The Impact of Remote Recruitment and Intervention on Adolescents At-Risk for Cybervictimization

By Chiaka Ibe, Megan Ranney, MD, MPH, FACEP; John Pateña, MPH, MA; Tyler Wray, PhD, Brown University

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Citation

Ibe C, Ranney M, Pateña J, Wray T. The impact of remote recruitment and intervention on adolescents at-risk for cybervictimization​. HPHR. 2021;40. DOI: 10.54111/0001/NN2

The Impact of Remote Recruitment and Intervention on Adolescents At-Risk for Cybervictimization

Abstract

Background

Although online recruitment is increasingly used for studies, the representativeness of populations recruited this way is largely unknown. This study, completed prior to COVID-19, compares the reach and representativeness of recruitment for an adolescent cybervictimization intervention using in-person versus online methods.

Methods

In Study A, English-speaking adolescents ages 13-17 were recruited in-person at a hospital-based pediatric clinic to participate in a hybrid cybervictimization intervention program (N=38). In a separate, subsequent study (Study B), adolescents of the same age were recruited remotely via Instagram advertisements to participate in a fully online cybervictimization program (N=79). Screening, 8-week post-enrollment, and 16-week post-enrollment surveys consisted of validated measures divided into four sub-groups (Demographics, At-Risk Factors, Support Factors, and User Experience). Statistical analyses were performed using R

Results

Chi-square tests revealed participants were not significantly different for six of 10 demographic measures. Study B participants were underrepresented in low socioeconomic status, Hispanic identity, and non-white race. However, significantly more remote participants identified as non-heterosexual, an identity associated with notably increased risk for cyberbullying. T-tests revealed participants in Study B demonstrated significantly more risky behavior for eight of 12 measures. By 16-week follow up, all risky behavior measures were not significantly different between the two groups, largely due to decreasing reported risk in Study B participants following intervention. Participants in both studies were not significantly different for two of three Support measures. However, Study A subjects reported significantly less perceived social support, the only non-demographic measure in which those recruited in-person exhibited more risk for cybervictimization. User experience was not significantly different between cohorts.

Discussion

Results of this study demonstrate remote methodology enhances access to at-risk adolescents without compromising the success of the subsequent intervention.

Conclusion

Findings should serve as evidence of the acceptability and feasibility of remote recruitment and a call to action for further cyberbullying intervention research.

Introduction

The ongoing digital revolution has brought computer-mediated communication (CMC) to the forefront.1 Ninety-five percent of U.S. teens report having a smartphone or access to one, and 89% describe their Internet usage as occurring several times a day or nearly constantly.2 Adolescents have a wide array of communication tools at their disposal, and social media is currently the dominating preference, with 70% of teens reporting at least two social media platforms comprising a majority of their time spent online.2 However, only 31% of teens describe their social media experience as positive.2

 

With a powerful medium comes great opportunity for abuse. Up to 72% of U.S. adolescents ages 10 to 19 report being the victim of cyber harm,3 which most commonly occurs as offensive name-calling and spreading of false rumors.4 A Pew Research Center survey found that 90% of U.S. teens believe online harassment is a problem and are frustrated with the lack of intervention by authoritative figures.4 Adolescents feel teachers, social media companies, and politicians especially have failed to address their concerns.4

 

Harm perpetuated online holds distinct power.5,6 Without the face-to-face interaction, a cyberbully is able to hide their identity with ease. This anonymity reduces feelings of accountability and fear of consequence.7,8 Adolescents also enjoy less supervision, if any, on the Internet, making the bullying easier and intervention harder.9 Moreover, the threat of permanence haunts victims, with release of any private images or offensive remarks on social networks guaranteed to have a lasting digital presence discoverable by anyone.10

 

Adolescents facing cyberbullying are burdened with lasting mental distress. The harm can lead to psychosomatic symptoms including headaches, abdominal pain, and difficulty sleeping.10 Victims also report higher rates of depressive symptoms, suicide planning, and weapon carrying.11 Even beyond adolescence, cyberbullying of undergraduates is associated with career problems, difficulty in interpersonal relations, depression, and suicidal ideation.12

 

The COVID-19 pandemic has made effective cyberbullying intervention both more urgent, and more difficult.13 Digital communication surged amidst lockdown orders,14 but researchers discovered an association between the increased screen time and worsened mental health.15 According to a study from the L1ght organization, a creator of AI solutions to detect and remove toxic web behaviors, there has been a 70% increase in hate speech amongst young teens since the onset of the pandemic.16 Racial and sexual minorities are disproportionally impacted by both cyberbullying17,18 and COVID-19,19–22 meaning the most in need became the hardest to reach.

 

The harm of cyberbullying can be mitigated by developing emotional social skills and learning how to regulate emotions effectively.23,24 Traditional preventive measures commonly involve curriculum-based programs, yet teachers feel deficient in their knowledge of handling cyberbullying.25.26 The Brown-Lifespan Center for Digital Health conducted an innovative study testing a text-message based cyberbullying intervention for high-risk youth identified in an outpatient clinic.27 However, the recruitment was overly laborious, as it required great dedication of resources and staff. Moreover, this process would be especially difficult to replicate given COVID-19 distancing guidelines.

 

Online intervention has proven efficacious in several research areas such as treating anxiety and depression,28–30 promoting physical activity,31 and aiding smoking cessation.32 Notably, online recruitment, commonly in the form of a social media campaign, has been used in an advantageous manner. Online recruitment has allowed access to more diverse populations,33,34 led to higher enrollment rates,35 required fewer study resources,35 and proven to be more cost effective overall.36 Enhanced accessibility to sexual and ethnic minorities, or the groups most at-risk for cyberbullying, is especially relevant given the longstanding problems with diversity in research.37

 

How can we deliver an easily disseminated cyberbullying intervention proven to be efficacious in a diverse cohort of at-risk youth? Given the dire need for intervention and the limitations of in-person research, remote recruitment and intervention can prove useful. To better understand the influence of remote methodology in finding and engaging at-risk youth, this analysis utilizes data from the “Intervention to Prevent Adolescent Cyber-victimization through Text messaging (iPACT)” and “Intervention Media to Prevent Adolescent Cyber-conflict through Technology (IMPACT)” studies. The aim of this inquiry is to characterize who is reached and identify the efficacy of intervention when remote methods are utilized. As the research community seeks to progress past the novice stage of cyberbullying interventions, our findings can help guide effective trial and intervention design for the future.

