Lithium is known for protecting neurons by inducing neurotrophic factors and inhibiting cell death factors. In a new study, other mood-stabilizing drugs had similar neuroprotective and neurotrophic effects on cultured neurons from the hippocampus.
At the 2014 meeting of the International Society for Bipolar Disorders, CH Lee et al. presented evidence that lithium, carbamazepine, valproic acid, and lamotrigine all increase the outgrowth of dendrites from these cultured neurons. Therapeutic levels of these drugs increased the production of proteins like brain-derived neurotrophic factor (BDNF), postsynaptic density protein-95 (PSD-95), neurolignin 1 (NLG 1), beta-neurexin, and synaptophysin. However, so far only lithium has been shown to increase the volume of the human hippocampus as measured with MRI.
At the 2014 meeting of the International Society for Bipolar Disorder, researcher Kiki Chang discussed Pediatric Acute Onset Neuropsychiatric Syndromes (PANS), a newly identified phenomenon in which children suddenly develop obsessive compulsive disorder (OCD) and/or a restrictive eating disorder following an infection or other process that stimulates an immune/inflammatory reaction in the brain. A similar phenomenon, Pediatric Autoimmune Neuropsychiatric Disorders Associated with Streptococcal Infections (PANDAS), was initially identified by Susan Swedo of the National Institute of Mental Health (NIMH) and refers to children (usually under 6–10 years old) who develop OCD and/or tics following a case of strep throat or scarlet fever.
PANS may have an autoimmune component. In addition to acute onset of OCD and eating restriction, other symptoms include mood episodes (depression, mania), high aggression/irritability, anxiety (particularly separation anxiety), cognitive problems (ADHD, handwriting regression), regressive behaviors, and somatic signs such as sleep difficulties and urinary urgency. Biological abnormalities may include: abnormalities in red blood cell sedimentation rate, elevated C-reactive protein (CRP), high Anti DNase B and/or Antistreptolysin O (ASO) titers (anti-Streptococcus antibodies), mycoplasma IgG or IgM antibodies (signs of some types of pneumonia), ANA (antinuclear antibodies, sign of an autoimmune disease), ferritin (a protein that stores iron), copper, and a panel of tests (the Cunningham Panel) by the company Moleculera Labs that measures antibodies for four neural antibodies (dopamine D1 receptors, dopamine D2 receptors, lysoganglioside (LysoGM-1), and tubulin) and calcium/calmodulin-dependent protein kinase activity (CaMKII).
PANS is three times more likely to affect males than females, and in the Stanford PANS Clinic sample of 50 youth, PANS was associated with strep infections (65%), mycoplasma bacteria (13%), viral or urinary tract infection (58%), and ear and other infections in 16%.
Symptoms included OCD (86%), anxiety (92%), mood disturbance (88%), and aggression (82%).
Treatments include steroids, the immunosuppressant mycophenolate, intravenous immunoglobulin (IVIG), plasma exchange, the tumor necrosis factor blocker infliximab, and sometimes the antibiotic amoxicillin.
Chang also described a case in which a 15-year-old developed minocycline-induced OCD and acute onset of severe mania that included urinary incontinence and was unresponsive to medication. The patient had elevated ANA, anti-thyroid antibodies, and reduced complement C4 proteins, along with elevated antibodies to dopamine D1 and D2 receptors, LysoGM-1, and tubulin.
Resilience is the ability to cope with adversity. While its role in anxiety disorder, post-traumatic stress disorder (PTSD), and unipolar depression has been investigated, there have been few studies of resilience in bipolar disorder.
A recent study presented by B. Cha et al. at the 2014 meeting of the International Society for Bipolar Disorders found that even euthymic patients with bipolar disorder show low levels of resilience (as rated on the Connor-Davidson Resilience Scale). Patients with a history of prior bipolar episodes had greater impulsivity (measured on the Barratt Impulsion Scale) and lower resilience than participants in a control group. Impulsivity in bipolar disorder was associated with lower resilience. Higher Clinical Global Impressions (CGI) scores, greater number of prior depressive episodes, and more impulsiveness were associated with lower resilience scores.
Both high impulsiveness and low resilience may be trait-related phenomena even in patients who have recovered from bipolar disorder. Number of prior depressive episodes is also associated with more cognitive impairment on multiple tests of executive functioning, attention, learning, and memory. Therapy aimed at problem solving and coping skills might help build resilience.
Patients with Bipolar Disorder More Creative; Creativity Associated with Worse Functional Connectivity of Brain Regions
While bipolar disorder can be a devastating illness, multiple studies indicate it is also associated with high levels of creativity. Researchers T. Su and Y. Kuan compared highly creative and normally creative patients with bipolar disorder to healthy controls with either normal or high creativity in the hopes of clarifying some characteristics of creativity in bipolar disorder. At the 2014 meeting of the International Society for Bipolar Disorders, the researchers reported finding greater creativity in patients with bipolar disorder compared to normal controls, and that high creativity was associated with altered functional connectivity of two regions of the brain: the medial prefrontal cortex and the striatum.
