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PHOENIX –
“Even a cursory review of PubMed today yields over 100,000 results” on this topic, Macrene R. Alexiades, MD, PhD, associate clinical professor of dermatology at Yale University, New Haven, Conn., said at the annual conference of the American Society for Laser Medicine and Surgery. “Add to that radiofrequency and various diagnoses, the number of publications has skyrocketed, particularly over the last 10 years.”
What has been missing from this hot research topic all these years, she continued, is that no one has distilled this pile of data into a practical guide for office-based clinicians who use lasers and energy-based devices for genitourinary conditions – until now. Working with experts in gynecology and urogynecology, Dr. Alexiades spearheaded a 2-year-long effort to assemble a document on optimal protocols and best practices for genitourinary application of lasers and energy-based devices. The document, published soon after the ASLMS meeting in Lasers in Medicine and Surgery, includes a table that lists the current Food and Drug Administration approval status of devices in genitourinary applications, as well as individual sections dedicated to fractional lasers, radiofrequency (RF) devices, and high-intensity focused electromagnetic technology. It concludes with a section on the current status of clearances and future pathways.
“The work we did was exhaustive,” said Dr. Alexiades, who is also founder and director of Dermatology & Laser Surgery Center of New York. “We went through all the clinical trial data and compiled the parameters that, as a consensus, we agree are best practices for each technology for which we had rigorous published data.”
The document contains a brief background on the history of the devices used for genitourinary issues and it addresses core topics for each technology, such as conditions treated, contraindications, preoperative physical assessment and preparation, perioperative protocols, and postoperative care.
Contraindications to the genitourinary use of lasers and energy-based devices are numerous and include use of an intrauterine device, active urinary tract or genital infection, vaginal bleeding, current pregnancy, active or recent malignancy, having an electrical implant anywhere in the body, significant concurrent illness, and an anticoagulative or thromboembolic condition or taking anticoagulant medications 1 week prior to the procedure. Another condition to screen for is advanced prolapse, which was considered a contraindication in all clinical trials, she added. “It’s important that you’re able to do the speculum exam and stage the prolapse” so that a patient with this contraindication is not treated.
Dr. Alexiades shared the following highlights from the document’s section related to the use of fractional CO2 lasers:
Preoperative management. Schedule the treatment one week after the patient’s menstrual period. Patients should avoid blood thinners for 7 days and avoid intercourse the night before the procedure. Reschedule in the case of fever, chills, or vaginal bleeding or discharge.
Preoperative physical exam and testing. A normal speculum exam and a recent negative PAP smear are required. For those of child-bearing potential, a pregnancy test is warranted. Obtain written and verbal consent, including discussion of all treatment options, risks, and benefits. No topical or local anesthesia is necessary internally. “Externally, we sometimes apply topical lidocaine gel, but I have found that’s not necessary in most cases,” Dr. Alexiades said. “The treatment is so quick.”
Peri-operative management. In general, device settings are provided by the manufacturer. “For most of the studies that had successful outcomes and no adverse events, researchers adhered to the mild or moderate settings on the technology,” she said. Energy settings were between 15 and 30 watts, delivered at a laser fluence of about 250-300 mJ/cm2 with a spacing of microbeams 1 mm apart. Typically, three treatments are done at 1-month intervals and maintenance treatments are recommended at 6 and 12 months based on duration of the outcomes.
Vulvovaginal postoperative management. A 3-day recovery time is recommended with avoidance of intercourse during this period, because “re-epithelialization is usually complete in 3 days, so we want to give the opportunity for the lining to heal prior to introducing any friction, Dr. Alexiades said.” Rarely, spotting or discharge may occur and there should be no discomfort. “Any severe discomfort or burning may potentially signify infection and should prompt evaluation and possibly vaginal cultures. The patient can shower, but we recommend avoiding seated baths to decrease any introduction of infectious agents.”
Patients should be followed up monthly until three treatments are completed, and a maintenance treatment is considered appropriate between 6 and 12 months. “I do recommend doing a 1-month follow-up following the final treatment, unless it’s a patient who has already had a series of three treatments and is coming in for maintenance,” she said.
In a study from her own practice, Dr. Alexiades evaluated a series of three fractional CO2 laser treatments to the vulva and vagina with a 1-year follow-up in postmenopausal patients. She used the Vaginal Health Index (VHI) to assess changes in vaginal elasticity, fluid volume, vaginal pH, epithelial integrity, and moisture. She and her colleagues discovered that there was improvement in every VHI category after treatment and during the follow-up interval up to 6 months.
