<?xml version="1.0" encoding="UTF-8" ?><!-- generator=Zoho Sites --><rss version="2.0" xmlns:atom="http://www.w3.org/2005/Atom" xmlns:content="http://purl.org/rss/1.0/modules/content/"><channel><atom:link href="https://www.instantronics.com/news-and-tips/tag/galvanic/feed" rel="self" type="application/rss+xml"/><title>Instantronics - New and Tips #Galvanic</title><description>Instantronics - New and Tips #Galvanic</description><link>https://www.instantronics.com/news-and-tips/tag/galvanic</link><lastBuildDate>Tue, 16 Jun 2026 07:43:00 -0700</lastBuildDate><generator>http://zoho.com/sites/</generator><item><title><![CDATA[Galvanic Electrolysis for Hair in the Mouth Post Surgical Graft]]></title><link>https://www.instantronics.com/news-and-tips/post/Hair-in-the-Mouth-and-Galvanic-Modality</link><description><![CDATA[<img align="left" hspace="5" src="https://www.instantronics.com/Galvanic.jpg?v=1747169272"/>How do you treat hair in the mouth? Galvanic electrolysis.]]></description><content:encoded><![CDATA[
<div class="zpcontent-container blogpost-container "><div data-element-id="elm_7iApnIg8SFGelIKDtrDOIQ" data-element-type="section" class="zpsection "><style type="text/css"></style><div class="zpcontainer"><div data-element-id="elm_WgdWv_4OQFqD5ALdZMLZbQ" data-element-type="row" class="zprow zpalign-items- zpjustify-content- "><style type="text/css"></style><div data-element-id="elm_Ao9sTVQeRI6NKqPF7_2kWA" data-element-type="column" class="zpelem-col zpcol-12 zpcol-md-12 zpcol-sm-12 zpalign-self- "><style type="text/css"></style><div data-element-id="elm_8wcgV-RIT-2iBYAszCyjsQ" data-element-type="heading" class="zpelement zpelem-heading "><style></style><h2
 class="zpheading zpheading-align-center " data-editor="true">What do you do if you client needs hair removed from the back of their mouth? Electrolysis of course!</h2></div>
<div data-element-id="elm_f3JSH88MTvmWt2QaZq_Tcw" data-element-type="text" class="zpelement zpelem-text "><style></style><div class="zptext zptext-align-center " data-editor="true"><div style="color:inherit;"><p style="text-align:left;"><span style="color:inherit;">Hair is something most of us only think about when it shows up where we don’t want it—on the chin, legs, or underarms. But for some individuals recovering from oral cancer, hair can appear in a place far more unexpected and uncomfortable: inside the mouth. This unusual situation can occur when skin grafts are used to reconstruct areas of the oral cavity after surgery. While these grafts are lifesaving and restorative, they can bring along characteristics of the original skin including hair growth. Yes, hair in the mouth.</span></p><p style="text-align:left;"><span style="color:inherit;"><br></span></p><p style="text-align:left;">Imagine the sensation of hair growing in the back of your throat or along the inside of your cheek. It’s not just a cosmetic concern; it can affect speech, swallowing, and overall comfort. For patients already navigating the physical and emotional toll of cancer recovery, this added challenge can feel overwhelming. One particularly striking case involved a graft taken from the wrist—chosen because it closely matched the texture and flexibility needed for the mouth. However, like many areas of the body, the wrist can contain fine hair follicles, which continue to function even after transplantation.</p><p style="text-align:left;"><br></p><p style="text-align:left;">This is where electrolysis is the key solution. Unlike temporary hair removal methods, electrolysis offers a permanent approach by targeting each individual hair follicle. In these sensitive cases, however, not all electrolysis modalities are appropriate. Thermolysis, which uses heat, carries a risk of damaging delicate grafted tissue. The precision required in the oral cavity, combined with the unique nature of grafted skin, demands a more controlled method.</p><p style="text-align:left;"><br></p><p style="text-align:left;">Galvanic electrolysis is the preferred method in these situations. Instead of heat, it uses a chemical reaction, the formation of sodium hydroxide, to destroy the hair follicle, making it far safer for compromised or highly sensitive tissue. The process is slower than thermolysis, but in this context, safety and tissue preservation are far more important than speed. Each hair is treated carefully, minimizing risk while providing a permanent solution to an otherwise persistent and unpleasant problem.</p><p style="text-align:left;"><br></p><p style="text-align:left;">Cases like these highlight the versatility and importance of electrolysis beyond traditional cosmetic use. It’s not just about aesthetics, electrolysis is for restoring comfort, dignity, and quality of life. For individuals dealing with the unexpected reality of hair growth inside the mouth, galvanic electrolysis offers a thoughtful, medically appropriate path forward.</p><p style="text-align:left;">&nbsp;</p></div></div>
