E-cigarettes are not regulated to the same extent that cigarettes are by the US Food and Drug Administration, so their contents remain a bit of a mystery. A 2016 study by Vicky Yu and colleagues in Oral Oncology determined that even e-cigarettes without nicotine cause cell damage.
The researchers created an extract from two different brands of e-cigarettes. When they added the extract to human cells in a Petri dish, the cells showed signs of damage (including broken DNA strands) and death compared to untreated cells.
The researchers tested e-cigarettes both with and without nicotine, and those that contained nicotine showed even more signs of cell damage and death after exposure to the contents of the e-cigarette.
Other ingredients that have been identified in e-cigarettes include formaldehyde, which is known to be a carcinogen, and diacetyl, a flavoring agent.
Yu and colleagues suggest that e-cigarettes are not as safe as their marketing would suggest. The researchers hope to identify more of the ingredients in e-cigarettes.
Stimulants are one of the most common medications prescribed to children and adolescents, typically for attention deficit hyperactivity disorder (ADHD). In children of parents with major depression, bipolar disorder, or schizophrenia, stimulant use may come with a risk of psychotic symptoms. A 2016 study by L.E. MacKenzie and colleagues in the journal Pediatrics reported that among children and youth whose parents had one of these psychiatric illnesses, 62.5% of those who had taken stimulants had current psychotic symptoms, compared to only 27.4% of those who had not taken stimulants. The participants with psychotic symptoms tended to have hallucinations that occurred while they were taking stimulants. Doctors may want to consider whether parents have a history of psychiatric illness when deciding whether to prescribe stimulants to children and adolescents with ADHD. Activation is a common side effect of antidepressants in children who have a parent with bipolar disorder. Young people taking stimulants for ADHD should be monitored for psychotic symptoms, particularly if they have a parent with a history of depression, bipolar disorder, or schizophrenia.
A change in a person’s sense of humor could be an early indicator of dementia, according to a 2015 article by Jason Warren and colleagues in the Journal of Alzheimer’s Disease. The changes can appear as early as 10 years before a diagnosis of dementia. Almost all participants who would go on to be diagnosed with frontotemporal dementia showed an increased preference for slapstick humor over satirical or absurdist compared with those who would not. In contrast, changes in sense of humor appeared in less than half of those who would go on to be diagnosed with Alzheimer’s disease, indicating that changes in sense of humor may allow doctors to distinguish between different types of dementia.
The study has some limitations. It was small (48 patients) and relied on patients’ memory of what kind of humor they enjoyed 15 years earlier. More research is needed to clarify the link between changes in humor preferences and dementia.
Warren suggests that changes in humor appear before other warning signs of dementia, such as memory loss. He called humor a type of “stress test” for the brain, since getting a joke can require a quick shift in perspective.
A 2015 study by Rene L. Olvera and colleagues in the Journal of Clinical Psychiatry indicated that among 1,768 Mexican-Americans living along the border from 2004–2010, 30% were currently depressed, 14% had severe depression, and 52% were obese. Women were more likely to be depressed, and more likely to have severe depression. Other factors making depression more likely included low education, obesity, low levels of “good” cholesterol, and larger waist circumference. Low education and extreme obesity were also linked to severe depression.
In a commentary on the article in the same issue, researcher Susan L. McElroy wrote that “the medical field needs to firmly accept that obesity is a risk factor for depression and, conversely, that depression is a risk factor of obesity.” She suggested that people with obesity, those who carry excess weight around their middles, and those who have related metabolic symptoms such as poor cholesterol should all be evaluated for depression. Likewise, those with depression should have their weight and body measures monitored. People with both obesity and depression should be evaluated for disordered eating.
New research shows that bipolar disorder risk is higher in the US than in the Netherlands. At the 2015 meeting of the American Academy of Child and Adolescent Psychiatry, researchers Manon Hillegers and Esther Mesman described a study in which they compared the offspring of mothers with bipolar disorder in the US to those in the Netherlands. The offspring ranged in age from 10–18.
In the US, the mothers had, on average, an earlier age of onset, more substance abuse comorbidity, and were more likely to have been diagnosed with bipolar II disorder. Among the US offspring, 66% had been diagnosed with a psychiatric illness compared to 44% of the Dutch offspring. This included significantly higher rates of anxiety, ADHD, and disruptive behavior disorders in the US offspring. Among the offspring who had been diagnosed with a mood disorder, 80% of those in the US had other additional psychiatric disorders, but only 34% of the Dutch did. Bipolar disorder is more rare among children under the age of 12 in the Netherlands compared to the US.
Dutch children and adolescents were typically treated with lithium and with only one drug at a time. In the US, lithium is less widely used, and simultaneous treatment with several medications (usually including atypical antipsychotics) is common.
Editor’s Note: The research by Hillegers and Mesman replicates research by this editor (Robert M. Post) and colleagues that compared bipolar disorder incidence and severity in the US, Germany, and the Netherlands. Other comparisons have been made between the US and Europe. A 2014 article by Frank Bellivier and colleagues in the World Journal of Biological Psychiatry also showed that bipolar disorder onset occurs earlier in the US than in 10 different European countries, while Bruno Etain and colleagues found that bipolar disorder onset occurs earlier in the US than in France in a 2012 article in the Journal of Clinical Psychiatry.