“Between 6 and 12 months, we started to see a return a bit toward baseline on all of these parameters,” she said. “The serendipitous discovery that I made during the course of that study was that early intervention improves outcomes. I observed that the younger, most recently postmenopausal cohort seemed to attain normal or near normal VHI quicker than the more extended postmenopausal cohorts.”
In an editorial published in 2020, Dr. Alexiades reviewed the effects of fractional CO2 laser treatment of vulvar skin on vaginal pH and referred to a study she conducted that found that the mean baseline pH pretreatment was 6.32 in the cohort of postmenopausal patients, and was reduced after 3 treatments. “Postmenopausally, the normal acidic pH becomes alkaline,” she said. But she did not expect to see an additional reduction in pH following the treatment out to 6 months. “This indicates that, whatever the wound healing and other restorative effects of these devices are, they seem to continue out to 6 months, at which point it turns around and moves toward baseline [levels].”
Dr. Alexiades highlighted two published meta-analyses of studies related to the genitourinary use of lasers and energy-based devices. One included 59 studies of 3,609 women treated for vaginal rejuvenation using either radiofrequency or fractional ablative laser therapy. The studies reported improvements in symptoms of GSM/VVA and sexual function, high patient satisfaction, with minor adverse events, including treatment-associated vaginal swelling or vaginal discharge.
“Further research needs to be completed to determine which specific pathologies can be treated, if maintenance treatment is necessary, and long-term safety concerns,” the authors concluded.
In another review, researchers analyzed 64 studies related to vaginal laser therapy for GSM. Of these, 47 were before and after studies without a control group, 10 were controlled intervention studies, and 7 were observational cohort and cross-sectional studies.
Vaginal laser treatment “seems to improve scores on the visual analogue scale, Female Sexual Function Index, and the Vaginal Health Index over the short term,” the authors wrote. “Safety outcomes are underreported and short term. Further well-designed clinical trials with sham-laser control groups and evaluating objective variables are needed to provide the best evidence on efficacy.”
“Lasers and energy-based devices are now considered alternative therapeutic modalities for genitourinary conditions,” Dr. Alexiades concluded. “The shortcomings in the literature with respect to lasers and device treatments demonstrate the need for the consensus on best practices and protocols.”
During a separate presentation at the meeting, Michael Gold, MD, highlighted data from Grand View Research, a market research database, which estimated that the global women’s health and wellness market is valued at more than $31 billion globally and is expected to grow at a compound annual growth rate of 4.8% from 2022 to 2030.
“Sales of women’s health energy-based devices continue to grow as new technologies are developed,” said Dr. Gold, a Nashville, Tenn.–based dermatologist and cosmetic surgeon who is also editor-in-chief of the Journal of Cosmetic Dermatology. “Evolving societal norms have made discussions about feminine health issues acceptable. Suffering in silence is no longer necessary or advocated.”
Dr. Alexiades disclosed that she has conducted research for Candela Lasers, Lumenis, Allergan/AbbVie, InMode, and Endymed. She is also the founder and CEO of Macrene Actives. Dr. Gold disclosed that he is a consultant to and/or an investigator and a speaker for Joylux, InMode, and Alma Lasers.
PHOENIX –
“Even a cursory review of PubMed today yields over 100,000 results” on this topic, Macrene R. Alexiades, MD, PhD, associate clinical professor of dermatology at Yale University, New Haven, Conn., said at the annual conference of the American Society for Laser Medicine and Surgery. “Add to that radiofrequency and various diagnoses, the number of publications has skyrocketed, particularly over the last 10 years.”
What has been missing from this hot research topic all these years, she continued, is that no one has distilled this pile of data into a practical guide for office-based clinicians who use lasers and energy-based devices for genitourinary conditions – until now. Working with experts in gynecology and urogynecology, Dr. Alexiades spearheaded a 2-year-long effort to assemble a document on optimal protocols and best practices for genitourinary application of lasers and energy-based devices. The document, published soon after the ASLMS meeting in Lasers in Medicine and Surgery, includes a table that lists the current Food and Drug Administration approval status of devices in genitourinary applications, as well as individual sections dedicated to fractional lasers, radiofrequency (RF) devices, and high-intensity focused electromagnetic technology. It concludes with a section on the current status of clearances and future pathways.
“The work we did was exhaustive,” said Dr. Alexiades, who is also founder and director of Dermatology & Laser Surgery Center of New York. “We went through all the clinical trial data and compiled the parameters that, as a consensus, we agree are best practices for each technology for which we had rigorous published data.”
The document contains a brief background on the history of the devices used for genitourinary issues and it addresses core topics for each technology, such as conditions treated, contraindications, preoperative physical assessment and preparation, perioperative protocols, and postoperative care.
