Dysport injections, You’ve got better things to do than think about what your frown lines look like. The majority of users see improvement in just 2-3 days after treatment. In just one 10 to 20 minutes treatment, Dysport injections may help improve the look of your frown lines between the eyebrows for up to 5 months. Results of repeat treatments may be comparable to your first use. Another plus? There is minimal downtime after your treatment, which means you can get back to your day faster.
Dysport is an injection that softens frown lines and dynamic wrinkles. As a neurotoxin, it limits muscle movement, so it decreases the appearance of wrinkles that occur when muscles contract.
Wrinkles appearing from muscle movements are those in the frown, crows feet, and forehead, Dysport injections can also be used to raise the eyebrows, lift the corners of the mouth, decrease dimpling in the chin, reduce necklines, and slim the face by decreasing the bulk of the jaw muscles. Dysport (1x300iu,1x500iu,2x500iu)
What is Dysport?
Dysport is an injectable that paralyzes certain muscles in the forehead so they can’t move, thus preventing wrinkles from forming. It can also soften existing lines over time. Dysport is FDA-approved to treat moderate to severe glabellar lines between the eyebrows, known as frown lines. It contains botulinum toxin.
Wrinkles are caused by constant movements and muscle contractions. One injection into each of the 5 points between and above the eyebrows temporarily prevents muscle contractions that cause frown lines.
Who should use Dysport?
If you’re under 65 and seeking treatment to temporarily improve the look of wrinkles between the eyebrows, ask your specialist if Dysport is right for you.
How long does it take for Dysport to work?
Dysport begins to work as soon as 2-4 days after injection and has its full effect in about 1 week. The majority of people begin to see the effects of Dysport 2-3 days after injection.
Dysport is absorbed by nerve endings near the treated areas soon after injection. They work by blocking the release of transmitters from the nerves that signal muscles to contract