Category Archives: Cyberpsychology
“Cash Out lets you take profit early if your bet is coming in, or get some of your stake back if your bet is going against you – all before the event you’re betting on is over. Cash Out offers are made in real time on your current bets, based on live market prices. Whenever you are ready to Cash Out, simply hit the yellow button. Cash out is available on singles and multiples, on a wide range of sports, including football, tennis, horse racing, and many more! You can Cash Out of bets pre-play, in-play, and between legs” (Definition of ‘cash out’ betting on Betfair website, 2017).
Most European sports betting operators now feature ‘cash out’ functionalities in their online platforms. This means that bettors can withdraw their bets before the event bet upon has concluded, obtaining a smaller but guaranteed return if the outcome of the bet is going their way, or, conversely, cutting down the monetary impact of a foreseeable loss. The ‘cash out’ functionality has rapidly become popular among sports bettors that bet in-play (i.e., during the game on things such as soccer matches and horse races) as a way of maximising value on the bets they have made.
Industry voices such as David O’Reilly, from Colossus Bets, have identified four major benefits of cash out features for bookmakers: (i) reducing the volatility of the operator’s revenue; (ii) increasing the recycling of player returns, with more players banking smaller amounts; (iii) enabling players to avoid their ‘near miss’ frustration; and (iv) improving the player engagement with the platform by introducing a mechanism that promotes constant checking. However, for sports bettors, cashing out strategies might typically involve cutting down the profit while being ahead but rarely reducing the loss when going behind. In this regard, cashing out does not appear to differ greatly from other new internet-based betting forms (e.g. so-called ‘exotic’ or multiple bets), which have been found to possess, in general, higher expected losses for gamblers and greater profit margins for operators.
However, beyond the feature’s financial rationale, cash out affects the nature of sports betting in more meaningful ways. It is, arguably, a game-changer, that leads (along with other features such as ‘edit my acca’ features in which specific bets can be removed from ‘accumulator’ bets) to the transformation of sports betting from a discontinuous to a continuous form of gambling. Here, our contention is that cash out is a key component of the contemporary bettor-bookmaker interaction, and that the widespread adoption by devoted sports bettors merits a closer look into the implications of such an interaction from a problem gambling perspective. Such an examination also suggests that regulators and policymakers need to think about how to protect gambling consumers from the potential harm caused by this new type of betting.
Structural characteristics have been proposed as a determining factor that can influence problem gambling behaviour. Structural characteristics are those associated with the design of a gambling product that shape the way gamblers interact with it. Typical structural characteristics include, but are not limited to, bet frequency, bet duration, event frequency, near misses, stake size, jackpot size, probability of winning, and interface design (e.g., the use of music and colour stimuli in the design of slot machines).
The internet has altered significantly the structural characteristics of gambling and sports betting more specifically. For example, in a number of European countries, the football (soccer) pools used to comprise bets placed during a weekday on the outcome of a game played typically on a Saturday or Sunday (i.e., a once a week wager). This reward delay was a major protective factor against excessive gambling, which on a psychobiological level has been theorised as an imbalance in an individual’s dopamine receptors, and therefore, highly sensitive to shorter bet reward periods. Betting via the internet has reduced such delays in receiving rewards from gambling, thus modifying a major structural characteristic of betting from once a week to (in some instances) every few minutes.
In parallel to the increased uptake of Internet betting in many jurisdictions, a second dynamic, namely globalisation, has further widened the possibilities of betting across countries, sports, and time zones, ultimately transforming sports betting into a 24/7 activity where the bookmaker never closes the shop any day during the year. For the first time, if a gambler has a craving to bet, the market is able to respond to that demand anytime and anywhere via a range of Wi-Fi enabled portable devices (e.g., smartphone, tablets, laptops, etc.). Virtual sports have expanded the availability of betting options even more, eliminating the need to bet on real world sport events.
Although the time between bets (i.e., bet frequency) was effectively reduced to near zero, the time within bets (i.e., bet duration) changed little until cash out functionality was first introduced by the gaming operator William Hill in December 2012. With cash out features, sports betting has become a potentially continuous gambling activity, one that resembles the playing mechanics the stock market. As with investing in stocks, bet values in in-play sports betting are re-calculated seamlessly. The outcome of a sport event might not be as relevant for many bettors as the value their bet will acquire in the next few seconds, even if that bet turns out to be erroneous at the end of the game. As in stock market investing, betting becomes continuous because non-actions also qualify as actions in themselves. Every single second that a bettor decides not to cash out, a new bet takes place. Eventually, cash out features introduce the notion that it is the bet itself the commodity that is being traded in the sports betting market. This new continuous type of sports betting raises questions concerning the gambling-related harm that could be associated with it. It also suggests that the kinds of regulation found widely in the stock market investment sector might have some utility if applied to this new form of gambling.
From a marketing perspective, cash out functionality is often advertised as a control-enhancing mechanism for bettors. Given that cashing out is typically presented in television advertisements as a risk-free operation, the product is likely to be perceived as reimbursable if the client is not happy with it, arguably promoting less planned gambling behaviours. Some gaming operators use the alternative name of “edit my bet” to refer to cash out, focusing on the capacity of bettors to correct later possible errors of judgement. The problem is that (and as happens in stock market investing), cashing out is only possible at the current value of the stock (which may be inferior to the purchasing price). Additionally, and contrary to what happens in stock market investing, betting operators automatically devalue the bet price immediately after the purchase. For example, a bookmaker will typically offer to cash out for $0.95 or similar a $1 bet placed one second ago, a price devaluation unmotivated by any new information or event actually affecting the predicted value of such a bet.
Beyond its most apparent attributes, we have demonstrated that cash out within in-play gambling is a pivotal feature that has been introduced by the sports betting industry to transform sports betting from what was traditionally a discontinuous form of gambling into a continuous one. It is contended that, although cashing out presupposes more engaged gamblers that feel more in control of their bets, the emotionally charged context in which it is often used and the structural attributes of the product itself might actually make some bettors lose control over their gambling wagers. Consequently, gambling policymakers and regulators should be cognizant of the challenges of this transformation of sports betting and consider the implications for the protection of gambling consumers.
[Note: This article was co-written with Dr. Hibai Lopez-Gonzalez]
Dr. Mark Griffiths, Professor of Behavioural Addiction, International Gaming Research Unit, Nottingham Trent University, Nottingham, UK
Betfair (2017). Sportsbook: What is cash out and how does it work? Retrieved March 1, 2017, from: https://en-betfair.custhelp.com/app/answers/detail/a_id/4/~/sportsbook%3A-what-is-cash-out-and-how-does-it-work%3F
Gainsbury, S. M. (2015). Online gambling addiction: The relationship between internet gambling and disordered gambling. Current Addiction Reports, 2(2), 185-193.
