Wired a bit differently? How the Alexander technique can help

Highly sensitive, intense, quirky, creative, gifted, or neurodivergent?

Some people’s brains and nervous systems function slightly differently from the norm. We might say they are ‘wired differently’ or that they have ‘neurological differences’ (differences in the neurological structuring of their brains and nervous systems) compared with the typical person. This article is for those with neurological differences and who may have some differences in cognitive function, sensory processing, communication and learning styles, and behaviours from the norm. It tells you how the Alexander technique might be able to help you.

The nervous system

The nervous system uses tiny nerve cells, or neurons, to send messages to and from the brain, through the spinal cord to the nerves throughout the body. Neurons connect to each other and to other cells, via synapses, which carry electrical signals, and neurotransmitters, which are chemical messengers in the body.[1]

Billions of neurons work together to create a communication network. Different types of neurons perform different tasks. Sensory neurons send sensory feedback from the eyes, ears, nose, tongue, and skin to the brain. This information is processed by the brain (itself a network of many neurons), which then uses motor neurons carry electrical signals from the brain to the rest of the body to allow the muscles to move. These connections, or pathways, of neurons make up the way we think, learn, feel, move, and behave. They control how our bodies function – regulating our breathing, digestion, sweating, shivering, and the beating of our hearts.[1]

Neuron firing.

When you are wired a bit differently

People’s brains and nervous systems vary and can function in different ways.

For the average person, their brain and nervous system function, information processing, and behaviour tends to meet the signposts set by society for developmental growth. One term used for a person with a fairly typical neurology is ‘neurotypical’. While those whose brain and nervous system function veers outside these parameters, either slightly or significantly, might be called ‘neurodivergent’.[2]

‘Neurodivergence’ is a non-medical umbrella concept increasingly used to describe people with neurological variations and differences in brain function from the norm. It includes conditions such as autism or other neurological or developmental conditions such as attention deficit hyperactivity disorder. Those who are neurodivergent tend to have some differences in cognitive function, sensory processing, communication and learning styles, and behaviours from the average person.[2]

Brain variations can include:[3],[4],[5],[6]

  • larger or smaller regional brain volumes

  • greater or lesser connectivity across and within particular brain regions

  • greater or lesser volumes of grey matter

  • greater or lesser brain activation

  • greater or lesser sensory sensitivity

  • greater or lesser brain areas associated with emotional processing

  • greater or lesser brain areas that actively respond to challenges.

Some types of neurodivergence are included below. The list is not comprehensive. Remember people can fit multiple overlapping categories, and that the labels are less important than the person – and what can be done to help overcome particular challenges.

Wiring.

Autism

Autism is a neurological condition that appears before 3 years of age. Its formal diagnostic name is autism spectrum disorder, or ASD. The term ‘spectrum’ indicates autism appears in different forms, with varying levels of severity. This means each person with autism has their own unique characteristics, strengths, and challenges.[7]

Autistic people have areas of their brains that may have greater or lesser internal connectivity than the norm. They may also have increased or decreased connections between brain areas. These neurological differences in their brains can cause delays in processing sensory information and integrating it. In comparison to the norm, larger areas of their brains also tend to fire for each sensory experience. As such, light, sound, and touch may be experienced more intensely than they would for people with more typical neurology.[8]

Because people with autism have problems with processing sensory information, it takes less stimulus for them to be overloaded than it does a more typical person. Depending on the extent of a person’s autism, their sensory experiences may be amplified to the point that they become incapacitating.[8] Autistic people can also tend to have higher interoceptive sensibility or sensitivity where they struggle to tolerate some internal body sensations.[9] (Please see my page on the senses and sensory processing for more information about interoception.)

Their experience of some sensations, like pain or extreme temperatures, may also diminish if their brains get stimulated to the point where they cannot process the sensory information. Their heightened sensitivity to stimuli, together with living with overwhelm and elevated stress levels for long periods of time, tends to lead to heightened stress responses. When an autistic person is pushed beyond their ability to cope with stress, this can cause panic attacks, often referred to as ‘meltdowns’. Many people with autism develop post-traumatic stress. Difficulties with processing and integrating sensory information can also lead to delays in social, emotional, and sometimes academic development.[8]

While the specific characteristics vary for each person with autism, the neurological differences and related sensory processing problems tend to result in the following autistic behaviours:[7]

  • reduced social communication and interaction – as seen through reduced verbal and non-verbal communication, reduced eye contact, lack of facial expressions, differences in ‘body language’ (postural behaviour), children not engaging in imaginative play, and lack of interest in peers or in making friends

  • repetitive behaviours, activities, and routines, and also repeating gestures or sounds – these are often stimming activities to help reduce and cope with sensory overload by allowing the autistic person to be in control of the stimulus they receive

  • a tendency towards black and white thinking, extreme concentration and task focus (hyperfocus), and intense interests.

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Sensory processing disorder (SPD)

Sensory processing disorder, or SPD, is another neurological condition that also creates a wide array of sensory processing challenges. The behavioural differences seen in SPD are not as pronounced as those seen in autism. Please see my page on the senses and sensory processing. I go into depth about sensory processing issues and the variety of manifestations of SPD there.

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Developmental coordination disorder (DCD), also called dyspraxia

Developmental coordination disorder, or DCD, also known as dyspraxia, is a subtype of sensory processing disorder. DCD results from sensory-based motor (muscular) differences where a person’s body simply doesn’t do what their brain tells them to do, and this makes it challenging for people to move through the world around them. See my page on the senses and sensory processing for more detail.

