ADHD brains have low levels of a neurotransmitter called norepinephrine. Norepinephrine is linked arm-in-arm with dopamine. Dopamine is the thing that helps control the brain's reward and pleasure center. The ADHD brain has impaired activity in four functional regions of the brain.
Experts initially believed that ADHD occurs as a result of low levels of dopamine, but they have since realized that the relationship is a little more complicated. According to the Gulf Bend Center, people with ADHD may have a higher concentration of dopamine transporters in the brain.
The collected evidence indicated that lead (Pb), phthalates and bisphenol A (BPA) are moderately to highly associated with ADHD. Limited evidence exists for an association between ADHD and polycyclic aromatic hydrocarbons (PAHs), flame retardants, mercury (Hg), and pesticides.
If your child has ADHD, they may be low in dopamine but high in something called dopamine transporters. That's because their low dopamine may actually result from having too many of the transporters that take dopamine out of their brain cells.
As you know, one trademark of ADHD is low levels of the neurotransmitter dopamine — a chemical released by nerve cells into the brain.
Causes of ADHD
Recent studies link genetic factors with ADHD. In addition to genetics, scientists are studying other possible causes and risk factors including: Brain injury. Exposure to environmental risks (e.g., lead) during pregnancy or at a young age.
People with ADHD have at least one defective gene, the DRD2 gene that makes it difficult for neurons to respond to dopamine, the neurotransmitter that is involved in feelings of pleasure and the regulation of attention.
Methylphenidate. Methylphenidate is the most commonly used medicine for ADHD. It belongs to a group of medicines called stimulants, which work by increasing activity in the brain, particularly in areas that play a part in controlling attention and behaviour.
These are just some of the many risky behaviors children and teens with ADHD may find hard to resist, and thus, can lead to potentially dangerous behaviors as adults. And there's a biological reason individuals with ADHD favor risky behaviors: “ADHD brains crave stimulation,” writes Ellen Littman, Ph. D.
Indeed, ADHD brains struggle to sustain motivation when rewards are mild or are linked to long-term gratification. As a result, ADHD brains search for stimulation that can increase dopamine more quickly and intensely. Ultimately, the pursuit of pleasurable rewards may become a potent form of self-medication.
Attention Deficit Hyperactivity Disorder (ADHD) is a neurological disorder that affects a person's ability to control their behavior and pay attention to tasks.
Stimulants are the best-known and most widely used ADHD medications. Between 70-80% of children with ADHD have fewer ADHD symptoms when taking these fast-acting medications.
Answer: Using caffeine, either in a drink or in an over-the-counter preparation, is not recommended by medical experts as a treatment for ADHD. Although some studies have shown that caffeine may improve concentration in adults with ADHD, it is not as effective as medication.
A chronic deficit of serotonin (5-HT) at the synapse may trigger symptoms of ADHD.
Stimulants are believed to work by increasing dopamine levels in the brain. Dopamine is a neurotransmitter associated with motivation, pleasure, attention, and movement. For many people with ADHD, stimulant medications boost concentration and focus while reducing hyperactive and impulsive behaviors.
Many people with ADHD (Inattentive subtype and hyperactive subtype) find their brains work faster than people who don't have ADHD. Your non–linear way of thinking means you can problem solve, catch on to new ideas and have high speed conversations in a way that non–ADHDers just can't.
Thayer's study shows that the ADHD group of children had larger and more frequent variations. Fathers with ADHD will pass this code discrepancy to offspring. Barkley explains that the heritability of ADHD runs around 80 percent. Genetics account for 80 percent of the components that define ADHD.
ADHD tends to run in families and, in most cases, it's thought the genes you inherit from your parents are a significant factor in developing the condition. Research shows that parents and siblings of someone with ADHD are more likely to have ADHD themselves.
The exposure to stressful life events, and—more specifically—Childhood Trauma, has been shown to predict ADHD onset as well as persistence of the disorder into adulthood (Biederman et al. 1995; Friedrichs et al.
Ritalin works by increasing the amount of dopamine released in the striatum, a key region in the brain related to motivation, action and cognition.
Along with eating a balanced diet, many possible supplements may help boost dopamine levels, including probiotics, fish oil, vitamin D, magnesium, ginkgo and ginseng. This, in turn, could help improve brain function and mental health.
Brain MRI is a new and experimental tool in the world of ADHD research. Though brain scans cannot yet reliably diagnose ADHD, some scientists are using them to identify environmental and prenatal factors that affect symptoms, and to better understand how stimulant medications trigger symptom control vs. side effects.