Together this research shows that bipolar disorder is more serious in the US than in a number of European countries. Two-thirds of adults with bipolar disorder report that their illness began in childhood or adolescence. Most of these cases are not properly diagnosed or treated. A concerted effort must be made by the medical establishment and healthcare policymakers in the US to provide better and earlier treatment of bipolar illness.
Researcher Juan David Palacio reported at the 2015 meeting of the American Academy of Child and Adolescent Psychiatry that compared to offspring of non-ill parents, children of parents with bipolar I disorder are at high risk for psychiatric disorders, particularly bipolar spectrum disorders and substance use disorders. They were also at risk for symptoms of anxiety disorders and conduct disorder. Palacio’s findings from Colombia mirror those from other studies of familial risk and suggest the importance of vigilance to detect these disorders early and provide appropriate treatment. Our Child Network may help.
A 2015 study by Samuel T. Wilkinson and colleagues in the Journal of Clinical Psychiatry reports that among war veterans who completed a special treatment program for post-traumatic stress disorder, those who continued or began using marijuana after treatment had more severe PTSD symptoms, were more violent, and used drugs and alcohol more often. Those who stopped using marijuana or never used it had the lowest levels of PTSD symptoms in the study.
Editor’s Note: Scientific information about marijuana is almost never reported in the media. Evidence of the adverse effects of heavy marijuana use are robust and consistent.
Some of these include:
- A doubling of the risk of psychosis compared to non-users. People with a common variation in the enzyme COMT, which metabolizes dopamine, have an even higher rate of psychosis.
- An increased risk of bipolar disorder onset.
- A worse course of bipolar disorder.
- An increased risk of schizophrenia.
- Memory deficits that remain even after marijuana use has ceased.
- Loss of motivation (exactly what someone with depression doesn’t need).
- Anatomical changes in brain structures.
- A worse course of PTSD and increased violence in those with PTSD.
Bottom line: Those who say marijuana is benign may be ill-informed. People with mood disorders, proneness to paranoia, or PTSD should stay away from marijuana.
In boys, a decrease in the thickness of the cortex is a part of normal maturation. However, according to a recent study, this process is sped up in boys at high risk for schizophrenia when they use marijuana before the age of 16.
Early use of marijuana has been linked to subsequent development of schizophrenia. Schizophrenia begins about 5 years earlier in males than in females, and the male brain goes through more structural changes during adolescence.
A 2015 article by Tomáš Paus in the journal JAMA Psychiatry incorporated data from three studies, which took place in parts of Canada and England and eight European cities. The studies all included magnetic resonance imaging (MRI) scans of the participants, a measure of their genetic risk of developing schizophrenia, and questions about their past marijuana use. In boys at high risk for schizophrenia based on their genetic profile, cortical thickness dropped more among the ones who used high amounts of marijuana before the age of 16 compared to those who did not.
Paus hypothesizes that the development of schizophrenia is a “two-hit process.” People who develop schizophrenia may have an early risk factor, such as their genetic profile or a problem that occurs in utero, and a later stressor such as drug use in adolescence.
A 2016 study by Peter S. Bloomfield and colleagues in the American Journal of Psychiatry used PET scans to compare the activity of microglia, immune cells in the central nervous system, in healthy controls, people with schizophrenia, and those at high risk for the illness. It found that both people with schizophrenia and those at high risk had greater brain inflammation than the healthy controls.
The study was the first to show that microglial activity was elevated in people at high risk (who showed some preliminary symptoms of schizophrenia). The finding had a large effect size.
Microglial activity was also correlated with symptom severity in the high-risk participants. Increased microglial activity was not linked to depression, suggesting that it is specific to the development of psychosis.
These findings resemble those of other recent studies showing increased inflammation in people at high risk for psychosis.
The study suggests that increased microglial activity occurs before a first episode of psychosis. That means it could help identify people who may develop schizophrenia. The findings also suggest that anti-inflammatory treatment could theoretically be used to prevent psychosis.
At the 2015 meeting of the International Society for Bipolar Disorders, researcher Martin McInnis described how stem cells can be used to identify biochemical abnormalities in patients with bipolar disorder. In this research, the stem cells, or IPSCs (for induced pluripotential stem cells), are created when cells from skin fibroblasts, which produce connective tissue, are treated with chemicals that cause them to de-differentiate back into stem cells.
McInnis identified several abnormalities in the stem cells of patients with bipolar disorder. Stem cells with the gene CACNA1C, which is associated with vulnerability to bipolar disorder, fired more rapidly than non-CACNA1C stem cells. There were other abnormalities at the NMDA glutamate receptor and an imbalance of the neurotransmitter GABA in the cells. When the cells were treated with lithium, some of these abnormalities were reversed. In the cells with the CACNA1C gene, lithium normalized the firing rate. Lithium aslo re-balanced the distribution of GABA in the cells.
McInnis hopes that this stem cell research will shed light on the abnormalities associated with bipolar disorder, help explain how lithium corrects some of these, and lead to the development of new therapeutic approaches.