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Attention deficit hyperactivity disorder (ADHD)

Attention deficit hyperactivity disorder, or ADHD, is a neurological condition. ADHD affects the brain and nervous system, like all neurological conditions, but it also affects brain development.[4] Genetic and environmental factors can also contribute.[10]

ADHD is marked by ongoing inattention and/or hyperactivity/impulsivity that interferes with functioning or development. There are three subtypes:[11]

  • primarily inattentive – the majority of symptoms fall under inattention; this used to be called attention deficit disorder (or ADD)

  • primarily hyperactive/impulsive – the majority of symptoms are hyperactive and impulsive

  • combined – a mix of both inattentive symptoms and hyperactive/impulsive symptoms.

People with ADHD experience the following types of symptoms:[11],[12],[13]

  • inattention – where the person has difficulty staying on task, sustaining focus, and staying organised, and this is not due to lack of knowledge or defiance

  • hyperactivity – where the person seems to move constantly, or talks, taps, and fidgets excessively; in adults, it may mean talking too much or extreme restlessness

  • impulsivity – where the person tends to act without thinking or has difficulty with self-control, and includes a desire for immediate rewards or inability to delay gratification; an impulsive person may interrupt others or make decisions without considering long-term consequences

  • emotional dysregulation – where the person struggles to regulate their emotions (anger, anxiety, sadness, etc); this may appear to others as exaggerated emotions, mood swings, or extremely emotional reactions to small setbacks or challenges

  • executive dysfunction – where the person struggles to organise thoughts, activities, and belongings, and to regulate their behaviour in a way that helps them accomplish long-term goals; they struggle to prioritise important tasks, manage time efficiently, and make effective decisions

  • hyperfocus – where the person has a heightened, focused attention on an activity for an extended period, combined with diminished perception of their environment; depending on the circumstances, this can be either beneficial or harmful and may need moderation.

Sensitivity and sensory overload are also issues in ADHD. With ADHD, sensitivity shows up differently. High stimulation is both exciting and confusing for people with ADHD. They get overwhelmed and overstimulated easily without realising they are approaching that point. Along with sensory processing and sensory regulation, emotional regulation becomes difficult, which accounts for some of the sensory overload or ‘meltdowns’ common in ADHD as well as autism. There’s a shared experience of gradual sensory overwhelm, and then having to recover.[14]

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Synaesthesia

Synaesthesia is a neurological condition in which stimulation of one sensory or cognitive pathway leads to automatic, involuntary sensory or cognitive experiences in a second pathway. To put it simply, when one sense is activated, a second unrelated sense is activated at the same time (eg, you may hear music and also sense the sound as patterns of colour).[15]

There are two main categories of synaesthesia:[16]

  • projective synaesthesia – where the person literally hears, sees, feels, smells, or tastes the second sensation that is triggered by the initial sensory stimulus

  • associative synaesthesia – where the person feels a strong, involuntary connection between the two senses, rather than actually experiencing them.

While nearly any sensory combination is possible, the most well-known types of synaesthesia include:[15],[16],[17]

  • auditory–tactile synaesthesia – where sounds can prompt specific tactile bodily sensations in various parts of the person’s body (eg, tingling on the back of the neck)

  • chromesthesia (also known as sound-to-colour synaesthesia) – where certain sounds (eg, music or a car honking) can trigger the person to see colours

  • grapheme–colour synaesthesia – where the person associates letters or numbers with specific colours (eg, red and the number five)

  • lexical–gustatory synaesthesia – where the person associates hearing certain words with a distinct taste

  • spatial sequence synaesthesia (also known number–form synaesthesia) – where the person sees numbers or numerical sequences as points in space (eg, close or far away) or in a mental map

  • ordinal–linguistic personification – where the person associates numbers, letters, months, etc with particular personality traits (eg, generosity and September, greed and the number nine)

  • mirror-touch synaesthesia – where someone else performs a physical movement and the person watching feels what they feel (eg, feeling warmth while watching someone hover their hands over a bonfire). Mirror-touch synaesthesia is thought to be related to mirror neurons being activated when watching another person and has been described as a kind of supercharged empathy.

With their brains’ involuntary combining of sensory information, individuals with synaesthesia tend to be creative and to have atypical sensory processing and sensory sensitivities. They may also suffer from sensory overload as a result of their altered sensory perceptions.[6]

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Colours and movement.

Obsessive compulsive disorder (OCD)

When a person has ongoing problems with obsessions and compulsions that take over their life, they may told they have obsessive compulsive disorder, or OCD. With OCD, there are a combination of genetic, neurological, and psychological factors involved.[18]

An obsession is something – usually a thought – that makes people feel very anxious. Sometimes these thoughts take the form of images or pictures in the person’s mind rather than words. Sometimes they are impulses or urges – a sudden feeling that the person might go and do something – usually something awful. In contrast, a compulsion is usually something someone does. Compulsions make the person feel better or help them feel sure that the thing they fear (ie, harm to themselves or others, or some terrible outcome) is not going to happen. Usually compulsions are obvious behaviours, but sometimes they may be things people do in their heads to try and make things ‘all right’.[18]

There are distinct subtypes of OCD. These include:[18]

  • cleaning – this involves the fear of coming into contact with some sort of contamination and becoming sick or dying or passing on an infection or sickness to someone else as a result

  • checking – this may involve checking lights, plugs, ovens, doors, windows etc, but can also involve checking work repeatedly; checking can lead to extreme forms of behaviour (eg, retracking a driven route to make sure no one has been hit without the driver knowing)

