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Monday, July 29, 2024

Activity-dependent plasticity

Activity-dependent plasticity is a form of functional and structural neuroplasticity that arises from the use of cognitive functions and personal experience; hence, it is the biological basis for learning and the formation of new memories. Activity-dependent plasticity is a form of neuroplasticity that arises from intrinsic or endogenous activity, as opposed to forms of neuroplasticity that arise from extrinsic or exogenous factors, such as electrical brain stimulation- or drug-induced neuroplasticity. The brain's ability to remodel itself forms the basis of the brain's capacity to retain memories, improve motor function, and enhance comprehension and speech amongst other things. It is this trait to retain and form memories that is associated with neural plasticity and therefore many of the functions individuals perform on a daily basis. This plasticity occurs as a result of changes in gene expression which are triggered by signaling cascades that are activated by various signaling molecules (e.g., calcium, dopamine, and glutamate, among many others) during increased neuronal activity.

The brain's ability to adapt toward active functions allows humans to specialize in specific processes based on relative use and activity. For example, a right-handed person may perform any movement poorly with their left hand but continuous practice with the non-dominant hand can cause one to become ambidextrous. Another example is if someone was born with a neurological disorder such as autism or had a stroke that resulted in a disorder, then they are capable of retrieving much of their lost function through practice, which in turn "rewires" the brain to mitigate neurological dysfunction.

History

The idea of neural plasticity was first proposed during 1890 by William James in Principles of Psychology. During the first half of the 1900s, the word 'plasticity' was directly and indirectly rejected throughout science. Many scientists found it hard to receive funding because nearly everyone unanimously supported the fact that the brain was fully developed at adulthood and specific regions were unable to change functions after the critical period. It was believed that each region of the brain had a set and specific function. Despite this, several pioneers pushed the idea of plasticity through means of various experiments and research. There are others that helped to the current progress of activity-dependent plasticity but the following contributed very effective results and ideas early on.

Pioneers of activity-dependent plasticity

The history of activity-dependent plasticity begins with Paul Bach y Rita. With conventional ideology being that the brain development is finalized upon adulthood, Bach y Rita designed several experiments in the late 1960s and 1970s that proved that the brain is capable of changing. These included a pivotal visual substitution method for blind people provided by tactile image projection in 1969. The basis behind this experiment was to take one sense and use it to detect another: in this case use the sense of touch on the tongue to visualize the surrounding. This experiment was years ahead of its time and led to many questions and applications. A similar experiment was reported again by Bach y Rita in 1986 where vibrotactile stimulation was delivered to the index fingertips of naive blindfolded subjects. Even though the experiment did not yield great results, it supported the study and proposed further investigations. In 1998, his design was even further developed and tested again with a 49-point electrotactile stimulus array on the tongue. He found that five sighted adult subjects recognized shapes across all sizes 79.8% of the time, a remarkable finding that has led to the incorporation of the tongue electrotactile stimulus into cosmetically acceptable and practical designs for blind people. In later years, he has published a number of other articles including "Seeing with the brain" in 2003 where Bach y Rita addresses the plasticity of the brain relative to visual learning. Here, images are enhanced and perceived by other plastic mechanisms within the realm of information passing to the brain.

Another pioneer within the field of activity-dependent plasticity is Michael Merzenich, currently a professor in neuroscience at the University of California, San Francisco. One of his contributions includes mapping out and documenting the reorganization of cortical regions after alterations due to plasticity. While assessing the recorded changes in the primary somatosensory cortex of adult monkeys, he looked at several features of the data including how altered schedules of activity from the skin remap to cortical modeling and other factors that affect the representational remodeling of the brain. His findings within these studies have since been applied to youth development and children with language-based learning impairments. Through many studies involving adaptive training exercises on computer, he has successfully designed methods to improve their temporal processing skills. These adaptive measures include word-processing games and comprehension tests that involve multiple regions of the brain in order to answer. The results later translated into his development of the Fast ForWord program in 1996, which aims to enhance cognitive skills of children between kindergarten and twelfth grade by focusing on developing "phonological awareness". It has proven very successful at helping children with a variety of cognitive complications. In addition, it has led to in depth studies of specific complications such as autism and intellectual disability and the causes of them. Alongside a team of scientists, Merzenich helped to provide evidence that autism probes monochannel perception where a stronger stimulus-driven representation dominates behavior and weaker stimuli are practically ignored in comparison.

