Image description

Understanding Laser Skin Treatments

A comprehensive guide to in-clinic and at-home laser skin resurfacing and tightening treatments, risks and costs.

Understanding Laser Skin Treatments

A comprehensive guide to in-clinic and at-home laser skin resurfacing and tightening treatments, risks and costs.

Written by Jessica Lacey. Reviewed by Dr Graeme Glass, PhD (Updated 17 September 2024) 

Lasers are a leading global technology in skin rejuvenation and can treat a vast array of skin concerns. But the world of laser skincare treatments can also be complicated and confusing. Increasingly replacing the need for cosmetic surgery, laser procedures have advanced significantly in the past decade and both updated versions and entirely new systems are introduced to the market every year. 

What Is a Laser Skin Rejuvenation Treatment?

Laser skin rejuvenation is an umbrella term for the use of light energy to induce tissue repair and regeneration leading to the improved appearance of wrinkles, scarring and skin laxity. Traditional lasers do this by inducing a controlled burn; a focal area of tissue destruction that stimulates the natural reparative processes. Additionally, lasers may also be used to improve the appearance of skin blemishes by specifically targeting red and brown marks. As a thermal injury, albeit a controlled one, there are potential complications and a recovery period after treatment is anticipated.

Image description

What Is Laser Skin Resurfacing?

Laser skin resurfacing addresses the tone, texture and appearance of skin by treating the epidermal surface layer, whilst also heating the dermal layer just below it. This may be done through causing controlled damage to the skin, so as to trigger skin's internal repair response to create new skin cells or alternatively, through energy transference to reawaken dormant skin cells. 

Do All Laser Skin Tightening Treatments Involve Skin Resurfacing?

Laser skin tightening treatments can focus on either resurfacing; or they can entail Low-Level Laser Therapy (LLLT), whereby light beams travel through the skin to varying depths in order to stimulate cell activity. The latter technology (LLLT), used in The LYMA Laser, is not considered a skin resurfacing treatment as it does not involve damage of the epidermis.

Can I Get the Same Results as Skin Resurfacing Treatments Without Pain?

Skin resurfacing treatments that achieve the quickest results often cause the most injury to the skin and longest post-treatment downtime. Softer approaches, such as LLLT do exist and can achieve the same impressive results over a longer time period. There are broadly two types of skin resurfacing laser treatments: ablative and non-ablative. Ablative lasers remove the top layer of the skin, while non-ablative lasers are used to heat up the underlying skin tissue without harming the surface itself. Both work by causing controlled thermal injury, which in turn promotes the production of collagen and cell renewal, (see below).

LYMA Laser technology. Unrivalled.

Skin Depth
Epidermis
Dermis
Fat
Muscle

LYMA Laser Technology

Advanced cosmetic laser technology engineered to deliver the scientifically proven dose of laser light (4 joules per 60 second) over a treatment are 8 times larger than standard at-home lasers. Doesn't use damaging heat to stimulate collagen production. Instead uses near-infrared laser light.

Near-Infrared LED

LED is a completely different light structure to Laser. Even delivered at the same frequency, LED light is not coherent, monochromatic and polarised. LED also does not feature Laser Speckle, the scientific phenomenon associated with regeneration.

At-home Laser

Fractional and non-fractional at-home lasers often cover a tiny treatment area. Even those that aren't painful, aren't technically zero-damage. They work by heating water in the dermis, ito stimulate collagen production. This technology doesn't act inside cells to stimulate regeneration.

Microcurrent

Disperses low-level electrical energy which passes through the nerves and water - the channels of least resistance. Unable to pass through dense tissue like skin. This technology is great to deliver a temporary lifting effect.

Swipe

In-Clinic Skin Laser Treatments

Skin resurfacing lasers: ablative and non-ablative. Both categories of laser cause thermal injury, or heat up the skin to distress it. Ablative resurfaces the top epidermal layer of skin and non ablative heats up the lower dermal layer. However, the level of impact and injury to the skin differs between these two categories.

