Summary: A recent study proposes a new theory that states ADHD may be linked to problems with regular circadian sleep. Researchers found in 75% of people with ADHD, the physiological sleep phases was delayed by 1.5 hours.

Source: European College of Neuropsychopharmacology.

Around 75% of children and adults with Attention Deficit Hyperactivity Disorder (ADHD) also have sleep problems, but until now these have been thought to be separate issues. Now a in a pulling together of the latest research, Scientists are proposing of a new theory which says that much of ADHD may in fact be a problem associated with lack of regular circadian sleep.

Presenting the proposal at the ECNP Conference in Paris, Professor Sandra Kooij (Associate Professor of Psychiatry at VU University Medical Centre, Amsterdam and founder and chair of the European Network Adult ADHD) said:

“There is extensive research showing that people with ADHD also tend to exhibit sleep problems. What we are doing here is taking this association to the next logical step: pulling all the work together leads us to say that, based on existing evidence, it looks very much like ADHD and circadian problems are intertwined in the majority of patients.

We believe this because the day and night rhythm is disturbed, the timing of several physical processes is disturbed, not only of sleep, but also of temperature, movement patterns, timing of meals, and so on.

If you review the evidence, it looks more and more like ADHD and sleeplessness are 2 sides of the same physiological and mental coin”.

Professor Kooij laid out the links which have led to the synthesis:

In 75% of ADHD patients, the physiological sleep phase — where people show the physiological signs associated with sleep, such as changes in the level of the sleep hormone melatonin, and changes in sleep-related movement – is delayed by 1.5 hours.

Core body temperature changes associated with sleep are also delayed (reflecting melatonin changes)

Many sleep-related disorders are associated with ADHD, including restless-leg syndrome, sleep apnea, and the circadian rhythm disturbance, the delayed sleep phase syndrome

ADHD people often show greater alertness in the evening, which is the opposite of what is found in the general population

Many sufferers benefit from taking melatonin in the evening or bright light therapy in the morning, which can help reset the circadian rhythm

Recent work has shown that around 70% of adult ADHD sufferers show an oversensitivity of the eyes to light, leading many to wear sunglasses for long periods during the day – which may reinforce the problems associated with a ‘circadian shift’.

Chronic late sleep leads to a chronic sleep debt, associated with obesity, diabetes, cardiovascular disease and cancer. This cascade of negative health consequences may in part be preventable by resetting the sleep rhythm.

Professor Kooij continued:

“We are working to confirm this physical-mental relationship by finding biomarkers, such as Vitamin D levels, blood glucose, cortisol levels, 24 hour blood pressure, heart rate variability, and so on. If the connection is confirmed, it raises the intriguing question: does ADHD cause sleeplessness, or does sleeplessness cause ADHD? If the latter, then we may be able to treat some ADHD by non-pharmacological methods, such as changing light or sleep patterns, and prevent the negative impact of chronic sleep loss on health.”

“We don’t say that all ADHD problems are associated with these circadian patterns, but it looks increasingly likely that this is an important element.”

Commenting, Professor Andreas Reif (University Hospital, Frankfurt, and leader of the EU CoCA project on ADHD ), who was not involved in the research, said “A disturbance of the circadian system may indeed be a core mechanism in ADHD, which could also link ADHD to other mental illnesses such as depression or bipolar disorder. But also beyond these pathophysiological considerations, sleep problems and abnormalities of circadian rhythms are a huge problem for many patients, heavily impacting on their social life” He continued “More research into the interconnections between ADHD and the “inner clock” is thus very relevant to improve patients’ lives and to shed light on the disease mechanism of ADHD.”

About this neuroscience research article

Note: Attention deficit hyperactivity disorder (ADHD) is a group of behavioural symptoms with a neurobiological background, that include inattentiveness, hyperactivity, mood swings and impulsiveness. ADHD is highly heritable, and several differences in brain volume and function have been shown compared to controls. Symptoms of ADHD tend to be noticed at an early age and may become more noticeable when a child’s circumstances change, such as when they start school. Most cases are diagnosed when children are 6 to 12 years old, but ADHD is also increasingly recognised in adults and older people, as ADHD can persist during the lifespan. People with ADHD often have additional problems, such as sleep, mood- and anxiety disorders. Between 2 and 5 % of children, adults and older people suffer from ADHD.

Funding: The research was supported by Dutch Expertise Center Adult ADHD.

Source: European College of Neuropsychopharmacology

Image Source: NeuroscienceNews.com image is in the public domain.

Original Research: The study will be presented at the 30th ECNP Congress for Applied and Translational Neuroscience in Paris, France.

Cite This NeuroscienceNews.com Article

[cbtabs][cbtab title=”MLA”]European College of Neuropsychopharmacology “Is ADHD Really a Sleep Problem?.” NeuroscienceNews. NeuroscienceNews, 3 September 2017.

<https://neurosciencenews.com/adhd-sleep-7404/>.[/cbtab][cbtab title=”APA”]European College of Neuropsychopharmacology (2017, September 3). Is ADHD Really a Sleep Problem?. NeuroscienceNew. Retrieved September 3, 2017 from https://neurosciencenews.com/adhd-sleep-7404/[/cbtab][cbtab title=”Chicago”]European College of Neuropsychopharmacology “Is ADHD Really a Sleep Problem?.” https://neurosciencenews.com/adhd-sleep-7404/ (accessed September 3, 2017).[/cbtab][/cbtabs]

Abstract

Glia relay differentiation cues to coordinate neuronal development in Drosophila

Neuronal birth and specification must be coordinated across the developing brain to generate the neurons that constitute neural circuits. We used the Drosophila visual system to investigate how development is coordinated to establish retinotopy, a feature of all visual systems. Photoreceptors achieve retinotopy by inducing their target field in the optic lobe, the lamina neurons, with a secreted differentiation cue, epidermal growth factor (EGF). We find that communication between photoreceptors and lamina cells requires a signaling relay through glia. In response to photoreceptor-EGF, glia produce insulin-like peptides, which induce lamina neuronal differentiation. Our study identifies a role for glia in coordinating neuronal development across distinct brain regions, thus reconciling the timing of column assembly with that of delayed differentiation, as well as the spatiotemporal pattern of lamina neuron differentiation.

“Glia relay differentiation cues to coordinate neuronal development in Drosophila” by Vilaiwan M. Fernandes, Zhenqing Chen, Anthony M. Rossi, Jaqueline Zipfel, and Claude Desplan in Science. Published online September 1 2017 doi:10.1126/science.aan3174

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