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Charlie is a 15-year-old male whose medical history includes overweight and autism spectrum disorder. While his autism symptoms are stable and he is doing fairly well in school, your sense is that he is underperforming and unhappy. His screening for anxiety and depression is not outstanding and you wonder whether to leave well enough alone.
Historically, pediatrician queries about media use happen in a minority of visits,1 overcrowded by the multitude of screening and acute care needs, let alone the pressures of electronic health record prompts, billing, and documentation. Yet the COVID-19 pandemic has emphasized what was already getting louder: screen life is becoming a ubiquitous, increasing, and normative function of child development. Digital well-being exhibits bidirectional interactions with most of the core indicators of child health: sleep, nutrition, safety, mood, relationships, and many other aspects of physical and mental health.1
The pandemic unveiled the blessings and curses of digital life by shifting many into remote work and school situations where screen time became both necessary and uncontrollable. Reeling with changes in employment, health, finances, and more, families struggled to forge a new screen-life balance that could bridge academic, professional, and recreational use.
Research has wavered in producing a verdict on the effects of screen time, in part because of limitations in methodology and follow-up time,2 and exacerbated by the quickly changing nature of screen use. Screen time may put youth at risk for obesity and behavior problems,3 but the latter may be mediated in part by loss of sleep because of late-night digital activity.4 While survey data at the population level show little link between screen time and well-being impairments,5 zooming in on individuals may tell a different story. Twenge and Campbell show light use of digital media (compared with nonuse) is associated with greater well-being while heavy use is associated with lower well-being and a higher risk for depression and suicidal behavior – especially in girls.6,7 Largely cross-sectional data show a small detriment to psychological well-being associated with digital technology, though this may be bidirectional and does not clearly differentiate types of technology.2
Recent neuroscience suggests that, compared with active play, sedentary screen time after school reduced impulse control and increased brain activity in regions associated with craving.8 This may explain some of the link between screen time and obesity. Brain imaging of preschoolers showed that greater screen time correlated with lower reading readiness as well as less integrity of white-matter tracts involved in language and executive function,9 whereas nurturing home reading practices were protective for language development and white matter integrity.10
Returning to the care of Charlie, providers may benefit from taking time to reflect on their own digital environment. What does the patient-side view of your office look like? Many offices use telephone reminders and patient portals, fill prescriptions electronically, and have waiting rooms with WiFi or devices for children’s use. Office visits share space with providers’ desktops, laptops, and smartphones, with EMRs guiding the visit. EMRs may come home for evening documentation. How does this affect provider digital well-being? How do you start the conversation with families about digital well-being?
The American Academy of Pediatrics recommends media screening be incorporated into routine pediatric care, with several tools available to support this. Adapting the HEADSSS model for psychosocial check-ins, Clark and colleagues propose an additional “S” to capture screen time.11 Their model queries which apps and social media are used, quantity of use, effects on self-confidence, and whether cyberbullying or sexting are occurring. Smartphones themselves provide an eye-opening and accessible dataset, with built-in features (for example, Screen Time for iOS) tracking not just daily duration of use, but also how frequently the phone is picked up and which apps get more use. Screening may be followed by motivational coaching, emphasizing nonjudgment, curiosity, empathy, and flexibility — for patient and provider.12
In Charlie’s case, screening reveals heavy use of social Internet games that connect him with like-minded peers. While he describes an inclusiveness and level of socialization that he has not found outside the home, the quantity of use is interfering with sleep, schoolwork, and physical activity.
