Pressure Masks for Facial Scar Treatment after Oncological Reconstruction: Long-Term Patient Satisfaction and Quality of Life

• Abstract
• Background
• Methods
• Setting and Study Population
• Data Collection
• Data Analysis
• Results
• Satisfaction with Appearance of the Face
• Satisfaction with the Result
• Satisfaction with Decision
• Social Function
• Satisfaction with Scar Appearance
• Burden of Scar Symptoms
• Psychosocial Functioning
• Discussion
• Strengths and Limitations
• Conclusion
• References

Abstract

Introduction With increasing incidence of facial skin cancer, more patients undergo facial reconstruction following Mohs micrographic surgery (MMS). Aesthetically unpleasing, thickened facial flaps, and disturbing scars can be treated with a pressure mask with inner silicone lining to help improve functional and aesthetic outcomes. However, data on long-term patient satisfaction and quality of life (QoL) following this treatment are lacking.

Methods We aimed to assess long-term satisfaction and QoL of patients who underwent local flap reconstruction following MMS. Patients treated between January 2012 and October 2020 were invited to answer FACE-Q and SCAR-Q questionnaires. Demographic data, skin cancer type and location, type of reconstruction, postoperative complications, duration of pressure mask therapy, daily compliance, and additional scar treatment were collected to explore possible predictors.

Results Of 92 eligible patients, 50 responded. Eighteen respondents were male (36%) and 32 were female (64%). Mean duration of pressure mask therapy was 10.20 ± 4.61 months. Patients were 61.14 ± 32.91 months after completion of pressure mask therapy upon participation. Patients whose reconstruction consisted of multiple flaps had significantly worse outcomes in social function (p = 0.012), scar appearance (p = 0.045), and scar symptoms (p = 0.008). A trend of increasing time since therapy completion predicting better outcomes was observed for all scales, and it was a significant predictor for better scar appearance (p = 0.001) and less scar symptoms (p = 0.001).

Conclusion Pressure mask treatment for facial flaps and scars following MMS results in good long-term patient satisfaction and QoL. Multiple local flaps, reflecting a larger skin defect postexcision, is a predictor for worse outcomes in social function, scar appearance, and symptoms. Increasing time is associated with increasing satisfaction, which reflects satisfactory and stable long-term effects of treatment, possibly combined with more acceptance of the result over time.

Background

Most skin cancers are located in the head and neck area, and overall incidence is still increasing.[1] [2] [3] Mohs micrographic surgery (MMS) is currently widely used to excise skin tumors, while attempting to maximally preserve healthy tissue.[4] Reconstruction of defects following MMS can be challenging, given the functional and cosmetic demands in the head and neck area.[5] Moreover, postsurgical facial scars can cause severe psychological, emotional, and social burden for patients.[6] [7] When local flaps are used, the postsurgical scars extend from the original defect to the donor site. Reoperations are often necessary following reconstruction to further improve aesthetic and functional outcome.[8] In some cases, facial scars contract or become hypertrophic, and some flaps need further surgical thinning. In our center, extensive local flaps following facial MMS are treated with a facial pressure mask with inner silicone liner. This treatment has been shown to be effective as an adjuvant therapy for unsatisfactory aesthetic results after facial flap surgery since it reduces flap thickness and scar erythema, and improves pliability of the skin and scar.[9] However, data on long-term efficacy, patient-reported satisfaction, and quality of life (QoL) after facial pressure mask therapy following local flap reconstruction are limited. Therefore, we aimed to assess patient satisfaction, QoL, and patient-reported long-term efficacy of facial pressure mask therapy. Secondarily, we aimed to explore possible predictors of QoL and patient satisfaction.

Methods

Setting and Study Population

For this cohort study, patients who received pressure mask treatment following local flap reconstruction for facial MMS defects were recruited from the department of plastic and reconstructive surgery in an academic setting. An experienced orthotist/prosthetist manually fabricated these masks as described previously by Colla et al.[10] All adult patients (e.g., older than 18 years of age) who started facial pressure mask therapy between January 2012 and October 2020 to treat scar and flap irregularities were invited for participation. Patients with a follow-up of less than 3 months and patients who were still undergoing pressure mask therapy were excluded. Another exclusion criterion was not being able to fill in the questionnaires (e.g., non-Dutch speakers and cognitively impaired patients).

