At the 2016 meeting of the Society of Biological Psychiatry, researcher Femke Lamers and colleagues presented findings from the Netherlands Study of Depression and Anxiety. The inflammatory markers interleukin-6 and CRP were elevated in people with current major depression. These measures were correlated with BMI, a measure of body weight. High levels of interleukin-6 at the beginning of the study predicted who would have a chronic course of illness.
Editor’s Note: Previous studies have found that elevated levels of CRP predicted a future mood episode in people at high risk for bipolar disorder due to a family history of the illness.
These studies suggest that it might be useful to assess levels of these inflammatory markers (CRP, interleukin-1, interleukin-6, and TNF-alpha) in young people who are at high risk for bipolar disorder. Factors that put someone at high risk include a family history of depression or bipolar disorder, a history of adversity in childhood (abuse, neglect, loss of a parent, etc.), and preliminary symptoms.
Several interventions are available that may reduce the likelihood that someone at risk for bipolar disorder will go on to develop the illness. Family interventions such as the Family Focused Therapy developed by researcher David Miklowitz are helpful. In a 2013 study in the Journal of the American Academy of Child and Adolescent Psychiatry, Miklowitz reported that Family Focused Therapy outperformed treatment as usual for youth at risk for bipolar disorder.
Measures of inflammation might provide additional rationale for beginning interventions in youth at high risk for mood disorders. In addition to family interventions, omega-3 fatty acid supplementation is a low-risk option that is supported by some positive data. Since BMI was implicated in the study by Lamers and colleagues, keeping weight under control might also have some benefit.
For adults with depression who want to keep their weight under control, the combination of the antidepressant bupropion XR (150–300mg/day) and naltrexone (50mg/day), an opiate antagonist medication normally used to fight addictions, has been effective.
Trauma in childhood is a risk factor for depression, and both childhood trauma and depression have been linked to increased inflammation. In a study presented at the 2016 meeting of the Society of Biological Psychiatry, Sarah R. Horn and colleagues found that emotional abuse in childhood predicted high levels of inflammation measured in the blood in adulthood.
Horn and colleagues took blood samples from 35 people with treatment-resistant depression and 28 healthy control subjects. The researchers measured inflammatory markers in the blood and also interviewed the participants about any physical, sexual, or emotional abuse they experienced in childhood. Among all the participants, emotional abuse was linked to elevated levels of several inflammatory markers, including interleukin-6, interleukin-10, interleukin-1a, interleukin-15, and fractalkine.
The researchers suggest that more research is needed to clarify the link between early trauma, depression, and inflammation. How elevated inflammation in people with a history of abuse may influence the effectiveness of different psychotherapies and medications for depression remains to be determined.
A recent study suggests that women who experienced moderate or severe abuse in childhood secrete less oxytocin while breastfeeding their own children. Oxytocin is a hormone that promotes emotional bonding. The study included 53 women. They breastfed their newborn children while blood samples were collected from the women via IV. Those women with a history of moderate or severe abuse (emotional, physical, or sexual) or neglect (emotional or physical) had lower measures of oxytocin in their blood during breastfeeding than women with no history or abuse in childhood or a history of mild abuse.
A history of abuse or neglect was more common among women with current depression compared to women with a history of depression or anxiety. Women who had never experienced depression or anxiety were least likely to have a history of abuse or neglect.
The study by Alison Steube and colleagues, presented at the 2016 meeting of the Society of Biological Psychiatry, suggests that traumatic events that occur during childhood may have long-lasting effects. These experiences may modulate the secretion of oxytocin in adulthood. Low oxytocin has been linked to depression.
Oxytocin, a hormone that promotes emotional bonding, also benefits people having trouble dealing with stress. A new study suggests that giving oxytocin for a week shortly following a traumatic experience reduces the risk that the recipient will develop post-traumatic stress disorder (PTSD).
In the study by researcher Mirjam van Zuiden and colleagues, people who visited an emergency room following some kind of trauma were randomized to receive either a placebo nasal spray or intranasal oxytocin twice daily for 7.5 days beginning within 12 days after the trauma. The dosage was 40 IU twice daily.
For those participants with severe PTSD symptoms at baseline, repeated oxytocin administration prevented worsening PTSD. The research was presented at the 2016 meeting of the Society of Biological Psychiatry.
In a new study by Keiho Owada and colleagues, 18 people with autism spectrum disorders had more neutral facial expressions and fewer surprised expressions than 17 typically developing people while interacting socially. Oxytocin, a hormone that promotes social bonding, was delivered to the autism group via a nasal spray for six weeks, and made the faces of the people with autism more expressive. Oxytocin also improved their reciprocity in social interactions and increased activity in the dorsomedial prefrontal cortex, as observed via functional magnetic resonance imaging (fMRI).