  • intrusive thoughts – this involves the presence of unwelcome thoughts (often about sex, violence, or causing harm to others) that are repulsive to the person, but the harder they try to avoid them, the worse the thoughts seem to get

  • order and symmetry – with this form of OCD, people want to ensure ordinary things (eg, washing or shaving) are done in the correct way and objects are arranged in the right order and place; they may spend a long time checking things are ‘right’ before they can move on

  • obsessional slowness – this can occur when the person wants things ‘just right’ – everything has to be done the right way, and all decisions have to be absolutely right to ensure nothing bad happens; as such, it can take a very long time to carry out simple everyday actions

  • hoarding – this is a less common form of OCD, but can be extremely disabling as the person may be unable to throw away the smallest thing (eg, junk mail, used tickets, newspapers, etc) due to the fear they might throw away something important

  • combinations of symptoms – this is where the person may have more than one type of obsessional symptom, although usually one will be stronger than the others; sometimes the form of OCD shifts from one type to another

  • related problems – OCD tends to create related anxiety and depression because of what OCD is doing to the person’s life.

Many people with OCD have issues with sensory processing, sensory motor integration (integrating and organising the information received by the sensory system, or the nerves, and the motor system, or the muscles), sensitivity, and sensory over-responsivity (exaggerated, intense, or prolonged behavioural responses) to ordinary sensory stimuli. As many as 30–70% of those with OCD report that sensory phenomena (eg, uncomfortable feelings related to bodily sensations) and the attempt to avoid these sensations drive their compulsive and repetitive behaviours and rituals.[19]

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Highly sensitive people (sensory processing sensitivity)

High sensitivity is a form of neurological difference that makes a person different from the norm. Psychologist Elaine Aron is one of the researchers behind the concept of the ‘highly sensitive person’, or HSP. Aron and other researchers have spent several decades investigating sensory processing sensitivity.[20]

Sensory processing sensitivity is a genetically-based trait associated with more sensitive nervous systems and greater sensitivity and responsivity to sensory stimuli in the environment.[5] This trait is heritable and common, with around 20–30% of the population being considered high in sensory processing sensitivity or ‘highly sensitive’.[21],[22]

Sensory processing sensitivity is NOT:[22]

  • introversion (30% are extraverts)

  • more common in women (it occurs in equal numbers of men and women)

  • some form of disorder

  • something you can eliminate (it is largely innate).

Sensory processing sensitivity is associated with:[5],[21],[22],[23],[24]

  • more sensitivity and being more aware of subtle stimuli in the environment, including aesthetic sensitivity and sensitivity to colour, sound, etc

  • perceiving a greater quantity of information and perceiving it in greater detail

  • greater emotional reactivity to both positive and negative stimuli in the environment – stronger positive and negative emotions and taking more time to process emotions

  • greater or ‘extra’ empathy – noticing or feeling other people’s emotions, paying attention to and feeling connected to others, understanding their emotions and intentions, and acting on empathy; this extra empathy is why highly sensitive people with sensory processing sensitivity are sometimes referred to as ‘empaths’

  • being more easily overstimulated by both sensory and social stimuli, and reaching sensory overload more easily (eg, with reactions to bright lights and loud noises) – with overstimulation having effects on both cognition and mood (eg, having a tendency to worry and ruminate, with an inability to ‘switch off’ mentally)

  • a greater depth of cognitive processing and action planning – there is a preference to process information more thoroughly, leading to a deep integration of information, intricate memory processing, and greater activation in brain areas involved in higher-order visual processing

  • a tendency to think and reflect a lot and to have a need for depth and meaning

  • a tendency towards feeling different and having low self-esteem because of their sensitivity, and also feeling stressed and tired.

This empathetic intuition can also develop from a difficult childhood environment, particularly when coupled with sensory high alert and anxiety. In this situation, a highly sensitive person with sensory processing sensitivity may develop neural pathways in the brain where they are wired to constantly scan their environment for potential threats. This state is called hypervigilance. (I refer to hypervigilance in my pages on trauma and the body and the senses and sensory processing issues. Highly sensitive people with sensory processing sensitivity would likely benefit from reading both pages.)[25]

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Those ‘gifted’ with neurological ‘overexcitabilities’

Girl with gift in arms

Another term sometimes used for those who are wired differently is ‘gifted’. This term was originally used by Kazimierz Dabrowski, a Polish psychiatrist and psychologist, to describe intelligent and/or creative individuals who displayed special talents and abilities. Dabrowski noticed these individuals tended to have asynchronous (uneven) development across different areas of their lives and to have what he called ‘overexcitabilities’ of the nervous system.[26]

Dabrowski defined overexcitability as a higher-than-average capacity for experiencing inner and external stimuli based on a higher-than-average responsiveness of the nervous system.[27] He saw it as an innate aspect of a heightened nervous system[26] and as a sensitivity that leads to “reactions of excitation… over and above average in intensity, duration and frequency”.[27]

Dabrowski described overexcitabilities as occurring in five domains. He saw these as types of nervousness, intensity, and hyper-responsiveness to stimuli in different areas of development. Each form of overexcitability can be viewed as a mode of personal experience, acting, and being in the world.[26]

Intellectual overexcitability

The intellectual aspect of development is one of analysis, logic, questioning, and the search for truth. Intellectual overexcitability is all about the mind. There is a ceaseless drive to absorb and analyse information. Intellectual overexcitability can be seen in:

  • the asking of probing questions, keen observation, detailed planning, and problem solving

  • a passion for learning – seen in curiosity, concentration, intense reading, and capacity for sustained intellectual effort