The study conformed to good clinical practice guidelines and followed the recommendations of the Declaration of Helsinki. The protocol was approved by the local ethics committee (METC 2021-2798).

Data Collection

After providing informed consent, participants were asked to complete four different FACE-Q questionnaires and the SCAR-Q questionnaire. Questionnaires were collected between October 2021 and January 2022. The FACE-Q is a validated patient-reported outcome measure (PROM) developed to evaluate the experience and outcomes of aesthetic facial procedures from a patient's perspective.[11] [12] [13] The framework for FACE-Q Aesthetics covers three domains: appearance, health-related quality of life (HRQOL), and adverse effects. Each domain is composed of multiple independently functioning scales. The following scales were used in this study: satisfaction with overall facial appearance (appearance domain), satisfaction with result (HRQOL), satisfaction with decision (HRQOL), and social function (HRQOL). The SCAR-Q is another validated PROM and consists of three scales that measure scar appearance, scar symptoms, and psychosocial impact.[14] [15]

The participants were instructed to fill in the questionnaires based on their current state of satisfaction and functioning. Responses to the questionnaires were scored on a Likert scale ranging from 1 to 4. For each scale, the total score was calculated and standardized to a Rasch-transformed score ranging from 0 to 100. Higher Rasch-transformed scores represent a greater patient satisfaction or QoL.

Other variables that we collected were age, sex, type of skin cancer, location and type of reconstruction, postoperative complications, duration of pressure mask therapy, the average daily amount of hours that patients wore the mask (< 8, 8–12, or 12–16 hours), time since completion of pressure mask therapy, and additional scar treatments following pressure mask therapy. Additional scar treatments were defined as conservative treatment (hydrating creams, skin therapy, additional silicone gels, or sheets following pressure mask therapy), surgery, and a combination of surgery with conservative treatment.

Data Analysis

Data on continuous variables is displayed as mean ± standard deviation. Data on categorical variables is presented as frequencies and percentages. Simple and multiple linear regression analysis have been performed to assess a possible association between the independent variables and the outcomes. The following variables were assessed as possible predictors: age, sex, skin cancer type (basal cell carcinoma or other), location of defect, type of reconstruction, duration of pressure mask therapy, daily compliance, time since therapy completion, and additional treatment. Continuous data on duration of pressure mask therapy and time since therapy completion was used for regression analysis. Regression coefficients with the corresponding 95% confidence intervals (CI) are provided. A value of p < 0.05 was considered statistically significant. Statistical analyses were performed using statistical software program SPSS 25.0 (IBM, Armonk, NY).

Results

Of the 92 eligible patients who were invited for participation, 50 responded and filled out the questionnaire (54.35% response rate). The male-to-female ratio of the respondents was 36 to 64%. Population characteristics are presented in [Table 1]. Mean duration of pressure mask therapy was 10.20 ± 4.61 months. Patients were 61.14 ± 32.91 months after completion of the pressure mask therapy when filling in the questionnaire (minimum 3 months, maximum 111 months).

One patient underwent additional surgery after facial pressure mask therapy because of tumor recurrence, whereas four received further surgical scar and/or flap correction.

FACE-Q scores for satisfaction with facial appearance, satisfaction with the result and decision, and social function did not significantly differ between men and women, whereas SCAR-Q psychosocial function was significantly lower for women (p = 0.038) ([Fig. 1] and [Table 2]). Regression coefficients of linear regression analysis for FACE-Q outcomes are presented in [Table 2], whereas regression coefficients of linear regression analysis for SCAR-Q outcomes can be found in [Table 3].

Satisfaction with Appearance of the Face

Linear regression analysis for satisfaction with facial appearance did not identify statistically significant predictors. Patient satisfaction seemed to increase with increasing therapy duration (0.29 per month, p = 0.639) and increasing time since therapy completion (0.03 per month, p = 0.745).