</div></div></div></div></div></div> ]]></content:encoded><pubDate>Sun, 14 Jun 2026 17:41:58 -0500</pubDate></item><item><title><![CDATA[Galvanic, Thermolysis and the Blend]]></title><link>https://www.instantronics.com/news-and-tips/post/galvanic-thermolysis-and-the-blend</link><description><![CDATA[<img align="left" hspace="5" src="https://www.instantronics.com/Gal-Therm-Blend.jpg?v=1747169276"/>An essay on differences between galvanic, thermolysis and blend methods of electrolysis]]></description><content:encoded><![CDATA[
<div class="zpcontent-container blogpost-container "><div data-element-id="elm_y6YrvK-rRQG44jNipiyROQ" data-element-type="section" class="zpsection "><style type="text/css"></style><div class="zpcontainer"><div data-element-id="elm_JK-Y5TDLQmySJpV9Rs2xdw" data-element-type="row" class="zprow zpalign-items- zpjustify-content- "><style type="text/css"></style><div data-element-id="elm_Znq9X7noRoyuonbf0iTHyA" data-element-type="column" class="zpelem-col zpcol-12 zpcol-md-12 zpcol-sm-12 zpalign-self- "><style type="text/css"></style><div data-element-id="elm_l3MkyU9USgmGmZa-KAcJWQ" data-element-type="heading" class="zpelement zpelem-heading "><style></style><h3
 class="zpheading zpheading-align-center " data-editor="true">Understanding the Differences Between Galvanic, Thermolysis and Blend Electrolysis</h3></div>
<div data-element-id="elm_Jfqt3zNGTVeGw1E7q7lhOQ" data-element-type="text" class="zpelement zpelem-text "><style></style><div class="zptext zptext-align-center " data-editor="true"><div style="text-align:left;"><span style="color:inherit;font-size:17.1px;">This article provides a brief overview of the differences between the three modalities of electrolysis: galvanic, thermolysis, and blend.&nbsp;&nbsp;</span></div><div style="text-align:left;"><span style="color:inherit;font-size:17.1px;"><br/></span></div><div style="text-align:left;"><span style="color:inherit;font-size:17.1px;">Galvanic electrolysis is accomplished via direct current (DC) with electrical current passing from the epilator and into the hair follicle being treated before moving out of the client's body through a ground anode that returns the electrical charge once again to the epilator. More specifically, during galvanic electrolysis, DC current is sent from the epilator through the wire and probe holder where the electrical current travels along the electrolysis probe before entering the client's body and causing a chemical reaction using water (H2O) and salts (NaCL) within the hair follicle being targeted. This chemical reaction creates sodium hydroxide (aka lye), an extremely corrosive base that destroys proteins and disables the follicle's ability to grow new hairs.</span></div><div style="text-align:left;"><span style="color:inherit;font-size:17.1px;"><br/></span></div><span style="color:inherit;font-size:17.1px;"><div style="text-align:left;"><span style="color:inherit;">In contrast, thermolysis uses alternating current (AC) to disable a follicle's ability to grow new hairs. Unlike direct current (DC) where electrons move in one direction only, alternating current (AC) causes the polarity of the current to continually change, as if there was a magnet flipping back and forth and constantly changing direction. AC takes advantage of the slight charge found in water (H2O) molecules in a hair follicle. When AC current enters a hair follicle from the tip of the probe, this change in polarity causes the water molecules to turn in reaction to the positive or negative charge constantly shifting at the tip of the probe. This movement creates friction which in turn creates heat, and the resulting heat then destroys the hair follicle proteins during thermolysis. Like galvanic, it is the destruction of proteins that stops hair growth, but the two modalities use different strategies to accomplish this shared goal.&nbsp;</span></div><div style="text-align:left;"><span style="color:inherit;"><br/></span></div><div style="text-align:left;"><span style="color:inherit;">As its name indicates, blend is an electrolysis modality where the two mechanisms of destruction work together with </span><span style="color:inherit;">an alternating current &quot;riding&quot; a direct current.&nbsp;</span><span style="color:inherit;">At the same time that a direct current is creating sodium hydroxide, an alternating current is creating heat. Heated sodium hydroxide destroys proteins&nbsp;</span><span style="color:inherit;text-align:center;">(via denaturing)</span><span style="color:inherit;">&nbsp;more quickly than room temperature sodium hydroxide. This sped-up reaction is one of the reasons that many electrologists prefer the blend modality.&nbsp;</span></div></span><div style="text-align:left;"><span style="font-size:17.1px;"><br/></span></div><span style="color:inherit;font-size:17.1px;"><div style="text-align:left;"><span style="color:inherit;">Whether you use thermolysis, galvanic electrolysis or the blend, in all cases electricity is doing the work to destroy proteins and kill the follicle.&nbsp; The difference lies in whether direct current, alternating current or both are used to create the lye or heat that ultimately denatures proteins and kills the hair follicle.&nbsp;</span></div></span></div>
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</div></div></div></div> ]]></content:encoded><pubDate>Wed, 16 Apr 2025 16:50:39 -0500</pubDate></item></channel></rss>