Griffiths, M.D. (1993). Fruit machine gambling: The importance of structural characteristics. Journal of Gambling Studies, 9, 101-120.
Griffiths, M. D. (2005). A biopsychosocial approach to addiction. Psyke & Logos, 26(1), 9–26.
Griffiths, M.D. & Auer, M. (2013). The irrelevancy of game-type in the acquisition, development and maintenance of problem gambling. Frontiers in Psychology, 3, 621. doi: 10.3389/fpsyg.2012.00621.
Lopez-Gonzalez, H., & Griffiths, M. D. (2016). Understanding the convergence of online sports betting markets. International Review for the Sociology of Sport. http://doi.org/doi:10.1177/1012690216680602
Lopez-Gonzalez, H. & Griffiths, M.D. (2017). ‘Cashing out’ in sports betting: Implications for problem gambling and regulation. Gaming Law Review: Economics, Regulation, Compliance and Policy, 21(4), 323-326.
McCormack, A., & Griffiths, M. D. (2013). A scoping study of the structural and situational characteristics of internet gambling. International Journal of Cyber Behavior, Psychology and Learning, 3(1), 29–49.
Newall, P. W. S. (2015). How bookies make your money. Judgment and Decision Making, 10(3), 225–231.
Newall, P. W. S. (2017). Behavioral complexity of British gambling advertising. Addiction Research & Theory. http://doi.org/10.1080/16066359.2017.1287901
Parke, J., & Griffiths, M. D. (2007). The role of structural characteristics in gambling. In G. Smith, D. Hodgins, & R. Williams (Eds.), Research and Measurement Issues in Gambling Studies (pp. 211–243). New York: Elsevier.
Sports Trading Life. (2015). Is “cash out” actually BAD for betting punters? Retrieved March 1, 2017, from http://sportstradinglife.com/2015/03/is-cash-out-actually-bad-for-punters/
As a teenager I was fascinated with LSD purely as a consequence of my love of The Beatles and its alleged association with songs such as ‘Lucy in the Sky with Diamonds‘ (I say ‘alleged’ because all Beatle fanatics know that this song got its’ title from a drawing by John Lennon’s son Julian and that lyrically the song was inspired by the writings of Lewis Carroll, the creator of Alice in Wonderland [AIW], a book which gave its’ name to AIW Syndrome that I examined in a couple of previous blogs).
When I first started teaching my ‘Addictive Behaviours’ module back in 1990, almost all my lectures concentrated on drug addictions (as opposed to behavioural addictions which now take centre stage in my teaching), and it was my session on hallucinogenic drugs (also known as psychedelic drugs) that was always the most fun to teach and the topic that students appeared to be most engaged in. Like many of my students, I have always been interested in altered states of consciousness both in my own research into addiction and the topic more generally.
The reason why I mention all these things as that I did a media interview on the hallucinogenic effects of virtual reality products. The interview was based on comments by Microsoft researcher Mar Gonzalez Franco, who said that virtual reality will soon replace the need for hallucinogenic drugs. More specifically, she was quoted as saying:
“By 2027 we will have ubiquitous virtual reality systems that will provide such rich multi-sensorial experiences that will be capable of producing hallucinations which blend or alter perceived reality. Using this technology, humans will retrain, recalibrate and improve their perceptual systems…In contrast to current virtual reality systems that only stimulate visual and auditory senses, in the future the experience will expand to other sensory modalities including tactile with haptic devices“.
Claims that VR products have the potential to induce hallucinogenic experiences have already started appearing in the media. A recent story in the Daily Mail reported that there was already a VR app (SelfSound) that claimed it can reproduce the effects of hallucinogenic drugs and “plays on the neurological phenomena known as synaesthesia” and that a “program is used to promote mediation through creating abstract reality [and] plays face-melting music with synesthetic DMT-style visualizations uniquely generated in response to [a person’s] voice”. (DMT is an abbreviation for dimethyltryptamine, a powerful hallucinogenic drug).
Over the last seven years, I have published a series of studies with Dr. Angelica Ortiz de Gotari (some of them listed in the ‘Further reading’ section below) showing that hallucinations are common among video gamers in our working examining Game Transfer Phenomena (GTP). Therefore, it’s no surprise that VR games can do the same thing. We have reported that visual and auditory hallucinations are commonly experiences by regular videogame players.
For instance, one of our studies published in the International Journal of Human-Computer Interaction found that some video gamers experience altered visual perceptions after playing (e.g., distorted versions of real world surroundings). Others saw video game images and misinterpreted real life objects after they had stopped playing. Gamers reported seeing video game menus popping up in front their eyes when they were in a conversation, or saw coloured images and ‘heads up’ displays when driving on the motorway. Our study analysed 656 experiences from 483 gamers collected in 54 online video game forums. Visual illusions can easily trick the brain, and staring at visual stimuli can cause ‘after-images’ or ‘ghost images’ among videogame players. We found that GTP were triggered by associations between video game experiences, and objects and activities in real life contexts. Our findings also raised questions about the effects of the exposure to specific visual effects used in video games.
We also reported that in some playing experiences, video game images appeared without awareness and control of the gamers, and in some cases, the images were uncomfortable, especially when gamers could not sleep or concentrate on something else. These experiences also resulted in irrational thoughts such as gamers questioning their own mental health, getting embarrassed or performing impulsive behaviours in social contexts. However, other gamers clearly thought that these experiences were fun and some even tried to induce them.
Visual experiences identified in GTP show us the interplay of physiological, perceptual and cognitive mechanisms and the potential of learning with video games even without awareness. It also invites us to reflect about the effects of prolonged exposure to synthetic stimuli and the challenges that the human mind affront due to the technological advances that are still to come. However, because we collected our data for most of our published studies from online video game forums, the psychological profile of the gamers in our studies are unknown. However, different gamers reported similar experiences in the same games. This highlights the relevance of the video games’ structural characteristics but gamers’ habits also appear to be crucial. Some gamers may be more susceptible than others to experience GTP. The effects of these experiences appear to be short-lived, but some gamers experience them recurrently. It goes without saying (but I’ll say it anyway) that more research is needed to understand the cognitive and psychological implications of GTP. Most of these GTP experiences are viewed positively but a small minority of players find them detrimental.
Whether such hallucinations – either in typical videogames or VR videogames – can be induced on demand is debatable. Very few players in our own research said they were able to induce hallucinations. At present, we simply don’t know what the long-term effects of VR gaming will be and that goes for VR-induced gaming hallucinations too. It may be the case that VR induced hallucinogenic states will be ‘safer’ than ones induced by psychedelic drugs as there is no ingestion of a psychoactive substance, but that’s just speculation on my part.