Satisfaction with the Result

No statistically significant predictors were found for satisfaction with result. The type of reconstruction seemed to, although statistically not significant, influence the satisfaction with the result; in a multiple linear model with forehead flaps as a baseline, multiple local flap techniques were associated with lower scores (p = 0.164). Linear regression analysis assessing daily compliance indicated that satisfaction seemed to be higher in patients who wore the mask for more than 12 hours per day. Mean satisfaction with result was 64.46 (95% CI [50.38–78.54]), 65.31 (95% CI [56.36–74.26]), and 78.13 (95% CI [57.38–98.87]) with a daily compliance of less than 8 hours, 8 to 12 hours, and more than 12 hours, respectively. Simple linear regression for time since completion of therapy indicated a positive linear association, however, not statistically significant (0.14 per month, p = 0.164).

Satisfaction with Decision

It should be noted that for this scale, since health care insurance covered the costs of treatment, patients could not answer one question, and therefore the maximum Rasch score is lower than for the other scales used in this study. Even though not statistically significant, multiple flaps showed a potentially clinically meaningful association with lower satisfaction with the decision (p = 0.116). Satisfaction was positively associated with time since therapy completion (in months) in simple linear regression (0.10 per month, p = 0.067).

Social Function

In a multiple linear regression model with nose as a baseline for defect location, having a defect on medial canthus was a statistically significant predictor for a worse outcome (p = 0.028). On average, patients with a defect on the medical canthus (mean 56.25, 95% CI [45.51–66.99]) scored 24.90 points lower than patients whose defect was located on the nose (mean 81.15, 95% CI [74.06–88.23]). Furthermore, reconstruction by multiple flaps was a significant predictor for worse social function in a multiple linear model with forehead flaps as baseline (p = 0.012).

Satisfaction with Scar Appearance

Patients reported significantly lower satisfaction with scar appearance when they underwent reconstruction with multiple local flaps (p = 0.045). Satisfaction with scar appearance increased with time since therapy completion (0.20 per month, p = 0.008).

Burden of Scar Symptoms

Predictors associated with a worse burden of scar symptoms were skin cancers located on the cheek (p = 0.002) and reconstructions with multiple local flaps (p = 0.008). Lower burden of scar symptoms was observed with increasing time since therapy completion (0.20 per month, p = 0.001). A trend toward lower burden of scar symptoms was observed with a daily compliance of > 12 hours per day (p = 0.052), as illustrated in [Fig. 2].

Psychosocial Functioning

Sex was a predictor for psychosocial functioning in this cohort, with a significantly worse outcome for women (p = 0.038); women scored on average 12.80 points lower than men. Time since therapy completion predicted psychosocial function in a simple linear regression model (R ² = 0.076; regression coefficient 0.18, p = 0.053), and in a multiple linear regression model with sex (R ² of model = 0.174, p = 0.011; regression coefficient of gender –13.63, p = 0.022, regression coefficient of time since completion 0.89, p = 0.031).

Discussion

In this study, we assessed long-term satisfaction and QoL of patients who were treated with facial pressure mask therapy following local flap reconstruction of MMS facial skin defects. Our data confirm long-term satisfactory results of facial pressure mask therapy over a period of approximately 9 years. The proportion of male and female participants, and the rates of skin types are in accordance with previous studies, indicating that our sample is representative in terms of sex and cancer type distribution.[2] [8]

The burden for patients of wearing a full-face pressure mask should not be underestimated. In this setting of postsurgical flaps and scars, patients were instructed to wear the mask for a minimum of 8 to 12 hours per day. Satisfactory functional results with this regimen have already been reported.[9] [16]