  • theoretical thinking – seen in thinking about thinking, introspection, preoccupation with specific problems, moral thinking, development of a hierarchy of values, and conceptual and intuitive integration.[26]

Imaginational overexcitability

The imaginational aspect of development is one of vivid dreams, fantasies, images, personifications, and a strong visualisation of experience. Imaginational overexcitability gives a person a powerful ability to envision the immaterial or what does not yet exist, whether this means creating fantasy worlds or seeing hidden worlds or all the things that could go wrong in this one. Imaginational overexcitability is seen in:

  • the free play of the imagination – seen in the use of image and metaphor, inventions and fantasy, spiritual and magical thinking, illusions, and poetic and dramatic perceptions)

  • spontaneous imagery as an expression of emotional tension – seen in the mixing of truth with fiction, vivid dreams, visual recall, spiritual imagery, visualisation of events, and fears of the unknown.[26]

Emotional overexcitability

The emotional aspect of development is about our relationships, concern for others and their feelings, intensity and extremes of feeling, human responsibility, and interest in the mysteries of life. Emotional overexcitability cranks up the volume on a person’s feelings. It can cause a powerful compassion and empathy, especially in those who have learned to handle their strong emotions. Emotional overexcitability is seen in:

  • somatic (physical) expressions of emotion (eg, blushing, palpitations, etc), intense and overwhelming emotions and feelings, extremes of both positive and negative feeling, identification with others’ feelings and experiences, and awareness of the whole range of human feeling (eg, fear, anxiety, guilt, depression, suicidal moods, etc)

  • timidness, emotional flashbacks, philosophical angst, and concerns about death

  • feelings about our bonds and attachments to animals and others – seen in perceptions about relationships, difficulty adjusting to new environments, loneliness, empathy, concern for others, and dealing with conflicts

  • feelings about the self – seen in self-evaluations and self-judgements and feelings of inadequacy.[26]

Psychomotor overexcitability

The psychomotor aspect of development is about movement, restlessness, action, and excess energy. Psychomotor overexcitability gives a person a surplus of physical energy and nervousness (a psychomotor expression of emotional tension). It can be seen in:

  • rapid speech, marked excitation, nervous habits (tics, foot tapping, nail biting etc), and impulsive actions and/or possible delinquent behaviour (eg, fights with family, brawls, etc)

  • pressure for action, intense physical activity (including fast sports and games), competitiveness, and workaholism.[26]

Sensual overexcitability

The sensual aspect of development is one of sensory enjoyment, surface contact, comfort, and sensuality. Sensual overexcitability leads a person to be strongly affected by sensory pleasures and to have a tendency to seek sensual outlets for inner tensions. It can be seen in:

  • intense delight and rapture in response to sensory stimuli (eg, the taste of a favourite food, the feel of fur, the scent of a rose, a beautiful sunset, or a symphony)

  • sensual expression of emotional tension (eg, overindulging in a variety of ways – overeating, buying sprees, sexual behaviour).[26]

A person may have one, some, or all of the overexcitabilities. If someone has the ‘luck’ to have all five overexcitabilities, nature tends to give one at a slightly lesser level to give some respite. In this case, women often have less psychomotor overexcitability, while men often have less sensual overexcitability.[28]

While overexcitabilities are usually observed early in a child’s development, Dabrowski also acknowledged they are not always genetically based, but can also occur as a result of trauma or harmful environmental influences (eg, disorganised or disrupted attachment, abusive parenting, prenatal or post-natal injury, bullying etc).[27] (The same pattern is seen in those highly sensitive ‘empath’ types.[25])

Delayed motor development (eg, clumsiness or restlessness) and sensory processing issues are common in those ‘gifted’ with overexcitabilities.[29]

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The reality of being neurologically different

The reality is some of us are ‘wired differently’ from the norm. Those of us who are wired differently, or ‘neurodivergent’ if you use the term, might not fit the ‘norms’ in a variety of ways, including:

  • being more sensitive than average

  • being more intense than average and responding more intensely to stimuli

  • having different thinking and learning styles

  • having unusual interests

  • often having bodily alienation and body image-related issues, and discomfort around physicality and sensation (and not realising this is sadly very common in modern Western culture).

Those of us with neurologically wired differences and overexcitabilities – whichever label we use to describe these differences – are unlikely to ever fit some societal norms. And that’s okay.

People who are wired differently can be more sensitive to sensory stimuli than people who meet neurotypical norms. Our bodies can experience sensations very easily and/or intensely. We may feel that we are constantly bombarded with information. With this, we may be more reactive than others – often because we are detecting stimuli that others don’t even notice.

We also may be unable to process our experience at the speed at which it can be happening. We may then have a fight or flight response to sensory stimuli (eg, at being touched unexpectedly or a loud noise), a condition sometimes called ‘sensory defensiveness’. We may also try to avoid or minimise sensory stimuli as a result (eg, withdraw from being touched or cover our ears to avoid loud sounds). Sensory overload leads to cognitive and brain overload and over-stimulation. This leads to increased anxiety and chronic stress. Along with our enhanced sensitivity and reactivity to sensory stimuli, we may also be more emotionally reactive than the norm. Again because we may be noticing stimuli others don’t perceive or understand the implications of.

Unfortunately, those of us with neurological differences can be misunderstood. We can be bullied and traumatised by others for not having a typical neurology and not reacting as they expect. We can be told we have psychological issues – when we are simply neurologically different. We can be told we are ‘overreacting’ precisely because our neurological differences can cause us to be more sensitive and respond more intensely to sensory stimuli and environmental or emotional triggers. As such, we may respond in ways seen as 'over the top' by others. Others may see our reactions as too intense, too frequent, and lasting for too long because they are different from the norm.

