The pioneering new microwave therapy system with treatment times in seconds, SWIFT provides a precise and easy way of treating verruca lesions. With over 16,000 treatments completed to date, SWIFT is one of the fastest growing treatments in UK Podiatry. Briggate Medical and Emblation Limited are excited to introduce SWIFT Microwave Therapy to the Australian and New Zealand Podiatry profession in 2018.
- CONSISTENCY – A repeatable treatment with predictable outcomes
- CLEANLINESS – No smoke, no anaesthetics, no post-procedural dressings and minimal debridement
- CONVENIENCE – Potential for much shorter treatment times
- CONFIDENCE – Successful treatment protocol based on meticulously collected data – backed by research
What is Swift®?
Swift is a new technology, developed in the UK, which has been licenced for the general treatment of skin lesions in Podiatry and Dermatology. Swift uses microwave energy which is delivered through a special probe applied to the skin to treat the affected tissue.
Does it Hurt?
Like many treatments for skin lesions, some minor discomfort may be experienced. Before treatment your podiatrist may decide to reduce the lesion with a blade. Pain levels vary from person to person but most people undergoing Swift liken it to a pain similar to an injection or a scratch, lasting 2 – 3 seconds then quickly subsiding.
What can I do after treatment?
In some cases the treated area may feel sore but will not prevent you undertaking normal daily activities.
How many treatments will I need?
This is dependent on how you respond to treatment. In some cases, you may need more than one treatment (these can be from 21 days to over a month apart depending on the response). Your Podiatrist or will be able to discuss this with you.
Can anyone receive this treatment?
With a few exceptions, most people with skin lesions would be able to have this treatment. Your Podiatrist will carry out an assessment prior to treatment and be able to advise you on this.
How Do Microwaves Work
Microwaves are a form of non-ionising radiation, which have the ability to agitate water molecules within skin cells without causing damage to DNA. Water (H2O) is a polar molecule that will attempt to align itself with the electric field of a microwave. The rapid cyclic waveform of a microwave causes H2O molecules to vibrate and collide, this results in friction and generation of thermal energy. Since skin cells have a high water content, the desired temperature is quickly achieved within target cells. Microwaves sit between radio waves and infrared waves (300 MHz-300GHz) in the electro-magnetic spectrum. SWIFT specifically operates at a frequency of 8 GHz
SWIFT microwaves will penetrate to a predetermined depth with no lateral splay of energy. They don’t break the surface of the skin and destroy tissue from the point of application – like cryotherapy, salicylic acid or laser ablation. As soon as the treatment begins, microwaves are working within that defined field, and no deeper.
How safe are microwaves?
Microwaves have been in clinical use for over 30 years, and are used globally in the effective treatment of cancer.
One of the first published papers on the use of microwaves in medicine was in 1986 – where researchers from Japan described a method of treating liver tumours. Those techniques have advanced significantly since then, and Emblation – the company behind Swift, is a key technology supplier to the largest medical device company in the world operating in this space. The same fundamental technology that powers Swift, is also being used in the treatment of lung, liver, kidney and breast cancer in countries all over the world.
Microwaves are a form of non-ionising radiation, which means that they can’t cause damage to the DNA of living things. Microwaves sit between radio waves and infrared waves (at any frequency between 300MHz and 300GHz – Swift itself operates at 8GHz) in the electromagnetic spectrum.
Treatments at low power
The Swift system delivers very low energy levels when compared with other electromagnetic energy forms. The Swift microwave treatment is only capable of supplying enough energy to agitate water molecules and cause friction, as opposed to damaging DNA, and deliver less energy into the skin than most laser and electrocautery treatments.
Microwaves in everyday life
Aside from the kitchen appliance, microwaves are used in a number of everyday applications. Standard wifi uses microwaves, mobile phones, bluetooth, and cordless phones all use microwaves to send data over short distances. Furthermore, most satellite communications systems (including GPS navigation systems) are also based on the use of microwaves – we interact with microwaves in more ways than we know, every day.