We deliberately chose the scales of the FACE-Q aesthetic modules as outcome measures for patients that were treated for skin cancer. Since we were interested in long-term aesthetic satisfaction, the aesthetic module was deemed more appropriate and relevant. When comparing outcomes for facial appearance from our study to outcomes following aesthetic procedures, we conclude that patients who underwent facial pressure mask therapy following local flap reconstruction were equally or more satisfied with their facial appearance.[17] [18] Compared to nonsurgical aesthetic interventions (e.g., Botox, filler, skin treatments), patients from our population report higher satisfaction with facial appearance, whereas surgical aesthetic interventions (rhinoplasty, facelift, blepharoplasty) lead to similar satisfaction scores.[17] Satisfaction with facial appearance following nanofat injection in depressed facial scars were very similar to the rates reported in our study.[18] In general, patients seeking aesthetic improvements often have higher burden of self-consciousness of appearance and hold certain expectations toward the desired outcome.[19] This may reflect their state of satisfaction after the procedure, which is slightly lower than in the reconstructive setting. This hypothesis is supported by the findings of Elegbede et al, who reported rates of satisfaction with facial appearance following facial trauma reconstruction that were similar to the rates found in our study.[20] Despite the population being predominantly male and younger (mid-twenties to mid-forties) in this latter study, satisfaction with facial appearance and satisfaction with the result lie within the same range as reported in our study. However, our patients display slightly higher scores in social function.

Our study did not identify significant predictors for satisfaction with facial appearance, satisfaction with the result, and satisfaction with the decision. However, previous research has shown that a daily adherence of more than 12 hours is associated with better outcomes regarding satisfaction with the result compared to an adherence of less than 8 hours per day.[16] Similarly, satisfaction with the decision of wearing the facial pressure mask was significantly greater in patients who wore the mask 8 to 12 hours and 12 to 16 hours per day than in patients who wore the mask less than 8 hours per day. Although not statistically significant, a trend toward greater satisfaction with facial appearance and less scars symptoms was also observed in this study.

For all scales, time since therapy completion was positively associated with better outcomes, and was a statistically significant predictor of scar appearance, scar symptoms, and psychosocial functioning. This is in accordance with previous findings, where the severity of the body image disturbance decreased over time in patients who recovered from head and neck cancer.[21] In another study, no significant difference in satisfaction with the result, decision, and social function over time was observed.[16] However, in this study patients with different indications were included (following MMS, trauma, and burns). Our findings of increased satisfaction and QoL over time could be due to the possibility that it might take the patients several years to accept facial irregularities and process the diagnosis and treatment following skin cancer. Hypothetically, patients might be less occupied by their disease and facial appearance as more time goes by. Another possible explanation could be due to a prolonged maturation period of the scar and flap tissue, which has been reported to last up to 2 years or more.[22] However, it seems unlikely that scar maturation lasts up to 8 years, indicating that the latter cannot be the sole explanation to our observation of better outcomes with increased time since treatment.

Another factor that predicted outcomes was the use of multiple flaps for reconstruction. The use of multiple flaps was significantly associated with worse outcomes in social function, scar appearance, and scar symptoms. A trend toward decreased satisfaction with facial appearance, result, and decision was also observed. The necessity to use multiple flaps clinically indicates a larger defect following MMS. Logically, larger defects require more mobilization of surrounding tissue, and are most likely associated with more donor site morbidity. When comparing different reconstructive approaches, larger defects and more complex reconstructions predict worse patient-reported satisfaction and QoL.[21] [23] [24] Furthermore, scars located on the cheek were also associated with worse scores on the scar symptoms scale. This might be due to the mobility of the cheek during mastication, speech, and facial expression, giving rise to a more tense sensation of scars in that area.

Sex was only a significant predictor for psychosocial function, where female patients scored significantly lower than male patients. Similarly, Ziolkowski et al identified sex as a predictor for worse psychosocial outcomes.[25] In contrast, Miranda et al found better outcomes in women.[26] The latter study assessed patients following scar revision surgery after both traumatic and elective scars and found that women more frequently reported improvements than men after the revision of elective scars.[26] Thus, the notion of better outcomes in women refers to improvements following scar revision surgery rather than in the setting prior to revision. The finding of differences in psychosocial functioning between sexes could be due to possible personality differences between females and males, regarding the cosmetic appearance of scars, combined with higher expectations, which could negatively influence the patient's opinion of their scar. In our population, we hypothesize that the impact of having a facial scar weighs more on women's psychosocial well-being compared to men.

