NEW PIEZO CERAMIC TECHNOLOGY WITH TRENDY BLACK + BLUE NIGHT LIGHT ON/OFF SWITCH

Colour:- Black

Great to use anywhere around the House, Office, Pet Areas to elimate odours, Hairdressing Salons to create a fresh smelling environment free of chemical pollution

New Model - New European Launch at a Special Introductory Price

Unique Features - Modern Mini Design

Functions Silently

New generation discharge needle requires no maintenance

Features:-

- Trendy Blue Night Light - long lasting LED with On/Off Switch

- Noise Free

- No Filter required, dust collector plates for wiping

- Direct plug into wall socket

- Modern mini design available in Black or Silver

- Effective area coverage 15 square metres

- Low power useage 1 watt

- Certified negative ion output 3 million per cubic metre

- Working Voltage AC90 - 230V (can be used in Europe, USA, Canada)

What Are The Benefits of Negative Ions In Your Home:-

Negative ions help freshen and purify the air by causing allergens such as pollen, mold spores, dust and pet dander floating in the air to be attracted to and stick to each other forming "clumps". These clumps of particles then become heavy enough and then fall to the floor. The particles can then be vacuumed up or removed.

The ioniser will also remove unpleasant odours in your home. Is ideal for toilet & kitchen areas.

Research Has Shown That Negative Ions Can:-

- Reduce histamine which triggers hay fever

- Promote positive levels of serotonin, the neurological hormone associated with anxiety, stress and migraine

- Ease suffering from bronchial complaints such as asthma, catarrh and the common cold

- Help with insomnia, emphysema, eczema, headaches, tiredness and general feeling of malaise

- Enhance the body absorption and utilization of oxygen, increasing concentration and alertness

- Reduce the effects of passive smoking, allergies to pollen, dust and pets

- Remove and destroy air borne bacteria & virus and halt fungi growth

- Increase speed and quality of healing due to burns and surgical incisions with less scarring and pain

- Boosts energy and general well being

What is the difference between New Technology Piezo Ionisers & Normal Ionisers?

Normal Ioniser produces ions by electric and magnetic. It uses a wire rolled transformer as the core part. It's transfer efficiency is max. 80%, produces strong EMI (electro magnetic immission) and is easy to short circuit. Hence it's life span is much less. To produce more ions by this method you have to make the transformer larger therefore the product is much larger and heavier than our models.

Piezo Ioniser produces ions by electric and mechanic applying a Piezo Ceramic Transformer as the core part. Has high transfer efficiency of 95%, produces many more negative ions, has a long life, works stabley, will not short circuit and produces no EMI.

As a comparison with a normal ioniser our Piezo Ceramic personal and USB models produce 2 million negative ions per cubic metre. A typical house ioniser currently on the market to produce 2 million negative ions per cubic metre would have to be 6 - 10 times the size of our models.

If you suffer in summer months from hay fever the ioniser will vastly reduce histamines which is the trigger for hay fever. It will also have a beneficial effect to anyone suffering from bronchial complaints - asthma, catarrh and the common cold by cleaning the air of airborne particules, pet dander and dust mite faecal.

Please Read the following Press Release:-

A potential new weapon in the fight against hospital acquired infections has been discovered by researchers at the University of Leeds.

The scientists studied the effect of negative air ionisers on infections caused by acinetobacter; a pathogen responsible for increasing numbers of sometimes fatal infections amongst hospital patients. Ionisers were placed in the intensive care unit at St James's University Hospital, which, like similar wards across the UK, has had recurrent problems with infections caused by acinetobacter.

For the first six months the researchers, from the aerobiological research group in the University's school of civil engineering, monitored the normal situation in the unit, taking samples from surfaces, patients and from the air to monitor bacteria levels, and logging the number of patient infections. During the second half of the year-long trial, the ionisers were switched on, and the results were impressive: infections due to acinetobacter reduced dramatically.

Lead researcher Dr Clive Beggs said: "This is the first epidemiological study of its kind into the use of ionisers in hospital wards and the initial results are very promising. We believe that the negative air ions are removing the bacteria from the air, so stopping the transmission of infection. Our tests have focused solely on acinetobacter, but it's possible the ionisers may have had an effect on other airborne bacteria. We now need to carry out further research to determine exactly how the ions work and how widespread their effects could be."

Even without further research, the fact the ionisers are already making a difference is good enough for lead consultant at St James's intensive care unit, Dr Stephen Dean. "We wanted to be involved in the trial as infections are a major issue for units such as ours, where many patients are already very vulnerable," he said. "The results have been fantastic - so much so that we asked the University to leave the ionisers with us. Since the trial finished in May, we've kept them in operation, and have continued to see greatly reduced acinetobacter infections on the ward."

Dr Kevin Kerr, lead clinical microbiologist on the project, said: "Acinetobacter infections are very difficult to treat as the bacterium is resistant to nearly all antibiotics, so prevention of these infections is of key importance. Ionisers may become a powerful weapon in the fight against hospital-acquired infection."

Acinetobacter is a bacterium found naturally in the environment. It can survive drying, and can persist in dust and on inanimate surfaces for extended periods. While it poses no real threat to healthy humans, when the body's defences are weakened it can cause serious infections. For these reasons it has become a significant problem in hospitals, particularly in intensive care units where patients are already critically ill. While there are few national data on numbers of infections from specific bacteria, acinetobacter is acknowledged alongside MRSA as a significant cause of hospital-acquired infections. Acinetobacter can cause infections of the lung (pneumonia), blood stream (septicaemia) and infections of surgical wounds and burns as well as urine infections. Such infections are difficult to treat as many strains of the bacterium are resistant to more than one antibiotic, with the most resistant strains only treatable by one or two drugs, and fully resistant strains are expected to develop in the near future. Attention is therefore being focused on preventative strategies.

The trial was carried out by a team led by senior lecturer Dr Clive Beggs and including Dr Andrew Sleigh of the University of Leeds, Dr Kevin Kerr, formerly of the University of Leeds and now consultant microbiologist at Harrogate Health Care Trust, Dr Neil Todd, consultant microbiologist at York General Hospital and Dr Stephen Dean, lead consultant on the intensive care unit at St James's University Hospital.

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