HACCP in the processing of fresh meat

Publisher Summary It became apparent that procedures for implementing Hazard Analysis Critical Control Point (HACCP) systems of assured efficacy at meat packing plants were completely lacking. Regulatory authorities have elaborated procedures for HACCP system implementation that are based largely on traditional inspection practices; that is, on the assumption that the microbiological performance of a process can be decided by inspection of product and equipment for visible contamination, with the provision that the process is documented and performed in accordance with all other requirements of the regulatory authority. As a result, the systems for supposedly ensuring meat safety that are being implemented at meat packing plants are not HACCP systems; they are quality management systems for ensuring the quality of compliance with regulatory requirements. Such systems will function to ensure meat safety only if microbiological safety is ensured as a consequence of meeting the regulatory requirements. This chapter describes an alternative approach to HACCP implementation at meat packing plants. A complete HACCP system should include procedures for controlling physical and chemical, as well as microbiological hazards and the same people may well be responsible for ensuring the control of the three types of hazard. However, physical and chemical hazards will not be considered as they are generally of lesser concern and can be controlled by more usual procedures than the microbiological hazards that arise in meat plant processes.

[1]  C. Gill,et al.  The presence of Escherichia coli, Salmonella and Campylobacter in pig carcass dehairing equipment , 1993 .

[2]  MONIQUE E. Hiss,et al.  Microbiological and Visible Contamination of Lamb Carcasses According to Preslaughter Presentation Status: Implications for HACCP. , 1995, Journal of food protection.

[3]  C. Gill,et al.  The microbiological conditions of the carcasses of six species after dressing at a small abattoir , 2000 .

[4]  D. Mossel,et al.  Identification, assessment and management of food-related microbiological hazards: historical, fundamental and psycho-social essentials. , 1998, International journal of food microbiology.

[5]  C. Gill,et al.  Microbiological sampling of carcasses by excision or swabbing. , 2000, Journal of food protection.

[6]  C. Gill,et al.  Identification of inadequately cleaned equipment used in a sheep carcass-breaking process. , 1999, Journal of food protection.

[7]  Robert V Tauxe Salmonella : A Postmodern Pathogen 1. , 1991, Journal of food protection.

[8]  M. Reichel,et al.  Assessment of the hygienic adequacy of a commercial hot boning process for beef by a temperature function integration technique. , 1991, International journal of food microbiology.

[9]  J. Van Donkersgoed,et al.  Preslaughter Hide Status of Cattle and the Microbiology of Carcasses. , 1997, Journal of food protection.

[10]  V. Gannon,et al.  Visual Demerit and Microbiological Evaluation of Beef Carcasses: Methodology. , 1993, Journal of food protection.

[11]  J. Sheridan,et al.  The relationship between hide cleanliness and bacterial numbers on beef carcasses at a commercial abattoir , 2000, Letters in applied microbiology.

[12]  P. Fratamico,et al.  Factors Involved in the Emergence and Persistence of Food-Borne Diseases †. , 1995, Journal of food protection.

[13]  C. Gill,et al.  The effects of hot water pasteurizing treatments on the microbiological conditions and appearances of pig and sheep carcasses , 1998 .

[14]  M. Doyle,et al.  Listeria monocytogenes and Other Listeria spp. in Meat and Meat Products A Review. , 1990, Journal of food protection.

[15]  C. Gill,et al.  The contamination of pork with spoilage bacteria during commercial dressing, chilling and cutting of pig carcasses. , 1992, International journal of food microbiology.

[16]  G. Kozub,et al.  Comparison of methods to determine the microbiological contamination of surfaces of beef carcasses by hydrophobic grid membrane filters, standard pour plates or flow cytometry , 1996 .

[17]  C. Gill,et al.  The microbiological effects of breaking operations on hanging beef carcass sides , 1999 .

[18]  H. Korkeala,et al.  Special treatment during slaughtering in Finland of cattle carrying an excessive load of dung; Meat hygienic aspects. , 1993, Meat science.

[19]  C. Gill,et al.  Microbiological conditions of detained beef carcasses before and after removal of visible contamination. , 2004, Meat science.

[20]  J. O. Reagan,et al.  Prevalence of Escherichia coli O157 and levels of aerobic bacteria and Enterobacteriaceae are reduced when hides are washed and treated with cetylpyridinium chloride at a commercial beef processing plant. , 2004, Journal of food protection.

[21]  K. Troeger,et al.  Evaluating hygiene risks during slaughtering , 1994 .

[22]  E. Borch,et al.  Reduction of Yersinia enterocolitica and Listeria spp. on pig carcasses by enclosure of the rectum during slaughter. , 1994, International journal of food microbiology.

