Botox, Dysport, and Xeomin are all used to counter wrinkles. They’re a purified form of botulinum toxin A, meaning there’s no botulism risk when used properly. They work by blocking the nerves that contract muscles, softening the appearance of wrinkles.
How Does Botox, Dysport, and Xeomin Work?
Frown lines form when facial expressions are made as the muscle under the skin contracts. Over time, as your skin ages, these repeated expressions cause lasting frown lines. Neurotoxins, such as Botox, Dysport, and Xeomin are prescription medications that block the release of chemicals that cause these muscle contractions. So frown lines are softened. Since it was first used for cosmetic purposes almost 30 year ago, BOTOX has become synonymous with erasing wrinkles (and also become the butt of “frozen face” jokes). Botuinum Toxin (BoNT) type A is, in fact, a deadly toxin produced by the anaerobic bacteria Clostridium botulinum.
Botulinum Toxin: Mechanism of Action
Botulinum toxin works by inhibiting the release of a neurotransmitter, acetylcholine, by the nerve cells. This prevents the nerve signals from being released by the cells, and hence, neuromuscular blockage. Cilnically, what we see is reduced muscle movements- and reduction of dynamic wrinkles. The wrinkles are “erased”.
BOTOX: The First Approved Botulinum Toxin
In 2002, the USA FDA approved the use of BOTOX® Cosmetic to temporarily improve the appearance of moderate-to-severe frown lines between the eyebrows (glabellar lines). It ushered in a new era for medical aesthetics.
The second BoNT to be approved for the same purpose was Dysport, in 2009, followed by the 3rd, Xeomin, in 2011. Equivalence studies have shown that all 3 brands of BoNT work on reducing wrinkles. However, there are some significant differences between the 3.
BOTOX, DYSPORT, XEOMIN: Differences
BOTOX, Dysport and Xeomin all contain the same active ingredient: botulinum toxin type A. Numerous studies have been conducted to assess the properties of the 3 leading brands of BoNT, unfortunately, often with conflicting results. Here are some of them:
Median Time for Duration of Treatment Effect (Days)
|Sex||IncobotulinumtoxinA (Xeomin)||OnabotulinumtoxinA (Botox)||AbobotulinumtoxinA (Dysport)|
Botulinum Toxin Resistance and Complexing Proteins
Cases of resistance to BoNT treatments have been reported, both for medical6 and cosmetic indications. The resistance may be partial or full7. When someone becomes resistant to BoNT, they stop responding to the treatment. It is widely agreed that BoNT resistance is a result of the production of antibodies against the Botulinum toxin molecule.
It is also found that the risk of developing antibodies to BoNT increases with the amount of complexing proteins – these are found in BOTOX and Dysport but not Xeomin.
Botulinum resistance have been reported with BOTOX and Dysport, but not with Xeomin – hence, the claim that Xeomin is “purer” with less tendency to cause BoNT resistance may hold some truth.
Botulinum Toxin Resistance – Prevention is Better Than Cure
Unfortunately, once resistance has developed, there is no known way to cure it. Once someone develops BoNT resistance to one brand, they will likely be resistant to the others too, including Xeomin7. Although rare, It is always a possibility, and prevention is the only way.
Steps to prevention of Botulinum resistance include:
1. Treating with smaller dosages
2. Less frequent treatments (more than 12 weeks between treatments)
3. Touch up treatments at larger intervals (more than 21 days)
4. Choosing a brand of BoNT with no complexing proteins