Obviously, these intense responses to stimuli then have knock-on effects. Our reactivity and/or distraction in the moment may lead us to have problems with goals, and doing the step-by-step steady work needed to achieve these. We may also avoid social and group activities, even just due to sensory overwhelm. This may not be understood. We may then have difficulty forming relationships with others. When we are wired differently and have problems with sensory processing, we can also be very cautious and anxious about trying new things. We are also likely to be more upset by transitions and unexpected changes.

When overwhelmed by stimuli, those of us who are wired differently can be impulsive or triggered into flight or fight. Over time, we may then become ‘hypervigilant’ to threat. This is where we have extreme nervous system arousal, sensory sensitivity, and are on constant alert for potential danger. This tends to lead to post-traumatic stress. (I talk more about hypervigilance and post-traumatic stress in my pages on the senses and sensory processing and trauma and the body.)

It is important for those of us with neurological differences to accept rather than suppress our innate traits, and to appreciate and work with them to make the most of who we are. For example, our sensitivity and tendency to reactivity may be hardwired into our nervous systems. As such, these traits are not something we can change in themselves. Instead of trying to change innate traits, it would be more helpful to focus on what we can change. We could focus instead on learning to stop harmful automatic reactions to stimuli – something likely to benefit us in multiple areas of our lives.

Having neurological variations can make dealing with stimuli difficult and lead to challenges in communicating and expressing ourselves and having positive relationships with others. However, neurological variations can also create strengths and abilities such as being creative, sensitive, and innovative, or having unique abstract thinking and analytical skills.

It is about making the most of who we are while seeing if we can find ways to help the issues that cause us difficulty.

What is the Alexander technique?

The Alexander technique is a mind–body mindfulness and re-educational method that teaches you how to work with your mind and body to change harmful habits and how you react to stimuli in everyday life.

Using verbal instruction combined with feedback from gentle hands-on adjustment, the Alexander technique works with the nervous system, the physical startle pattern, and fight–flight–freeze and fawn stress responses, which affect body alignment and posture, to retrain unconscious habits and reactions. It combines mindfulness and observation with the technique’s core principles of the inhibiting (stopping) and non-doing of habitual harmful reactions and sending of anti-stress directions to the body to allow new improved responses to stressful stimuli. (See my page ‘What is the Alexander technique?’ for more detail about the Alexander technique and what happens in sessions, or ‘lessons’.)

Over time, working with the Alexander technique’s core principles (its ‘means whereby’) brings about more efficient use and coordination of the body, calms overly agitated nervous systems, lessens pain, re-educates our sensory perception, and improves our sensory processing and our whole mind–body functioning, including enabling increased emotional balance, self and body acceptance, and clearer thinking. With practise and increasing experience, these tools can be used in how we respond to stressful situations across our lives, including in relationships or work situations.

Maria McGivern, Alexander technique teacher, working with an Alexander technique student on the table.

How can the Alexander technique help those with neurological differences?

Working with the Alexander technique has positive benefits for those of us who are wired differently or neurodivergent:[30],[31],[32],[33],[34],[35]

  • An Alexander lesson is a low-stress environment in which to learn how to stop automatic reactions to stimuli that put us wrong. We work with changing reactions to simple stimuli during a lesson. We begin by learning to stop or prevent habitual automatic responses, forms of movement, and unneeded tension. This same process is then applied to more diverse stimuli, both within the lesson and outside it. Over time, an Alexander technique client (or ‘pupil’) learns to change responses to difficult stimuli that previously put them wrong, and may have led to sensory overwhelm, emotional meltdowns, and/or panic attacks.

    • Stimuli come in a variety of forms. Stimuli can be external and related to our environment (eg, a loud grating noise, someone asking you a question). They can also be internal (eg, hunger pains, a habitual thought).

    • Stopping automatic reactions and sending anti-stress directions to the body gives us time to stop and think – and to choose more conscious responses. Conscious responses can include choosing alternative thoughts or actions or not choosing not to respond to stimulus at all instead.

    • Working with stopping automatic reactions to stimuli is particularly important for those of us who are wired differently. This is precisely because we do tend to be more sensitive, reactive, and ‘overexcitable’ in response to different stimuli than most.

    • This process of stopping automatic reactions and harmful habits can be applied across different areas of our lives. It can be applied wherever we have problems, including working with obsessive thinking, compulsive behaviours, and emotional reactivity. The important thing is to start small and to slowly build up to working with the more difficult stimuli.

  • Learning to inhibit (or stop) automatic reactions and to send directions to the body leads to more considered responses, starts to moderate nervous system arousal and lower bodily stress and anxiety, and begins to both lessen and prevent fight–flight responses. This gives the likely overwrought nervous systems of those of us with neurological differences the chance to quieten. It also gives a chance for long-held anxiety to begin to calm. Reduced stress leads to fewer panic attacks or stress meltdowns from sensory overwhelm.

  • The directions, together with the inhibiting of automatic physical reactions, improve our sensory appreciation (the entirety of the sensory information we receive) and re-coordinate the body. They lead to improved postural behaviour, bodily alignment, stability, and flexibility, and resolve issues with posture, coordination, or musculoskeletal pain. As part of this, together with an improved sensory awareness, they also help expand body awareness and increase bodily comfort.