Ablative Skin Laser Resurfacing

Ablative laser resurfacing causes superficial wounding to the skin, whilst also heating up the water molecules in its lower dermal layer to trigger the healing response. New collagen cells form to rebuild and repair, an action which consequently lessens the appearance of ageing.

Having laser skin rejuvenation doesn't stop when you leave the dermatologist's office, there can be a full programme of pre and post-care as well as risks you need to mitigate.

 

Here we describe briefly the most popular in-clinic ablative lasers technologies:

 

CO2 Lasers: Fully Ablative

Carbon Dioxide lasers are classed as 'fully ablative' and as such, are surgical grade and remove the very top layer of skin, therefore treating the entirety of the skin's surface.

Risks and realities of the Er:YAG laser:

Fully ablative lasers create thermal damage in the epidermis, strip the surface layers of the skin and are therefore the harshest, most invasive clinic treatment approach. The intensity of these lasers causes extreme discomfort during treatment so a local anaesthetic is generally required as well as intravenous sedative medication. Skin may take as long as six months to repair fully and the recovery time can take up to 6 weeks. There is also a high risk of post-inflammatory hyperpigmentation from healing, especially to dark skin.

Erbium Laser

Erbium lasers can be ablative or non-ablative. Their biggest appeal is that they are highly attractive to water and therefore able to quickly deliver wavelengths of laser light into the dermal layer to vaporise skin's water content. The Erbium laser's ability to target a specific treatment area of concern means Erbium lasers are regularly chosen for skin aging concerns such as fine lines, wrinkles and age spots. This increased accuracy in the treatment area is also why Erbium lasers are often favoured over CO2 lasers.

Risks and realities of the Er:YAG laser:

The recovery with Erbium resurfacing is easier than with the CO2 lasers and requires slightly less downtime however, Erbium is still an intensive clinic laser treatment for dramatic rejuvenation results so can be acutely painful. The recovery time can take up to 2 weeks.

Fractionated Lasers

So named for their ability to deliver both heat and light in a pixelated manner, fractionated lasers can be seen as a mid-way point between ablative and non-ablative laser treatments. Fractionated lasers' ability to isolate the exact area of skin that requires treating has made them a hugely popular choice in dermatologist offices because they're able to accurately pinpoint scars and pigmentation patches as well as fine lines and wrinkles. By far the most commonly used is the Fraxel that has two different wave-lengths for treating various skin conditions such as dullness, sun damage or fine lines.

Image description

Risks and realities of the Fraxel laser:

The popularity of this laser puts it at risk of being used by untrained technicians and the discomfort during treatment may mean patients abandon the course before completion, therefore never achieving the results they were after. Also, there is a chance of aggressive breakouts due to high skin cell turnover and darker skin tones are at higher risk for developing excess scarring from collagen overproduction. Expected downtime is between 3 to 5 days.

Non-Ablative Skin Rejuvenation Lasers (In-Clinic)

Non-ablative lasers work by heating up the water in underlying skin tissue without harming the surface and the body responds by producing new collagen cells. The skin therefore appears firmer, more even and rejuvenated. Non-ablative lasers cause less cosmetic damage than ablative lasers because their energy is directed much lower into the deeper tissue but take more sessions to achieve similar effects.

Nd:YAG (Neodymium)

Neodymium is the crystal the laser passes through and is a non-ablative laser resurfacing alternative to the Erbium Er:YAG laser. With both longer wavelengths and longer pulse durations than the Er:YAG, the Nd:YAg has a lower risk of skin trauma. Generally speaking, the longer a wavelength, the deeper it penetrates and because the Nd:YAG beam is capable of travelling deeper into the skin, bypassing melanin cells where pigmentation lies, it is far more effective for people with brown or deep skin tones. Nd:YAG lasers are used to treat a variety of concerns, such as spider veins, scars, wrinkles and most notably hand wrinkles in which clinical trials found the non-ablative Nd:YAG to outperform the ablative Er:YAG.