Dr. Mark Griffiths, Professor of Behavioural Addiction, International Gaming Research Unit, Nottingham Trent University, Nottingham, UK
Cawley, C. (2016). Virtual Reality could make you hallucinate; Don’t freak out. Tech Co, December 15. Located at: http://tech.co/virtual-reality-hallucinate-dont-freak-2016-12
Hamill, J. (2016). Windows of perception: Microsoft says virtual reality will soon have same mind-bending effects as LSD. The Sun, December 7. Located at: https://www.thesun.co.uk/news/2347705/microsoft-says-virtual-reality-will-soon-have-same-mind-bending-effects-as-lsd/
Liberatore, S. (2016). That’s trippy! Watch the VR app that claims to be able to reproduce the effects of a hallucinogenic drug. Daily Mail, May 4, Located at: http://www.dailymail.co.uk/sciencetech/article-3572184/That-s-trippy-Watch-VR-app-claims-able-reproduce-effects-hallucinogenic-drug.html
Ortiz de Gortari, A.B. & Griffiths, M.D. (2012). An introduction to Game Transfer Phenomena in video game playing. In J. Gackenbach (Ed.), Video Game Play and Consciousness (pp.223-250). Hauppauge, NY: Nova Science.
Ortiz de Gortari, A.B. & Griffiths, M.D. (2014). Altered visual perception in Game Transfer Phenomena: An empirical self-report study. International Journal of Human-Computer Interaction, 30, 95-105.
Ortiz de Gortari, A.B. & Griffiths, M.D. (2014). Auditory experiences in Game Transfer Phenomena: An empirical self-report study. International Journal of Cyber Behavior, Psychology and Learning, 4(1), 59-75.
Ortiz de Gortari, A.B. & Griffiths, M.D. (2014). Automatic mental processes, automatic actions and behaviours in Game Transfer Phenomena: An empirical self-report study using online forum data. International Journal of Mental Health and Addiction, 12, 432-452.
Ortiz de Gortari, A.B. & Griffiths, M.D. (2015). Auditory experiences in Game Transfer Phenomena: An empirical self-report study. In: Gamification: Concepts, Methodologies, Tools, and Applications (pp.1329-1345). Pennsylvania: IGI Global.
Ortiz de Gortari, A.B. & Griffiths, M.D. (2016). Prevalence and characteristics of Game Transfer Phenomena: A descriptive survey study. International Journal of Human-Computer Interaction, 32, 470-480.
Ortiz de Gortari, A.B., Pontes, H.M. & Griffiths, M.D. (2015). The Game Transfer Phenomena Scale: An instrument for investigating the non-volitional effects of video game playing. Cyberpsychology, Behavior and Social Networking, 18, 588-594.
Rothman, P. (2014). Virtual Reality and Drugs – Yes, you should get high before using VR. H Plus Magazine, July 31. Located at: http://hplusmagazine.com/2014/07/31/virtual-reality-and-drugs-yes-you-should-get-high-before-using-vr/
Last month, the World Health Organisation (WHO) announced that it was planning to include ‘Gaming Disorder’ (GD) in the latest edition of the International Classification of Diseases. This followed the American Psychiatric Association’s decision to include ‘Internet Gaming Disorder’ in the latest edition of the Diagnostic and Statistical Manual of Mental Disorders in 2013. According to the WHO, an individual with GD is a person who lets playing video games “take precedence over other life interests and daily activities,” resulting in “negative consequences” such as “significant impairment in personal, family, social, educational, occupational or other important areas of functioning.”
I have been researching videogame addiction for nearly 30 years, and during that time I have received many letters, emails, and telephone calls from parents wanting advice concerning videogames. Typical examples include ‘Is my child playing too much?’, ‘Will playing videogames spoil my pupils’ education?’, ‘Are videogames bad for children’s health? and ‘How do I know if a child is spending too long playing videogames?’ To answer these and other questions in a simple and helpful way, I have written this article as a way of disseminating this information quickly and easily.
To begin with parents should begin by finding out what videogames their children are actually playing! Parents might find that some of them contain material that they would prefer them not to be having exposure to. If they have objections to the content of the games they should facilitate discussion with children about this, and if appropriate, have a few rules. A few aims with children should be:
- To help them choose suitable games which are still fun
- To talk with them about the content of the games so that they understand the difference between make-believe and reality
- To discourage solitary game playing
- To guard against obsessive playing
- To follow recommendations on the possible risks outlined by videogame manufacturers
- To ensure that they have plenty of other activities to pursue in their free time besides the playing of videogames
Parents need to remember that in the right context videogames can be educational (helping children to think and learn more quickly), can help raise a child’s self-esteem, and can increase the speed of their reaction times. Parents can also use videogames as a starting point for other activities like painting, drawing, acting or storytelling. All of these things will help a child at school. It needs to be remembered that videogame playing is just one of many activities that a child can do alongside sporting activities, school clubs, reading and watching the television. These can all contribute to a balanced recreational diet.
The most asked question a parent wants answering is ‘How much videogame playing is too much? To help answer this question I devised the following checklist. It is designed to check if a child’s videogame playing is getting out of hand. Ask these simple questions. Does your child:
- Play videogames every day?
- Often play videogames for long periods (e.g., 3 to 6 hours at a time)?
- Play videogames for excitement or ‘buzz’ or as a way of forgetting about other things in their life?
- Get restless, irritable, and moody if they can’t play videogames?
- Sacrifice social and sporting activities to play videogames?
- Play videogames instead of doing their homework?
- Try to cut down the amount of videogame playing but can’t?
If the answer is ‘yes’ to more than four of these questions, then your child may be playing too much. But what can you do if your child is playing videogames too much?
- First of all, check the content of the games. Try and give children games that are educational rather than the violent ones. Parents usually have control over what their child watches on television – videogames should not be any different.
- Secondly, try to encourage video game playing in groups rather than as a solitary activity. This will lead to children talking and working together.
- Thirdly, set time limits on children’s playing time. Tell them that they can play for a couple of hours after they have done their homework or their chores – not before.
- Fourthly, parents should always get their children to follow the recommendations by the videogame manufacturers (e.g., sit at least two feet from the screen, play in a well-lit room, never have the screen at maximum brightness, and never play videogames when feeling tired).
I have spent many years examining both the possible dangers and the potential benefits of videogame playing. Evidence suggests that in the right context videogames can have positive health and educational benefits to a large range of different sub-groups. What is also clear from the case studies displaying the more negative consequences of playing is that they all involved children who were excessive users of videogames. From prevalence studies in this area, there is little evidence of serious acute adverse effects on health from moderate play. In fact, in some of my studies, I found that moderate videogame players were more likely to have friends, do homework, and engage in sporting activities, than those who played no videogames at all.
