by 125 PSI (high) Treatment Application Type (spray/wash): vacuum + spray wash Point of Application (hot cx, cold cx, subprimal, trim): short plates to represent hot beef carcass Other: Kentmaster steam-vacuum sanitizer |
(ia) Water spray wash (sheep) Time: 10 s Temperature: 15.6, 54.4, and 82.2°C Equipment Settings: 12 passes over each carcass half; 30 cm from surface Pressure Delivery: 75 PSI (ii) Water and steam combination (sheep) (iia) Water spray wash Time: 10 s Temperature: 15.6, 54.4, and 82.2°C Equipment Settings: 12 passes over each carcass half; 30 cm from surface Pressure Delivery: 75 PSI (iib) Air dry step conducted after wash Time: 1 minute (iic) Steam step conducted after air dry step Time: 30 s Equipment Settings: 18 rpm carcass rotation Pressure Delivery: 120 PSI (iid) Water spray after steam step Time: 10 s Temperature: 15.6°C (iii) Hot water washes - beef (iiia) Hot water low pressure wash Time: 12 s Temperature: 72°C (hot) Pressure Delivery: 20 PSI (low) (iiib) Warm water high pressure water wash Time: 12 s Temperature: 30°C (warm) Pressure Delivery: 125 PSI (high) (iiic) Hot water low pressure wash followed by warm water high pressure water wash Time: 12 s Temperature: 72°C (hot) followed by 30°C (warm) Pressure Delivery: 20 PSI (low) followed by 125 PSI (high) (iiid) Warm water high pressure wash followed by hot water low pressure wash Time: 12 s Temperature: 30°C (warm) folowed by 72°C (hot) Pressure Delivery: 125 PSI (high) followed by 20 PSI (low) (iv) Vacuum treatments (beef) (iva) Vacuum only (ivb) Hot water low pressure wash followed by warm water high pressure water wash Time: 12 s Temperature: 72°C (hot) followed by 30°C (warm) Pressure Delivery: 20 PSI (low) followed by 125 PSI (high) (ivc) Vacuum followed by hot water low pressure wash followed by warm water high pressure water wash Time: 12 s Temperature: 72°C (hot) followed by 30°C (warm) Pressure Delivery: 20 PSI (low) followed by 125 PSI (high) Treatment Application Type (spray/wash): vacuum + spray wasH |
KEY FINDINGS: On sheep carcasses: 82.2°C water spray wash and 82.2°C water spray wash followed by steam reduced experimentally contamination product counts as much as 4 logs. On beef carcasses: Hot water low pressure followed by warm water high pressure water wash treatment was found to be most effective. Resulting in 2.7, 3.3, and 3.4 log reductions for APC, coliforms, and E. coli, respectively. When steam vacuum was with hot water low pressure followed by warm water high pressure water wash treatment reductions were 3.1, 4.2, and 4.3 logs for APC, coliforms, and E. coli, respectively. |
Some internal links within this document are funded and maintained by the Beef Checkoff. All other outgoing links are to websites maintained by third parties.