Evaluating the effectiveness of laser hair reduction using a home use laser in comparison to a Diode laser (2024)

Clinical data

Thirty female participants were recruited between 15 April and 30 June 2022 from an existing database and word-of-mouth. The participants had no previous laser treatments done on the axilla area. The participants were aged between 20 to 30 years with a mean age of 26.11 and 28.17 for each test group. The participants were categorised to be within the Fitzpatrick skin types III and IV, and all treated hair was noted to be dark terminal hairs. Participants who indicated interest were screened to ensure that they met the inclusion criteria. The screening included an initial telephonic survey or video call followed by a thorough examination which included taking a case history in the form of a record card. The inclusion criteria which qualified female individuals to participate included participants with Fitzpatrick skin type III–IV, females between the age of 20–30, participants with unwanted hair in the axilla area, first-time laser participants, participants who have not had previous laser treatments on the axilla area before, participants who were not suntanned, participants who were not contraindicated to laser, willing, committed and agree to the pre and post-care procedures required of the treatment. Females were selected to assess one gender and avoid multiple variables such as hormonal differences between genders. The age range was chosen due to being a period before menopause. At the age of 20, the body has gotten past the hormonal inconsistencies of adolescence and has established a rhythm. At the age of 30, the body begins to experience slight hormonal changes and at 35 these changes increase [19].

Once the study sample had been established, each participant was assigned with a reference number which was generated randomly to assign each member to a particular laser machine. Exclusion criteria utilised in this research included the following: participants with blonde, red or light-coloured hair under their arms, sunbathers and tanned participants, pregnant and breastfeeding participants, subjects suffering from epilepsy and seizures, individuals having received previous professional or home laser treatments on the axilla area, skin diseases and disorders, bacterial, fungal or viral infections, persons prone to hypertrophic scarring or keloids, patients on certain medication such as Isotretinoin, antibiotics, anticoagulants, aspirin, tattoos in the area, those experiencing joint pain–under gold therapy treatment, contagious disease, diabetics, suspicious pigmented lesions in the area being treated, use of photosensitive drugs, and use of phototoxic drugs.

Research design

This is a quantitative, experimental research study. Participants were randomly assigned into two groups A and B. A number generator was used to assign the participants to receive hair removal treatments either with the MeDioStar ®NeXT Pro Diode laser or the Silk’n™ Flash & Go home laser.

Study setting

The study was conducted at Deluxe laser Clinic Constantia in the Western Cape, Cape Town from 15 July 2022 to 30 December 2022. The study setting took place in a designated laser room which complied with the standard guidelines and requirements of a laser room (S1 Appendix). It was also labelled as a controlled area with a warning sign fixed on the outside of the door. Protective eyewear was used for both the home-use laser and the professional laser. The home-use laser machine’s make and model were covered with white adhesive tape in order protect the manufactures identity.

Ethical approval and considerations

The study methods and protocols were approved by the IREC (IREC 095/22) at the Durban University of Technology. A written informed consent was obtained prior to each subject’s participation and no minors were included in the study. Each participant was identified through their reference number by authors and only the main author and supervisors had access to information that could identify participants during and/or after data collection. The researcher attended the Research Integrity seminar which focused on the Introduction to research ethics. Gatekeeper permission was sought from Deluxe Laser & Spa’s store manager to conduct research on the premises.

Data collection process

Thirty female participants received six sessions of laser hair reduction from 15 July 2022 to 30 December 2022. Written informed consent was obtained and the risk, benefits and nature of the study was discussed. Baseline measurements were taken before the treatment by using an electronic structured standardized questionnaire in the form of a record card. The record card included a separate section for the researcher to record settings and findings. All participants were required to refrain from any methods of hair removal for two to four weeks and allow their axilla hair to grow before their first treatment. Prior to the treatment, initial hair counts were recorded within a 2 cm² which was marked using a body pencil under both underarms. Hair counts and photographs were taken before each treatment. A shaving medium was applied to the axilla area and the hair was shaved flush to the skin. The area was cleansed and sanitized using a non-scented wet wipe. The cooling gel was applied to the area being treated and protective goggles were placed over the participants eyes and researcher’s eyes. The treatment parameters were adjusted according to the participants’ skin type. For the professional laser, a spot size of 24x38 mm was used and a test pulse was performed on 6 or 8 J/cm². If no erythema or blistering was noted after five minutes the fluence was increased to one setting higher. If any side effects were noted, the fluence was reduced until a suitable setting was established. The treatment was then administered on the entire area competing two passes vertically and horizontally overlapping by 0.5 cm. If the participant experienced any excessive heat on the treatment site, the area was immediately cooled with the sapphire cooling headpiece, and additional cooling post-laser. After the laser, the gel was then removed from the area, cleaned using a damp cloth and an aloe vera cream was applied. Treatments with the professional laser were performed four weeks apart with a follow up of three weeks after the final session.

