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Drinking water quality and Legionnaire’s disease – the challenges

Hygiene is the top priority when testing drinking water quality for Legionnaire‘s disease

For  hospitals, nursing homes, public swimming pools and other public institutions Strong criteria apply for hygiene and a germ-free drinking water supply.

Therefore regular water analysis by a certified laboratory of drinking water for Legionnaire‘s disease is prescribed. A part of the water samples taken in the Nuremberg area arrive at the team led by Peter Daum in the Municipal Water Treatment and Environmental Analysis Laboratory Nuremberg, Germany.

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Regular water analysis against Legionnaire‘s disease.
In 1999 the Environmental Analysis Laboratory Nuremberg put into operation the first Memmert CO2 incubator for growing legionellae in order to test water quality. Almost 10 years later it was joined by an appliance of the latest INCO generation – and with good reason. With the increased awareness of the danger of these bacteria in warmed up drinking water, with which humans come into contact through drinking, bathing, showering or for medical applications, the number of samples taken and tested has also increased. Coming into contact with the bacteria is not in itself dangerous; it is rather the breathing in of droplets of water, or aerosols, containing the bacteria, into the lungs that can lead to the life-threatening Legionnaire‘s disease. Legionellae sp. prefer water temperatures between 25 °C and 45 °C and prosper in quiet places where there is no movement and turbulence. Numerous types can be found everywhere in natural lakes and rivers and get into the drinking water supply through ground water, but it is only our rising standard of living that has turned Legionella pneumophila in particular, which is responsible for an estimated 90% of all cases of Legionnaire`s disease, into a worldwide hazard. Because where hygiene standards are poor, or where there are structural flaws in technical systems for the supply of warm water, it can find ideal conditions to propagate. Legionnaire‘s disease, a form of pneumonia, is therefore a genuine disease of affluence, the name of which goes back to an epidemic in 1976 in which 182 former American soldiers were taken ill, of whom 29 died.

Strong criteria regarding water quality and hygiene apply to warm water supply and drinking water supply in public swimming pools, nursing homes and hospitals


Absolutely germ-free: sterilization of CO2 incubator protects employees and samples.

Benedikt Schaefer from the German Federal Environmental Office in Bad Elster, a proven expert on drinking water and a member of the Water Standards Committee, points out the need for extremely careful hygiene measures during the legionellae tests. Two reasons are crucial for this recommendation: The health of employees should not be exposed to even the slightest risk of contaminated aerosols, at the same time the sample quality is ensured over the long incubation period of up to 10 days. Help in the form of being absolutely germ-free can only be provided in this situation by sterilization. The chamber of the CO2 incubator, including the ventilation system, the water trays and all the sensors, can be sterilised in a 4-hour program at 160 °C. The infra-red sensor for the CO2 measurement was designed by the engineers specially so that it can withstand these high temperatures without problem, and is thus sterilised.

100% quality control across the entire process.

About one thousand water samples reach the Environmental Analysis Laboratory Nuremberg every year. An estimated 25% of these contain legionellae, whereby the DVGW spreadsheet W551, in which the procedure for taking samples is regulated, only suggests, outside high-risk areas in hospitals, that the test intervals should be more frequent if the legionellae concentration is more than 100 CFU (colony-forming units) per 100ml, and stipulates further measures and tests only when the concentration is more than 1000 CFU. For 7 to 10 days the samples are incubated at 36 °C (± 2 °C), 2.5 % CO2 and 95% relative humidity. Once samples have been taken, they can no longer be reproduced, of course, and for this reason the safety and reliability of the appliances is the highest priority. In the nine years in which the CO2 incubator has been running for Peter Daum and his team, almost non-stop, there has not been a single breakdown, and the test of temperature precision, performed twice a year by the internal quality assurance team, always yielded optimal values.


Not only sterile, but also 100% safe.
All Memmert CO2 incubators have an acoustic alarm, and this clearly audible warning signal is set off if the door is opened for too long or if there is a failure of the central supply, such as CO2 gas, power supply, etc. One of the numerous safety functions allowing the employees in Nuremberg to quietly concentrate on their work. Just like the clear presentation of the current states for humidity and temperature in the display, which continuously shows the correct progression of the incubation in the laboratory – down to the level of the water container. To ensure that the samples do not dry out, the electronic control of the INCO regulates not only temperature and CO2 content, but also the relative humidity. Ideally the humidity content in the chamber should always be between 90% and 95% relative humidity. Picture credit: ©Dreamstime/Eraxion

Camlab can provide Memmert CO2 incubators along with the full range of Memmert ovens and incubators including vacuum ovens, humidity chambers, fan ovens and climatic  chambers.

Click here for more information.

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