Contraindications to the genitourinary use of lasers and energy-based devices are numerous and include use of an intrauterine device, active urinary tract or genital infection, vaginal bleeding, current pregnancy, active or recent malignancy, having an electrical implant anywhere in the body, significant concurrent illness, and an anticoagulative or thromboembolic condition or taking anticoagulant medications 1 week prior to the procedure. Another condition to screen for is advanced prolapse, which was considered a contraindication in all clinical trials, she added. “It’s important that you’re able to do the speculum exam and stage the prolapse” so that a patient with this contraindication is not treated.
Dr. Alexiades shared the following highlights from the document’s section related to the use of fractional CO2 lasers:
Preoperative management. Schedule the treatment one week after the patient’s menstrual period. Patients should avoid blood thinners for 7 days and avoid intercourse the night before the procedure. Reschedule in the case of fever, chills, or vaginal bleeding or discharge.
Preoperative physical exam and testing. A normal speculum exam and a recent negative PAP smear are required. For those of child-bearing potential, a pregnancy test is warranted. Obtain written and verbal consent, including discussion of all treatment options, risks, and benefits. No topical or local anesthesia is necessary internally. “Externally, we sometimes apply topical lidocaine gel, but I have found that’s not necessary in most cases,” Dr. Alexiades said. “The treatment is so quick.”
Peri-operative management. In general, device settings are provided by the manufacturer. “For most of the studies that had successful outcomes and no adverse events, researchers adhered to the mild or moderate settings on the technology,” she said. Energy settings were between 15 and 30 watts, delivered at a laser fluence of about 250-300 mJ/cm2 with a spacing of microbeams 1 mm apart. Typically, three treatments are done at 1-month intervals and maintenance treatments are recommended at 6 and 12 months based on duration of the outcomes.
Vulvovaginal postoperative management. A 3-day recovery time is recommended with avoidance of intercourse during this period, because “re-epithelialization is usually complete in 3 days, so we want to give the opportunity for the lining to heal prior to introducing any friction, Dr. Alexiades said.” Rarely, spotting or discharge may occur and there should be no discomfort. “Any severe discomfort or burning may potentially signify infection and should prompt evaluation and possibly vaginal cultures. The patient can shower, but we recommend avoiding seated baths to decrease any introduction of infectious agents.”
Patients should be followed up monthly until three treatments are completed, and a maintenance treatment is considered appropriate between 6 and 12 months. “I do recommend doing a 1-month follow-up following the final treatment, unless it’s a patient who has already had a series of three treatments and is coming in for maintenance,” she said.
In a study from her own practice, Dr. Alexiades evaluated a series of three fractional CO2 laser treatments to the vulva and vagina with a 1-year follow-up in postmenopausal patients. She used the Vaginal Health Index (VHI) to assess changes in vaginal elasticity, fluid volume, vaginal pH, epithelial integrity, and moisture. She and her colleagues discovered that there was improvement in every VHI category after treatment and during the follow-up interval up to 6 months.
“Between 6 and 12 months, we started to see a return a bit toward baseline on all of these parameters,” she said. “The serendipitous discovery that I made during the course of that study was that early intervention improves outcomes. I observed that the younger, most recently postmenopausal cohort seemed to attain normal or near normal VHI quicker than the more extended postmenopausal cohorts.”
In an editorial published in 2020, Dr. Alexiades reviewed the effects of fractional CO2 laser treatment of vulvar skin on vaginal pH and referred to a study she conducted that found that the mean baseline pH pretreatment was 6.32 in the cohort of postmenopausal patients, and was reduced after 3 treatments. “Postmenopausally, the normal acidic pH becomes alkaline,” she said. But she did not expect to see an additional reduction in pH following the treatment out to 6 months. “This indicates that, whatever the wound healing and other restorative effects of these devices are, they seem to continue out to 6 months, at which point it turns around and moves toward baseline [levels].”
Dr. Alexiades highlighted two published meta-analyses of studies related to the genitourinary use of lasers and energy-based devices. One included 59 studies of 3,609 women treated for vaginal rejuvenation using either radiofrequency or fractional ablative laser therapy. The studies reported improvements in symptoms of GSM/VVA and sexual function, high patient satisfaction, with minor adverse events, including treatment-associated vaginal swelling or vaginal discharge.
“Further research needs to be completed to determine which specific pathologies can be treated, if maintenance treatment is necessary, and long-term safety concerns,” the authors concluded.
In another review, researchers analyzed 64 studies related to vaginal laser therapy for GSM. Of these, 47 were before and after studies without a control group, 10 were controlled intervention studies, and 7 were observational cohort and cross-sectional studies.
