Breaking Down the Science of Collagen Induction Therapy

In Blog Posts, collagen induction therapy/microneedling by Webmaster

Breaking Down the Science of Collagen Induction Therapy

collagen induction therapy, microneedlingRejuvenating the skin with moisturizers and other topical substances has been the hallmark of dermatology for many decades. With today’s technology developing newer and better ways to treat the skin, doctors now have alternative therapies for even better results. Microneedling is the process of selectively damaging the skin so that it can create smooth and supple tissues in response. In fact, patients should understand the science and process involved in collagen induction therapy as they look younger with each treatment.

The Skin as a Barrier to Collagen Induction Therapy

The skin is a natural barrier to any foreign substances so that the body remains safe from germs. When patients visit a dermatologist, the professional must take this fact into consideration. Lotions can only treat the skin to a certain point, which is why oral components are also part of some treatment programs. The concept of microneedling means that a tool is used to breach that barrier so that the internal skin structures can be directly accessed and manipulated. Only this particular treatment can be used to dive deep into the skin and make significant changes.

Topical Anesthetic Use

microneedling, cosmetic dermatologySome patients might be concerned about the idea of needles entering their skin. In reality, these needles are incredibly small and do not look similar to syringes during a typical injection. To ease any concerns, doctors normally use a topical anesthetic in order to numb the treatment area. This numbing agent essentially creates a pain-free experience while the skin is being treated with the best tools in the industry today. In addition, there’s no real recovery time either because the body hasn’t gone through a traumatic treatment. Patients are able to return to work or school right after the needling process.

Skin Stimulation

This procedure has a simple concept. Doctors use a tool that has several tiny needles. They’re placed on the skin as they pierce it with a swift motion. The needles only move a short distance into the skin. Essentially, they drop into the skin while avoiding any vascular areas. These minute holes stimulate the body to repair the area with elastin and collagen, which are naturally created after an injury. As a result, the skin will eventually look smoother than before as treatments continue.

Serum Additions

Pressing needles into the skin isn’t the only component to this treatment because doctors add the benefit of serums. Each patient will have a different goal for his or her skin. Doctors can suggest certain serums that can be injected during the needling process. These serums reach the critical tissues so that they can do the most good in a short amount of time. 

The Time Frame

Over the natural course of the micro needling recovery time, the skin will replace its top layer in only 30 days. Because the needling damages the tissues, patients will normally see some dramatic results in about 30 to 90 days. In most cases, the changes are visible within this time period so patients are almost immediately pleased with the results. Depending on the treatment area and ultimate goals, several appointments may be necessary to fill out the area. The dermatologist will go over all of these details at an initial appointment.

When you’re looking for a micro-needling professional in San Antonio, look for a doctor who has several years of experience and look for micro needling reviews online to see what others say about the procedure. Most dermatology offices offer a handful of different services, but collagen induction therapy is often one of the most popular choices. Interview the professional and book an appointment so that the skin can quickly benefit from this relatively simple procedure.

For more information about collagen induction therapy performed by Dr. Ochs and other services provided, please visit: