**7. Special populations**

#### **7.1. Older men**

It is well-documented that men, particularly those aged 50 years and older, have higher incidence of, as well as morbidity and mortality from melanoma than other demographic groups [1], [100]-[103]. During the past decade, the incidence of thick melanomas (i.e., 4 mm) in the US increased significantly only in men 60 years of age and older [1]. A recent analysis of four phase III trials found that women had a consistent 30% advantage in all aspects of localized melanoma progression, which they attribute to a variety of potential tumor- and hostrelated biologic sex difference [100]. Studies have found that women are also more likely than men to do SSE [48], [60], [61], [63], [65], [66], [104-[107], intend to do TCE [108], and detect melanomas [42], [44]. Figure 1 shows US TCE rates in 2005 among various demographic groups.

Health interventions targeted specifically to men may benefit from a consideration of mascu‐ linity [109]-[117]. For example, one study found that more masculine college students were more likely to intend to do SSE if they received a worry control versus a response-efficacy (i.e., screening can detect skin cancer when it's most treatable) message [115]. Studies have found barriers to healthcare utilization and prevention among men that may be related to a stereo‐ typical masculine identity including discomfort with communication, feelings of vulnerability or invincibility, and even homophobia [111]. Thus, interventions for men should emphasize "masculine norms" such as self-reliance, emotional control, and power [109]. A few European and Australian interventions targeting middle-aged and older men included male celebrity modeling, use of photos, a website, free exams, and education and were successful in increas‐ ing SSE [114], [118], [119] and TCE [120]-[122]. Geller and colleagues (2006) also recommend a national survey to assess men for risk factors, perceived susceptibility, attitudes toward TCE and SSE, perceived barriers, and potential social supports [113].

Adapted from [59]

waiting rooms), a media campaign (press regarding the program and advertisements), and volunteer recruitment and activities (training of a "Volunteer SkinWatch Coordinator" in each community to serve as liaison between the community and research team). More than 16,000 people attended SkinWatch screening clinics conducted by general practitioners and special screening services [78], [79]. By two years, screening rates almost tripled in intervention communities [35]. Screening attendance was associated with age 40-49 years, fair skin, personal history of skin cancer, concern about a spot or mole, and not having had a recent TCE [80]. Reasons endorsed for failing to attend screening services included a lack of knowledge regarding services, not having time to attend services, and having had a TCE recently [80]. A few studies assessing interventions to increase TCE have found low (2-19%) uptake rates even among high risk populations [28], [81]. On the other hand, a more recent Australian study found that 71% of employees attended a free workplace skin cancer screening [71]. Finally, Manne and colleagues [82] found that a tailored print intervention increased TCE intentions

Interventions that have increased SSE through 1-year follow up among the general population have included in person and telephone approaches, videos, pamphlets, and free TCE [83]-[87]. For high risk populations such as melanoma patients and their family members, two UK and US groups have found success at 3-6 months using Skinsafe, an interactive multimedia intervention including characteristics of skin at risk, early signs of melanoma, personalized risk feedback, and SSE instruction [88], [89]. Other interventions have included the approaches used for general populations as well as personalized risk feedback, diaries and body maps, tailored recommendations and reminders, workbooks, a couple-based approach, guided imagery, and the use of photos of moles [75], [88], [90]-[99]. In general, interventions that have significantly increased skin cancer screening have tended to target high risk populations and be interactive and individually tailored based on personal characteristics, attitudes, and

It is well-documented that men, particularly those aged 50 years and older, have higher incidence of, as well as morbidity and mortality from melanoma than other demographic groups [1], [100]-[103]. During the past decade, the incidence of thick melanomas (i.e., 4 mm) in the US increased significantly only in men 60 years of age and older [1]. A recent analysis of four phase III trials found that women had a consistent 30% advantage in all aspects of localized melanoma progression, which they attribute to a variety of potential tumor- and hostrelated biologic sex difference [100]. Studies have found that women are also more likely than men to do SSE [48], [60], [61], [63], [65], [66], [104-[107], intend to do TCE [108], and detect melanomas [42], [44]. Figure 1 shows US TCE rates in 2005 among various demographic

and performance among first degree relatives of melanoma patients.

behaviors [92], [94].

252 Highlights in Skin Cancer

**7.1. Older men**

groups.