Methods

Study Setting and Recruitment

iPACT evaluated the acceptability and feasibility of a two-part (clinic session and tailored eight-week text program) hybrid intervention for youth reporting cybervictimization. Participants were recruited from March 2018 to June 2018 at an outpatient pediatric clinic located in a Northeastern urban city. Participants were offered a small value incentive of 1 pack of gum. Research Assistants (RAs) pre-screened for English-speaking patients 13-17 years of age who were not in police or state custody, diagnosed with a developmental disability, or pregnant. Following verbal consent and assent from the patient and their legal guardian (s), eligible adolescents completed a screening survey on REDCap.38

 

Similarly, the IMPACT study evaluated the acceptability and feasibility of a two-part (video session and tailored eight-week app program) remote intervention for youth reporting cybervictimization. Participants were recruited from January 2020 to May 2020 through targeted Instagram advertisements, which relied on varying ad campaigns and placements. Advertisements were promoted through Reach campaigns, showing ads to users within a target audience (e.g., all genders between 13-17 years old), and Traffic campaigns, showing ads to users that click on ads frequently. Advertisements were featured in Story format, a post that disappears after 24 hours; Feed format, a lasting post within a user’s feed that one can engage with easily; and Explore format, a lasting post shown to the user based on similar content they have engaged with previously.39

 

Users who engaged with the advertisement by pressing the “Learn More” button were prompted to complete an anonymous screening survey on REDCap.38 Akin to iPACT, the survey pre-screened for adolescents who were 13-17 years of age, U.S. residents, and English speaking. Users who completed the survey were invited to provide their email and enter a raffle to receive a $50.00 Amazon gift card.

Following completion of the screening surveys for both studies, participants who reported at least one incident of past year cybervictimization and access to a phone with texting abilities were deemed eligible for the pilot randomized controlled trial (RCT). Eligible participants who assented with written informed consent and passed verification of their and their legal guardian(s)’ contact information were enrolled into the study and randomly assigned to the control or intervention group.

Intervention Structure

Participants were presented with an RA-led information session in the pediatric clinic (iPACT) or via video conferencing (IMPACT) discussing bullying-prevention skills and Cognitive Behavioral Therapy (CBT) techniques, including the thoughts-feelings-action triangle that defines the relationship between what we think, feel, and do. Following the first phase of intervention, participants were enrolled in a text message program developed by Reify Health (iPACT) or an app program developed by JourneyLabs (IMPACT), delivering daily curriculum on how to respond to harassment, manage emotions, and reduce likelihood of future victimization. Participants also received a daily questionnaire assessing their wellbeing (i.e., How are you feeling in general today? 1=really bad, 5=great) and cybervictimization experience (i.e., Any drama or conflict online today? “Yes” or “No”). Participants in the control group were provided with a standard sheet (iPACT) or link to a website (IMPACT) on bullying and mental health resources.

 

Following completion of the intervention, participants completed 8-week post-enrollment and 16-week post-enrollment surveys and participated in semi-structured exit interviews.

iPACT and IMPACT Measures

Across the surveys, iPACT and IMPACT evaluate seven constructs: Cybervictimization, Other Violence, Mental Health, Mechanisms of Behavior, Other Risky Behavior, Technology Usage, and Demographics. Accounting for questions repeated in post-enrollment surveys, the iPACT surveys consist of 307 questions, and the IMPACT surveys consist of 258 questions. For the purpose of this analysis, participant responses from 193 questions were sourced from each study. Selection of measures was made at the discretion of the authors based on identical questions in both intervention surveys, relevance to the objective of this analysis, and completion of questions from participants in both groups. All measures in this analysis have been validated,40-53 and they can be re-categorized into four categories: Demographics, At-Risk Factors, Support Factors, and User Experience. The qualitative Demographics measures and quantitative At-Risk, Support, and User Experience measures are detailed in Tables 1 and 2 respectively.

Table 1. Qualitative Demographics Measures

Measure

Response options*

Response categorization for χ2

Grade level

6th grade

7th grade

8th grade

Middle school

9th grade

10th grade

11th grade

12th grade

High school

Academic performance

Mostly As

Mostly As and Bs

Mostly Bs

Mostly Bs and Cs

Strong academic performance

Mostly Cs

Mostly Cs and Ds

Mostly Ds

Mostly Ds and Fs

Mostly Fs

Weak academic performance

Socioeconomic status

Qualifies for reduced lunch OR guardian receives public assistance

Low SES

Does not quality for reduced lunch AND guardian does not receive public assistance

High SES

Parental status

Has a child

Parent

Does not have a child

Not a parent

Hispanic identity

Hispanic

Hispanic

Not Hispanic

Not Hispanic

Race

White

White

American Indian / Alaska Native

Asian

Native Hawaiian or Other Pacific Islander

Black or African American

Other

Non-white

Sex at birth

Male

Male

Female

Female

Gender

Male

Female

Cis gender

Transgender

Other gender not listed

Non-cis gender

Sexuality

Straight

Heterosexual

Gay or lesbian

Bisexual

Not listed above

Non-heterosexual

Counseling outpatient status

Has seen a counselor as an outpatient for help with emotional problems

Counseling outpatient

Has not seen a counselor as an outpatient for help with emotional problems

Not a counseling outpatient

*Prefer not to answer included as an option for all measures.

Table 2. Quantitative At-Risk, Support, and UEX Measures

Measure

Number of questions*

Question type / scoring

Total scoring

Youth Internet Safety Score (YISS)

1

Binary: 0-1

Sum: 0-1

Past 12mo. Cybervictimization

5

Likert scale: 0-4

Sum: 0-20

Past 2mo. Cybervictimization

5

Likert scale: 0-4

Sum: 0-20

Impairment in Daily Life

3

Likert scale: 0-3

Sum: 0-9

Emotional Toll

7

Likert scale: 0-4

Sum: 0-28

Physical Fights

1

Likert scale: 0-4

Sum: 0-4

Past 12mo. Dating Violence

5

1Binary: 0-1

4Likert scale: 0-4

Sum: 0-17

Past 2mo. Dating Violence

5

1Binary: 0-1

4Likert scale: 0-4

Sum: 0-17

Past 12mo. In-Person Bullying

7

Likert scale: 0-4

Sum: 0-28

Past 2mo. In-Person Bullying

7

Likert scale: 0-4

Sum: 0-28

Illicit Drug and Alcohol Usage

3

Likert scale: 0-4

Sum: 0-12

Witnessing Bullying

1

Likert scale: 0-4

Sum: 0-4

Cybervictimization Solutions

9

Binary: 0-1

Sum: 0-9

Feelings of Bystander Accountability

13

Likert scale: 1-5

Average: 1-5

Social Support

12

Likert scale: 1-7

Average: 1-7

User Experience

4

Likert scale: 0-2

Sum: 0-8

*Refers to number of questions in a given survey. Does not account for number of times a question is repeated across surveys.