Structure of neurons

Diagram displaying components of a myelinated vertebrate motorneuron.

Neurons are the basic functional unit of the brain and process and transmit information through signals. Many different types of neurons can be identified based on their function, such as sensory neurons or motor neurons. Each responds to specific stimuli and sends respective and appropriate chemical signals to other neurons. The basic structure of a neuron is shown here on the right and consists of a nucleus that contains genetic information; the cell body, or the soma, which is equipped with dendritic branches that mostly receive the incoming inputs from other neurons; a long, thin axon that bears axon terminals which carry the output information to other neurons. The dendrites and axons are interfaced through a small connection called a synapse. This component of the neuron contains a variety of chemical messengers and proteins that allow for the transmission of information. It is the variety of proteins and effect of the signal that fundamentally lead to the plasticity feature.

Structures and molecular pathways involved

Activity-dependent plasticity of one form or another has been observed in most areas of the brain. In particular, it is thought that the reorganization of sensory and motor maps involves a variety of pathways and cellular structures related to relative activity.

Many molecules have been implicated in synaptic plasticity. Notably, AMPA and NMDA receptors are key molecules in mechanisms of long and short-term potentiation between neurons. NMDA receptors can detect local activity due to activation and therefore modify signaling in the post-synaptic cell. The increased activity and coordination between pre- and post-synaptic receptors leads to more permanent changes and therefore result in plasticity. Hebb's postulate addresses this fact by stating that synaptic terminals are strengthened by correlated activity and will therefore sprout new branches. However, terminals that experience weakened and minimal activity will eventually lose their synaptic connection and deteriorate.

A major target of all molecular signaling is the inhibitory connections made by GABAergic neurons. These receptors exist at postsynaptic sites and along with the regulation of local inhibitory synapses have been found to be very sensitive to critical period alterations. Any alteration to the receptors leads to changed concentrations of calcium in the affected cells and can ultimately influence dendritic and axonal branching. This concentration change is the result of many kinases being activated, the byproduct of which may enhance specific gene expression.

Illustration of the elements incorporated in synaptic transmission. An action potential is generated and travels down the axon to the axon terminal, where it is released and provokes a neurotransmitter release that acts on the post-synaptic end.

In addition, it has been identified that the Wg postsynaptic pathway, which is responsible for the coding and production of many molecules for development events, can be bidirectionally stimulated and is responsible for the downstream alteration of the postsynaptic neuron. When the Wg presynaptic pathway is activated, however, it alters cytoskeletal structure through transcription and translation.

Cell adhesion molecules (CAMs) are also important in plasticity as they help coordinate the signaling across the synapse. More specifically, integrins, which are receptors for extracellular matrix proteins and involved with CAMs, are explicitly incorporated in synapse maturation and memory formation. They play a crucial role in the feedback regulation of excitatory synaptic strength, or long-term potentiation (LTP), and help to control synaptic strength by regulating AMPA receptors, which result in quick, short synaptic currents. But, it is the metabotropic glutamate receptor 1 (mGlu1) that has been discovered to be required for activity-dependent synaptic plasticity in associative learning.

Activity-dependent plasticity is seen in the primary visual cortex, a region of the brain that processes visual stimuli and is capable of modifying the experienced stimuli based on active sensing and arousal states. It is known that synaptic communication trends between excited and depressed states relative to the light/dark cycle. By experimentation on rats, it was found that visual experience during vigilant states leads to increased responsiveness and plastic changes in the visual cortex. More so, depressed states were found to negatively alter the stimulus so the reaction was not as energetic. This experiment proves that even the visual cortex is capable of achieving activity-dependent plasticity as it is reliant on both visual exploration and the arousal state of the animal.

Role in learning

Activity-dependent plasticity plays a very important role in learning and in the ability of understanding new things. It is responsible for helping to adapt an individual's brain according to the relative amount of usage and functioning. In essence, it is the brain's ability to retain and develop memories based on activity-driven changes of synaptic strength that allow stronger learning of information. It is thought to be the growing and adapting quality of dendritic spines that provide the basis for synaptic plasticity connected to learning and memory. Dendritic spines accomplish this by transforming synaptic input into neuronal output and also by helping to define the relationship between synapses.