Significant problematic Internet use may lead to intervention or referral – addictive behaviors and mental health symptoms may warrant connection with mental health providers. Cyberbullying or unsafe behaviors may additionally benefit from parental and school-based support. There is early and limited evidence that psychological and educational interventions may be of benefit for problematic Internet use.13
When digital life is not so dramatically affecting well-being, providers may begin by working with families on a media use plan. The AAP offers its own website to support this. Other well-researched and well-designed sites include Digital Wellness Lab For Parents, with developmentally staged information and plentiful research, and Common Sense Media, which reviews apps, movies, and more; plus they have a knowledge/advice section under “Parents Need to Know.” Keep in mind that digital media can also support youth in managing psychiatric problems, e.g., a digital intervention promoting positive psychology practices looked very helpful for young people with psychosis.14
For Charlie, a health coaching approach is adopted. Using Gabrielli’s TECH parenting rubric,15 Charlie’s parents are coached to make space to talk about and coview media and apps, as well as creating a Family Media Use Plan for everyone – parents included. Alongside setting limits on screen time; health promotion activities like exercise, reading, and schoolwork are also rewarded with extra screen time. When Charlie returns 3 months later, the family reports that, in recognition of their collective digital overload, they preserved dinnertime and after 10 p.m. as screen-free downtime. While they still have concerns about Charlie’s gaming and social life, his sleep is somewhat improved and family tension is lower.
Attention to digital well-being stands to benefit provider and patient alike, and over time may gain from the scaffolding of handouts, standardized assessments, and health coaching providers that may be in place to support other important domains like sleep hygiene, food security, and parenting.
Dr. Rosenfeld is assistant professor, University of Vermont, Vermont Center for Children, Youth, and Families, Burlington. He has no relevant disclosures.
References
1. Chassiakos YR et al. Pediatrics. 2016;138(5)e20162593.
2. Orben A. Soc Psychiatry Psych Epi. 2020;55(4):407.
3. Fang K et al. Child Care Health Dev. 2019;45(5):744-53.
4. Janssen X et al. Sleep Med Rev. 2020;49:101226.
5. George MJ et al. J Ped. 2020;219:180.
6. Twenge JM and Campbell WK. Psychiatry Q. 2019;90(2):311-31.
7. Twenge JM and Martin GN. J Adolesc. 2020;79:91.
8. Efraim M et al. Brain Imaging Behav. 2021;15(1):177-89.
9. Hutton JS et al. JAMA Pediatr. 2020;174(1):e193869.
10. Hutton JS et al. Acta Paediatr. 2020;109(7):1376-86.
11. Clark DL et al. Pediatrics. 2018;141(6).
12. Jericho M and Elliot A. Clin Child Psychol Psychiatry. 2020;25(3):662.
13. Malinauskas R and Malinauskine V. J Behav Addict. 2019;8(4):613.
14. Lim MH et al. Soc Psychiatry Psychiatr Epi. 2020;55(7):877-89.
15. Gabrielli J et al. Pediatrics. 2018;142(1)e20173718.
Charlie is a 15-year-old male whose medical history includes overweight and autism spectrum disorder. While his autism symptoms are stable and he is doing fairly well in school, your sense is that he is underperforming and unhappy. His screening for anxiety and depression is not outstanding and you wonder whether to leave well enough alone.
Historically, pediatrician queries about media use happen in a minority of visits,1 overcrowded by the multitude of screening and acute care needs, let alone the pressures of electronic health record prompts, billing, and documentation. Yet the COVID-19 pandemic has emphasized what was already getting louder: screen life is becoming a ubiquitous, increasing, and normative function of child development. Digital well-being exhibits bidirectional interactions with most of the core indicators of child health: sleep, nutrition, safety, mood, relationships, and many other aspects of physical and mental health.1
The pandemic unveiled the blessings and curses of digital life by shifting many into remote work and school situations where screen time became both necessary and uncontrollable. Reeling with changes in employment, health, finances, and more, families struggled to forge a new screen-life balance that could bridge academic, professional, and recreational use.