Analysis

All statistical analyses were conducted using R and RStudio.54 A series of Chi-square tests were used to determine statistical significance for the Demographics measures. Subsequently, F tests were used to examine equality of variances for responses in the At-Risk Factors, Support Factors, and User Experience categories. For data sets with unequal variances, a Welch’s t-test was used to compare means, whereas those with equal variances were examined with a Student’s t-test.

Results

Table 3. Significance of Demographics in Adolescent Study Populations

Classification

iPACT (N=38)

IMPACT (N=79)

χ2

df

Sig.

Middle School

39.5%

20.3%

0.490

1

0.484

High School

Prefer not to answer

61.5%

0%

77.2%

2.5%

   

Strong Academic Performance

84.2%

96.2%

0.0495

1

0.824

Weak Academic Performance

Prefer not to answer

13.2%

2.6%

3.8%

0%

   

Low SES

84.2%

32.9%

7.51**

1

0.00613

Not Low SES

10.5%

63.3%

   

Prefer not to answer

5.3%

3.8%

   

Parent

7.9%

0%

0.0233

1

0.879

Not a Parent

89.5%

100%

   

Prefer not to answer

2.6%

0%

   

Hispanic

60.5%

12.7%

16.89**

1

3.96E-05

Not Hispanic

21.1%

87.3%

   

Prefer not to answer

18.4%

0%

   

White

2.6%

68.4%

10.83**

1

0.0001

Non-white

81.6%

29.1%

   

Prefer not to answer

15.8%

2.5%

   

Male

31.6%

22.8%

0.386

1

0.535

Female

65.8%

77.2%

   

Prefer not to answer

2.6%

0%

   

Cis Gender

92.1%

84.8%

0.00279

1

0.958

Non-Cis Gender

2.6%

10.1%

   

Prefer not to answer

5.3%

5.1%

   

Heterosexual

81.6%

40.5%

4.09**

1

0.0431

Non-Heterosexual

10.5%

54.4%

   

Prefer not to answer

7.9%

5.1%

   

Counseling outpatient

Not a counseling outpatient

Prefer not to answer

32.0%

68.0%

0%

46.8%

53.2%

0%

0.702

1

0.402

** refers to p<.05.

As depicted in Table 3, Chi-square analysis revealed that the iPACT and IMPACT cohorts were not significantly different for majority of Demographics measures, including grade level (p=0.484), academic performance (p=0.824), parental status (p=0.879), biological sex (p=0.535), gender choice (p=0.958), and receiving outpatient emotional care (p=0.702). The studies were successful in reaching groups with a primarily similar demographic makeup. However, the IMPACT cohort had significantly more representation for sexuality and less for low SES, Hispanic identity, and non-white race.

Table 4. Screening and Baseline Descriptive Statistics

Factor

N

Mean

Standard Deviation

Standard Error Mean

iPACT Youth Internet Safety Score (YISS)

38

0.237

0.431

0.0699

IMPACT Youth Internet Safety Score (YISS)