The researchers hope to contribute to treatment solutions that can help patients with bipolar disorder reduce their emotional disturbance without losing their more positive cognitive functions like creativity.
Editor’s Note: Benson et al. found that compared to normal controls, bipolar patients had more positive hyperconnectivity of many brain regions using positron emission tomography (PET) scans with fludeoxyglucose to measure brain activity. Su and Kuan used functional magnetic resonance imaging (fMRI) and found less connectivity of these two regions. How these differences relate to bipolar disorder and its links to creativity remain to be further studied.
According to researcher David J. Bond at the 2014 meeting of the International Society for Bipolar Disorders, “Up to 75% of people with bipolar disorder (BD) are overweight or obese, and these patients suffer more severe psychiatric symptoms than normal-weight patients, including more frequent depressions, more suicide attempts, lower response rates to pharmacotherapy, and greater inter-episode cognitive impairment.” Obesity is a chronic inflammatory condition that damages body organs, and it appears as though the brain may be one of these. Adipose (fatty) tissue is an endocrine organ that produces substances that cause inflammation in blood vessels and that damage the heart.
Obesity is associated with decreased total brain volume, and in children, decreased gray matter volume. Obesity increases the risk of cognitive impairment, and decreases memory, attention, and executive functioning. Obesity increases the risk of Alzheimer’s disease, as well as multiple sclerosis, Parkinson’s, and depression.
In bipolar disorder, obesity decreases response to mood stabilizers and atypical antipsychotics. Bond found that in patients with a first episode of mania, body mass index (BMI) was inversely related to white matter volume and temporal lobe gray matter volume. Higher BMIs also led to neurochemical changes including increased hippocampal glutamate and reduced N-acetylaspartate. Bond also noted findings by Roger S. McIntyre that weight loss surgery in patients with bipolar disorder led to more positive treatment outcomes.
Editor’s Note: These findings speak to the importance of exercise and good diet, using medications with the least likelihood of weight gain, and treating obesity once it has developed. We have previously noted the weight loss effects of topiramate and zonisamide, and new data support the substantial weight loss with the combination of bupropion (150-300mg) and naltrexone (50mg).
While past research on mood disorders has targeted structural and functional abnormalities in the brain, newer research has considered targets such as inflammation, metabolism, and cell resilience. Exercise can have positive effects on systems that regulate metabolism, immune function, and cellular respiration, and therefore improve affective and cognitive difficulties.
At the 2014 meeting of the International Society for Bipolar Disorders, Mohammad Alsuwaidan presented a meta-analysis of the effects of exercise in mood disorders gleaned from English-language studies between 1966 and July 2008. Exercise increased brain norepinephrine, serotonin, and phenylethanolamine (PEA).
Alsuwaidan believes runner’s high, the feelings of euphoria people often experience after strenuous exercise, may not be linked to opiate (or endorphin) release, as most people believe, but instead to release of PEA or the cannabinoid anandamide, which activates CB 1 cannabinoid receptors, decreases GABA, and increases dopamine in the nucleus accumbens, the reward center of the brain.
Exercise also increases neurogenesis and the production of brain-derived neurotrophic factor (BDNF), which supports the growth of neurons and synapses. Marathon runners also have a post-race elevation in the anti-inflammatory cytokines IL-10 and IL-1Ra.
In people who are out of shape, exercise increases oxidative stress and other toxicities that do not occur with in those who exercise more regularly. Alsuwaidan extolls the benefits of high impact exercise five to seven times per week, and engaging a trainer to encourage exercise. Four minutes of intense exercise (such that you sweat and are not able to talk) is about equal to 45 minutes of mild exercise.
Researchers are exploring the therapeutic potential of nutraceuticals, or nutritional treatments. Folate, also known as folic acid or vitamin B9, is one of the most important nutritional elements for mental health.
The folate found in foods such as dark leafy greens must be broken down further in order to be used in the body. Folate first breaks down into dihydrofolate (DHF), which is turned into tetrahydrofolate (THF). At the 2014 meeting of the International Society for Bipolar Disorders, researcher J.H. Baek described a pathway by which THF is turned into a form called 5,10 MTHF, which is turned into a form called 5 MTHF. 5 MTHF is important for the function of the enzyme tryptophan hydroxylase and for clearing homocysteine, an amino acid that is cardio- and neuro-toxic.