Strengths and Limitations

To our knowledge, this is the first study to combine both aesthetic FACE-Q modules with the recently developed and validated SCAR-Q questionnaire. This allows assessment of patient-reported satisfaction on both the aesthetic aspects of the reconstruction and functional repercussions, as well as evaluation of the face and the scar. This study provides new insight on the long term (up to 9 years) after facial pressure mask therapy for flaps and scars post-MMS. The strength of this study is the long follow-up period. In general, the long-term results are reported with a 1- to 5-year follow-up, while we provide data on a follow-up period of up to 9 years. However, this study has several limitations. The sample size, although representative in terms of cancer type and gender distribution, is rather small. This might be a source of bias, since it could be possible that the most dissatisfied or most satisfied patients participated. Another limitation to this study is the variability of reported outcomes between patients. This combined with a relatively small sample size, impedes the power to find statistically significant differences. Although we found some trends, statistical significance was not reached on some items.

Additionally, this study focuses on one cohort of patients and does not have a control group. With retrospective designs, it can be challenging to create a control group of matching patients, especially in this setting of specialized treatment of more extensive facial flaps and scars. However, ideally, future studies should attempt to include a control group to further investigate the effects of this therapy compared to controls and other treatment options.

Furthermore, patients were instructed to wear the pressure mask as long as they could endure, preferably more than 8 hours each day; however, this data about therapy compliance is reported by patients and could not be objectified. Therefore, these data might be susceptible for bias. Regarding the finding of worse predictive outcomes with reconstructions by multiple flaps, we hypothesized this was due to larger and/or more complex skin defects. Despite this logical assumption, for future research, defect size should be measured as a variable to assess whether or not this assumption is truly correct.

Conclusion

This cohort study illustrates overall satisfactory long-term aesthetic results and QoL following facial reconstruction and pressure mask therapy. Satisfaction and QoL improved over time, which might also reflect patients' acceptance with their appearance and scars, as well as good long-term efficacy of treatment. The need for multiple local flaps for reconstruction, which most likely reflects moderately larger skin defects, is a predictor for worse outcomes regarding social function, scar appearance, and scar symptoms. This study can help to better inform patients about possible outcomes after facial pressure mask therapy for local flap reconstruction, and help to manage patient expectations.

Conflict of Interest

None declared.