79

0.722**

0.451

0.0508

iPACT Past 12mo. Cybervictimization

38

2.08

1.28

0.208

IMPACT Past 12mo. Cybervictimization

79

5.32**

4.73

0.532

iPACT Past 2mo. Cybervictimization

38

0.869

1.02

0.165

IMPACT Past 2mo. Cybervictimization

79

3.34**

3.71

0.418

iPACT Impairment in Daily Life

38

2.21

2.42

0.392

IMPACT Impairment in Daily Life

79

2.37

2.53

0.284

iPACT Emotional Toll

38

4.21

4.91

0.797

IMPACT Emotional Toll

79

9.33**

7.49

0.842

iPACT Physical Fights

38

0.211

0.474

0.0769

IMPACT Physical Fights

79

0.0886

0.328

0.0369

iPACT Past 12mo. Dating Violence

38

0.579

0.721

0.117

IMPACT Past 12mo. Dating Violence

79

0.646

0.906

0.102

iPACT Past 2mo. Dating Violence

38

0.395

0.595

0.0964

IMPACT Past 2mo. Dating Violence

79

0.468

0.731

0.0822

iPACT Past 12mo. In-Person Bullying

38

2.37

2.08

0.338

IMPACT Past 12mo. In-Person Bullying

79

7.13**

4.76

0.535

iPACT Past 2mo. In-Person Bullying

38

1.53

1.61

0.261

IMPACT Past 2mo. In-Person Bullying

79

4.56**

3.85

0.433

iPACT Illicit Drug and Alcohol Usage

38

0.395

0.974

0.158

IMPACT Illicit Drug and Alcohol Usage

79

1**

1.78

0.200

iPACT Witnessing Bullying

38

0.579

0.826

0.134

IMPACT Witnessing Bullying

79

1.53**

1.26

0.142

IPACT Cybervictimization Solutions

38

4.45

2.60

0.421

IMPACT Cybervictimization Solutions

79

4.39

2.16

0.243

iPACT Feelings of Bystander Accountability

38

3.48

0.669

0.109

IMPACT Feelings of Bystander Accountability

79

3.40

0.624

0.0702

iPACT Social Support

38

3.58**

0.675

0.109

IMPACT Social Support

79

3.93

0.921

0.104

** refers to p<.05.

Table 5. 8-Weeks Post-Enrollment Descriptive Statistics

Factor

N

Mean

Standard Deviation

Standard Error Mean

iPACT Past 2mo. Cybervictimization

18

1.28

1.36

0.321

IMPACT Past 2mo. Cybervictimization

36

3.92**

4.12

0.686

iPACT Impairment in Daily Life

18

0.833

1.65

0.390

IMPACT Impairment in Daily Life

36

1.67

1.97

0.329

IPACT Emotional Toll

18

3.56

5.03

1.19

IMPACT Emotional Toll

36

6.44

5.47

0.912

iPACT Physical Fights

18

0.278

0.575

0.135

IMPACT Physical Fights

36

0.0278

0.167

0.0278

iPACT Dating Violence

18

0.611

0.850

0.200

IMPACT Dating Violence

36

0.333

0.478

0.0797

iPACT Past 2mo. In-Person Bullying

18

2.78

2.29

0.540

IMPACT Past 2mo. In-Person Bullying

36

2.89

3.03

0.505

iPACT Cybervictimization Solutions

18

2.94

2.80

0.659

IMPACT Cybervictimization Solutions

36

3.94

2.66

0.444

iPACT Feelings of Bystander Accountability

18

3.36

0.861

0.203

IMPACT Feelings of Bystander Accountability

36

3.63

0.475

0.0792

iPACT Social Support

18

3.58

0.922

0.217

IMPACT Social Support

36

3.72

0.692

0.115

iPACT User Experience

18

5.56

1.58

0.372

IMPACT User Experience

36

6.17

1.40

0.234

** refers to p<.05.

Table 6. 16-Weeks Post-Enrollment Descriptive Statistics

Factor

N

Mean

Standard Deviation

Standard Error Mean

iPACT Past 2mo. Cybervictimization

18

2.56

4.98

1.17

IMPACT Past 2mo. Cybervictimization

35

3.14

2.71

0.459

iPACT Physical Fights

18

0.167

0.514

0.121

IMPACT Physical Fights

35

0

0

0

IPACT Past 2mo. Dating Violence

18

0.889

1.60

0.378

IMPACT Past 2mo. Dating Violence

35

0.800

2.53

0.428

iPACT Past 2mo. In-Person Bullying

18

2.39

2.64

0.622

IMPACT Past 2mo. In-Person Bullying

35

2.69

2.21

0.373

iPACT Feelings of Bystander Accountability

18

3.33

0.875

0.206

IMPACT Feelings of Bystander Accountability

35

3.70

0.495

0.0836

iPACT Social Support

18

3.56

0.837

0.197

IMPACT Social Support

35

3.94

0.717

0.121

** refers to p<.05.

Table 7. Significance of At-Risk and Support Measures at Screening and Baseline

 

F Test for Equality of Variances

t-test for Equality of Means

 

Factor

F

Sig.

t

df

Sig.

95% CI Lower

95% CI Upper

Cohen’s d

Youth Internet Safety Score (YISS)

1.10

0.773

5.52**

115

2.12E-07

0.311

0.659

1.09

Past 12mo. Cybervictimization

13.6

1.21E-13

5.67**

98.8

1.44E-07

2.10

4.37

0.817

Past 2mo. Cybervictimization

13.3

1.79E-13

5.51**

99.2

2.90E-07

1.58

3.36

0.795

Impairment in Daily Life

1.09

0.781

0.318

115

0.751

-0.818

1.13

0.0628

Emotional Toll

2.32

0.00562

4.41**

104.2

2.48E-05

2.82

7.42

0.756

Physical Fights

0.478

0.00641

-1.43

54.6

0.159

-0.293

0.0490

0.320

Past 12mo. Dating Violence

1.58

0.127

0.396

115

0.693

-0.267

0.400

0.0783

Past 2mo. Dating Violence

1.51

0.166

0.540

115

0.590

-0.196

0.343

0.107

Past 12mo. In-Person Bullying

5.20

3.69E-07

7.52**

114.3

1.37E-11

3.50

6.01

1.16

Past 2mo. In-Person Bullying

5.73

9.40E-08

6.00**

113.4

2.41E-08

2.03

4.03

0.920

Illicit Drug and Alcohol Usage

3.33

0.000122

2.38**

113.0

0.0192

0.101

1.11

0.387

Witnessing Bullying

2.32

0.00569

4.88**

104.2

3.76E-06

0.566

1.34

0.837

Cybervictimization Solutions

0.694

0.178

-0.120

115

0.904

-0.959

0.849

0.0238

Feelings of Bystander Accountability

0.870

0.598

-0.630

115

0.530

-0.329

0.170

0.124

Social Support

1.86

0.0385

-2.35**

96.3

0.0207

0.0555

0.654

0.417

** refers to p<.05.

Tables 4, 5, and 6 illustrate the mean scoring of participants for measures at the three points of the study respectively, i.e., screening, 8-weeks post-enrollment (close of intervention), and 16-weeks post-enrollment. As detailed in Table 7, baseline scoring for online participants revealed they were of equal or greater risk of cyberbullying. Of the At-Risk measures, impairment in daily life (p=0.751), number of physical fights (p=0.159), and past-year (p=0.693) and past 2-month (p=0.590) dating violence were not significantly different, which remained consistent at follow-ups. However, the remaining eight measures demonstrate participants recruited online were significantly more at-risk than their in-person counterparts.

Table 8. Significance of At-Risk, Support, and UEX Measures at 8-Weeks Post-Enrollment

 

F Test for Equality of Variances

t-test for Equality of Means

 

Factor

F

Sig.

t

df

Sig.

95% CI Lower

95% CI Upper

Cohen’s d

Past 2mo. Cybervictimization

9.11

1.38E-05

2.64**

52

0.0110

0.632

4.65

0.762

Impairment in Daily Life

1.42

0.445

1.54

52

0.129

-0.252

1.92

0.445

Emotional Toll

1.18

0.732

1.88

52

0.0661

-0.199

5.98

0.542

Physical Fights

0.0842

1.39E-09

-1.81

18.4

0.0869

-0.540

0.0399

0.703

Past 2mo. Dating Violence

0.316

0.00390

-1.29

22.5

0.211

-0.724

0.169

0.445

Past 2mo. In-Person Bullying

1.75

0.218

0.137

52

0.892

-1.52

1.74

0.0395

Cybervictimization Solutions

0.906

0.776

1.28

52

0.206

-0.568

2.57

0.370

Feelings of Bystander Accountability

0.305

0.00291

1.25

22.3

0.226

-0.180

0.723

0.432

Social Support

0.563

0.148

0.609

52

0.545

-0.313

0.585

0.178

User Experience (UEX)

0.790

0.539

1.45

52

0.154

-0.237

1.46

0.417

** refers to p<.05

Table 9. Significance of At-Risk and Support Measures at 16-Weeks Post-Enrollment

 

F Test for Equality of Variances

t-test for Equality of Means

 

Factor

F

Sig.

t

df

Sig.