Research has wavered in producing a verdict on the effects of screen time, in part because of limitations in methodology and follow-up time,2 and exacerbated by the quickly changing nature of screen use. Screen time may put youth at risk for obesity and behavior problems,3 but the latter may be mediated in part by loss of sleep because of late-night digital activity.4 While survey data at the population level show little link between screen time and well-being impairments,5 zooming in on individuals may tell a different story. Twenge and Campbell show light use of digital media (compared with nonuse) is associated with greater well-being while heavy use is associated with lower well-being and a higher risk for depression and suicidal behavior – especially in girls.6,7 Largely cross-sectional data show a small detriment to psychological well-being associated with digital technology, though this may be bidirectional and does not clearly differentiate types of technology.2
Recent neuroscience suggests that, compared with active play, sedentary screen time after school reduced impulse control and increased brain activity in regions associated with craving.8 This may explain some of the link between screen time and obesity. Brain imaging of preschoolers showed that greater screen time correlated with lower reading readiness as well as less integrity of white-matter tracts involved in language and executive function,9 whereas nurturing home reading practices were protective for language development and white matter integrity.10
Returning to the care of Charlie, providers may benefit from taking time to reflect on their own digital environment. What does the patient-side view of your office look like? Many offices use telephone reminders and patient portals, fill prescriptions electronically, and have waiting rooms with WiFi or devices for children’s use. Office visits share space with providers’ desktops, laptops, and smartphones, with EMRs guiding the visit. EMRs may come home for evening documentation. How does this affect provider digital well-being? How do you start the conversation with families about digital well-being?
The American Academy of Pediatrics recommends media screening be incorporated into routine pediatric care, with several tools available to support this. Adapting the HEADSSS model for psychosocial check-ins, Clark and colleagues propose an additional “S” to capture screen time.11 Their model queries which apps and social media are used, quantity of use, effects on self-confidence, and whether cyberbullying or sexting are occurring. Smartphones themselves provide an eye-opening and accessible dataset, with built-in features (for example, Screen Time for iOS) tracking not just daily duration of use, but also how frequently the phone is picked up and which apps get more use. Screening may be followed by motivational coaching, emphasizing nonjudgment, curiosity, empathy, and flexibility — for patient and provider.12
In Charlie’s case, screening reveals heavy use of social Internet games that connect him with like-minded peers. While he describes an inclusiveness and level of socialization that he has not found outside the home, the quantity of use is interfering with sleep, schoolwork, and physical activity.
Significant problematic Internet use may lead to intervention or referral – addictive behaviors and mental health symptoms may warrant connection with mental health providers. Cyberbullying or unsafe behaviors may additionally benefit from parental and school-based support. There is early and limited evidence that psychological and educational interventions may be of benefit for problematic Internet use.13
When digital life is not so dramatically affecting well-being, providers may begin by working with families on a media use plan. The AAP offers its own website to support this. Other well-researched and well-designed sites include Digital Wellness Lab For Parents, with developmentally staged information and plentiful research, and Common Sense Media, which reviews apps, movies, and more; plus they have a knowledge/advice section under “Parents Need to Know.” Keep in mind that digital media can also support youth in managing psychiatric problems, e.g., a digital intervention promoting positive psychology practices looked very helpful for young people with psychosis.14
For Charlie, a health coaching approach is adopted. Using Gabrielli’s TECH parenting rubric,15 Charlie’s parents are coached to make space to talk about and coview media and apps, as well as creating a Family Media Use Plan for everyone – parents included. Alongside setting limits on screen time; health promotion activities like exercise, reading, and schoolwork are also rewarded with extra screen time. When Charlie returns 3 months later, the family reports that, in recognition of their collective digital overload, they preserved dinnertime and after 10 p.m. as screen-free downtime. While they still have concerns about Charlie’s gaming and social life, his sleep is somewhat improved and family tension is lower.
Attention to digital well-being stands to benefit provider and patient alike, and over time may gain from the scaffolding of handouts, standardized assessments, and health coaching providers that may be in place to support other important domains like sleep hygiene, food security, and parenting.
Dr. Rosenfeld is assistant professor, University of Vermont, Vermont Center for Children, Youth, and Families, Burlington. He has no relevant disclosures.