[23]  J. Sheridan,et al.  Microbial contamination on beef in relation to hygiene assessment based on criteria used in EU Decision 2001/471/EC. , 2004, International journal of food microbiology.

[24]  F. L. Bryan,et al.  Application of HACCP to ready-to-eat chilled foods : the hazard analysis critical control point system offers the highest degree of food safety for chilled foods prepared in foodservice and food-market etablishements , 1990 .

[25]  K. Warriner,et al.  Cross‐contamination of carcasses and equipment during pork processing , 2002, Journal of applied microbiology.

[26]  R B Tompkin,et al.  The Use of HACCP in the Production of Meat and Poultry Products 1. , 1990, Journal of food protection.

[27]  C. Gill,et al.  Proximate sources of bacteria on boneless loins prepared from routinely processed and detained carcasses at a pork packing plant. , 2004, International journal of food microbiology.

[28]  C. Gill,et al.  Genetic diversity of Escherichia coli recovered from the oral cavity of beef cattle and their relatedness to faecal E. coli , 2004, Letters in applied microbiology.

[29]  C. O. Gill,et al.  Current and emerging approaches to assuring the hygienic condition of red meats , 1995 .

[30]  C. Gill,et al.  The effects of hot water pasteurizing treatments on the appearances and microbiological conditions of beef carcass sides , 1999 .

[31]  C. Gill,et al.  Control of the contamination of pig carcasses by Escherichia coli from their mouths. , 1998, International journal of food microbiology.

[32]  G. Salvat,et al.  Tracing of Salmonella spp. in two pork slaughter and cutting plants using serotyping and macrorestriction genotyping , 2001, Journal of applied microbiology.

[33]  C. Gill Microbiological contamination of meat during slaughter and butchering of cattle, sheep and pigs , 1998 .

[34]  John N. Sofos,et al.  Effects of Postexsanguination Dehairing on the Microbial Load and Visual Cleanliness of Beef Carcasses. , 1995, Journal of food protection.

[35]  C. Gill,et al.  Microbial effects of the carcass washing operations at three beef packing plants , 2000 .

[36]  C. Gill,et al.  Assessment of the adequacy of cleaning of equipment used for breaking beef carcasses. , 1999, International journal of food microbiology.

[37]  J. O. Reagan,et al.  Effect of chemical dehairing on the prevalence of Escherichia coli O157:H7 and the levels of aerobic bacteria and enterobacteriaceae on carcasses in a commercial beef processing plant. , 2003, Journal of food protection.

[38]  C. Gill,et al.  Microbiological effects of carcass decontaminating treatments at four beef packing plants. , 2003, Meat science.

[39]  C. Gill,et al.  Effects of peroxyacetic acid, acidified sodium chlorite or lactic acid solutions on the microflora of chilled beef carcasses. , 2004, International journal of food microbiology.

[40]  K. Davey,et al.  A laboratory evaluation of a novel hot water cabinet for the decontamination of sides of beef. , 2007 .

[41]  G. V. Petersen The effect of swimming lambs and subsequent resting periods on the ultimate pH of meat. , 1983, Meat science.

[42]  C. Gill,et al.  Microbial spoilage of whole sheep livers , 1982, Applied and environmental microbiology.

[43]  C. Gill,et al.  The decontaminating performance of a commercial apparatus for pasteurizing polished pig carcasses , 1997 .

[44]  C. Gill,et al.  Use of a temperature function integration technique to assess the hygienic adequacy of a beef carcass cooling process , 1991 .

[45]  C. Gill,et al.  Evaluation of the hygienic performances of the processes for cleaning, dressing and cooling pig carcasses at eight packing plants. , 2000, International journal of food microbiology.

[46]  S. Hathaway,et al.  Postmortem Meat Inspection Programs; Separating Science and Tradition. , 1991, Journal of Food Protection.

[47]  A. C. Baird‐Parker,et al.  The Microbiological Examination of Meat , 1982 .

[48]  Blamire Rv Meat hygiene: the changing years. , 1984 .

[49]  C. Gill,et al.  Hygienic Effects of Trimming and Washing Operations in a Beef-Carcass-Dressing Process †. , 1996, Journal of food protection.

[50]  S. Hathaway,et al.  The hygienic efficiency of conventional and inverted lamb dressing systems. , 1996, The Journal of applied bacteriology.

[51]  C. Gill,et al.  Predicting the aerobic growth of Yersinia enterocolitica on pork fat and muscle tissues , 1995 .

[52]  D. Kilsby,et al.  The relevance of the distribution of micro-organisms within batches of food to the control of microbiological hazards from foods. , 1981, The Journal of applied bacteriology.

[53]  C. Gill,et al.  Evaluation of the hygienic efficiency of offal cooling procedures , 1985 .