95% CI Lower

95% CI Upper

Cohen’s d

Past 2mo. Cybervictimization

0.296

0.00247

0.466

22.3

0.646

-2.03

3.21

0.162

Physical Fights

0

< 2.2E-16

-1.37

17

0.187

-0.426

0.0892

0.562

Dating Violence

2.49

0.0490

-0.156

48.6

0.877

-1.24

1.06

0.0393

Past 2mo. In-Person Bullying

0.699

0.367

0.434

51

0.667

-1.08

1.67

0.126

Feelings of Bystander Accountability

0.320

0.00457

1.66

22.7

0.110

-0.0908

0.830

0.572

Social Support

0.734

0.432

1.73

51

0.0894

-0.0607

0.823

0.502

** refers to p<.05.

The Instagram cohort scored significantly higher for number of stranger interactions or YISS (p<0.0001) , past-year (p<0.0001) and past 2-month (p<0.0001) cyberbullying incidences, emotional toll (p=<0.0001), past-year (p<0.0001) and past 2-month (p<0.0001) in-person bullying incidences, substance use (p<0.05), and number of bystander incidences (p<0.0001). As depicted in tables 8 and 9, the aforementioned measures repeated at follow-ups were not significantly different after the intervention, as risk was brought to a comparably lower level for both populations. Thus, results indicate remote methodology was successful in enhancing access to high-risk populations while maintaining the efficacy of the subsequent intervention.

 

Of the Support measures, participants in respective cohorts scored similarly in feelings of bystander responsibility (p=0.530) and number of solutions used by participants to stop cybervictimization (p=0.904) at baseline, which sustained through follow-ups. However, in-person participants reported significantly lower perceived support in their network. Social support is the only non-Demographic measure in which those recruited in-person exhibited more risk for cyberbullying. By 8-weeks post-enrollment, feelings of social support were comparably high between participants.

 

Finally, there was no significant difference in user experience between participants, as both groups scored comparably high.

Discussion

As signified by the results of our analysis, online recruitment increased access to hard-to-reach populations for cyberbullying. The IMPACT methodology succeeded in enrolling significantly more sexual minorities, with 54.4% of the cohort identifying as non-heterosexual. Similarly, 10.1% of online participants self-identified as transgender, nonbinary, or another non-cis gender, in comparison to just 2.6% of in-person subjects. Social media ultimately served as a tool for reaching these particularly underrepresented cohorts in research.37

 

LGBTQ+ youth are harassed online notably more than their heterosexual or cis-gender counterparts.17 Moreover, victims of homophobic bullying in childhood express more severe depression, anxiety, and physical pain in early adulthood, indicating the importance of early mitigation.55 Despite their heightened vulnerability to cyberbullying, sexual and gender minority youth have historically not been targeted for interventions.17 All people deserve a right to participate in research that affects them, and our findings on online recruitment highlight a path to increasing connection to adolescents in the LGBTQ+ community.

 

As cited in previous studies, a contributing factor to the lack of access to research for LGBTQ+ individuals is the fear of being outed if data is mishandled.37,56 Online mediums have successfully been utilized to help overcome this reluctance to self-reporting orientation.34 Guillory et al. found that use of audience tailored Facebook and Instagram advertising was crucial in recruiting one of the largest LGBTQ+ young adult (18-24 years old) samples for tobacco cessation intervention.34 Similar to cyberbullying, LGBTQ+ individuals are at an elevated risk for tobacco use but are difficult to target for intervention, signifying the need for novel methodology.57 The added layer of anonymity afforded with online recruitment can enhance participant comfortability in disclosing information that may be sensitive or non-public, such as one’s orientation.

 

Although we found the online-recruited cohort was significantly more diverse in gender and sexuality, they were underrepresented in low socioeconomic status, Hispanic identity, and non-white race. However, in-person participants were selected from a pediatric outpatient clinic dedicated nearly exclusively to serving underprivileged communities. Eighty-four percent of the patients at this facility are Medicaid enrollees, majority of whom are racial and ethnic minorities.58 Researchers in organizations that do not serve a similarly diverse population may still benefit from using online recruitment as a tool to enhance access to their studies.

 

The argument for the acceptability of online research recruitment is further supported by IMPACT participants demonstrating equal or heightened risk for cyberbullying for all At-Risk measures and two out of three Support measures. For example, we discovered that significantly more online participants habitually spoke to people they did not know offline. The average teenage social media user spends one hour and 11 minutes on their preferred networks every day, granting them ample time to connect with a stranger.59 A friend one only knows online benefits more from the Internet’s anonymity cloak, thus increasing the likelihood of cyberbullying.60 Comparison of the baseline surveys confirms the IMPACT group had experienced significantly more cyberbullying incidences at baseline.

 

The use of Instagram specifically may have also aided in connecting with teens who face cyber-harm more frequently. Instagram is the second most commonly used social media site for teens in the United States, and it has the highest occurrence of cyberbullying across all platforms.61 Historically, the preferred tool for social media recruitment has been Facebook,62 but those interested in cyberbullying research should examine Instagram as a resource.

 

Those recruited online also reported a significantly greater emotional toll due to cyberbullying, indicating increased relevance and need for intervention. This finding is well explained by the higher incidence of cyberbullying in this group and literature confirmation that those who struggle with their emotions are already more prone to victimization.63 In other words, the teens that are least prepared to deal with the emotional fallout of cyberbullying are most frequently targeted.

 

Online recruitment improves accessibility to those who need the guidance the most, granting them the opportunity to be involved in the improvement of the intervention. Participants recruited online reported significantly more occurrences of witnessing the bullying of another peer, and a study conducted by Panumaporn et al., found that cyberbullying victims are significantly more likely to intervene as a bystander.64 By equipping the most at-risk participants with the tools to respond to their own bullying, we concurrently create better bystanders. Creating and refining an intervention around those who stand to benefit most from its usage is crucial for widespread success upon dissemination. The comparably high scoring in user satisfaction confirms researchers can utilize online methods without compromising results or the participant experience.

Limitations

Though the evidence is compelling, there are limitations to our data analysis. To begin, the sample size of both cohorts is relatively small. Analysis of screening data compared in-person samples of N=38 to online samples of N=79, which may not be fully representative of the population of adolescents online.

 

Moreover, all analysis was reliant upon self-reported measures. Given the sensitive nature of the questions asked, youth may not have felt motivated to answer with absolute honesty. This may have resulted in underreporting. However, the limitations of self-reporting may not have affected both groups equally, as more research is needed to determine how online contexts contribute to trust and disclosure.

 

Finally, the degree of generalizability is limited. Although our results imply online recruitment may be useful in reaching at-risk populations, this may be exclusive to youth. Our data was sourced from studies that restricted participation to individuals aged 13-17, a group that self-describes their time spent online as almost constant.2 More research would be needed to determine if online recruitment increases accessibility to various adult subpopulations.