For excessive videogame players, adverse effects are likely to be relatively minor, and temporary, resolving spontaneously with decreased frequency of play, or to affect only a small subgroup of players. Excessive players are the most at-risk from developing health problems although more research is needed. If care is taken in the design, and if they are put into the right context, videogames have the potential to be used as training aids in classrooms and therapeutic settings, and to provide skills in psychomotor coordination, and in simulations of real life events (e.g., training recruits for the armed forces).
Every week I receive emails from parents claiming that their sons are addicted to playing online games or that their daughters are addicted to social media. When I ask them why they think this is the case, they almost all reply “because they spend most of their leisure time in front of a screen.” This is simply a case of parents pathologising their children’s behaviour because they think what they are doing is “a waste of time.” I always ask parents the same three things in relation to their child’s screen use. Does it affect their schoolwork? Does it affect their physical education? Does it affect their peer development and interaction? Usually parents say that none of these things are affected so if that is the case, there is little to worry about when it comes to screen time. Parents also have to bear in mind that this is how today’s children live their lives. Parents need to realise that excessive screen time doesn’t always have negative consequences and that the content and context of their child’s screen use is more important than the amount of screen time.
(N.B. This article is an extended version of an article that was originally published by Parent Zone)
Dr. Mark Griffiths, Professor of Behavioural Addiction, International Gaming Research Unit, Nottingham Trent University, Nottingham, UK
Griffiths, M.D. (2003). Videogames: Advice for teachers and parents. Education and Health, 21, 48-49.
Griffiths, M.D. (2009). Online computer gaming: Advice for parents and teachers. Education and Health, 27, 3-6.
Griffiths, M.D., Kuss, D.J. & King, D.L. (2012). Video game addiction: Past, present and future. Current Psychiatry Reviews, 8, 308-318.
Griffiths, M.D., Kuss, D.J. & Pontes, H. (2016). A brief overview of Internet Gaming Disorder and its treatment. Australian Clinical Psychologist, 2(1), 20108.
Griffiths, M.D. & Meredith, A. (2009). Videogame addiction and treatment. Journal of Contemporary Psychotherapy, 39(4), 47-53.
King, D.L., Delfabbro, P.H. & Griffiths, M.D. (2012). Clinical interventions for technology-based problems: Excessive Internet and video game use. Journal of Cognitive Psychotherapy: An International Quarterly, 26, 43-56.
King, D.L., Delfabbro, P.H., Griffiths, M.D. & Gradisar, M. (2012). Cognitive-behavioural approaches to outpatient treatment of Internet addiction in children and adolescents. Journal of Clinical Psychology, 68, 1185-1195.
Király, O., Nagygyörgy, K., Griffiths, M.D. & Demetrovics, Z. (2014). Problematic online gaming. In K. Rosenberg & L. Feder (Eds.), Behavioral Addictions: Criteria, Evidence and Treatment (pp.61-95). New York: Elsevier.
Kuss, D.J. & Griffiths, M.D. (2012). Online gaming addiction in adolescence: A literature review of empirical research. Journal of Behavioral Addictions, 1, 3-22.
Kuss, D.J. & Griffiths, M.D. (2012). Internet gaming addiction: A systematic review. International Journal of Mental Health and Addiction, 10, 278-296.
About a year ago, my colleagues and I published what we believe is the very first study of the helping role that video gaming can play in the lives of transgender individuals. Before I get to that, it’s probably worth noting that there have been studies of how gamers and fans play with sexuality, gender, and the video game Minecraft on YouTube as well as papers discussing whether the gaming industry should cater for marginalized groups and develop games for groups where there is little representation within games (e.g., gay and transgendered characters). For instance, there is now a short autobiographical game by Auntie Pixellante called Dys4ia. This is a WarioWare-style game, played only with the arrow keys, chronicling the experiences of a trans woman rectifying her own gender dysphoria. Such videogames raise interesting questions about how those individuals with gender dysphoria utilize gaming as part of their identity.
In a previous blog I briefly looked at gender swapping in online video games including some of my own research. For instance, in 2003 I published a paper in the journal CyberPsychology and Behavior using secondary poll data from online gaming forums. The paper reported that of 10,350 players at the Everlore fan site, 15% had swapped the gender of their main in-game playing character. We also reported a similar finding among 8,694 players at the Allakhazam fan site with 15.5% reporting that they had gender swapped their main in-game character (and more specifically, 14.5% males and 1% were females who had changed the gender of their lead character). In a 2004 follow-up survey among 540 Everquest gamers (again in the journal CyberPsychology and Behavior) my colleagues and I reported that 60% had swapped their online in-game characters. The prevalence of gender swapping was probably much higher in this study because the question related to the gender swapping of any online game character not just their main playing character.
In a small exploratory study I published in 2008 with Dr. Zaheer Hussain in the International Journal of Mental Health and Addiction, we examined why people engaged in gender swapping in a self-selecting sample of 119 online gamers (mean age of 28.5 years). We reported that 57% of gamers had engaged in gender swapping (any character not just their main character), and that males adopting an online female persona believed there were a number of positive social attributes to becoming female characters in male-oriented gaming environments. The study also reported that significantly more females than males had gender swapped their character – mainly to prevent unsolicited male approaches on their female characters. Some females appeared to gender swap purely out of interest to see what would happen in the game (as a personal experiment), while others claimed that they were treated more favourably by male gamers when they played as a male character. Others reported that gender swapping enabled them to play around with aspects of their identity that would not be possible to explore in real life. Other reasons for gender swapping were that (i) female characters had better in-game statistics, (ii) some specific tools were only available with female characters, (iii) the class of character was sometimes only available in one gender, (iv) they played for fun, and/or (v) they did it to so something that they would not normally do in the game (i.e., they did it for a change in their usual playing behaviour).
Outside of online gaming, a 2002 paper by Hegland and Nelson in the International Journal of Sexuality and Gender Studies noted that the Internet more generally can be used as a tool for expressing gender identity because it allows identities to cross cultural boundaries instantly and without regard for real physical space. They examined 30 cross-dressing websites and argued that for most cross-dressers that visited such websites, the online forum was their primary medium of expression. The users of the website used the Internet to nurture the ability to create a feminine identity, and helped them to pass as a woman in the offline public world. More generally, cross-dressers used the Internet to participate in the larger cultural dialogue of gender.
