Integrated approach leads to less Campylobacter
Posted: June 26th, 2012 - 10:22am
Source: National Food Institute, Technical University of Denmark
Interventions in indoor broiler production can reduce the occurrence of Campylobacter in flocks and meat and consequently the number of human Campylobacter infections. This demands a comprehensive set of control measures, which have successfully been implemented in Denmark. It is the result of close collaboration between producers, authorities and researchers.
Campylobacter bacteria are a major cause of food-borne infections worldwide. In great parts of the industrialised world, including Denmark, humans suffer more frequently from Campylobacter infections than from Salmonella infections.
The sheer number of human Campylobacter diarrhoea cases result in great socioeconomic costs. One of the main transmission routes is known to be eating and handling poultry. In Denmark, this has been further specified to chilled broiler meat. To reduce the number of human Campylobacter infections it is therefore crucial that actions are taken to reduce the occurrence of Campylobacter in the broiler production.
Risk management initiatives Due to a significant increase in human Campylobacter cases in Denmark in the late 1990’s, risk management initiatives were implemented to reduce the risk from Campylobacter in indoor broiler production. These initiatives concerned primarily biosecurity in and around broiler houses; comprising both implementation of control measures and research into new interventions.
A risk assessment concluded that besides reducing the number of infected flocks, reducing the number of Campylobacter on the meat, was also very important for reducing the risk of human infection. Based on the conclusions from this risk assessment, voluntary action plans followed in 2003 and 2008. These generally intensified the initiatives already in place. However, actions aimed at reducing the number of Campylobacter on the meat such as freezing and research into decontamination was added. The Danish approach to control Campylobacter in the broiler production is described below.
Biosecurity is a set of preventative measures that aim to reduce the risk of transmitting Campylobacter from the outdoor environment to the broiler flocks. These include having anterooms divided in separate zones and/or hygiene barriers at the house entrance; changing clothes and footwear and washing hands before entering the broiler house; using clean drinking water; rodent control and having vegetation free zones around the house.
The biosecurity measures applied when entering and leaving broiler houses in Denmark are listed in Table 1. The practice of partial depopulation is discouraged, because the hygiene barrier to the outside environment is generally broken, when people and machinery enter the houses. These measures are part of an industry code of practice, which since 2008 has been mandatory for all producers. For many years, producers complying with the code have been paid a higher price per kg than those that do not comply.
Flies can carry and transmit Campylobacter into broiler houses. A recent research project has demonstrated the efficacy of fly screens on broiler house ventilation inlets. These screens reduced the percentage of Campylobacter positive flocks from 50% to 15% during the warm months of the year. However, a prerequisite for a positive effect of fly screens is probably that sufficient biosecurity measures as described above are already in place. Fly screens are voluntarily applied on a few broiler farms.
Scheduled slaughter means identifying Campylobacter positive flocks before slaughter and subjecting carcasses from these flocks to special treatment like freezing, heat treatment or other Campylobacter decontaminating treatments. Scheduling meat from Campylobacter positive flocks for freezing was included in the action plan in 2003, inspired by the success of this intervention in Iceland.
Freezing for a few weeks reduces numbers of Campylobacter by approximately 99% and thereby reduces the risk of human disease significantly. In practice, flocks are scheduled to the extent possible, meaning that market demands for chilled meat and special brands have to be met. All flocks are sampled approximately one week before slaughter, to ensure that test results are ready before transportation to the slaughter-house. Research is ongoing to reduce the time of analysis, so that flocks can be tested as close to the transport to the abattoir as possible.
Hygiene and decontamination
Research in methods to reduce the concentration of Campylobacter on broiler meat was initiated in 2003. First, the evisceration process was identified as the process operation contributing the most to the spread of Campylobacter from intestinal content to the meat. Meat with visible intestinal contents had 90% more Campylobacter bacteria than meat without visible contamination. Therefore, minimising the spread of intestinal contents significantly reduces the occurrence of Campylobacter on the meat. With regard to decontamination techniques, freezing for a few weeks reduced numbers of Campylobacter by 99% and crust-freezing of breast fillets reduced numbers by 50%.
Submerging meat in an acetic marinade based on e.g. lemon juice or vinegar followed by chilled storage reduced Campylobacter counts by more than 90%. Freezing is applied to the extent possible, as described above. Crust-freezing of breast fillets has been implemented in some large plants. Chemical decontamination has not been considered in the Danish action plans since no chemicals have been approved for decontamination of broiler meat in the European Union.
Informing consumers Consumer campaigns and teaching material for school children concerning the presence of bacteria in meat and proper kitchen hygiene are also elements in the Danish strategy. These campaigns have been launched using pamphlets, information on the internet, as well as radio and TV spots. Furthermore, retail packages of poultry meat are labelled with information on how to safely handle and treat the meat.
Coincidental with the implementation of the control measures, the percentage of Campylobacter-positive broiler flocks at slaughter decreased from 45% in 1998 to a level of 26-30% in the period 2004-2009 (Figure 1). Furthermore, the number of registered human Campylobacter cases decreased from 4,620 in 2001 (maximum) to 3,352 cases in 2009. Effects of action plans against Campylobacter have also been seen in other countries. Both Iceland and New Zealand have experienced dramatic decreases in human cases after implementation of control measures in broiler production.