Conclusion

Our analysis reveals online recruitment may be a promising tool for enhancing access to potential study participants. Social media advertising was successful in gathering participants demonstrating comparable or increased risk for majority of demographic factors and all but one behavioral factor. The findings from this paper should serve as evidence of the acceptability and feasibility of remote recruitment and a call to action for further cyberbullying intervention research, especially targeting sexual and gender minorities. Interventions should be designed around the communities most in need, and the first step towards a more representative study population is expanding reach in recruitment. Given the act of cyberbullying occurs online, it serves as a relevant issue to test innovative remote methods. Moreover, our growing understanding of the lasting consequences of cyberbullying points to urgency in evidence-based tools for early mitigation. Utilization of novel digital methods can act as a vital aid in overcoming challenges of accessibility in research and healthcare at wide.

References

  1. Favotto L, Michaelson V, Davison C. Perceptions of the influence of computer-mediated communication on the health and well-being of early adolescents. Int J Qual Stud Health Well-Being. 2017;12(1):1335575. doi:10.1080/17482631.2017.1335575
  2. Anderson M, Jiang J. Teens, Social Media & Technology 2018. Pew Research Center; 2018. https://www.pewresearch.org/internet/2018/05/31/teens-social-media-technology-2018/
  3. Selkie EM, Fales JL, Moreno MA. Cyberbullying Prevalence Among US Middle and High School–Aged Adolescents: A Systematic Review and Quality Assessment. J Adolesc Health. 2016;58(2):125-133. doi:10.1016/j.jadohealth.2015.09.026
  4. Anderson M. A Majority of Teens Have Experienced Some Form of Cyberbullying. Pew Research Center; 2018. https://www.pewresearch.org/internet/2018/09/27/a-majority-of-teens-have-experienced-some-form-of-cyberbullying/
  5. Sticca F, Perren S. Is Cyberbullying Worse than Traditional Bullying? Examining the Differential Roles of Medium, Publicity, and Anonymity for the Perceived Severity of Bullying. J Youth Adolesc. 2013;42(5):739-750. doi:10.1007/s10964-012-9867-3
  6. Schneider SK, O’Donnell L, Stueve A, Coulter RWS. Cyberbullying, school bullying, and psychological distress: a regional census of high school students. Am J Public Health. 2012;102(1):171-177. doi:10.2105/AJPH.2011.300308
  7. Twyman K, Saylor C, Taylor LA, Comeaux C. Comparing Children and Adolescents Engaged in Cyberbullying to Matched Peers. Cyberpsychology Behav Soc Netw. 2010;13(2):195-199. doi:10.1089/cyber.2009.0137
  8. Ybarra ML, Mitchell KJ. Online aggressor/targets, aggressors, and targets: a comparison of associated youth characteristics. J Child Psychol Psychiatry. 2004;45(7):1308-1316. doi:10.1111/j.1469-7610.2004.00328.x
  9. Patchin JW, Hinduja S. Bullies Move Beyond the Schoolyard: A Preliminary Look at Cyberbullying. Youth Violence Juv Justice. 2006;4(2):148-169. doi:10.1177/1541204006286288
  10. Nixon CL. Current perspectives: the impact of cyberbullying on adolescent health. Adolesc Health Med Ther. 2014;5:143-158. doi:10.2147/AHMT.S36456
  11. Alhajji M, Bass S, Dai T. Cyberbullying, Mental Health, and Violence in Adolescents and Associations With Sex and Race: Data From the 2015 Youth Risk Behavior Survey. Glob Pediatr Health. 2019;6:2333794X19868887. doi:10.1177/2333794X19868887
  12. Zalaquett CP, Chatters SJ. Cyberbullying in College: Frequency, Characteristics, and Practical Implications. SAGE Open. 2014;4(1):215824401452672. doi:10.1177/2158244014526721
  13. Jain O, Gupta M, Satam S, Panda S. Has the COVID-19 pandemic affected the susceptibility to cyberbullying in India? Comput Hum Behav Rep. 2020;2:100029. doi:10.1016/j.chbr.2020.100029
  14. Nguyen MH, Gruber J, Fuchs J, Marler W, Hunsaker A, Hargittai E. Changes in Digital Communication During the COVID-19 Global Pandemic: Implications for Digital Inequality and Future Research. Soc Media Soc. 2020;6(3):205630512094825. doi:10.1177/2056305120948255
  15. Smith L, Jacob L, Trott M, et al. The association between screen time and mental health during COVID-19: A cross sectional study. Psychiatry Res. 2020;292:113333. doi:10.1016/j.psychres.2020.113333
  16. Rising Levels of Hate Speech & Online Toxicity During This Time of Crisis. L1ght; 2020. https://l1ght.com/Toxicity_during_coronavirus_Report-L1ght.pdf?fbclid=IwAR12yPh-GIi1Ur1qwwZoCuu4nP2zG5dLxs590Exli5UXYORQCWp3w_ko1MQ
  17. Abreu RL, Kenny MC. Cyberbullying and LGBTQ Youth: A Systematic Literature Review and Recommendations for Prevention and Intervention. J Child Adolesc Trauma. 2018;11(1):81-97. doi:10.1007/s40653-017-0175-7
  18. Bucchianeri MM, Gower AL, McMorris BJ, Eisenberg ME. Youth experiences with multiple types of prejudice-based harassment. J Adolesc. 2016;51:68-75. doi:10.1016/j.adolescence.2016.05.012
  19. Kopel J, Perisetti A, Roghani A, Aziz M, Gajendran M, Goyal H. Racial and Gender-Based Differences in COVID-19. Front Public Health. 2020;8:418. doi:10.3389/fpubh.2020.00418
  20. Abedi V, Olulana O, Avula V, et al. Racial, Economic, and Health Inequality and COVID-19 Infection in the United States. J Racial Ethn Health Disparities. Published online September 1, 2020. doi:10.1007/s40615-020-00833-4
  21. Kirby T. Evidence mounts on the disproportionate effect of COVID-19 on ethnic minorities. Lancet Respir Med. 2020;8(6):547-548. doi:10.1016/S2213-2600(20)30228-9
  22. Suen YT, Chan RCH, Wong EMY. Effects of general and sexual minority-specific COVID-19-related stressors on the mental health of lesbian, gay, and bisexual people in Hong Kong. Psychiatry Res. 2020;292:113365. doi:10.1016/j.psychres.2020.113365
  23. Schoeps K, Villanueva L, Prado-Gascó VJ, Montoya-Castilla I. Development of Emotional Skills in Adolescents to Prevent Cyberbullying and Improve Subjective Well-Being. Front Psychol. 2018;9:2050. doi:10.3389/fpsyg.2018.02050
  24. Hemphill SA, Tollit M, Kotevski A, Heerde JA. Predictors of Traditional and Cyber-Bullying Victimization: A Longitudinal Study of Australian Secondary School Students. J Interpers Violence. 2015;30(15):2567-2590. doi:10.1177/0886260514553636
  25. Espelage DL, Hong JS. Cyberbullying Prevention and Intervention Efforts: Current Knowledge and Future Directions. Can J Psychiatry Rev Can Psychiatr. 2017;62(6):374-380. doi:10.1177/0706743716684793
  26. Bradshaw CP, Waasdorp TE, O’Brennan LM, Gulemetova M. Teachers’ and Education Support Professionals’ Perspectives on Bullying and Prevention: Findings From a National Education Association Study. Sch Psychol Rev. 2013;42(3):280-297.
  27. Ranney ML, Pittman SK, Riese A, et al. Mobile Health Intervention Development Principles: Lessons from an Adolescent Cyberbullying Intervention. In: ; 2018. doi:10.24251/HICSS.2018.422
  28. Davies EB, Morriss R, Glazebrook C. Computer-Delivered and Web-Based Interventions to Improve Depression, Anxiety, and Psychological Well-Being of University Students: A Systematic Review and Meta-Analysis. J Med Internet Res. 2014;16(5):e130. doi:10.2196/jmir.3142
  29. Cowpertwait L, Clarke D. Effectiveness of Web-based Psychological Interventions for Depression: A Meta-analysis. Int J Ment Health Addict. 2013;11(2):247-268. doi:10.1007/s11469-012-9416-z