Vaginal laser treatment “seems to improve scores on the visual analogue scale, Female Sexual Function Index, and the Vaginal Health Index over the short term,” the authors wrote. “Safety outcomes are underreported and short term. Further well-designed clinical trials with sham-laser control groups and evaluating objective variables are needed to provide the best evidence on efficacy.”
“Lasers and energy-based devices are now considered alternative therapeutic modalities for genitourinary conditions,” Dr. Alexiades concluded. “The shortcomings in the literature with respect to lasers and device treatments demonstrate the need for the consensus on best practices and protocols.”
During a separate presentation at the meeting, Michael Gold, MD, highlighted data from Grand View Research, a market research database, which estimated that the global women’s health and wellness market is valued at more than $31 billion globally and is expected to grow at a compound annual growth rate of 4.8% from 2022 to 2030.
“Sales of women’s health energy-based devices continue to grow as new technologies are developed,” said Dr. Gold, a Nashville, Tenn.–based dermatologist and cosmetic surgeon who is also editor-in-chief of the Journal of Cosmetic Dermatology. “Evolving societal norms have made discussions about feminine health issues acceptable. Suffering in silence is no longer necessary or advocated.”
Dr. Alexiades disclosed that she has conducted research for Candela Lasers, Lumenis, Allergan/AbbVie, InMode, and Endymed. She is also the founder and CEO of Macrene Actives. Dr. Gold disclosed that he is a consultant to and/or an investigator and a speaker for Joylux, InMode, and Alma Lasers.
PHOENIX –
“Even a cursory review of PubMed today yields over 100,000 results” on this topic, Macrene R. Alexiades, MD, PhD, associate clinical professor of dermatology at Yale University, New Haven, Conn., said at the annual conference of the American Society for Laser Medicine and Surgery. “Add to that radiofrequency and various diagnoses, the number of publications has skyrocketed, particularly over the last 10 years.”
What has been missing from this hot research topic all these years, she continued, is that no one has distilled this pile of data into a practical guide for office-based clinicians who use lasers and energy-based devices for genitourinary conditions – until now. Working with experts in gynecology and urogynecology, Dr. Alexiades spearheaded a 2-year-long effort to assemble a document on optimal protocols and best practices for genitourinary application of lasers and energy-based devices. The document, published soon after the ASLMS meeting in Lasers in Medicine and Surgery, includes a table that lists the current Food and Drug Administration approval status of devices in genitourinary applications, as well as individual sections dedicated to fractional lasers, radiofrequency (RF) devices, and high-intensity focused electromagnetic technology. It concludes with a section on the current status of clearances and future pathways.
“The work we did was exhaustive,” said Dr. Alexiades, who is also founder and director of Dermatology & Laser Surgery Center of New York. “We went through all the clinical trial data and compiled the parameters that, as a consensus, we agree are best practices for each technology for which we had rigorous published data.”
The document contains a brief background on the history of the devices used for genitourinary issues and it addresses core topics for each technology, such as conditions treated, contraindications, preoperative physical assessment and preparation, perioperative protocols, and postoperative care.
Contraindications to the genitourinary use of lasers and energy-based devices are numerous and include use of an intrauterine device, active urinary tract or genital infection, vaginal bleeding, current pregnancy, active or recent malignancy, having an electrical implant anywhere in the body, significant concurrent illness, and an anticoagulative or thromboembolic condition or taking anticoagulant medications 1 week prior to the procedure. Another condition to screen for is advanced prolapse, which was considered a contraindication in all clinical trials, she added. “It’s important that you’re able to do the speculum exam and stage the prolapse” so that a patient with this contraindication is not treated.
Dr. Alexiades shared the following highlights from the document’s section related to the use of fractional CO2 lasers:
Preoperative management. Schedule the treatment one week after the patient’s menstrual period. Patients should avoid blood thinners for 7 days and avoid intercourse the night before the procedure. Reschedule in the case of fever, chills, or vaginal bleeding or discharge.
Preoperative physical exam and testing. A normal speculum exam and a recent negative PAP smear are required. For those of child-bearing potential, a pregnancy test is warranted. Obtain written and verbal consent, including discussion of all treatment options, risks, and benefits. No topical or local anesthesia is necessary internally. “Externally, we sometimes apply topical lidocaine gel, but I have found that’s not necessary in most cases,” Dr. Alexiades said. “The treatment is so quick.”