In recent studies, a specific gene has also been identified as having a strong role in synapse growth and activity-dependent plasticity: the microRNA 132 gene (miR132). This gene is regulated by the cAMP response element-binding (CREB) protein pathway and is capable of enhancing dendritic growth when activated. The miR132 gene is another component that is responsible for the brain's plasticity and helps to establish stronger connections between neurons.

Another plasticity-related gene involved in learning and memory is Arc/Arg3.1. The Arc gene is activity-regulated and the transcribed mRNA is localized to activated synaptic sites where the translated protein plays a role in AMPA receptor trafficking. Arc is a member of a class of proteins called immediate early genes (IEG) that are rapidly transcribed in response to synaptic input. Of the estimated 30-40 genes that comprise the total neuronal IEG response, all are prototypical activity-dependent genes and a number have been implicated in learning and memory. For example, zif268, Arc, beta-activin, tPA, Homer, and COX-2 have all been implicated in long-term potentiation (LTP), a cellular correlate of learning and memory.

Mechanisms involved

There are a variety of mechanisms involved in activity-dependent plasticity. These include LTP, long-term depression (LTD), synaptic elimination, neurogenesis, and synaptogenesis. The mechanisms of activity-dependent plasticity result in membrane depolarization and calcium influx, which in turn trigger cellular changes that affect synaptic connections and gene transcription. In essence, neuronal activity regulates gene expression related to dendritic branching and synapse development. Mutations in activity-dependent transcription-related genes can lead to neurological disorders. Each of the studies' findings aims to help proper development of the brain while improving a wide variety of tasks such as speech, movement, comprehension, and memory. More so, the findings better explain the development induced by plasticity.

It is known that during postnatal life a critical step to nervous system development is synapse elimination. The changes in synaptic connections and strength are results from LTP and LTD and are strongly regulated by the release of brain-derived neurotrophic factor (BDNF), an activity-dependent synapse-development protein. In addition to BDNF, Nogo-66 receptors, and more specifically NgR1, are also involved in the development and regulation of neuronal structure. Damage to this receptor leads to pointless LTP and attenuation of LTD. Both situations imply that NgR1 is a regulator of synaptic plasticity. From experiments, it has been found that stimulation inducing LTD leads to a reduction in synaptic strength and loss of connections but, when coupled simultaneously with low-frequency stimulation, helps the restructuring of synaptic contacts. The implications of this finding include helping people with receptor damage and providing insight into the mechanism behind LTP.

Another research model of activity-dependent plasticity includes the excitatory corticostriatal pathway that is involved in information processing related to adaptive motor behaviors and displays long-lasting synaptic changes. The change in synaptic strength is responsible for motor learning and is dependent on the simultaneous activation of glutamatergic corticostriatal and dopaminergic nigrostriatal pathways. These are the same pathways affected in Parkinson's disease, and the degeneration of synapses within this disorder may be responsible for the loss of some cognitive abilities.

Relationship to behavior

Intellectual disability

Since plasticity is such a fundamental property of brain function due to its involvement in brain development, brain repair, and cognitive processes, its proper regulation is necessary for normal physiology. Mutations within any of the genes associated with activity-dependent plasticity have been found to positively correlate with various degrees of intellectual disability. The two types of intellectual disability related to plasticity depend on dysfunctional neuronal development or alterations in molecular mechanisms involved in synaptic organization. Complications within either of these types can greatly reduce brain capability and comprehension.

Stroke rehabilitation

On the other hand, people with such conditions have the capacity to recover some degree of their lost abilities through continued challenges and use. An example of this can be seen in Norman Doidge's The Brain That Changes Itself. Bach y Rita's father had a disabling stroke that left the 65-year-old man half-paralyzed and unable to speak. After one year of crawling and unusual therapy tactics including playing basic children's games and washing pots, his father's rehabilitation was nearly complete and he went back to his role as a professor at City College in New York. This remarkable recovery from a stroke proves that even someone with abnormal behavior and severe medical complications can recover nearly all of the normal functions by much practice and perseverance.