  30. Ebert DD, Zarski A-C, Christensen H, et al. Internet and Computer-Based Cognitive Behavioral Therapy for Anxiety and Depression in Youth: A Meta-Analysis of Randomized Controlled Outcome Trials. Wallander JL, ed. PLOS ONE. 2015;10(3):e0119895. doi:10.1371/journal.pone.0119895
  31. Foster C, Richards J, Thorogood M, et al. Remote and web 2.0 interventions for promoting physical activity. In: The Cochrane Collaboration, ed. Cochrane Database of Systematic Reviews. John Wiley & Sons, Ltd; 2013:CD010395. doi:10.1002/14651858.CD010395
  32. Taylor GMJ, Dalili MN, Semwal M, Civljak M, Sheikh A, Car J. Internet-based interventions for smoking cessation. Cochrane Database Syst Rev. 2017;9:CD007078. doi:10.1002/14651858.CD007078.pub5
  33. Burgess JD, Kimble RM, Watt K, Cameron CM. The Adoption of Social Media to Recruit Participants for the Cool Runnings Randomized Controlled Trial in Australia. JMIR Res Protoc. 2017;6(10):e200. doi:10.2196/resprot.8189
  34. Guillory J, Wiant KF, Farrelly M, et al. Recruiting Hard-to-Reach Populations for Survey Research: Using Facebook and Instagram Advertisements and In-Person Intercept in LGBT Bars and Nightclubs to Recruit LGBT Young Adults. J Med Internet Res. 2018;20(6):e197. doi:10.2196/jmir.9461
  35. Benedict C, Hahn AL, Diefenbach MA, Ford JS. Recruitment via social media: advantages and potential biases. Digit Health. 2019;5:2055207619867223. doi:10.1177/2055207619867223
  36. Ryan GS. Online social networks for patient involvement and recruitment in clinical research. Nurse Res. 2013;21(1):35-39. doi:10.7748/nr2013.09.21.1.35.e302
  37. In: The Health of Lesbian, Gay, Bisexual, and Transgender People: Building a Foundation for Better Understanding. Institute of Medicine (US) Committee on Lesbian, Gay, Bisexual, and Transgender Health Issues and Research Gaps and Opportunities; :3, Conducting Research on the Health Status of LGBT Populations. https://www.ncbi.nlm.nih.gov/books/NBK64802/
  38. Harris PA, Taylor R, Thielke R, Payne J, Gonzalez N, Conde JG. Research electronic data capture (REDCap)–a metadata-driven methodology and workflow process for providing translational research informatics support. J Biomed Inform. 2009;42(2):377-381. doi:10.1016/j.jbi.2008.08.010
  39. Kutok E, Doria N, Dunsiger S, et al. In Submission: Using Instagram as an Effective Recruitment Strategy for an Intervention: A Methods Paper.
  40. Harris K, Halpern C, Whitsel E. The National Longitudinal Study of Adolescent Health: Research Design.; 2009. http://www.cpc.unc.edu/projects/addhealth/design
  41. The GenIUSS Group. Best Practices for Asking Questions to Identify Transgender and Other Gender Minority Respondents on Population-Based Surveys. The Williams Institute; 2014.
  42. Network for LGBT Health Equity at the Fenway Institute. http://thefenwayinstitute.org/wp-content/uploads/COM228_SOGI_CHARN_WhitePaper.pdf
  43. Ascher BH, Z. Farmer EM, Burns BJ, Angold A. The Child and Adolescent Services Assessment (CASA): Description and Psychometrics. J Emot Behav Disord. 1996;4(1):12-20. doi:10.1177/106342669600400102
  44. Methodology Report, Youth Internet Safety Study. http://unh.edu/ccrc/pdf/YISS_Methods_Report_final.pdf
  45. Jones LM, Mitchell KJ. Defining and measuring youth digital citizenship. New Media Soc. 2016;18(9):2063-2079. doi:10.1177/1461444815577797
  46. Ybarra ML, Boyd D, Korchmaros JD, Oppenheim J (Koby). Defining and Measuring Cyberbullying Within the Larger Context of Bullying Victimization. J Adolesc Health. 2012;51(1):53-58. doi:10.1016/j.jadohealth.2011.12.031
  47. Elipe P, Mora-Merchán JA, Nacimiento L. Development and Validation of an Instrument to Assess the Impact of Cyberbullying: The Cybervictimization Emotional Impact Scale. Cyberpsychology Behav Soc Netw. 2017;20(8):479-485. doi:10.1089/cyber.2017.0069
  48. Methodology of the Youth Risk Behavior Surveillance System. Centers for Disease Control and Prevention MMWR https://www.cdc.gov/mmwr/pdf/rr/rr6201.pdf
  49. Cunningham RM, Whiteside LK, Chermack ST, et al. Dating Violence: Outcomes Following a Brief Motivational Interviewing Intervention Among At-risk Adolescents in an Urban Emergency Department. Wilbur L, ed. Acad Emerg Med. 2013;20(6):562-569. doi:10.1111/acem.12151
  50. Espelage DL, Holt MK. Bullying and Victimization During Early Adolescence: Peer Influences and Psychosocial Correlates. J Emot Abuse. 2001;2(2-3):123-142. doi:10.1300/J135v02n02_08
  51. Oga EA, Mark K, Peters EN, Coleman-Cowger VH. Validation of the NIDA-modified ASSIST as a Screening Tool for Prenatal Drug Use in an Urban Setting in the United States. J Addict Med. 2020;14(5):423-430. doi:10.1097/ADM.0000000000000614
  52. Nickerson AB, Aloe AM, Livingston JA, Feeley TH. Measurement of the bystander intervention model for bullying and sexual harassment. J Adolesc. 2014;37(4):391-400. doi:10.1016/j.adolescence.2014.03.003
  53. Zimet GD, Dahlem NW, Zimet SG, Farley GK. The Multidimensional Scale of Perceived Social Support. J Pers Assess. 1988;52(1):30-41. doi:10.1207/s15327752jpa5201_2
  54. RStudio Team. RStudio: Integrated Development for R. RStudio, PBC; 2020. http://www.rstudio.com/
  55. Wang C-C, Lin H-C, Chen M-H, et al. Effects of traditional and cyber homophobic bullying in childhood on depression, anxiety, and physical pain in emerging adulthood and the moderating effects of social support among gay and bisexual men in Taiwan. Neuropsychiatr Dis Treat. 2018;Volume 14:1309-1317. doi:10.2147/NDT.S164579
  56. Owen-Smith AA, Woodyatt C, Sineath RC, et al. Perceptions of Barriers to and Facilitators of Participation in Health Research Among Transgender People. Transgender Health. 2016;1(1):187-196. doi:10.1089/trgh.2016.0023
  57. Dilley JA, Spigner C, Boysun MJ, Dent CW, Pizacani BA. Does tobacco industry marketing excessively impact lesbian, gay and bisexual communities? Tob Control. 2008;17(6):385-390. doi:10.1136/tc.2007.024216
  58. Medicaid Enrollment by Race/Ethnicity. Kaiser Family Foundation; 2014. https://www.kff.org/medicaid/state-indicator/medicaid-enrollment-by-raceethnicity/?currentTimeframe=0&sortModel=%7B%22colId%22:%22Location%22,%22sort%22:%22asc%22%7D
  59. The Common Sense Census: Media Use by Tweens and Teens. Common Sense Media https://www.commonsensemedia.org/sites/default/files/uploads/research/census_researchreport.pdf
  60. Peebles E. Cyberbullying: Hiding behind the screen. Paediatr Child Health. 2014;19(10):527-528. doi:10.1093/pch/19.10.527
  61. The Annual Bullying Survey 2017. Ditch the Label; 2017. https://www.ditchthelabel.org/wp-content/uploads/2017/07/The-Annual-Bullying-Survey-2017-1.pdf
  62. Topolovec-Vranic J, Natarajan K. The Use of Social Media in Recruitment for Medical Research Studies: A Scoping Review. J Med Internet Res. 2016;18(11):e286. doi:10.2196/jmir.5698
  63. Sourander A, Brunstein Klomek A, Ikonen M, et al. Psychosocial Risk Factors Associated With Cyberbullying Among Adolescents: A Population-Based Study. Arch Gen Psychiatry. 2010;67(7):720. doi:10.1001/archgenpsychiatry.2010.79
  64. Panumaporn J, Hongsanguansri S, Atsariyasing W, Kiatrungrit K. Bystanders’ behaviours and associated factors in cyberbullying. Gen Psychiatry. 2020;33(3):e100187. doi:10.1136/gpsych-2019-100187