References
1. Chassiakos YR et al. Pediatrics. 2016;138(5)e20162593.
2. Orben A. Soc Psychiatry Psych Epi. 2020;55(4):407.
3. Fang K et al. Child Care Health Dev. 2019;45(5):744-53.
4. Janssen X et al. Sleep Med Rev. 2020;49:101226.
5. George MJ et al. J Ped. 2020;219:180.
6. Twenge JM and Campbell WK. Psychiatry Q. 2019;90(2):311-31.
7. Twenge JM and Martin GN. J Adolesc. 2020;79:91.
8. Efraim M et al. Brain Imaging Behav. 2021;15(1):177-89.
9. Hutton JS et al. JAMA Pediatr. 2020;174(1):e193869.
10. Hutton JS et al. Acta Paediatr. 2020;109(7):1376-86.
11. Clark DL et al. Pediatrics. 2018;141(6).
12. Jericho M and Elliot A. Clin Child Psychol Psychiatry. 2020;25(3):662.
13. Malinauskas R and Malinauskine V. J Behav Addict. 2019;8(4):613.
14. Lim MH et al. Soc Psychiatry Psychiatr Epi. 2020;55(7):877-89.
15. Gabrielli J et al. Pediatrics. 2018;142(1)e20173718.
Charlie is a 15-year-old male whose medical history includes overweight and autism spectrum disorder. While his autism symptoms are stable and he is doing fairly well in school, your sense is that he is underperforming and unhappy. His screening for anxiety and depression is not outstanding and you wonder whether to leave well enough alone.
Historically, pediatrician queries about media use happen in a minority of visits,1 overcrowded by the multitude of screening and acute care needs, let alone the pressures of electronic health record prompts, billing, and documentation. Yet the COVID-19 pandemic has emphasized what was already getting louder: screen life is becoming a ubiquitous, increasing, and normative function of child development. Digital well-being exhibits bidirectional interactions with most of the core indicators of child health: sleep, nutrition, safety, mood, relationships, and many other aspects of physical and mental health.1
The pandemic unveiled the blessings and curses of digital life by shifting many into remote work and school situations where screen time became both necessary and uncontrollable. Reeling with changes in employment, health, finances, and more, families struggled to forge a new screen-life balance that could bridge academic, professional, and recreational use.
Research has wavered in producing a verdict on the effects of screen time, in part because of limitations in methodology and follow-up time,2 and exacerbated by the quickly changing nature of screen use. Screen time may put youth at risk for obesity and behavior problems,3 but the latter may be mediated in part by loss of sleep because of late-night digital activity.4 While survey data at the population level show little link between screen time and well-being impairments,5 zooming in on individuals may tell a different story. Twenge and Campbell show light use of digital media (compared with nonuse) is associated with greater well-being while heavy use is associated with lower well-being and a higher risk for depression and suicidal behavior – especially in girls.6,7 Largely cross-sectional data show a small detriment to psychological well-being associated with digital technology, though this may be bidirectional and does not clearly differentiate types of technology.2
Recent neuroscience suggests that, compared with active play, sedentary screen time after school reduced impulse control and increased brain activity in regions associated with craving.8 This may explain some of the link between screen time and obesity. Brain imaging of preschoolers showed that greater screen time correlated with lower reading readiness as well as less integrity of white-matter tracts involved in language and executive function,9 whereas nurturing home reading practices were protective for language development and white matter integrity.10
Returning to the care of Charlie, providers may benefit from taking time to reflect on their own digital environment. What does the patient-side view of your office look like? Many offices use telephone reminders and patient portals, fill prescriptions electronically, and have waiting rooms with WiFi or devices for children’s use. Office visits share space with providers’ desktops, laptops, and smartphones, with EMRs guiding the visit. EMRs may come home for evening documentation. How does this affect provider digital well-being? How do you start the conversation with families about digital well-being?