**7. Special populations**

**Figure 1.** Adjusted predicted value (%) for having total-body skin examination among US adults, National Health In‐ terview Survey, 2005

### **7.2. Young adults**

Melanoma is the second most common cancer (after lymphomas) in adolescents and adults younger than age 30 in the US [123]. The high rates of melanoma in this age group can likely be explained by high ultraviolet (UV) radiation exposure and low sun protection rates early in life [124], [125]. About one in three adolescents and young adults report intentional sunbathing [126]-[128], and 40-60% of college students have used indoor tanning booths, with higher rates among women [129]-[131]. In addition, sunscreen use is poor in this age group, with 50-85% failing to routinely wear sunscreen when outdoors [132], [133].

taught SSE [145]. In addition, the Hispanics reported not being told to perform SSE as often as

Skin Cancer Screening

255

http://dx.doi.org/10.5772/55243

Particular attention to underserved populations (e.g., based on education, older age, rural/ urban status, etc.) is needed. Demographic variables found to increase prevalence and/or severity of melanoma include urban residence in some cases, lower educational level, not being married, and being retired [31], [47], [146], [147]. TCE rates have been found to be lower among some demographic groups such as non-whites [59], individuals with high occupational UV exposure or lack of health insurance [148], lower educational levels [70], [148], unmarried men [70], and men living in metropolitan areas [114]. Rates of SSE have also been found to be higher among dermatology clinic patients and in younger adults as opposed to adults older than 50 [48], [60], [106]. Skin examination behaviors are influ‐ enced by factors such as skin cancer awareness, socio-economic status, and sociocultural values. Perceived risk for and knowledge regarding skin cancer is poor, especially among blacks and those with lower education levels [149]-[153]. Analysis of results from the Health Information National Trends Survey also showed that Blacks, the elderly, and people with less education all perceived themselves as being at reduced risk for skin cancer [149]. Furthermore, these groups, along with Hispanics, tended to believe that they could not reduce their skin cancer risk or that recommendations for risk reduction were too un‐ clear for them to adopt appropriate strategies [149]. Interventions designed to address health disparities should be culturally appropriate, inexpensive, easy to use, be appropri‐ ate for low health literacy levels, easily disseminated, address access to care, utilize tailoring, and involve the community when possible [113], [154]-[158]. Additionally, when developing interventions for an older population, it is important to keep in mind de‐ clines in cognitive abilities and a reliance on affective decision making as a result of such

Skin cancer is common and increasing in incidence. Skin cancer screening is efficacious and cost-effective in detecting more curable skin cancers. However, engagement in skin cancer screening is relatively low, even among high risk populations. Thus, research indicates a need for improved skin cancer screening interventions especially among high risk populations such as individuals with a personal or family history of skin cancer and older men. Several behav‐ ioral interventions have been developed and have demonstrated some promise in increasing skin cancer exams. However, health disparities in melanoma incidence, morbidity, and mortality exist as well as disparities in engagement in skin cancer detection. These disparities indicate a need for sensitive and culturally-appropriate behavioral interventions. Researchers should attend to individuals with low health literacy levels when designing these interven‐ tions. Young adults should also be educated regarding their risk for skin cancer and how to do skin exams, given the increasing rates of skin cancer in this age group. Future research on

non-Hispanics were.

declines [159], [160].

**8. Conclusion**

**7.4. Other underserved populations**

Some organizations recommend regular skin cancer screening beginning at 20 years of age [36], [38]. However, results of the 2000 National Health Interview Surveys showed that only 7% of young adults aged 18-29 years had ever received a TCE, down from 11% in 1998 [134]. Physicians tend to neglect young adults as a group that does not need skin cancer detection counseling [135], [136]. In addition, few studies have examined skin exam rates in young adults. Routine skin exams are largely recommended for those at high risk of skin cancer (usually older adults) [8], but the increasing rates of skin cancer in young adults indicates a potential need for culturally-appropriate interventions to increase skin exams in this age group, particularly among high risk populations such as individuals with a family history of skin cancer or indoor tanners. Skin cancer prevention interventions for young adults benefit from a focus on the negative effects on appearance stemming from UV exposure [137], [138]. Similar appearance-oriented interventions to increase skin cancer screening could focus on the effects of biopsies and skin surgeries if skin cancer is not detected early.

#### **7.3. Racial and ethnic minorities**

While white individuals are at higher risk for melanoma, non-white individuals tend to be diagnosed at later stages and have poorer survival [139], [140]. Specifically, ethnic minorities are 1.96 to 3.01 times more likely to die of melanoma, as compared to Whites of the same age and sex [139], [141], [142]. There are likely biological factors that play a role in this disparity [140]. However, another reason for later detection may be that race/ethnicity may be a proxy for some other demographic factors such as poorer SES, lower education, poorer access to healthcare, linguistic barriers, medical distrust, and occupational hazards such as UV exposure [140]. Though skin cancer rates are lower in racial and ethnic minority groups, they are not immune from this disease. Therefore, efforts should be made by healthcare professionals to educate these groups regarding their risk and signs of skin cancer.

Few studies have been conducted to determine the prevalence of TCE and SSE among racial and ethnic minority groups. One study found the rate for ever having had a TCE in Hispanic Whites was 3.7%, compared to 8.9% in non-Hispanic Whites [134]. Another study found rates of 16.2% in Blacks and 17.1% in Hispanics for regularly receiving TCE, compared to 25.5% of Whites [14]3. A study of US university students found that 7.7% of Asian, 12.5% of Black, and 14.3% of Hispanic students reported ever having performed SSE (compared to 39.5% of White students) [144]. A study conducted by Pipitone and colleagues (2002) compared SSE in 27 Hispanic and 113 White individuals, finding that none of the 27 Hispanics reported ever being taught SSE [145]. In addition, the Hispanics reported not being told to perform SSE as often as non-Hispanics were.