 

About the Author

Chiaka Ibe

Chiaka Ibe is a recent alumna of the Brown-Lifespan Center for Digital Health and Brown University, graduating magna cum laude with a degree in Health and Human Biology.

 

Her studies centered on analyzing health crises around the world and their exacerbation by common societal failures, such as poor administrative efforts, growing refusal of vaccinations, and ever-complicated drug pricing policies. She translated her passion for public health to the lab, working under the guidance of her co-authors to engage in an array of innovative digital health studies. Her research contributions have been featured by the Journal of Maternal-Fetal & Neonatal Medicine and the American Public Health Association.

 

Chiaka is now an Associate Consultant at Bain & Company, working primarily with the Private Equity and Healthcare practices.

Megan Ranney, MD, MPH, FACEP

Megan Ranney MD, MPH is a practicing emergency physician, researcher, and advocate for innovative approaches to health. Her work focuses on the intersection between digital health, violence prevention, and population health. 

 

She is the founding Director of the Brown-Lifespan Center for Digital Health, as well as the Associate Dean of Strategy and Innovation for the Brown University School of Public Health. She graduated from Harvard University summa cum laude with a Bachelor of Arts in History of Science in 1997. She served as a Peace Corps Volunteer in Cote d’Ivoire prior to attending medical school at Columbia University College of Physicians & Surgeons in NYC. She graduated with AOA status and received the Leonard Tow Humanism in Medicine award from the Gold Humanism Society on graduation. She completed internship, residency, and chief residency in Emergency Medicine, as well as a fellowship in Injury Prevention Research and a Master of Public Health, at Brown University.

 

She is currently the Warren Alpert Endowed Associate Professor in the Department of Emergency Medicine at Rhode Island Hospital/Alpert Medical School of Brown University. Her work has been featured by hundreds of media outlets, including CNN, MSNBC, the BBC, the New York Times, the Washington Post, and Fox News.

John Pateña, MPH, MA

John Pateña, MPH, MA is a public health professional with a passion for promoting mental wellness. He is currently the Program Director at the Brown-Lifespan Center for Digital Health.

 

John graduated from the Brown University School of Public Health (MPH ’14) focusing in behavioral and social sciences interventions. He also has a degree in counseling psychology and practiced as a mental health counselor working with youth in hospitals, schools, and community centers. John is currently a Doctor of Public Health (DrPH) student at New York University School of Global Public Health focusing in implementation science: translating research into practice, disseminating evidence-based programs, and scaling up programs/policies that support population mental health.

 

Tyler Wray, PhD

Dr. Tyler Wray, PhD is the Edens Family Assistant Professor of Healthcare Communication & Technology at the Brown University School of Public Health (SPH).

 

Dr. Wray is a clinical psychologist who studies how technology can be used to encourage health behavior change, particularly in the areas of addiction and HIV prevention. Since joining the faculty at Brown, his work has been continuously funded by the National Institutes of Health (NIH) and has received over $9 million in total support to date. Dr. Wray’s research involves designing and testing software/devices that use the unique strengths of various computing tools to deliver behavior change techniques in ways that maximize their potency and relevance.