[54]  S. Palumbo Is Refrigeration Enough to Restrain Foodborne Pathogens? , 1986, Journal of food protection.

[55]  C. Gill,et al.  Effects of spray-cooling processes on the microbiological conditions of decontaminated beef carcasses. , 2003, Journal of food protection.

[56]  M. Hinton,et al.  Effects of fleece soiling and skinning method on the microbiology of sheep carcases , 1997, Veterinary Record.

[57]  C. O. Gill,et al.  Use of a temperature function integration technique to asses the maintenance of control over an offal cooling process , 1995 .

[58]  Bryant,et al.  Evaluation of the hygienic performances of the processes for beef carcass dressing at 10 packing plants , 1998, Journal of applied microbiology.

[59]  C. Gill,et al.  Assessment of the hygienic characteristics of a process for dressing pasteurized pig carcasses , 1997 .

[60]  H.L.M. Lelieveld HACCP and hygienic design , 1994 .

[61]  S. Palumbo,et al.  Enumeration of Aeromonas for verification of the hygienic adequacy of swine carcass dressing processes. , 2000 .

[62]  S. James,et al.  Process design data for beef chilling , 1989 .

[63]  C. Gill,et al.  Assessment of the hygienic performances of an air-cooling process for lamb carcasses and a spray-cooling process for pig carcasses. , 1997, International journal of food microbiology.

[64]  C. Gill,et al.  Identification of critical control points for control of microbiological contamination in processes leading to the production of ground beef at a packing plant , 2003 .

[65]  E. Buys,et al.  The effects of spray-chilling on carcass mass loss and surface associated bacteriology. , 1995, Meat science.

[66]  C. Gill,et al.  Improvement of the hygienic performance of the hindquarters skinning operations at a beef packing plant. , 1999, International journal of food microbiology.

[67]  C. Gill,et al.  Assessment of the microbiological conditions of tails, tongues, and head meats at two beef-packing plants. , 1999, Journal of food protection.

[68]  E. Dransfield Tenderness of meat, poultry and fish , 1994 .

[69]  C. Gill,et al.  Evaluation of a commercial process for collection and cooling of beef offals by a temperature function integration technique. , 1992, International journal of food microbiology.

[70]  P. M. Nottingham Microbiology of Carcass Meats , 1982 .

[71]  C. Gill,et al.  Assessment of the hygienic performances of two beef carcass cooling processes from product temperature history data or enumeration of bacteria on carcass surfaces , 1997 .

[72]  B. Mackey,et al.  Contamination of the deep tissues of carcasses by bacteria present on the slaughter instruments or in the gut. , 1979, The Journal of applied bacteriology.

[73]  C. Gill,et al.  Assessment of the hygienic performance of a sheep carcass dressing process. , 1998, Journal of food protection.

[74]  J. Slavin Communicating nutrition information: Whose job is it? , 1990 .

[75]  C. Gill,et al.  The presence of Aeromonas, Listeria and Yersinia in carcass processing equipment at two pig slaughtering plants , 1995 .

[76]  C. Gill,et al.  Microbiological sampling of meat cuts and manufacturing beef by excision or swabbing. , 2001, Journal of food protection.

[77]  R. Marshall,et al.  Microbiological and Sensory Tests of Beef Treated with Acetic and Formic Acids 1, 2. , 1986, Journal of food protection.

[78]  C. Cutter,et al.  Evaluation of six sampling methods for recovery of bacteria from beef carcass surfaces , 1996, Letters in applied microbiology.

[79]  C. Gill,et al.  Application of a Temperature Function Integration Technique to Assess the Hygienic Adequacy of a Process for Spray Chilling Beef Carcasses. , 1991, Journal of food protection.

[80]  C. Gill,et al.  TRIMMING, VACUUM CLEANING OR HOT WATER-VACUUM CLEANING EFFECTS OF LAMB HINDSADDLES1 , 1998 .

[81]  C. Gill,et al.  Contamination of beef trimmings with Escherichia coli during a carcass breaking process , 2000 .

[82]  R. Brackett,et al.  Ineffectiveness of Hot Acid Sprays to Decontaminate Escherichia coli O157:H7 on Beef. , 1994, Journal of food protection.

[83]  R. C. Wilson,et al.  Steam pasteurization of commercially slaughtered beef carcasses: evaluation of bacterial populations at five anatomical locations. , 1998, Journal of food protection.

[84]  C. Gill,et al.  Decontamination of carcasses by vacuum-hot water cleaning and steam pasteurizing during routine operations at a beef packing plant. , 1997, Meat science.

[85]  R. C. Wilson,et al.  Evaluation of a Steam Pasteurization Process in a Commercial Beef Processing Facility. , 1997, Journal of food protection.