For an adult to meet current criteria for a diagnosis of transsexualism, the World Health Organisation’s International Classification of Diseases (ICD) reports they must express the desire to live and be accepted as a member of the opposite sex, usually accompanied by the wish to make his or her body as congruent as possible with the desired sex through surgery and cross-sex hormones. This transsexual identity must have been present persistently for a minimum of two years and not be a symptom of another mental disorder or a chromosomal abnormality. The latest (fifth) edition of Diagnostic and Statistical Manual of Mental Disorders (DSM-5) of the American Psychiatric Association uses the term gender dysphoria to describe people who are uncomfortable and/or distressed regarding their assigned gender, their physical sex characteristics and/or their associated social roles. Depending upon the intensity of this distress, some individuals may wish to transition from one point on a notional gender scale to another. The most common direction is from a man to a woman (individuals known as trans women), or from a woman to a man (individuals known as trans men). The distress intrinsic to gender dysphoria may be focused around anatomy, physiology, and/or being perceived and treated as someone of a gender with which the person does not identify. However, these diagnostic labels do not apply to all trans individuals for a multitude of reasons because some people will not identify themselves as a man or as a woman
The World Health Organisation working group has recommended that the latest ICD replace the term Transsexualism with Gender Incongruence) and remove it from the mental and behavioural disorders chapter. Gender incongruence denotes the incongruence between a person’s gender identity and their assigned sex and/or congenital primary and secondary sex characteristics. The terminology in this field has changed over the years and the terms ‘transgender’ and ‘trans’ have been used in the literature as umbrella terms to cover a wide variety of atypical gender experiences and expressions which may lead to permanent change of social gender role but does not necessarily involve treatment with cross-sex hormones or surgical intervention. A recent study has reported an prevalence for transsexualism of 4.6 in 100,000 individuals; 6.8 for trans women and 2.6 for trans men, which is primarily based on studies looking at individuals attending clinical services. (However, it should be noted that recent population studies have reported a significantly higher prevalence rate of atypical gender experiences and expressions).
The study we published in the journal Aloma originated from initial observations made by Dr. Jon Arcelus that a number of gender dysphoric clients presenting at the national (UK) gender dysphoria clinic admitted that they gender-swapped while playing online games. After I met with Dr. Arcelus I suggested he revisit his case files and and to write them up as case studies (as no study in the gaming field has ever examined online gaming among those with gender dysphoria). The main objectives of our study were to use exemplar case studies to highlight that gaming – in some circumstances – appears to be a functional way of dealing with gender identity issues, and that gender swapping in gaming may help such individuals to come to terms with their gender dysphoria.
Our paper featured four case studies who attended an assessment at the National Centre for Gender Dysphoria in Nottingham. All four individuals described in our paper were given pseudonyms and the content of their histories were anonymised (and included ‘Mary’ a 26-year old natal male who fully transitioned to the female social role six months prior to our study; ‘Mark’ a 20-year old natal female who first attended for an assessment in the female role; ‘Paul’ a 31-year old natal male who would like to be female, but still living full-time as a male; and ‘Harry’ a 23-year old natal male who presented for an assessment as a male). If you want to read about each case in detail, the paper can be downloaded for free from here).
The four case studies outlined in our paper are only a selected sample of the number of cases attending a national clinic for people with gender dysphoria. However, they were in no way unusual to the other clients that have sought help at the Centre. However, these individual accounts were specifically selected to demonstrate the different ways that video gaming may help people with gender dysphoria come to terms with their gender identity. For example, gaming can be used among trans people as a psychological tool to increase one’s awareness of gender identity and/or as part of the self. Gaming may therefore be a useful way to express one’s experienced gender identity in a safe, non-threatening, non-alienating, non-stigmatizing, and non-critical environment. This appears to mirror other the findings of other studies outside of the online gaming environment.
Articles published in the mass media have reported that online games such as World of Warcraft provide a creative space that allows gamers that might be questioning aspects of their identity to explore their lives as different individuals. Some have even gone as far as to argue that this could help gamers transform their ‘offline’ identity, as is the case with some trans gamers. This was also demonstrated in the case studies described in our study. Other authors have asserted that the online medium offers an infinite space for development and resistance to traditional gender roles, and that online interaction enables a transgression of the dichotomous categories of male and female, constructing trans (or even genderless) social identities and relationships. However, although such anonymous online communities may provide trans individuals with the power to subvert their physical sex.
Our case studies also demonstrated the different functions of gaming in trans people (e.g., the function of “testing out” their gender feelings). For instance, using gaming to ‘come out’ to other people, by initially coming out in the online community, which is perceived as a safe environment, and then gradually coming out in real life. Gaming, as for many non-trans individuals, can derive psychological benefits and a sense of escapism. This is even more relevant among trans people as it may be the only time that they feel they can be themselves, allowing them to feel happy, relaxed, and achieving a sense of completeness. This could develop into a powerful coping skill substituting unhealthy behaviours, such as self-harming behaviour. This is particularly important in this population as research shows a strong association between being trans and mental health problems, particularly depression and self-harm as a way to manage one’s trans feelings. This is not surprising as the discomfort and distress about assigned gender and body dissatisfaction may lead to a sense of hopelessness, which can bring low mood, self-injury and even suicide.
Although gaming appears (at least initially) to be a positive and beneficial activity for many trans people, there is also the risk that staying in the game becomes too much of a secure and safe environment. This can create a vicious circle where the trans person does not wish to move out of the secure online world, and back into reality. Spending an increasing amount of time in online gaming carries the risk of developing a gaming dependence or addiction. This may not only affect one’s personal relationships, work and/or study, but may also impair real life social gender role transition, as in many cases, the individual is expected to socially transition before they can be considered for treatment.
Obviously our paper only included four participants and may be perceived by some researchers as ‘anecdotal’ because the data were not collected for this specific study but were retrospectively collated. However, our findings showed that for a trans individual, the online gaming environment was perceived as “safe” but further research is needed to establish what the distinctive elements of online gaming are that help to raise gender awareness (or not as the case may be). With the rates of gender dysphoria attending clinical services increasing significantly, future research should investigate (i) the rates and severity of gaming among this population as well as its function, and (ii) the rates of gender dysphoria among game addiction as coming out may help their addiction. The game industry may also want to consider how they can use games as a way of helping trans people being more accepted within society by developing game industry may want to co-observe how their games can prepare and assist individuals to socially transition. Online games also provide a safe environment that provides people access to a platform where individuals can discuss and experiment with gender identity.
Arcelus, J., Bouman, W. P., Witcomb, G. L., Van den Noortgate, W., Claes, L., & Fernandez-Aranda, F. (2015). Systematic review and meta-analysis of prevalence studies in transsexualism. European Psychiatry, 30, 807-815.
Arcelus, J., Jones, B., Richards, C., Jimenez-Murcia, S., Bouman, W.P. & Griffiths, M.D. (2017). Video gaming and gaming addiction in transgender people: An exploratory study. Journal of Behavioral Addictions, 6, 21–29.