  • The Alexander technique helps with issues related to sensory processing. Sensory processing issues are common in those who are wired differently or neurodivergent. Please see my page on sensory processing issues where I go into detail about these problems and how the Alexander technique can help.

  • The principles of stopping and directing provide tools for coping with sensitivities or overexcitabilities. Sensitivities and overexcitabilities can be channelled so these become strengths enabling increased sensory, bodily, and overall self-awareness and learning instead of weaknesses to be compensated for.

  • Working with the Alexander technique increases our mindfulness. It allows us to be in the present moment – to be fully in the here and now – and can help us build self-acceptance. It uses feedback from our senses to anchor us in the present moment. (For example, a tight neck becomes a sign we need to stop and direct our body to allow the release of tension.) Being in the present moment increases our awareness. It leads to increasing insight and knowledge of our habits and our selves. Being in the moment also gets us away from the past and our fears and anxieties about the future. It is in the present moment that we can stop habits, make different choices, and create change to enable a different, more positive future. The Alexander technique also helps us to be where we are how we are, beyond our ideas of rightness and wrongness, without the need to control, or to be right or perfect.

  • The touch received in an Alexander technique lesson can make us feel more secure in our bodies and we become accustomed to receiving touch in a safe environment. Touch is used to teach the principles of the technique. It varies between light touch and deep pressure and is beneficial in itself. Receiving hands-on work, particularly from table work, tends to be soothing. The touch received helps the chronically stressed and those of us who may feel unsafe, whether this is from sensory overload or traumatic experiences.

  • In the Alexander technique, touch becomes a two-way non-verbal communication that helps develop trust between the pupil and teacher. It provides a sense of being valued. This communication through touch can mirror early developmental and attachment processes.[31] It tends to help positively change the relationship we have with our physical bodies and our entire selves. Those of us who have had issues with our bodies can begin to treat them with more respect.

  • The Alexander technique can help people tune into and feel more comfortable in their bodies. Its body-based mindfulness is calming and detriggering. It helps us return to and connect with our selves and grounds us in our physical bodies and our breathing. Our awareness increases from just our thoughts (eg, many of us experience ourselves as a ‘head on a stick’) to include our bodies and our entire selves, easing bodily alienation, and increasing body acceptance and mind–body integration over time, leading to optimal integrated overall functioning. We find that increased body acceptance leads to increased self-acceptance – and vice versa.

  • The Alexander technique tends to reduce our emotional reactivity and to enable us to tolerate and accept a wider range of emotions. Through this, it tends to lead to improved relationships. Over time, working with stopping automatic reactions and harmful habits and directing our bodies reduces stress, calms overwrought nervous systems, and helps rebuild a friendly, accepting relationship with our bodies. From this, we get better at interpreting and accepting our internal signals (eg, muscular tension, fight–flight stress response, etc) and the emotions linked to these physical responses. We become increasingly able to be present to the full range of human emotions and experiences, rather than only those we see as constructive and acceptable. The increased awareness of our internal signals and acceptance of our emotions further improve our reactions to stressful stimuli and situations. This has the flow-on effect of bettering our relationships with others – something of benefit to all of us.

    • This increased ability to accept the range of human emotions is helpful for everyone, but may be particularly useful where there is a tendency to punish the self, including in conditions such as OCD.

  • The Alexander technique can change our thinking indirectly through changing our habitual bodily sensations/sensory feelings.[32] Our habitual thinking patterns are bound up with our accompanying habitual sensory feelings and with our postural use and the habitual way we use our whole mind–body selves. Working with inhibition and direction sending to the body changes the habitual way we use our selves and improves our sensory appreciation (the information we get from our senses) resulting in changed sensory feelings/bodily sensations. As our habitual sensory feelings change and our habitual thinking patterns also change.

    • The change to sensory feelings and bodily sensations perceived as unbearable and their associated thinking patterns is useful for many with post-traumatic stress or OCD in helping to prevent triggering and compulsive and repetitive behaviours.

  • The Alexander technique also changes our thinking to include a more holistic expanded body–mind awareness. It uses the concept of ‘thinking in activity’ to refer to thinking that includes an expanded body–mind awareness while responding to different stimuli in your daily-life activities.[32] This contrasts with relying on unconscious habit. Thinking in activity includes inhibition and direction-sending and your holistic psychophysical functioning while responding to stimuli and thinking, moving, and acting in your daily life.

  • Working with inhibition and direction sending leads not only to increased physical flexibility, but also increases mental clarity and cognitive flexibility over time. Thinking tends to become clearer. Any black and white thinking tends to soften to allow shades of grey. As part of this, it becomes easier to adapt to change. Working with Alexander technique to change thinking, movement patterns, and habitual responses to stimuli helps build new neural pathways so thinking becomes less black and white and more flexible – with a variety of shades of grey.

    • A tendency towards black and white thinking can be seen in those with autism, but it can be seen in others of us as well. Those who have developed post-traumatic stress tend to develop rigid black and white thinking. Regardless of the cause, anything that makes your thinking more flexible is going to help how you respond to life.

  • The Alexander technique works with attention and focus. It does this through looking at the use of the eyes, grounding in the body and in our breathing, and the integrated use of the whole mind–body self. The Alexander technique aims for a flexible general awareness. This type of awareness allows responsiveness to the environment and changes as needed, allowing appropriate responses to stimuli, both internal and external. This general awareness helps avoid obsessive rumination (negative overthinking) and the more harmful side of hyperfocus/overconcentrating where the ability to adequately respond to environmental demands is lost. This flexible, general awareness is able to change, zoom in and zoom out, and narrow and widen attentional focus, allowing appropriate attentional flow and focus on specific tasks as needed.

