Drinking at early age raises death risk by 47%
*Strokes may cause increased preference for alcohol, researchers find
Getting drunk before your 15th birthday nearly doubles your risk of an early death, new research reveals. Those who get inebriated at a young age are 47 percent more likely to die prematurely, a study found.
Researchers believe early drinking may increase a person’s risk of suffering a life-threatening alcohol abuse disorder in later life.
Lead author Dr Hui Hu from the University of Florida, United States, said: “Early onset of drinking and drunkenness are associated with alcohol use disorders and therefore may play a role in elevated alcohol use disorder-related mortality rates.”
Other experts add excessive alcohol-consumption at a young age can increase a person’s ‘risk-taking behavior’ and lead to mental health issues.
Young women who binge drink increase their risk of developing type 2 diabetes in later life, experts warned earlier this month.
Drinking heavily at least once a month raises women’s chances of having high blood sugar levels by middle age – a major risk factor for diabetes, a study found. Yet the same link was not found in men, which left the researchers puzzled. Lead author Dr. Karina Nygren, of Umea University in Sweden, said: “Although there are some biological explanations behind why alcohol can directly lead to increased levels of glucose in the blood, the difference between men and women in our study is more difficult to explain.”
Also, brain changes after stroke may lead to increase in alcohol-seeking behavior, at least in animal models, according to research published in the journal Scientific Reports. Although it is known that excessive alcohol intake (more than two drinks per day) is a risk factor for stroke, there hasn’t been much scientific study about how alcohol-related behavior might change after a stroke has occurred. When researchers at the Texas A&M College of Medicine, United States, looked into the issue, they found that strokes in a certain part of the brain increase alcohol-seeking behavior and preference for alcohol.
“It’s important because although stroke is a severe disease, more and more people are surviving and recovering after their first stroke,” said Jun Wang, MD, PhD, assistant professor in the Department of Neuroscience and Experimental Therapeutics at the College of Medicine and co-principal investigator of this project.
“Therefore, it is important to study behavior change after stroke, and how that behavior can affect the chances of having another one, which is often fatal.”
People who have had one stroke are often advised to limit their consumption of alcohol to help prevent a recurrence, but that may be difficult if damage caused by the stroke itself is encouraging them to actually drink more. That might help explain anecdotal reports that compliance with the instruction not to drink after a stroke is low.
“In an ischemic stroke, a blood vessel to the brain is blocked, which deprives the neurons in the brain of glucose and oxygen,” said Farida Sohrabji, PhD, presidential impact fellow and professor in the Department of Neuroscience and Experimental Therapeutics at the College of Medicine and co-principal investigator of this project, who studies acute and long-term consequences of strokes, as well as novel stroke therapies. “Neurons are very dependent on these two nutrients, and without them, neurons very rapidly begin to die.”
After an ischemic stroke in the middle cerebral artery – one of the most common types of stroke in humans – the animal models showed much lower overall fluid intake but increased preference for alcohol over water when they did drink. These effects were significant even though the stroke only affected one side of the brain, leaving the other half of the brain without damage. “Their preference for alcohol can be seen five days after stroke and through at least the first month after the stroke,” Wang said. “Specifically, when given a choice between water and alcohol, they chose alcohol a higher percentage of the time than they did before the stroke.”
What the researchers think is happening is that the stroke kills neurons in a part of the brain called the dorsal lateral striatum, and they stop inhibiting certain neurons in the midbrain. These midbrain neurons, which are now far more excitable, send a signal to a particular type of dopamine receptor, called D1. These D1 receptor-containing cells, located in the dorsomedial striatum, were shown in Wang’s previous work to compel the individual to perform an action – like having an alcoholic beverage.
“This circuit is interesting because it means that when the dorsal lateral striatum neurons die, the result is increased excitement of the D1 neurons in the dorsomedial striatum,” Wang said. “It is this increased excitement that we think is causing alcohol-seeking behaviour.”
However, when the D1 receptor was inhibited, alcohol-seeking behavior in individuals with stroke damage decreased significantly while the control group didn’t exhibit much of a change. “This is a hint at how the brain works,” Wang said, “and although we’re a long way off, something to inhibit this D1 receptor might be a possible therapeutic target for a drug to help people resist the urge to drink after a stroke.”
“As much as possible, we tried to use a model that would replicate the experience of a human patient,” Sohrabji said. “Therefore, we think that these findings, although preliminary, might eventually help people who have experienced any type of brain injury, whether a stroke or an accident that causes traumatic brain injury.”
This study was a collaboration between the laboratories of Wang, who studies alcohol use disorders, and Sohrabji, who studies ischemic stroke, and funded by a seed grant from the Texas A&M University Health Science Center Division of Research. Other funding for the research was provided by grants from the National Institute on Alcohol Abuse and Alcoholism (NIAAA) and the National Institute of Neurological Disorders and Stroke (NINDS).
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