• References

• 1 Garbe C, Keim U, Gandini S. et al. Epidemiology of cutaneous melanoma and keratinocyte cancer in white populations 1943-2036. Eur J Cancer 2021; 152: 18-25
  Google Scholar
• 2 Leiter U, Eigentler T, Garbe C. Epidemiology of skin cancer. Adv Exp Med Biol 2014; 810: 120-140
  Google Scholar
• 3 Leiter U, Keim U, Garbe C. Epidemiology of skin cancer: update 2019. Adv Exp Med Biol 2020; 1268: 123-139
  Google Scholar
• 4 Elleson KM, DePalo DK, Zager JS. An update on local and systemic therapies for nonmelanoma skin cancer. Expert Rev Anticancer Ther 2022; 22 (05) 479-489
  Google Scholar
• 5 Hofer SO, Mureau MA. Improving outcomes in aesthetic facial reconstruction. Clin Plast Surg 2009; 36 (03) 345-354
  Google Scholar
• 6 Brown BC, McKenna SP, Siddhi K, McGrouther DA, Bayat A. The hidden cost of skin scars: quality of life after skin scarring. J Plast Reconstr Aesthet Surg 2008; 61 (09) 1049-1058
  Google Scholar
• 7 Sobanko JF, Sarwer DB, Zvargulis Z, Miller CJ. Importance of physical appearance in patients with skin cancer. Dermatol Surg 2015; 41 (02) 183-188
  Google Scholar
• 8 van Leeuwen AC, The A, Moolenburgh SE, de Haas ER, Mureau MA. A retrospective review of reconstructive options and outcomes of 202 cases large facial Mohs micrographic surgical defects, based on the aesthetic unit involved. J Cutan Med Surg 2015; 19 (06) 580-587
  Google Scholar
• 9 Kant SB, Ferdinandus PI, den Kerckhove EV. et al. A new treatment for reliable functional and esthetic outcome after local facial flap reconstruction: a transparent polycarbonate facial mask with silicone sheeting. Eur J Plast Surg 2017; 40 (05) 407-416
  Google Scholar
• 10 Colla C, Kant SB, Van den Kerckhove E, Van der Hulst RR, Piatkowski de Grzymala AA. Manual fabrication of a specialized transparent facial pressure mask: a technical note. Prosthet Orthot Int 2019; 43 (03) 356-360
  Google Scholar
• 11 Klassen AF, Cano SJ, Schwitzer JA, Scott AM, Pusic AL. FACE-Q scales for health-related quality of life, early life impact, satisfaction with outcomes, and decision to have treatment: development and validation. Plast Reconstr Surg 2015; 135 (02) 375-386
  Google Scholar
• 12 Klassen AF, Cano SJ, Scott A, Snell L, Pusic AL. Measuring patient-reported outcomes in facial aesthetic patients: development of the FACE-Q. Facial Plast Surg 2010; 26 (04) 303-309
  Google Scholar
• 13 Pusic AL, Klassen AF, Scott AM, Cano SJ. Development and psychometric evaluation of the FACE-Q satisfaction with appearance scale: a new patient-reported outcome instrument for facial aesthetics patients. Clin Plast Surg 2013; 40 (02) 249-260
  Google Scholar
• 14 Klassen AF, Ziolkowski N, Mundy LR. et al. Development of a new patient-reported outcome instrument to evaluate treatments for scars: the SCAR-Q. Plast Reconstr Surg Glob Open 2018; 6 (04) e1672
  Google Scholar
• 15 Ziolkowski NI, Pusic AL, Fish JS. et al. Psychometric findings for the SCAR-Q patient-reported outcome measure based on 731 children and adults with surgical, traumatic, and burn scars from four countries. Plast Reconstr Surg 2020; 146 (03) 331e-338e
  Google Scholar
• 16 Kant SB, Colla C, Van den Kerckhove E, Van der Hulst RRWJ, Piatkowski de Grzymala A. Satisfaction with facial appearance and quality of life after treatment of face scars with a transparent facial pressure mask. Facial Plast Surg 2018; 34 (04) 394-399
  Google Scholar
• 17 Klassen AF, Cano SJ, Pusic AL. FACE-Q satisfaction with appearance scores from close to 1000 facial aesthetic patients. Plast Reconstr Surg 2016; 137 (03) 651e-652e
  Google Scholar
• 18 Huang R, Jiao H, Fan J. et al. Nanofat injection for the treatment of depressed facial scars. Aesthetic Plast Surg 2021; 45 (04) 1762-1771
  Google Scholar
• 19 Herruer JM, Prins JB, van Heerbeek N, Verhage-Damen GWJA, Ingels KJAO. Does self-consciousness of appearance influence postoperative satisfaction in rhinoplasty?. J Plast Reconstr Aesthet Surg 2018; 71 (01) 79-84
  Google Scholar
• 20 Elegbede A, Mermulla S, Diaconu SC. et al. Patient-reported outcomes in facial reconstruction: assessment of FACE-Q scales and predictors of satisfaction. Plast Reconstr Surg Glob Open 2018; 6 (12) e2004
  Google Scholar
• 21 Ellis MA, Sterba KR, Brennan EA. et al. A systematic review of patient-reported outcome measures assessing body image disturbance in patients with head and neck cancer. Otolaryngol Head Neck Surg 2019; 160 (06) 941-954
  Google Scholar
• 22 Kant S, van den Kerckhove E, Colla C, van der Hulst R, Piatkowski de Grzymala A. Duration of scar maturation: retrospective analyses of 361 hypertrophic scars over 5 years. Adv Skin Wound Care 2019; 32 (01) 26-34
  Google Scholar
• 23 Bozec A, Schultz P, Gal J. et al. Evolution and predictive factors of quality of life in patients undergoing oncologic surgery for head and neck cancer: a prospective multicentric study. Surg Oncol 2019; 28: 236-242
  Google Scholar
• 24 Zebolsky AL, Patel N, Heaton CM, Park AM, Seth R, Knott PD. Patient-reported aesthetic and psychosocial outcomes after microvascular reconstruction for head and neck cancer. JAMA Otolaryngol Head Neck Surg 2021; 147 (12) 1035-1044
  Google Scholar
• 25 Ziolkowski NI, Behman R, Klassen AF. et al. Determining the independent risk factors for worse SCAR-Q scores and future scar revision surgery. Plast Reconstr Surg 2021; 148 (01) 203-212
  Google Scholar
• 26 Miranda BH, Allan AY, Butler DP, Cussons PD. Scar revision surgery: the patient's perspective. Arch Plast Surg 2015; 42 (06) 729-734
  Google Scholar