The study suggests not only that oxytocin can normalize facial expressions, but also that the counting of facial expressions on videos of social interactions can be used as a measure of social symptoms of autism. The research was presented at the 2016 meeting of the Society of Biological Psychiatry.
Oxytocin, the hormone that promotes emotional bonding, also regulates a variety of behaviors. Two recent studies suggest that in rats, an injection of oxytocin can prevent drug-seeking behavior.
In the first study, researcher Gary Aston-Jones found that oxytocin reduced the rats’ interest in methamphetamine. The effect was strongest in the rats that started out with the strongest interest in the methamphetamine.
In the second study, researcher Luyi Zhou and colleagues determined that oxytocin also reduced cocaine-seeking behavior in rats. In addition, the oxytocin reversed changes in the brain’s glutamate signaling pathway that were caused by cocaine use.
Both studies, which were presented at the 2016 meeting of the Society of Biological Psychiatry, suggest that oxytocin is a promising potential treatment for drug addictions.
Recent studies have indicated that bipolar disorder is associated with changes to brain volume, including thinning of the cortex. In research presented at the 2016 meeting of the Society of Biological Psychiatry, researcher Noha Abdel Gawad reported that four weeks of lithium treatment increased cortical thickness in the left superior frontal gyrus. This is the third replication of this finding.
Other research has established that lithium treatment also increases the volume of the hippocampus in people with bipolar disorder. Together the findings provide strong evidence that lithium treatment protects neurons and can reverse brain changes associated with bipolar disorder.
Telomeres are repeated DNA sequences that sit at the end of chromosomes and protect the DNA as it is replicated. Depressive episodes and age can reduce the length of telomeres. Lithium treatment increases telomere length. At the 2016 meeting of the Society of Biological Psychiatry, researcher Martin Schalling reported that the longer a patient takes lithium, the more their telomere length increases.
According to Schalling, people who respond well to lithium treatment show greater increases in telomere length than those who respond poorly to lithium.
While some cancers are associated with long telomeres, lithium use has not been found to increase cancer risk. In fact, lithium treatment can decrease the risk of certain cancers of the gastrointestinal, respiratory, and endocrine systems.
PANS is a neuropsychiatric syndrome characterized by the acute onset of obsessive compulsive and other abnormal behaviors, tics, and mood changes that appear in a child following a bacterial or viral infection. PANS refers to any pediatric acute-onset neuropsychiatric syndrome of this type, while PANDAS refers more specifically to such a syndrome that occurs after exposure to streptococcal infections.
New research suggests that treatment with the antibiotic azithromycin can treat PANS. In a study presented at the 2016 meeting of the Society of Biological Psychiatry, Tanya K. Murphy and colleagues found that among 32 children aged 4–14 who showed obsessive compulsive symptoms following an infection, those who were given a 4-week course of azithromycin (10mg/kg of body weight, up to 500 mg/day) saw a 26% drop in symptoms, compared to a 1% drop in symptoms in those who received placebo instead.
At the end of the four weeks, 38.9% of the azithromycin group were classified as much improved or very much improved, while no one in the placebo group achieved this level of improvement. Azithromycin treatment increased the QTc interval (a measure of heart rate) and pulse in the study participants, but did not have any other notable side effects.
PANS is thought to arise from an immune response to infection that goes awry and begins attacking neurons in the brain, particularly in the thalamus. For a more complete review of PANS, see several of our earlier articles about PANS and an excellent review article by researcher Kiki Chang and colleagues in the Journal of Child and Adolescent Psychopharmacology in 2015.
It is important to work up a child suspected of having PANS, as the syndrome does not usually respond to conventional psychiatric treatment and often requires anti-inflammatory drugs (steroids or immunosuppressants), intravenous immunoglobulin (IVIG), plasma exchange, the TNF alpha blocker infliximab, or antibiotics.
It has been clear for some time that depression and inflammation are linked. This has led researchers to explore a variety of anti-inflammatory agents to treat depression. A meta-analysis of studies examining anti-inflammatory treatments for bipolar depression was published in the journal Bipolar Disorders in 2016.
Researcher Joshua D. Rosenblat and colleagues identified eight randomized controlled trials that met their criteria for anti-inflammatory treatments of bipolar disorder. These treatments included nonsteroidal anti-inflammatory drugs (NSAIDs such as ibuprofen and aspirin), omega-3 fatty acids, the antioxidant N-acetylcysteine, and pioglitazone (used to treat diabetes). Overall, the anti-inflammatory treatments had a moderate and statistically significant antidepressant effects. No serious side effects were reported, and the anti-inflammatory treatments did not cause a switch into mania in any of the participants.
The diversity of the anti-inflammatory treatments reviewed in this meta-analysis limit the extent to which it can be interpreted, but it is clear that more research on anti-inflammatory treatments for bipolar depression is needed. An open question is whether patients with particularly elevated levels of inflammatory markers in their blood would respond better to these anti-inflammatory treatments.