    • Obviously, those with ADHD and autism have different issues with focus. Yet in these days of constant electronic notifications and social media, we can all have problems with focus. It is worth looking at these.

  • We can use the Alexander technique to work with goals and performance. These are often areas of difficulty. Sometimes, we may have no idea of where to start. We often misuse ourselves, or try too hard, or rush at goals unprepared, resulting in a less optimal result. Instead of focusing solely on our goals and forcing ourselves towards them at any cost (what we call ‘endgaining’ in the technique), we learn to inhibit our habitual harmful misuse and endgaining, and to consciously direct ourselves and our activity in a new, improved way while performing our selected task. This tends to result in improved outcomes. This improved means whereby also includes:

    • stopping to visualise a suitable course of action

    • breaking down larger goals into easy-to-perform small steps

    • focusing on one step at a time

    • completing each step at a slow, steady, and achievable pace.

    • In an Alexander lesson, we break down activities and movements into sequential, non-threatening, small steps. Each step is slowly worked with as individually needed to complete the overall activity.

    • Note: Sometimes in the process of considering how to achieve a goal, we may realise it is not healthy or helpful in its current form or timeframe. We may then need to adjust it to achieve a healthy result.

  • The Alexander technique can also help us with boundaries. It helps us determine who is responsible for what. We become more aware of our physical boundaries (eg, starting with our skin). The Alexander technique helps us balance what is happening in our inner world with what is happening outside of us in our external environment. Feedback from our senses takes us out of our heads and any obsessive internal rumination and grounds us in our environment. We become more aware of the world around us (the ground beneath our feet, the view) and what is happening in it (the events occurring around us) and also demands from our environment (particularly interactions with others). This balance and tension between our inner and outer worlds makes us more aware of the boundaries between us and others and who is responsible for what. Paradoxically, it also helps us engage in life without as much identification and reactivity, particularly as we work with our responses to stimuli.

    • The Alexander technique uses the idea of opposition and polarities. This is generally in relation to opposing forces, parts of our bodies going in opposing directions (eg, the head going forward and up in relation to the back going back), or how our bodies are positioned in relation to those of others. (These opposing directions and forces are also seen throughout the martial arts.) However, oppositions can go beyond the physical and can help us become aware of the need for boundaries. We can think of opposition in terms of awareness of the balance, tension, and dynamics between ourselves and others or between ourselves and our environment. Sometimes these oppositions are beneficial but at other times, not so much. Opposing forces tend to work best when they are balanced.

  • The Alexander technique can help those with hypervigilance and post-traumatic stress. Hypervigilance and post-traumatic stress tend to be common amongst those with neurological differences for a variety of reasons. Please see my page on trauma and the body. There is also information on hypervigilance on my page on sensory processing issues.

  • The one-on-one hands-on work received in the Alexander technique can also help us cope better with bullying and other difficult situations. As already noted, it works to calm the nervous system and relieve stress. Also, hands-on work that helps us get back into our backs and spines (the core of our nervous systems) helps us more fully inhabit and stay present with our whole mind–body selves. Such hands-on work helps build a psychophysical strength, confidence, and ‘grit’. This supports us in adverse circumstances, when asserting boundaries, and helps us endure without collapsing in on our selves under pressure. This is valuable when coping with any bullying or other difficult situations that come our way.

Interested in trying the Alexander technique?

If you are interested in working with me to make the most of your innate neurological wiring and sensitivity, please do reach out. I can help you improve issues such:

  • lowering physical stress

  • improving sensory processing issues

  • changing reactions to stressful stimuli that lead you to overload (eg, environmental stimuli, expectations from and relationships with others, etc)

  • improving focus/attention issues

  • dealing with post-traumatic stress

  • working with goals

  • performance.

I would love to help.

Interested in booking a lesson or a free 15-minute consult?

References

[1] Nemours KidsHealth. Nervous system. Reviewed July 2022. Available at: https://kidshealth.org/en/parents/brain-nervous-system.prt-en.html (accessed 22 April 2023).

[2] Gregory E. What does it mean to be neurodivergent? Forbes. October 2022. Available at: https://www.forbes.com/health/mind/what-is-neurodivergent/ (accessed 22 April 2023).

[3] Duncan S, Goodwin C, Haase J, Wilson S. Neuroscience of giftedness: Physiology of the brain. 2018. Available at: https://www.gro-gifted.org/the-neuroscience-of-giftedness/ (accessed 4 May 2023).

[4] Lockett E. How does ADHD affect the brain? Healthline. Updated October 2022. Available at: https://www.healthline.com/health/adhd-neurology (accessed 20 March 2023).

[5] Acevedo B, Aron E, Pospos S, Jessen D. The functional highly sensitive brain: a review of the brain circuits underlying sensory processing sensitivity and seemingly related disorders. Phil Trans R Soc B 2018; 373: Article 20170161.

[6] Van Leeuwen TM, van Petersen E, Burghoorn F, et al. Autistic traits in synaesthesia: atypical sensory sensitivity and enhanced perception of details. Phil Trans R Soc B 2019; 374: Article 20190024.

[7] Autism Research Institute. What is autism? Available at: https://www.autism.org/what-is-autism/ (accessed 14 March 2023).

[8] Freeman C. Autism and Alexander technique: Using the Alexander technique to help people on the autism spectrum. Pittsburgh, PA:‎ CreateSpace Publishing, 2014.