Address for correspondence

Publication History

Accepted Manuscript online:
14 February 2023

Article published online:
03 April 2023

© 2023. The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution License, permitting unrestricted use, distribution, and reproduction so long as the original work is properly cited. (https://creativecommons.org/licenses/by/4.0/)

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• References

• 1 Garbe C, Keim U, Gandini S. et al. Epidemiology of cutaneous melanoma and keratinocyte cancer in white populations 1943-2036. Eur J Cancer 2021; 152: 18-25
  Google Scholar
• 2 Leiter U, Eigentler T, Garbe C. Epidemiology of skin cancer. Adv Exp Med Biol 2014; 810: 120-140
  Google Scholar
• 3 Leiter U, Keim U, Garbe C. Epidemiology of skin cancer: update 2019. Adv Exp Med Biol 2020; 1268: 123-139
  Google Scholar
• 4 Elleson KM, DePalo DK, Zager JS. An update on local and systemic therapies for nonmelanoma skin cancer. Expert Rev Anticancer Ther 2022; 22 (05) 479-489
  Google Scholar
• 5 Hofer SO, Mureau MA. Improving outcomes in aesthetic facial reconstruction. Clin Plast Surg 2009; 36 (03) 345-354
  Google Scholar
• 6 Brown BC, McKenna SP, Siddhi K, McGrouther DA, Bayat A. The hidden cost of skin scars: quality of life after skin scarring. J Plast Reconstr Aesthet Surg 2008; 61 (09) 1049-1058
  Google Scholar
• 7 Sobanko JF, Sarwer DB, Zvargulis Z, Miller CJ. Importance of physical appearance in patients with skin cancer. Dermatol Surg 2015; 41 (02) 183-188
  Google Scholar
• 8 van Leeuwen AC, The A, Moolenburgh SE, de Haas ER, Mureau MA. A retrospective review of reconstructive options and outcomes of 202 cases large facial Mohs micrographic surgical defects, based on the aesthetic unit involved. J Cutan Med Surg 2015; 19 (06) 580-587
  Google Scholar
• 9 Kant SB, Ferdinandus PI, den Kerckhove EV. et al. A new treatment for reliable functional and esthetic outcome after local facial flap reconstruction: a transparent polycarbonate facial mask with silicone sheeting. Eur J Plast Surg 2017; 40 (05) 407-416
  Google Scholar
• 10 Colla C, Kant SB, Van den Kerckhove E, Van der Hulst RR, Piatkowski de Grzymala AA. Manual fabrication of a specialized transparent facial pressure mask: a technical note. Prosthet Orthot Int 2019; 43 (03) 356-360
  Google Scholar
• 11 Klassen AF, Cano SJ, Schwitzer JA, Scott AM, Pusic AL. FACE-Q scales for health-related quality of life, early life impact, satisfaction with outcomes, and decision to have treatment: development and validation. Plast Reconstr Surg 2015; 135 (02) 375-386
  Google Scholar
• 12 Klassen AF, Cano SJ, Scott A, Snell L, Pusic AL. Measuring patient-reported outcomes in facial aesthetic patients: development of the FACE-Q. Facial Plast Surg 2010; 26 (04) 303-309
  Google Scholar
• 13 Pusic AL, Klassen AF, Scott AM, Cano SJ. Development and psychometric evaluation of the FACE-Q satisfaction with appearance scale: a new patient-reported outcome instrument for facial aesthetics patients. Clin Plast Surg 2013; 40 (02) 249-260