With the home use-laser, the cooling gel was removed, and the area was cleaned and dried prior to the treatment. The laser parameters were adjusted according to the manufacturer’s test pulse recommendations of 1 or 2 J/cm². If no adverse effects were noted after five minutes, energy levels were increased to 3 or 4 J/cm² depending on the skin type. Eventually all participants were treated with the highest energy levels of 4.5–5 J/cm². The entire area was treated by completing two passes horizontally and vertically, with an overlap of 0.5cm. If the participant experienced any excessive heat during the treatment while the shots were being administered, some cooling gel was applied to that area for a few minutes. The cooling gel was then reapplied to the entire treated area for post-cooling, it was then removed after a few minutes and cleaned with a damp cloth. Soothing aloe vera cream was then applied to the area. Treatments were performed bi-weekly for sessions one to four and sessions five and six were spaced four weeks apart according to the manufacture’s recommendations with a follow-up of three weeks. During the course of the treatments, participants were instructed to avoid all other methods of hair removal between treatments besides shaving. Participants were allowed to shave the area two weeks after the laser session if the treatment was four weeks apart (device dependent). It was further stipulated that participants not shave the area after the laser session if the treatment was two weeks apart (device dependent). Post-care and treatment instructions were provided to each participant and were provided with guidelines for shaving to establish uniformity. During the follow up appointment, a final hair count was performed, the treated area was assessed for any adverse effects and a satisfaction questionnaire was provided to each participant for feedback on their personal experience and observations. The questionnaire included a visual analogue scale and pain analogue scale to measure participants’ pain, redness and discomfort. Photographs and a hair count were taken before each treatment, after six treatments and three weeks post-completion of the study period during a follow-up visit. A final follow-up appointment was scheduled three weeks after the completion of the treatment period to take final measurements.

Data analysis

All the collected data were recorded and transferred onto the latest Statistical Package for Social Sciences (SPSS) software package for statistical analysis. Various descriptive and inferential statistical techniques was used. Tables, and summary statistics i.e, means, proportions, and percentages were used as descriptive measures to identify trends in the data collected. During the course of statistical analysis, data were analysed using a parametric or nonparametric test normality of the variable based on the form of the variables. All statistical analyses were completed at the 95% level of significance (∝ = 0.05). If the p–value, as reported is less than 0.05, a statistically significant result was declared.

Hair reduction

The average hair count with the Diode laser on the right axilla decreased significantly from pre-treatment with a mean = 76.22 to post-treatment mean = 11.56, t (8) = 11.177. The left axilla decreased significantly from pre-treatment with a mean = 76.56 to post-treatment mean = 9.56, t (8) = 11.753, p < .001. There was a statistical significance of p < .001 for both the right and left axilla.

The average hair count with the home-use laser on the right axilla decreased significantly from pre-treatment with a mean = 97.83 to post-treatment with a mean count = 47.00, t (5) = 4.691. The statistical significance measured for the right axilla was p = 0.05. The left axilla decreased significantly from pre-treatment with a mean count = 89.50 to post-treatment with a mean count = 48.00, t (5) = 4.006, and statistical significance of p = .010.

To determine the differences in the effect of the two laser treatments the ANCOVA test was performed and reported as follows:

Table 1 analyses shows that when the post-scores are ‘standardized’ using pre-scores the group (type of laser used) significantly affects post-scores. Post-hair counts were significantly more when using the home laser (estimated M = 41.76) than when using the professional laser (estimated M = 15.05, p = .039.).

Table 2 analyses showed that skin type marginally affected post hair counts (p = .080) with skin type III resulting in a higher post-count (estimated M = 36.71) than skin type IV (estimated M = 18.68).

Table 3 analyses shows that post hair counts are significantly more when using the home laser (estimated M = 44.44) that when using the professional laser (estimated M = 11.93), p = .009.

Table 4 analyses shows that when the post-scores are ‘standardized’ using pre-scores and further corrected for with skin type, the group (type of laser used) significantly affects post-scores. Post-hair counts are significantly more when using the home laser (estimated M = 43.33) that when using the professional laser (estimated M = 11.72), p = .008.

The results of visual assessment for participants before and after six sessions for the Diode laser are shown in Figs ​Figs11–4 shows the visual assessment for the home-use laser. Label A1 and A2 represents all the before photos, and label B1 and B2 represents all after photos. Hair counts within a 2 cm² area were obtained before each treatment as well as the follow up appointment.

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Fig 1

Before images of left (A1) and right (A2) axilla.

See Also

Important advice - don't get conned - Studio LaserBest at Home Laser Hair Removal for Brazilian: Your Ultimate Guide to Smooth Skin

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Fig 4

After images of left (B1) and right (B2) axilla.

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Fig 2

After images of left (B1) and right (B2) axilla.

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Fig 3

Before images of left (A1) and right (A2) axilla.