The American Academy of Pediatrics recommends media screening be incorporated into routine pediatric care, with several tools available to support this. Adapting the HEADSSS model for psychosocial check-ins, Clark and colleagues propose an additional “S” to capture screen time.11 Their model queries which apps and social media are used, quantity of use, effects on self-confidence, and whether cyberbullying or sexting are occurring. Smartphones themselves provide an eye-opening and accessible dataset, with built-in features (for example, Screen Time for iOS) tracking not just daily duration of use, but also how frequently the phone is picked up and which apps get more use. Screening may be followed by motivational coaching, emphasizing nonjudgment, curiosity, empathy, and flexibility — for patient and provider.12
In Charlie’s case, screening reveals heavy use of social Internet games that connect him with like-minded peers. While he describes an inclusiveness and level of socialization that he has not found outside the home, the quantity of use is interfering with sleep, schoolwork, and physical activity.
Significant problematic Internet use may lead to intervention or referral – addictive behaviors and mental health symptoms may warrant connection with mental health providers. Cyberbullying or unsafe behaviors may additionally benefit from parental and school-based support. There is early and limited evidence that psychological and educational interventions may be of benefit for problematic Internet use.13
When digital life is not so dramatically affecting well-being, providers may begin by working with families on a media use plan. The AAP offers its own website to support this. Other well-researched and well-designed sites include Digital Wellness Lab For Parents, with developmentally staged information and plentiful research, and Common Sense Media, which reviews apps, movies, and more; plus they have a knowledge/advice section under “Parents Need to Know.” Keep in mind that digital media can also support youth in managing psychiatric problems, e.g., a digital intervention promoting positive psychology practices looked very helpful for young people with psychosis.14
For Charlie, a health coaching approach is adopted. Using Gabrielli’s TECH parenting rubric,15 Charlie’s parents are coached to make space to talk about and coview media and apps, as well as creating a Family Media Use Plan for everyone – parents included. Alongside setting limits on screen time; health promotion activities like exercise, reading, and schoolwork are also rewarded with extra screen time. When Charlie returns 3 months later, the family reports that, in recognition of their collective digital overload, they preserved dinnertime and after 10 p.m. as screen-free downtime. While they still have concerns about Charlie’s gaming and social life, his sleep is somewhat improved and family tension is lower.
Attention to digital well-being stands to benefit provider and patient alike, and over time may gain from the scaffolding of handouts, standardized assessments, and health coaching providers that may be in place to support other important domains like sleep hygiene, food security, and parenting.
Dr. Rosenfeld is assistant professor, University of Vermont, Vermont Center for Children, Youth, and Families, Burlington. He has no relevant disclosures.
References
1. Chassiakos YR et al. Pediatrics. 2016;138(5)e20162593.
2. Orben A. Soc Psychiatry Psych Epi. 2020;55(4):407.
3. Fang K et al. Child Care Health Dev. 2019;45(5):744-53.
4. Janssen X et al. Sleep Med Rev. 2020;49:101226.
5. George MJ et al. J Ped. 2020;219:180.
6. Twenge JM and Campbell WK. Psychiatry Q. 2019;90(2):311-31.
7. Twenge JM and Martin GN. J Adolesc. 2020;79:91.
8. Efraim M et al. Brain Imaging Behav. 2021;15(1):177-89.
9. Hutton JS et al. JAMA Pediatr. 2020;174(1):e193869.
10. Hutton JS et al. Acta Paediatr. 2020;109(7):1376-86.
11. Clark DL et al. Pediatrics. 2018;141(6).
12. Jericho M and Elliot A. Clin Child Psychol Psychiatry. 2020;25(3):662.
13. Malinauskas R and Malinauskine V. J Behav Addict. 2019;8(4):613.
14. Lim MH et al. Soc Psychiatry Psychiatr Epi. 2020;55(7):877-89.
15. Gabrielli J et al. Pediatrics. 2018;142(1)e20173718.