L-methylfolate, the active ingredient in the medication Deplin, is an already-broken-down form of folate that the brain can use more readily than the folate from food. L-methylfolate is converted directly to 5 MTHF, so it is effective in 15% to 35% of the normal population who have a deficiency in the enzyme MTHF reductase, which converts THF to 5 MTHF. One genetic variant (a C to T allele variation 677) that results in one type of deficiency in MTHF reductase has a 42% incidence among Asians, 34% among Caucasians, and 8% among Africans, and these individuals would benefit from l-methylfolate.
Folate and Medications for Bipolar Disorder
Certain medications lead to deficits in folate, so patients should consider taking a nutritional supplement.
The anticonvulsant drug lamotrigine inhibits the conversion of folate to DHF and DHF to THF, so folate supplementation is a good idea for those patients taking lamotrigine.
The mood stabilizer valproate inhibits the conversion of toxic homocysteine to methionine and then to s-adenosyl methionine (SAMe), which acts like an internally-produced antidepressant. Thus valproate increases homocysteine, and patients on valproate should be routinely treated with folate and vitamin B12 to help lower homocysteine levels in the blood.
Folate supplements are recommended for depressed patients who are having an inadequate response to antidepressants, since the nutrient helps antidepressants work better even when patients do not have a folate deficiency. Researcher Andrew Stoll recommends folate (1mg for women and 2mg for men). However, those patients who have one of the genetic conditions that leads to a deficiency in MTHF reductase should take l-methylfolate instead of regular folate. Researcher Mauricio Fava and colleagues showed that l-methylfolate at doses of 15mg (but not 7.5mg) was more effective than placebo in patients with unipolar depression.
Vitamin D plays an important role in many brain functions, including synapse creation, calcium signaling, reduction of free radicals, neurotransmitter production, immune regulation, and brain development. Deficiencies in vitamin D have been linked to depression and schizophrenia. Some research has suggested that vitamin D supplementation can improve depressive symptoms, but there is still debate about a possible role for vitamin D in treating bipolar disorder.
At the 2014 meeting of the International Society for Bipolar Disorders, researcher Baseok Cha discussed the importance of vitamin D supplementation in bipolar patients, who often have deficient or insufficient levels. People receive 50 to 90% of their vitamin D from sunlight, and the rest from diet and supplements. Too much sunscreen can be a problem if it prevents a person from receiving enough vitamin D from sunlight.
The type of vitamin in supplements, D3, is converted to 25 hydroxy vitamin D in the liver, and then to 1,25 hydroxy vitamin D in the kidney. Levels of 25 hydroxy vitamin D below 20 indicate deficiency while levels between 20 and 29 indicate insufficiency. Low levels of 25 hydroxy vitamin D3 in newborns is a risk factor for schizophrenia, and vitamin D supplementation reduces this risk. Fish oils increase vitamin D, and it is possible that some of the therapeutic effects of omega-3 fatty acids in depression relate to vitamin D.
Two out of four recent studies of vitamin D supplementation have been positive, the last by Khoraminya et al. in the Australia and New Zealand Journal of Psychiatry in 2013, in which daily doses of 1,500 IU were used. Cha et al. found significantly lower levels of 25 hydroxy vitamin D in a Korean study of 21 patients with schizophrenia, 86 patients with bipolar disorder, and 42 patients with depression (mean levels about 15 µg/ml) compared to 31 controls (mean levels about 20 µg/ml).
Vitamin D plays an important role in the nervous system, regulating the production of neurotrophins, calcium channels, and calcium binding proteins, and it may have antidepressant effects. Researchers are learning more about how the vitamin’s effects take place.
At the 2014 meeting of the International Society for Bipolar Disorders, Yilmazer et al. reported that vitamin D treatment increased the production of glia-derived neurotrophic factor (GDNF). Neurotrophins like GDNF enhance the survival and growth of neurons. Since other neurotrophins (i.e. brain-derived neurotrophic factor (BDNF) and vascular endothelial growth factor (VEG-F)) are low in depression, vitamin D’s effect on GDNF could be important to its antidepressant effects.
Until now, there has been little research about treating obsessive compulsive symptoms in people with bipolar disorder.
In a recent four-month double-blind placebo-controlled randomized clinical trial presented by Sharaian et al. at the 2014 meeting of the International Society for Bipolar Disorders, topiramate was more effective than placebo at reducing these symptoms in patients with bipolar disorder when added to their regular treatment. Nine of 17 study participants responded to topiramate (53%), while only two of 16 responded to placebo (12.5%).
Editor’s Note: These findings add to the list of comorbidities that topiramate may help with, even though it does not have any efficacy in the treatment of mania itself. Topiramate has helped with avoidance of cocaine and alcohol, bulimia and weight gain, anger attacks, and now obsessive compulsive disorder (OCD). Topiramate is also FDA-approved for migraine prevention in adolescents and adults.