What is really annoying me about this whole Bipolar thing is that I might not even have the wretched illness!! For all I or anyone else knows, I could have been misdiagnosed. My friends and family and others who meet me are all still adamant that I don’t have the condition as I don’t exhibit any of the symptoms. Even my partner, who is himself Bipolar, does not think that I have the condition as I am “too well”.

This makes it very difficult to accept the fact that my children have been told that I am not capable of looking after them full time. If I don’t have this condition, then presumably I’m capable of looking after them. It would also clear my medical records enabling me to find work and drive without all the scrutiny that I am currently subjected to.

So, I’ve been doing some research about whether there are other tests available to prove or disprove the presence of any Bipolar condition that I may have. If I do have it, then it may indicate the severity or mildness of it. If I don’t have it, them I’m off back to court to challenge the decision.

The following paragraphs are based on various articles that I have read but I haven’t attributed them as they were wrong in places so I have edited them eg they state that “all Bipolar sufferers have extreme and severe mood shifts from mania to depression.” As you and I all know, that is simply not true for all of us sufferers who experience a very individual set of symptoms. Anyway, do read on….

Bipolar Disorder and the Brain

Bipolar disorder and the shifts in mood that come with it can ruin lives. It often goes unrecognized as an illness and people can suffer for years before it’s properly diagnosed and treated. Now, however, new research that analyzes the bipolar brain could lead to better diagnostic techniques and improved treatment. Recently researchers discovered that abnormalities in certain brain areas that govern emotion can occur in those with the ailment. These findings and others may eventually provide researchers with new tools to diagnose and treat the ailment earlier and more effectively.

More than 2 million Americans and around 1 million Britons have bipolar disorder and the shifts in mood that come with it. Those with the illness in its most severe form (Bipolar 1) can cycle between episodes of manic highs and severe depression that can damage relationships and job or school performance. Those with the less severe form (Bipolar 2) have fewer marked mood shifts but they too can benefit from treatment.

People with bipolar disorder can suffer for years before their illness is properly diagnosed and treated. This may soon change, however, thanks to new research that analyzes the bipolar brain. The findings are leading to a better understanding of the cause of bipolar disorder.The development of biology-based diagnostic techniques that could identify the disorder early and provide insights into how to improve treatment.Currently, bipolar disorder cannot be identified biologically with a simple blood test or brain scan. Instead, a diagnosis is made primarily on the basis of symptoms discussed in the doctor’s office. The disorder often goes unrecognized as an illness for years, but once diagnosed many people with bipolar disorder can be treated with medication. Commonly doctors prescribe drugs that stabilize mood, such as lithium, along with drugs that ease depression.To help speed detection and improve treatment, scientists recently began to scrutinize the bipolar brain and uncover biological signs of the disorder. Some research reveals abnormalities in areas that govern emotions. For example, techniques that imaged the brain indicated that emotional areas deep inside, known as the amygdala and hippocampus, can be smaller in both adolescents and adults with bipolar disorder. This suggests that brain changes are an early feature of the disorder. Other studies that examined brain anatomy and brain activity indicate that those with bipolar disorder can have abnormalities in areas toward the front of the brain that process emotions, including the orbitofrontal cortex and the anterior cingulate. In other work, researchers uncovered some early insight into the roots of these abnormalities by studying genes. Our genes guide the production of proteins that run brain development and function. One study found evidence that a variation of gene, known as BDNF, which produces a factor involved in the development of brain structures like the ones found to be abnormal in bipolar disorder, may increase a person’s risk of developing the illness. Researchers also are examining possible links to many other genes involved in cell survival and development. With continued study, this research may help scientists find ways to detect bipolar disorder earlier and intervene earlier. For example, researchers imagine that in the future they will be able to develop a simple brain scan that identifies suspect brain alterations or devise a blood test that signals that brain changes exist. And perhaps once the genes behind the disorder are clarified, a test could be developed to detect them early.The discoveries surrounding the biological contributors of bipolar disorder also highlight where to focus new treatment development and could help doctors modify existing therapy regimens to match an individual’s particular abnormality. In the end, the research may translate into more peaceful days and longer lives for many.

Research reveals that people with bipolar disorder can harbor abnormalities in brain areas that govern emotions, including the orbitofrontal cortex, which lies behind the eyes and aids complex emotional thinking. In one imaging study, researchers examined brain activity while people with bipolar disorder and healthy individuals conducted a task that tests thinking ability. In general, the activity in the area was abnormal in bipolar patients compared to the healthy participants. Researchers also found that when patients were experiencing depression the activity was abnormally high, shown by the yellow and red coloring at the top of the left brain image. When patients were experiencing manic highs the activity was abnormally low, shown by the blue and purple coloring in the right brain image.