Slot machines are addicting for many reasons. They allow you to compete against the casino and they provide a sense of anticipation as you wait for the reels to stop spinning. But one reason why slot machine games are so addictive is because of how they affect your brain’s chemistry, releasing neurotransmitters that make you feel good.
A study published by George Ainslie at the Massachusetts General Hospital, shows that both humans and animals naturally produce endorphins when their expectations are not met. This theory led scientists to believe that gambling addiction was actually an addiction to endorphin release that has become dependent on large sums of money or other bets. This may help explain one aspect of what makes the slot machine so addictive.
It is believed that dopamine, a neurotransmitter in the human brain, responds to both winning and losing. During regular play of any game, your brain releases dopamine when you win or get close to winning. A large sum of money causes the release of even more dopamine than usual. This is also true when you lose while playing โจ๊กเกอร์888. Losing on consecutive spins may cause the release of excessive amounts of dopamine, stimulating your desire to continue playing. This reaction occurs naturally in all humans but becomes addictive for some genetically predisposed to gambling addiction. The effects of dopamine on loose slot players have been researched by several different scientific studies including one Cambridge University which found that “the brain’s dopamine-driven reward system can be excited, not just by ‘winning’ money, but also by the anticipation of potential winnings and simply by playing.”
Using this information it may be possible to help control gambling addictions. A research team from the University of California, Los Angeles (UCLA), has researched a method for controlling excessive gambling called ΔFosB . The team discovered ΔFos B after studying heavy gamblers who exhibited “pathological” gambling behavior. They found that regular and repeated play of any game causes an increase in both dopamine and ΔFos B proteins in the brain. These proteins remain active in the brain long after play has stopped causing cravings for more games or money. Finally, they found that blocking the formation of ΔFos B in the brain prevented the craving for games or money caused by overstimulation of dopamine receptors. The research team continues to study this method which may allow scientists to help people control their compulsive gambling behavior in the future.
Slot machine addiction is a growing problem in modern society. This new study linking repeated play on slots machines to endorphin release and increased cravings may mean slot machine addictions can be treated with drugs already on the market. Scientists continue to research ways to use neurotransmitters like endorphins, dopamine and others to prevent addictions such as those found in pathological gamblers.