Risks and realities of Nd:YAG Most Nd:

YAG lasers have a built-in cooling tip to blast freezing air and counteract the burn of the laser zap but pain is not insignificant so local anaesthesia is still administered. Multiple treatments may be needed to achieve an optimal outcome. The recovery time is around 7 - 10 days as skin goes through the healing process. Scabs will form and then naturally drop off. 

Low-Level Light Therapy (LLLT)

LLLT is a rapidly expanding arena of laser skin treatment due to its minimally invasive nature, the widely reported more positive patient experience and affordability per session.

Experts report on the ability of Low-Level Light Therapy (LLLT) to stimulate, regenerate and repair tissue without causing any thermal damage in a process called photobiomodulation. LLLT is being introduced in many of the more advanced dermatology clinics.  The LYMA Laser utilises Low-Level Laser Therapy in its at-home cosmetic laser device.

LED Light Therapy

LED light therapy involves various wavelengths of light, most often red and blue light frequencies, able to transfer energy to epidermal cells to optimise their function, causing them to behave like younger cells. This type of cosmetic light therapy is often referred to in clinics as a Photofacial and most commonly used to treat blemishes, inflammation and fine lines and wrinkles.

Intense Pulsed Light (IPL)

When it comes to widely accessible skin treatments, many people consider IPL (Intense Pulsed Light) as a reliable mid-point option. IPL uses broadband light and is able to reduce the signs of sun damage, spots, redness, veins, wrinkles and most cosmetic concerns. Although there is no downtime following IPL treatment, IPL does not sidestep pain, nor does it avoid causing irritation and redness to the skin.

Risks and realities of IPL treatment

IPL and Photofacials are not legally required to be carried out by medical professionals. Thus, there may be a lack of training and misuse of powerful light devices.

At-Home Skin Laser Treatments

For safety reasons, at-home devices operate at a much lower power than in-clinic systems. The LYMA Laser however is an at-home skin rejuvenation machine that emits a clinic-grade laser beam that's completely safe to use yourself.

 

The main types of laser or light devices that you can use at home are:

 

At-Home LED Devices

LED light therapy masks are made up of different light frequencies, most commonly red light to increase blood circulation and blue light to combat blemish-inducing surface bacteria.

At-Home Infrared Devices

Infrared light is a frequency of light that's beyond what the human eye can see and near-infrared is one frequency closer to visible light, but still invisible to the naked eye. Infrared is used to stimulate photobiomodulation; a process that increases the ATP in skin cells, (a measure of energy within fibroblast cells) and promotes collagen production within the skin.

The LYMA Laser

The LYMA Laser is widely considered by independent experts to be an effective at-home devices due to its cold near-infrared cosmetic laser technology and remarkable ability to support the photobiomodulation process. As a light-weight, handheld device the LYMA Laser has caused a seismic shift in the laser skin rejuvenation treatment world.

The LYMA Laser is engineered to deliver Low-Level Laser Therapy. This technology has been extensively studied and recognised to deliver clinic-grade results on many type of skin conditions, including wrinkles, loss of elasticity, redness, pigmentation and more.

Dr Graeme E. Glass Phd, a craniofacial, cosmetic and plastic surgeon, as well as an associated professor of clinical surgery and LYMA Aesthetic Director, has called The LYMA Laser, “one of the most exciting and innovative products to have been developed for the purpose of skin rejuvenation”.

Independent scientific trials show low-level laser therapy is a proven holistic approach to treating pigmentation, blemishes scarring, redness and skin sagging as well as more in-depth tasks in just a matter of months. Customers report that in as little as a few weeks, their skin feels and looks smoother, firmer and overall, more vibrant.

Why the LYMA Laser sets a new standard

LYMA Laser Non-fractional laser Fractional Laser Microneedling Microcurrent Radio frequency
Treats both face and body
Zero damage/ heat reliance to stimulate collagen
Pain free
Doesn’t require goggles to treat eye area
10 year lifespan of device
Optimised for all skin tones
Zero risk of infection
No conductor gel required
3-minute treatment time per 8cm2 area

Is The LYMA Laser Safe to Use?