Dale, L. K. (2014, January 23). How World of Warcraft helped me come out as transgender. The Guardian. Retrieved from http://www.theguardian.com/technology/gamesblog/2014/jan/23/how-world-of-warcraft-game-helped-me-come-out-transgender
Griffiths, M.D., Arcelus, J. & Bouman, W.P. (2016). Video gaming and gender dysphoria: Some case study evidence. Aloma: Revista de Psicologia, Ciències de l’Educació i de l’Esport, 34(2), 59-66.
Griffiths, M. D., Davies, M.N.O. & Chappell, D. (2003). Breaking the stereotype: The case of online gaming. CyberPsychology and Behavior, 6, 81-91.
Griffiths, M.D., Davies, M.N.O. & Chappell, D. (2004). Demographic factors and playing variables in online computer gaming. CyberPsychology and Behavior, 7, 479-487.
Griffiths, M. D., Kiraly, O., M. Pontes, H. M. & and Demetrovics, Z. (2015). An overview of problematic gaming. In Starcevic, V. & Aboujaoude, E. (Eds.), Mental Health in the Digital Age: Grave Dangers, Great Promise (pp.27-55). Oxford: Oxford University Press.
Fahs, B., & Gohr, M. (2012). Superpatriarchy meets cyberfeminism: Facebook, online gaming, and the new social genocide. MP: An Online Feminist Journal, 3(6), 1-40.
Hegland, J. E., & Nelson, N. J. (2002). Cross-dressers in cyber-space: Exploring the Internet as a tool for expressing gendered identity. International Journal of Sexuality and Gender Studies, 7(2-3), 139-161.
Huh, S., & Williams, D. (2010). Dude looks like a lady: Gender swapping in an online game. In Online worlds: Convergence of the real and the virtual (pp. 161-174). London: Springer.
Hussain, Z., & Griffiths, M. D. (2008). Gender swapping and socialising in cyberspace: An exploratory study. CyberPsychology and Behavior, 11, 47-53.
Lewis, A., & Griffiths, M. D. (2011). Confronting gender representation: A qualitative study of the experiences and motivations of female casual-gamers. Aloma: Revista de Psicologia, Ciencies de l’Educacio i de l’Esport, 28, 245-272.
McLean, L., & Griffiths, M. D. (2013). Female gamers: A thematic analysis of their gaming experience. International Journal of Games-Based Learning, 3(3), 54-71.
Osborne, H. (2012). Performing self, performing character: Exploring gender performativity in online role-playing games. Transformative Works and Cultures, 11. doi:10.3983/twc.2012.0411.
Potts, A. (2015). ‘LOVE YOU GUYS (NO HOMO)’ How gamers and fans play with sexuality, gender, and Minecraft on YouTube. Critical Discourse Studies, 12(2), 163-186.
Shaw, A. (2012). Do you identify as a gamer? Gender, race, sexuality, and gamer identity. New Media and Society, 14(1), 28-44
Taylor, T. L. (2003). Multiple pleasures women and online gaming. Convergence: The International Journal of Research into New Media Technologies, 9(1), 21-46.
Todd, C. (2012). ‘Troubling’ gender in virtual gaming spaces. New Zealand Geographer, 68(2), 101-110.
Unwanted visual intrusions are characteristic of Post-Traumatic Stress Disorder (PTSD). According to Dr. Emily Holmes and her colleagues in a 2009 paper in the journal PLoS ONE, one innovative intervention for inhibiting unwanted intrusions is playing the Tetris videogame, described as a ‘cognitive vaccine’ in preventing intrusions after traumatic events. Playing Tetris consumes heavy visuospatial working memory resources that potentially compete with cognitive resources required for elaboration of visual imagery. Since Holmes and colleagues’ study, other studies have used Tetris to inhibit intrusive imagery including more studies by Holmes and her colleagues and others by Ella James’ research group, as well as some innovative studies using Tetris to reduce drug cravings by Jessica Storka-Brown and her colleagues (see ‘Further reading’ below). However, none of these studies assessed the role of videogame content after playing in relation to Game Transfer Phenomena (GTP), an area that we have carried out a lot of research into (see ‘Further reading’ below).
GTP research has investigated non-volitional experiences (e.g., altered sensorial perceptions and automatic mental processes/behaviours) mostly experienced after gaming. Gamers often report sensorial (visual/auditory) intrusions after playing (e.g., visual and auditory imagery, hallucinations). In a survey of 2,362 gamers that we published in a 2016 issue of the International Journal of Human-Computer Interaction, most (77%) had visualized images from a variety of videogames (including tile-puzzle games) with closed-eyes, and one-third (31%) had visualized images with open-eyes. Other studies have experimentally induced videogame-related visualizations at sleep onset (including studies by Stickgold and colleagues , Wamsley and colleagues , Kusse and colleagues  – see ‘Further reading’).
James and colleagues’ 2015 study in the journal Psychological Science was the first to make explicit reference to GTP (referred to as the ‘Tetris effect’ [TE]). In 2012, we argued the TE term is misleading as it suggests repetition is the core of transfer effects. However, other factors are involved. Research concerning GTP makes the distinction between sensorial modalities facilitating non-volitional phenomena with videogame content that occur along the continuum from mild to severe. Moreover, the descriptive constructs of GTP are empirically based on our analysis of 3,500+ gamers and have been examined via confirmatory factor analysis demonstrating good reliability and validity.
James and her colleagues tested if playing Tetris offered a protective mechanism against re-experiencing traumatic events. Healthy participants (n=56) were randomly assigned to either playing Tetris for 11 minutes, or doing nothing before exposure to a 12-minute traumatic film. Image-base memories about the film were then registered in a one-week dairy. However, playing Tetris as a proactive interference task before watching the film did not show significant results. James and colleagues offered different explanations including: (i) duration of the task in relation to film length, (ii) temporal contingencies between the tasks, (iii) differences between the task types, (iv) videogame types used, and (v) reactivation of gameplay during the film for aided interference. In a commentary paper published in a 2016 issue of Frontiers in Psychology, we discussed these findings and some of its shortcomings in relation to GTP literature.
- Duration of task in relation to film length: Playing Tetris for 11 minutes may not have been long enough to compete with the consolidation of memory of the 12-minute film. GTP are significantly more likely to occur when playing 3-6 hours. Our research reported only 4% of gamers reported GTP when playing sessions shorter than one-hour. Laboratory experiments have taken days of playing to induce game-related visualizations at sleep onset.
- Temporal contingencies between gaming and film watching: The tasks were performed minutes apart from each other. GTP mostly occur soon after stopping playing but our research has found that gamers have also reported GTP days after playing. In most cases, duration of experience is very short (seconds/minutes) but in some cases hours or longer.