#### **7.4. Other underserved populations**

**7.2. Young adults**

254 Highlights in Skin Cancer

Melanoma is the second most common cancer (after lymphomas) in adolescents and adults younger than age 30 in the US [123]. The high rates of melanoma in this age group can likely be explained by high ultraviolet (UV) radiation exposure and low sun protection rates early in life [124], [125]. About one in three adolescents and young adults report intentional sunbathing [126]-[128], and 40-60% of college students have used indoor tanning booths, with higher rates among women [129]-[131]. In addition, sunscreen use is poor in this age group,

Some organizations recommend regular skin cancer screening beginning at 20 years of age [36], [38]. However, results of the 2000 National Health Interview Surveys showed that only 7% of young adults aged 18-29 years had ever received a TCE, down from 11% in 1998 [134]. Physicians tend to neglect young adults as a group that does not need skin cancer detection counseling [135], [136]. In addition, few studies have examined skin exam rates in young adults. Routine skin exams are largely recommended for those at high risk of skin cancer (usually older adults) [8], but the increasing rates of skin cancer in young adults indicates a potential need for culturally-appropriate interventions to increase skin exams in this age group, particularly among high risk populations such as individuals with a family history of skin cancer or indoor tanners. Skin cancer prevention interventions for young adults benefit from a focus on the negative effects on appearance stemming from UV exposure [137], [138]. Similar appearance-oriented interventions to increase skin cancer screening could focus on the

While white individuals are at higher risk for melanoma, non-white individuals tend to be diagnosed at later stages and have poorer survival [139], [140]. Specifically, ethnic minorities are 1.96 to 3.01 times more likely to die of melanoma, as compared to Whites of the same age and sex [139], [141], [142]. There are likely biological factors that play a role in this disparity [140]. However, another reason for later detection may be that race/ethnicity may be a proxy for some other demographic factors such as poorer SES, lower education, poorer access to healthcare, linguistic barriers, medical distrust, and occupational hazards such as UV exposure [140]. Though skin cancer rates are lower in racial and ethnic minority groups, they are not immune from this disease. Therefore, efforts should be made by healthcare professionals to

Few studies have been conducted to determine the prevalence of TCE and SSE among racial and ethnic minority groups. One study found the rate for ever having had a TCE in Hispanic Whites was 3.7%, compared to 8.9% in non-Hispanic Whites [134]. Another study found rates of 16.2% in Blacks and 17.1% in Hispanics for regularly receiving TCE, compared to 25.5% of Whites [14]3. A study of US university students found that 7.7% of Asian, 12.5% of Black, and 14.3% of Hispanic students reported ever having performed SSE (compared to 39.5% of White students) [144]. A study conducted by Pipitone and colleagues (2002) compared SSE in 27 Hispanic and 113 White individuals, finding that none of the 27 Hispanics reported ever being

with 50-85% failing to routinely wear sunscreen when outdoors [132], [133].

effects of biopsies and skin surgeries if skin cancer is not detected early.

educate these groups regarding their risk and signs of skin cancer.

**7.3. Racial and ethnic minorities**

Particular attention to underserved populations (e.g., based on education, older age, rural/ urban status, etc.) is needed. Demographic variables found to increase prevalence and/or severity of melanoma include urban residence in some cases, lower educational level, not being married, and being retired [31], [47], [146], [147]. TCE rates have been found to be lower among some demographic groups such as non-whites [59], individuals with high occupational UV exposure or lack of health insurance [148], lower educational levels [70], [148], unmarried men [70], and men living in metropolitan areas [114]. Rates of SSE have also been found to be higher among dermatology clinic patients and in younger adults as opposed to adults older than 50 [48], [60], [106]. Skin examination behaviors are influ‐ enced by factors such as skin cancer awareness, socio-economic status, and sociocultural values. Perceived risk for and knowledge regarding skin cancer is poor, especially among blacks and those with lower education levels [149]-[153]. Analysis of results from the Health Information National Trends Survey also showed that Blacks, the elderly, and people with less education all perceived themselves as being at reduced risk for skin cancer [149]. Furthermore, these groups, along with Hispanics, tended to believe that they could not reduce their skin cancer risk or that recommendations for risk reduction were too un‐ clear for them to adopt appropriate strategies [149]. Interventions designed to address health disparities should be culturally appropriate, inexpensive, easy to use, be appropri‐ ate for low health literacy levels, easily disseminated, address access to care, utilize tailoring, and involve the community when possible [113], [154]-[158]. Additionally, when developing interventions for an older population, it is important to keep in mind de‐ clines in cognitive abilities and a reliance on affective decision making as a result of such declines [159], [160].