Side effects

The side effects assessment during the treatment is shown in Table 5. Mild side effects were experienced by some participants for both laser types. Approximately, 66.7% of participants undergoing professional laser treatment experienced pain ranging from mild to moderate, 33.3% experienced slight redness or mild erythema and 22.2% experienced mild inflammation. All side effects subsided within minutes post-treatment.

A total of 66.7% of participants experienced pain from the home-use laser. A further 16.7% of the participants experienced redness and 16.7% experienced inflammation which only presented at the time of the treatment.

Although there were guidelines for shaving frequency, 78% of participants being treated with the professional laser never shaved between sessions as they never felt the need to shave whereas 22% shaved once between sessions. With the home-use laser, 50% of participants did not shave between sessions, 16.67% shaved twice between sessions, 16.67% shaved three times and 16.67% shaved four times.

S1 Appendix

Basic requirements of a laser room.

(DOCX)

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10 Apr 2023

PONE-D-23-07622Evaluating the Effectiveness of Laser Hair reduction using a Home use Laser in comparison to a Diode LaserPLOS ONE

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You must be clear about the difference between laser and IPL. The mechanisms of action need to be further explained. The limitations must be further discussed. Additional references are required as mentioned

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Reviewer #1:The title is inaccurate and misleading. It should read: "Evaluating the effectiveness of laser hair reduction using a home-use intense pulsed light device in comparison with a professional diode laser"

There must be a distinction between 'laser' and 'intense pulsed light' as they are radically different technologies and this must be maintained throughout the article to avoid misunderstanding.

The mode of action in the introduction needs to be clarified and expanded.

Retinal injury is not the only risk, consider the pigmented iris!

In the discussion, there is insufficient reference to published data on safety of home-use IPL devices (see attachment).

Te statements about loss of skin contact and light spillage require clarification and expansion (see attachment).

The text about US FDA 510k pre-marketing clearance of the devices used in this study relates only to permission to sell a product in the USA based on predicate information and has no relevance to this study. Reference FDA clearances is correctly used in the conclusions.

The Conclusions need to be revised and expanded to include limitations of this study e.g. small sample size, need for more randomised, controlled studies, etc .(see attachment).

Several important references are missing including recent publications in international peer-reviewed journals including:

Trelles M, Ash C, Town G. Clinical and Microscopic Evaluation of Long-Term Epilation Effects of the iPulse Personal Home-Use Intense Pulsed Light (IPL) Device. J Eur Acad Dermatol Venereol. 2014; 28(2):160-168.

Town G, Botchkareva N, Uzunbajakava N, Nuijs A, van Vlimmeren M, Ash C, Dierickx C. Light-based home-use devices for hair removal: Why do they work and how effective they are? Lasers Surg Med. 2019; 51:481-490. Early View online: https://onlinelibrary.wiley.com/doi/10.1002/lsm.23061.

Hatterskey AM, Kiernan M, Goldberg D, Dierickx C, Sliney DH, Haedersdal M. Nash JF. Assessment of adverse events for a home-use intense pulsed light hair removal device using postmarketing surveillance. Lasers Surg Med 2023; Mar 8. doi: 10.1002/lsm.23650.Online ahead of print.

Town G, Ash C, Dierickx C, Fritz K, Bjerring P, Haedersdal M. Guidelines on the safety of light‐based home‐use hair removal devices from the European Society for Laser Dermatology. J Eur

Acad Dermatol Venereol. 2012;26(7):799–811. https://doi.org/10. 1111/j.1468-3083.2011.04406.x

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Reviewer #1:Yes:Godfrey Arthur Town Ph.D.

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2 May 2023

We would like to express our heartfelt appreciation to the reviewers for their invaluable contributions. All of the changes suggested by the reviewers have been implemented. The manuscript now reads much better.

3 May 2023

PONE-D-23-07622R1Evaluating the effectiveness of laser hair reduction using a home-use intense pulsed light device in comparison with a professional diode laserPLOS ONE

Dear Dr. Mpofana,

Thank you for submitting your manuscript to PLOS ONE. After careful consideration, we feel that it has merit but does not fully meet PLOS ONE’s publication criteria as it currently stands. Therefore, we invite you to submit a revised version of the manuscript that addresses the points raised during the review process.

You have changed the abstract in the submission system but have not changed the text in the paper. Perhaps you submitted the wrong version? You must replace all instances of "home use laser" with "home use IPL device"Please submit a version with all the changes highlighted

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9 May 2023

We have changed the text in the paper as advised. All changes made are underlined in the "revised manuscript".

10 May 2023

Evaluating the effectiveness of laser hair reduction using a home-use intense pulsed light device in comparison with a professional diode laser

PONE-D-23-07622R2

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18 May 2023

PONE-D-23-07622R2

Evaluating the effectiveness of Laser hair reduction using a Home use Laser in comparison to a Diode Laser

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