- Differences between the tasks: Previous studies have demonstrated that similar tasks aid interference. However, watching a film is a passive activity while gaming is interactive requiring additional perceptual/motor skills. Therefore, it may be expected that gaming is more potent as interference task, particularly because inducing the subjective sense of presence in the virtual world may strengthen the interference.
- Type of videogame used as interference task and emotional content of film: The unrealistic (geometric) Tetris content may have been overwritten by the film’s traumatic images. Visualization of stereotypical games induced at sleep onset are characterized by lack of emotion, assuming that the amygdala and the reward system are not involved. In GTP research, emotions in tile-matching puzzle-games are incomparable to emotions in realistic videogames.
- Reactivation of gameplay during the film for aided interference: The use of cue reminders may have potential in reviving videogame content. In many cases, thoughts and altered perceptions are triggered by game-related cues. Selective attention toward game-related cues has been demonstrated in experiments. GTP have been reported in variety of videogame genres particularly those that have very realistic graphics and settings. Therefore, more realistic games may aid associations between real life stimuli and videogame content, and may be more effective in competing with memories of traumatic events.
In our Frontiers paper, we noted that playing Tetris is not only an effective visuospatial task (overloading working memory resources needed for imagery-formation while playing), but as demonstrated in our GTP studies, videogame content stays active after playing (e.g., mental imagery, sensory perceptions), and may offer additional benefits for managing unwanted intrusions. GTP may potentially strengthen effects of interference tasks but should be used cautiously, because videogame content not only targets unwanted intrusions, but also influences individual cognitions, perceptions, and behaviours in day-to-day contexts (e.g., attention bias, lack of task awareness, control inhibition failures). Moreover, our studies have shown distress and dysfunction have been reported with GTP.
Consequently, further research needs conducting to identify: (i) videogames that are most effective, (ii) playing duration, (iii) factors that reduce intervention efficacy and strategies to control them, and (iv) individuals that may benefit the most from such intervention. While using videogames as intervention tools for preventing unwanted imagery from traumatic experiences has potential, therapeutically it is still at an early stage.
- (Please note: This blog was co-written with Dr. Angelica Ortiz de Gortari and is based on an article we published in Frontiers in Psychology: Ortiz de Gortari, A.B. & Griffiths, M.D. (2016). Playing the computer game Tetris prior to viewing traumatic film material and subsequent intrusive memories: Examining proactive interference. Frontiers in Psychology, 7, 260. doi: 10.3389/fpsyg.2016.00260)
Holmes, E. A., James, E. L., Kilford, E. J., & Deeprose, C. (2010). Key steps in developing a cognitive vaccine against traumatic flashbacks: Visuospatial Tetris versus Verbal Pub Quiz. PloS ONE, 5(11), e13706.
James, E. L., Bonsall, M. B., Hoppitt, L., Tunbridge, E. M., Geddes, J. R., Milton, A. L., & Holmes, E. A. (2015a). Computer game play reduces intrusive memories of experimental trauma via reconsolidation-update mechanisms. Psychological Science. doi: 10.1177/0956797615583071
James, E. L., Zhu, A. L., Tickle, H., Horsch, A., & Holmes, E. A. (2015b). Playing the computer game Tetris prior to viewing traumatic film material and subsequent intrusive memories: Examining proactive interference. Journal of Behavior Therapy and Experimental Psychiatry. doi: 10.1016/j.jbtep.2015.11.004
Kusse, C., Shaffii-Le Bourdiec, A., Schrouff, J., Matarazzo, L., & Maquet, P. (2012). Experience-dependent induction of hypnagogic images during daytime naps: A combined behavioural and EEG study. Journal of Sleep Research, 21(1), 10-20.
Ortiz de Gortari, A. B., Aronsson, K., & Griffiths, M. D. (2011). Game Transfer Phenomena in video game playing: A qualitative interview study. International Journal of Cyber Behavior, Psychology and Learning 1(3), 15-33.
Ortiz de Gortari, A. B., & Griffiths, M. D. (2012). An introduction to Game Transfer Phenomena in video game playing. In J. I. Gackenbach (Ed.), Video Game Play and Consciousness (pp. 223-250). Hauppauge, NY: Nova Publisher.
Ortiz de Gortari, A. B., & Griffiths, M. D. (2014a). Altered visual perception in Game Transfer Phenomena: An empirical self-report study. International Journal of Human-Computer Interaction, 30(2), 95-105.
Ortiz de Gortari, A. B., & Griffiths, M. D. (2014b). Auditory experiences in Game Transfer Phenomena: An empirical self-report study. International Journal of Cyber Behavior, Psychology and Learning 4(1), 59-75.
Ortiz de Gortari, A. B., & Griffiths, M. D. (2014c). Automatic mental processes, automatic actions and behaviours in Game Transfer Phenomena: An empirical self-report study using online forum data. International Journal of Mental Health and Addiction, 12(4), 1-21.
Ortiz de Gortari, A. B., & Griffiths, M. D. (2015a). Game Transfer Phenomena and its associated factors: An exploratory empirical online survey study. Computers in Human Behavior, 51, 195-202.
Ortiz de Gortari, A.B. & Griffiths, M.D. (2016). Prevalence and characteristics of Game Transfer Phenomena: A descriptive survey study. International Journal of Human-Computer Interaction, 32, 470-480.
Ortiz de Gortari, A.B., Oldfield, B. & Griffiths, M.D. (2016). An empirical examination of factors associated with Game Transfer Phenomena severity. Computers in Human Behavior, 64, 274-284.
Ortiz de Gortari, A. B., Pontes, H. M. & Griffiths, M. D. (2015). The Game Transfer Phenomena Scale: An instrument for investigating the nonvolitional effects of video game playing. Cyberpsychology, Behavior, and Social Networking 10, 588-594
Skorka-Brown, J., Andrade, J., & May, J. (2014). Playing ‘Tetris’ reduces the strength, frequency and vividness of naturally occurring cravings. Appetite, 76 , 161-165.
Skorka-Brown, J., Andrade, J., Whalley, B., & May, J. (2015). Playing Tetris decreases drug and other cravings in real world settings. Addictive Behaviors, 51, 165-170.
Stickgold, R., Malia, A., Maguire, D., Roddenberry, D., & O’Connor, M. (2000). Replaying the Game: Hypnagogic images in normals and amnesics. Science, 290(5490), 350-353.
Wamsley, E. J., Perry, K., Djonlagic, I., Reaven, L. B., & Stickgold, R. (2010). Cognitive replay of visuomotor learning at sleep onset: Temporal dynamics and relationship to task performance. Sleep, 1(33), 59-68.
Last week, the UK Gambling Commission put out a press release relating to student gambling. Having been in the university sector for as long as I have been researching gambling (i.e., 30 years), student gambling is an area that has always been close to my professional heart. I have published dozens of papers on youth gambling and student gambling over the last three decades (see ‘Further reading’ below for a few examples).