  Google Scholar
• 14 Klassen AF, Ziolkowski N, Mundy LR. et al. Development of a new patient-reported outcome instrument to evaluate treatments for scars: the SCAR-Q. Plast Reconstr Surg Glob Open 2018; 6 (04) e1672
  Google Scholar
• 15 Ziolkowski NI, Pusic AL, Fish JS. et al. Psychometric findings for the SCAR-Q patient-reported outcome measure based on 731 children and adults with surgical, traumatic, and burn scars from four countries. Plast Reconstr Surg 2020; 146 (03) 331e-338e
  Google Scholar
• 16 Kant SB, Colla C, Van den Kerckhove E, Van der Hulst RRWJ, Piatkowski de Grzymala A. Satisfaction with facial appearance and quality of life after treatment of face scars with a transparent facial pressure mask. Facial Plast Surg 2018; 34 (04) 394-399
  Google Scholar
• 17 Klassen AF, Cano SJ, Pusic AL. FACE-Q satisfaction with appearance scores from close to 1000 facial aesthetic patients. Plast Reconstr Surg 2016; 137 (03) 651e-652e
  Google Scholar
• 18 Huang R, Jiao H, Fan J. et al. Nanofat injection for the treatment of depressed facial scars. Aesthetic Plast Surg 2021; 45 (04) 1762-1771
  Google Scholar
• 19 Herruer JM, Prins JB, van Heerbeek N, Verhage-Damen GWJA, Ingels KJAO. Does self-consciousness of appearance influence postoperative satisfaction in rhinoplasty?. J Plast Reconstr Aesthet Surg 2018; 71 (01) 79-84
  Google Scholar
• 20 Elegbede A, Mermulla S, Diaconu SC. et al. Patient-reported outcomes in facial reconstruction: assessment of FACE-Q scales and predictors of satisfaction. Plast Reconstr Surg Glob Open 2018; 6 (12) e2004
  Google Scholar
• 21 Ellis MA, Sterba KR, Brennan EA. et al. A systematic review of patient-reported outcome measures assessing body image disturbance in patients with head and neck cancer. Otolaryngol Head Neck Surg 2019; 160 (06) 941-954
  Google Scholar
• 22 Kant S, van den Kerckhove E, Colla C, van der Hulst R, Piatkowski de Grzymala A. Duration of scar maturation: retrospective analyses of 361 hypertrophic scars over 5 years. Adv Skin Wound Care 2019; 32 (01) 26-34
  Google Scholar
• 23 Bozec A, Schultz P, Gal J. et al. Evolution and predictive factors of quality of life in patients undergoing oncologic surgery for head and neck cancer: a prospective multicentric study. Surg Oncol 2019; 28: 236-242
  Google Scholar
• 24 Zebolsky AL, Patel N, Heaton CM, Park AM, Seth R, Knott PD. Patient-reported aesthetic and psychosocial outcomes after microvascular reconstruction for head and neck cancer. JAMA Otolaryngol Head Neck Surg 2021; 147 (12) 1035-1044
  Google Scholar
• 25 Ziolkowski NI, Behman R, Klassen AF. et al. Determining the independent risk factors for worse SCAR-Q scores and future scar revision surgery. Plast Reconstr Surg 2021; 148 (01) 203-212
  Google Scholar
• 26 Miranda BH, Allan AY, Butler DP, Cussons PD. Scar revision surgery: the patient's perspective. Arch Plast Surg 2015; 42 (06) 729-734
  Google Scholar