Peri-operative management. In general, device settings are provided by the manufacturer. “For most of the studies that had successful outcomes and no adverse events, researchers adhered to the mild or moderate settings on the technology,” she said. Energy settings were between 15 and 30 watts, delivered at a laser fluence of about 250-300 mJ/cm2 with a spacing of microbeams 1 mm apart. Typically, three treatments are done at 1-month intervals and maintenance treatments are recommended at 6 and 12 months based on duration of the outcomes.
Vulvovaginal postoperative management. A 3-day recovery time is recommended with avoidance of intercourse during this period, because “re-epithelialization is usually complete in 3 days, so we want to give the opportunity for the lining to heal prior to introducing any friction, Dr. Alexiades said.” Rarely, spotting or discharge may occur and there should be no discomfort. “Any severe discomfort or burning may potentially signify infection and should prompt evaluation and possibly vaginal cultures. The patient can shower, but we recommend avoiding seated baths to decrease any introduction of infectious agents.”
Patients should be followed up monthly until three treatments are completed, and a maintenance treatment is considered appropriate between 6 and 12 months. “I do recommend doing a 1-month follow-up following the final treatment, unless it’s a patient who has already had a series of three treatments and is coming in for maintenance,” she said.
In a study from her own practice, Dr. Alexiades evaluated a series of three fractional CO2 laser treatments to the vulva and vagina with a 1-year follow-up in postmenopausal patients. She used the Vaginal Health Index (VHI) to assess changes in vaginal elasticity, fluid volume, vaginal pH, epithelial integrity, and moisture. She and her colleagues discovered that there was improvement in every VHI category after treatment and during the follow-up interval up to 6 months.
“Between 6 and 12 months, we started to see a return a bit toward baseline on all of these parameters,” she said. “The serendipitous discovery that I made during the course of that study was that early intervention improves outcomes. I observed that the younger, most recently postmenopausal cohort seemed to attain normal or near normal VHI quicker than the more extended postmenopausal cohorts.”
In an editorial published in 2020, Dr. Alexiades reviewed the effects of fractional CO2 laser treatment of vulvar skin on vaginal pH and referred to a study she conducted that found that the mean baseline pH pretreatment was 6.32 in the cohort of postmenopausal patients, and was reduced after 3 treatments. “Postmenopausally, the normal acidic pH becomes alkaline,” she said. But she did not expect to see an additional reduction in pH following the treatment out to 6 months. “This indicates that, whatever the wound healing and other restorative effects of these devices are, they seem to continue out to 6 months, at which point it turns around and moves toward baseline [levels].”
Dr. Alexiades highlighted two published meta-analyses of studies related to the genitourinary use of lasers and energy-based devices. One included 59 studies of 3,609 women treated for vaginal rejuvenation using either radiofrequency or fractional ablative laser therapy. The studies reported improvements in symptoms of GSM/VVA and sexual function, high patient satisfaction, with minor adverse events, including treatment-associated vaginal swelling or vaginal discharge.
“Further research needs to be completed to determine which specific pathologies can be treated, if maintenance treatment is necessary, and long-term safety concerns,” the authors concluded.
In another review, researchers analyzed 64 studies related to vaginal laser therapy for GSM. Of these, 47 were before and after studies without a control group, 10 were controlled intervention studies, and 7 were observational cohort and cross-sectional studies.
Vaginal laser treatment “seems to improve scores on the visual analogue scale, Female Sexual Function Index, and the Vaginal Health Index over the short term,” the authors wrote. “Safety outcomes are underreported and short term. Further well-designed clinical trials with sham-laser control groups and evaluating objective variables are needed to provide the best evidence on efficacy.”
“Lasers and energy-based devices are now considered alternative therapeutic modalities for genitourinary conditions,” Dr. Alexiades concluded. “The shortcomings in the literature with respect to lasers and device treatments demonstrate the need for the consensus on best practices and protocols.”
During a separate presentation at the meeting, Michael Gold, MD, highlighted data from Grand View Research, a market research database, which estimated that the global women’s health and wellness market is valued at more than $31 billion globally and is expected to grow at a compound annual growth rate of 4.8% from 2022 to 2030.
“Sales of women’s health energy-based devices continue to grow as new technologies are developed,” said Dr. Gold, a Nashville, Tenn.–based dermatologist and cosmetic surgeon who is also editor-in-chief of the Journal of Cosmetic Dermatology. “Evolving societal norms have made discussions about feminine health issues acceptable. Suffering in silence is no longer necessary or advocated.”
Dr. Alexiades disclosed that she has conducted research for Candela Lasers, Lumenis, Allergan/AbbVie, InMode, and Endymed. She is also the founder and CEO of Macrene Actives. Dr. Gold disclosed that he is a consultant to and/or an investigator and a speaker for Joylux, InMode, and Alma Lasers.
AT ASLMS 2023