With my daughter leaving home to go to university this week there are lots I could potentially worry about and gambling isn’t necessarily my main concern where my daughter is concerned, but gambling is still of concern to me especially because a study I published back in 2012 with Luke Benson and Dr. Christine Norman (in the International Journal of Mental Health and Addiction) found that first year university students gambled more than final year students and were more susceptible to problem gambling compared to final year students.
The Gambling Commission have just published their own research into the topic. They hired Youth Sight who conducted 1,000 online interviews with undergraduate students in August 2017 (the students were part of an online panel recruited from applicants through Universities and Colleges Admission Service). The quotas chosen reflected the UK student population in terms of gender, course year and university group. Here are some of their key findings:
- Two-thirds of students had gambled in the previous month
- Over half of student gamblers (54%) engaged in gambling to make money
- Two-fifths of students said they felt guilty after they had gambled
- One in eight student gamblers had missed lectures due to gambling
- One in four student gamblers (25%) had spent more money gambling than they could afford
- One in 25 student gamblers (4%) were in debt because of their gambling
- One in four students that had a gambling debt, had a debt of over £10,000
The Gambling Commission noted there were are number of limitations with the study. They specifically noted that gambling participation rates may have been higher than if the data had been collected using other methodologies (telephone, face-to-face interviews) due to the self-selecting nature of online surveys. However, online surveys were chosen due to students’ access to technology and the availability of a representative panel via this method.
On the back of their survey, the Gambling Commission also provided their top ten tips to help students avoid getting into trouble with gambling. I have reproduced them here verbatim.
- Ask yourself why you are gambling: Are you gambling to escape debt or as a way to make quick money? Think carefully about your motivations to gamble. Gambling shouldn’t be seen as the answer to improving your personal finances. If you have concerns about money, speak to a financial adviser or student support services.
- Monitor how often you’re gambling online: Websites must give you access to historic account activity. This means you can see exactly when, how much and what you’ve been gambling on over time and make well-informed choices about what to do next.
- Keep track of how much time you’ve spent gambling: With a reality check, you can set alerts to pop up on screen, which help you to monitor the time spent gambling either online or on gaming machines in a betting shop.
- Limit how much you can spend: If you’re concerned about how much money you’re gambling, you can set a limit on how much you spend across individual gambling products online. You can also set a limit on how much you spend on gaming machines in a betting shop.
- Give yourself a timeout: During a timeout, you can block yourself from gambling online for a set amount of time, of up to 6 weeks, and even bar yourself from gambling during a specific time of day.
- Need a longer break? Self-exclude from gambling firms for a minimum of 6 months: If you think you are spending too much time or money gambling – whether online or in gambling premises – you can ask to be self-excluded. This is when you ask the company to stop you from gambling with them for a period of time. The exclusion will last for a minimum of least six months. Self-exclusion can be used if you think you have a problem with gambling and want help to stop. [The Gambling Commission] are also working with industry representatives to develop a national online self-exclusion scheme.
- Read the terms and conditions: Did you know almost 80% of gamblers haven’t read the terms and conditions on the websites they are gambling on? By taking the time to read the T&Cs, you can ensure you understand exactly what you are gambling on, and what restrictions are attached to promotions and bonus offers (such as a minimum spend level before the bonus is paid) – this will help you make an informed decision.
- Make sure the website you’re gambling with is licensed: Make sure you’re gambling with a Gambling Commission licensed business. This means you’ll be protected by gambling and consumer protection rules in Great Britain. Licensed gambling businesses must display that they are licensed and provide a link to our licence register where you can see what type of activities they are allowed to offer and also if we have taken any regulatory action against them.
- Check how your money is protected: Any gambling business that holds customer funds must explain in their T&Cs how customer funds are protected if the business goes bust – this should help you decide who you want to gamble with.
- Feel it’s getting too much? Talk to someone: There are a number of gambling support groups available if you feel your gambling is getting out of control or too much. More information about the signs of problem gambling can be found on the Gambleaware and Gamcare websites [You can call the National Gambling Helpline on Freephone 0808 8020 133]. They also provide general information about gambling, including how to gamble safely and where to get help if you or someone you know has problems with their gambling.
Benson, L., Norman, C. & Griffiths, M.D. (2012). The role of impulsivity, sensation seeking, coping, and year of study in student gambling: A pilot study. International Journal of Mental Health and Addiction, 10, 461-473.
Canale, N., Griffiths, M.D., Vieno, A., Siciliano, V. & Molinaro, S. (2016). Impact of internet gambling on problem gambling among adolescents in Italy: Findings from a large-scale nationally representative survey. Computers in Human Behavior, 57, 99-106.
Canale, N., Vieno, A., Lenzi, M., Griffiths, M.D., Borraccino, A., Lazzeri, G., Lemma, P., Scacchi, L., Santinello, M. (2017). Income inequality and adolescent gambling severity: Findings from a large-scale Italian representative survey. Frontiers in Psychology, 8, 1318. doi: 10.3389/fpsyg.2017.01318
Gambling Commision (2017). Commission raises awareness of potential risks for students who gamble. September 12. Located at: http://www.gamblingcommission.gov.uk/news-action-and-statistics/news/2017/Commission-raises-awareness-of-potential-risks-for-students-who-gamble.aspx
Griffiths, M.D. (1995). Adolescent Gambling. London: Routledge.
Griffiths, M.D. (2002). Adolescent gambling: What should teachers and parents know? Education and Health, 20, 31-35.
Griffiths, M.D. (2002). Gambling and Gaming Addictions in Adolescence. Leicester: British Psychological Society/Blackwells.
Griffiths, M.D. (2008). Adolescent gambling in Great Britain. Education Today: Quarterly Journal of the College of Teachers. 58(1), 7-11.
Griffiths, M.D. (2013). Adolescent gambling via social networking sites: A brief overview. Education and Health, 31, 84-87.
Griffiths, M.D. (2015). Adolescent gambling and gambling-type games on social networking sites: Issues, concerns, and recommendations. Aloma: Revista de Psicologia, Ciències de l’Educació i de l’Esport, 33(2), 31-37.
Griffiths, M.D. & Calado, F. (2017). Adolescent gambling. Reference Module in Neuroscience and Biobehavioral Psychology (pp. 1-12). Oxford: Elsevier.
Griffiths, M.D. & Linsey, A. (2006). Adolescent gambling: Still a cause for concern? Education and Health, 24, 9-11.
Griffiths, M.D. & Parke, J. (2010). Adolescent gambling on the Internet: A review. International Journal of Adolescent Medicine and Health, 22, 59-75.