[9] Garfinkel SN, Tiley C, O’Keeffe S, et al. Discrepancies between dimensions of interoception in autism: implications for emotion and anxiety. Biol Psychol 2016; 114: 117–126. doi: 10.1016/j.biopsycho.2015.12.003.

[10] Hartmann T. ADHD: A hunter in a farmers’ world, 3rd edn. Rochester, Vermont: Healing Arts Press, 2019.

[11] National Institute of Mental Health, US National Institutes of Heath. Attention-deficit/hyperactivity disorder. Reviewed September 2022. Available at: https://www.nimh.nih.gov/health/topics/attention-deficit-hyperactivity-disorder-adhd (accessed 20 March 2023).

[12] ADDitude. What is ADHD? Attention deficit hyperactivity disorder in children and adults. Updated January 2023. Available at: https://www.additudemag.com/what-is-adhd-symptoms-causes-treatments/ (accessed 2 April 2023).

[13] ADDitude. ADHD symptoms checklist: Signs of hyperactive, inattentive, combined subtypes. Updated January 2021. Available at: https://www.additudemag.com/adhd-symptoms-checklist/ (accessed 28 March 2023).

[14] Nerenberg J. Divergent mind: Thriving in a world that wasn't designed for you. New York: HarperOne, 2019.

[15] Psychology Today. Synesthesia. Available at: https://www.psychologytoday.com/gb/basics/synesthesia (accessed 16 April 2023).

[16] BetterHelp. What is synesthesia? October 2018. Available at: https://www.betterhelp.com/advice/synesthesia/what-is-synesthesia-disorder-and-how-to-cope-with-it/ (accessed 16 April 2023).

[17] BetterHelp. The many types of synesthesia explained. August 2018. Available at: https://www.betterhelp.com/advice/synesthesia/the-many-types-of-synesthesia-explained/ (accessed 17 April 2023).

[18] Brosan L. An introduction to coping with obsessive compulsive disorder, 2nd edn. London: Robinson, 2018.

[19] Van Hulle CA, Esbensen K, Goldsmith HH. Co-occurrence of sensory overresponsivity with obsessive-compulsive symptoms in childhood and early adolescence. J Dev Behav Pediatr 2019; 40: 377–382.

[20] Aron EN. The highly sensitive person: How to thrive when the world overwhelms you. New York: Broadway Books, 1997.

[21] Bas S, Kaandorp M, de Kleijn ZPM, et al. Experiences of adults high in the personality trait sensory processing sensitivity: A qualitative study. J Clin Med 2021; 10: Article 4912.

[22] Aron EN. Sensory processing sensitivity: Review of the research. Presentation at Highly Sensitive Therapists' Retreat, 6 July 2018.

[23] Lionetti F, Aron A, Aron EN, et al. Dandelions, tulips and orchids: evidence for the existence of low-sensitive, medium-sensitive and high-sensitive individuals. Transl Psychiatry 2018; 8: Article 24.

[24] Acevedo BP, Aron EN, Aron A, et al. The highly sensitive brain: an fMRI study of sensory processing sensitivity and response to others’ emotions. Brain Behav 2014; 4: 580–594.

[25] Lo I. Who is an empath? The ultimate guide to empath psychology. Available at: https://eggshelltherapy.com/empath/ (accessed 3 January 2023).

[26] Piechowski MM. Developmental potential. In: Colangelo N and Zaffrann RT (eds). New voices in counseling the gifted. Dubuque, Iowa: Kendall/Hunt, 1979: pp. 25–57.

[27] Mika E. Gifted children, overexcitabilities, development asynchrony and positive disintegration: A preliminary clinical study. November 2002. Available at: https://www.researchgate.net/publication/301595561_Gifted_children_overexcitabilities_developmental_asynchrony_and_positive_disintegration_A_preliminary_clinical_study (accessed 22 November 2022).

[28] Daniels S, Piechowski MM (eds). Living with intensity: Understanding the sensitivity, excitability, and the emotional development of gifted children, adolescents, and adults. Scottsdale, Arizona: Great Potential Press, 2009.

[29] STAR Institute. In gifted. Available at: https://sensoryhealth.org/basic/gifted (accessed 3 May 2023).

[30] Kinsey D, Glover L, Wadephul F. How does the Alexander technique lead to psychological and non-physical outcomes? A realist review. Eur J Integr Med 2021; 46: Article 101371. doi: 10.1016/j.eujim.2022.102200.

[31] Jones T, Glover L. Exploring the psychological processes underlying touch: lessons from the Alexander technique. Clin Psychol Psychother 2014; 2: 140–153. doi: 10.1002/cpp.1824.

[32] Woods C, Williamson M, Fox Eades J. Dewey and the Alexander technique: lessons in mind–body learning. In: Heilbronn R. Dewey and education in the 21st century: Fighting back. London: Emerald Publishing Limited, 2018: pp. 83–100.

[33] Cacciatore TW, Johnson PM, Cohen RG. Potential mechanisms of the Alexander technique: toward a comprehensive neurophysiological model. Kinesiol Rev 2020; 9(3): 199–213. doi: 10.1123/kr.2020-0026.

[34] Little P, Lewith G, Webley F, et al. Randomised controlled trial of Alexander technique lessons, exercise, and massage (ATEAM) for chronic and recurrent back pain. BMJ 2008; 337: Article a884. doi: 10.1136/bmj.a884.

[35] Woodman JP, Moore NR. Evidence for the effectiveness of Alexander technique lessons in medical and health-related conditions: a systematic review. Int J Clin Pract 2012; 66:9 8–112. doi: 10.1111/j.1742-1241.2011.02817.x.