This at-home Laser is able to achieve these results without any of the associated pain or discomfort of other laser treatments and removing all of the risks of traditional laser treatments. 

Who Should You Speak to for Advice on Laser Skin Treatments?

It is vital to consult the right advice before choosing a laser treatment. Book free consultations from several skin clinics before making a decision. 

If you'd like further advice or have a specific question regarding The LYMA Laser and how it could benefit you, please contact Concierge who will be more than happy to advise and assist you on your journey to your best skin.

Customer Case Studies

What really counts to us is the opinion of people using LYMA every day. Read some of our customers' experiences with LYMA Laser below. 

Chris testimonial

"I've been using The LYMA Laser and I feel like it's making a difference."

Jancee's testimonial

"The LYMA Laser is replacing my need for redness creams."

Jenny's testimonial

"It's giving me more confidence and has contributed to a growing sense of inner strength."

Penny's testimonial

"I've returned to modelling now and my confidence is back too."

Your Questions About Laser Skin Renewal Treatments

The cost of a full face fully ablative laser resurfacing treatment is on average £2723* per session in the UK. Treatments vary greatly in price, both per session and how many are required based on the skin concern and the area being treated. After purchasing The LYMA Laser, it can be used daily, for as many times as required without any further expense.

Laser skin resurfacing can be an effective treatment for skin concerns such as pigmentation, sun damage, age spots, blemishes scarring, fine lines and wrinkles, sagging skin and uneven skin tone.  

The effects of laser resurfacing treatments vary in their longevity. Often, the more intensive the treatment, the longer the results will last.

In-clinic laser treatments that cause intentional and controlled damage to trigger skin's healing response are not good for overall skin health, especially for darker skin tones. The LYMA Laser however, causes zero damage to skin.

Laser resurfacing can be painful both during the treatment and afterwards as the skin heals. The level of discomfort is dictated by the intensity and power of the laser as well as the size of the surface being treated. Incorporating breakthrough laser energy dispersion, The LYMA Laser can achieve similar results without inducing any pain or damage to the skin.

In the case of clinic laser skin treatments no, direct sun exposure is highly damaging to newly treated skin and should be avoided. However, due to its zero-damage approach, The LYMA Laser puts no limits or restrictions on sun exposure or any element of your lifestyle.

Some laser treatments require weeks of downtime, whilst others require a few days. Alternatively, LLLT lasers such as The LYMA Laser can be used in leisure time and in the evenings with no downtime required, so do not require any disruption to daily life.

Skin that's been injured or compromised by ill or overuse of laser techniques needs to be treated with a bespoke skincare or medication plan. A trustworthy professional will be able to advise you on how to repair laser damaged skin.

Darker skins have long been excluded from laser treatment due to the potential of post-inflammatory hyperpigmentation and scarring. Research also suggests that many lasers struggle to detect darker skin tones, making options limited. Conversely, The LYMA Laser has proved highly effective on all skin tones without any damage or associated risks. 

Both chemical peels and lasers can be used for skin resurfacing, one using chemicals and the other, light. Whilst chemical peels come in different strengths and treat the entire face, lasers may be considered better at targeting specific areas of concern. Side effects also differ but research suggests that chemical peels are more suited to darker skin tones as they do not carry the risk of post-inflammatory hyperpigmentation or scarring associated with laser treatment. The LYMA Laser is suited to any skin tone and proven to work safely and effectively on darker skin.

Research shows that 95% of people who've suffered from blemishes, have residual scarring and lasers are an effective method of minimising that scarring.

Age-related blemishes often leave scarring and pigmentation marks. The LYMA Laser has been proven to be highly effective at reducing and removing age-related blemish marks and pigmentation within just a few months of daily use.  

Non-ablative lasers, red and infra-red light can all stimulate collagen production within the skin, without causing the harm that ablative lasers and surgery do.