Recent studies have reported that a specific gene, FMR1, is highly involved in activity-dependent plasticity and fragile X syndrome (FraX) is the result of this gene's loss of function. The FMR1 gene produces protein FMRP, which mediates activity-dependent control of synaptic structure. The loss or absence of this gene almost certainly leads to both autism and intellectual disability. Dr. Gatto has found that early introduction of the product FMRP results in nearly complete restructuring of the synapses. This method is not as effective, though, when introduced into a mature subject and only partially accommodates for the losses of FMR1. The discovery of this gene provides a possible location for intervention for young children with these abnormalities as this gene and its product act early to construct synaptic architecture.

Stress

A common issue amongst most people in the United States is high levels of stress and also disorders associated with continuous stress. Many regions of the brain are very sensitive to stress and can be damaged with extended exposure. More importantly, many of the mechanisms involved with increased memory retention, comprehension, and adaptation are thought to involve LTP and LTD, two activity-dependent plasticity mechanisms that stress can directly suppress. Several experiments have been conducted in order to discover the specific mechanisms for this suppression and also possible intervention methods. Dr. Li and several others have actually identified the TRPV1 channel as a target to facilitate LTP and suppress LTD, therefore helping to protect the feature of synaptic plasticity and retention of memory from the effects of stress.

Future studies

The future studies and questions for activity-dependent plasticity are nearly endless because the implications of the findings will enable many treatments. Despite many gains within the field, there are a wide variety of disorders that further understanding of activity-dependent mechanisms of plasticity would help treat and perhaps cure. These include autism, different severities of intellectual disability, schizophrenia, Parkinson's disease, stress, and stroke. In addition to a better understanding of the various disorders, neurologists should and will look at the plasticity incurred by the immune system, as it will provide great insight into diseases and also give the basis of new immune-centered therapeutics. A better perspective of the cellular mechanisms that regulate neuronal morphology is the next step to discovering new treatments for learning and memory pathological conditions.

Effects of meditation

From Wikipedia, the free encyclopedia
Electroencephalography has been used for meditation research.

The psychological and physiological effects of meditation have been studied. In recent years, studies of meditation have increasingly involved the use of modern instruments, such as functional magnetic resonance imaging and electroencephalography, which are able to observe brain physiology and neural activity in living subjects, either during the act of meditation itself or before and after meditation. Correlations can thus be established between meditative practices and brain structure or function.

Since the 1950s hundreds of studies on meditation have been conducted, but many of the early studies were flawed and thus yielded unreliable results. Another major review article also cautioned about possible misinformation and misinterpretation of data related to the subject. Contemporary studies have attempted to address many of these flaws with the hope of guiding current research into a more fruitful path.

However, the question of meditation's place in mental health care is far from settled and there is no general consensus among experts. Though meditation is generally deemed useful its superiority has been challenged in several recent meta-analyses that only show small-to-moderate effect sizes. This means that meditation is no better than the standard measures of self-care like sleep, exercise, nutrition and social intercourse. Importantly, it has a worse safety profile than these standard measures (see section on adverse-effects). A recent meta-analysis also indicates that the increased mindfulness experienced by mental health patients may not be the result of explicit mindfulness interventions but more of an artefact of their mental health condition (e.g., depression, anxiety) as it is equally experienced by the participants that were placed in the control condition (e.g., active controls, waiting list). This raises further questions as to what exactly meditation does, if anything, that is significantly different from the heightened self-monitoring and self-care that follows in the wake of spontaneous recovery or from the positive effects of encouragement and care that is usually provided in ordinary health-care settings (see section on the difficulties studying meditation). There also seems to be a critical moderation of the effects of meditation according to individual differences. In one meta-analysis from 2022, involving a total of 7782 participants, the researchers found that a higher baseline level of psychopathology (e.g., depression) was associated with deterioration in mental health after a meditation intervention, and thus was contraindicated.

Effects of mindfulness meditation

A previous study commissioned by the US Agency for Healthcare Research and Quality found that meditation interventions reduce multiple negative dimensions of psychological stress. Other systematic reviews and meta-analyses show that mindfulness meditation has several mental health benefits such as bringing about reductions in depression symptoms, improvements in mood, stress-resilience and attentional control. Mindfulness interventions also appear to be a promising intervention for managing depression in youth. Mindfulness meditation is useful for managing stress, anxiety and also appears to be effective in treating substance use disorders. A recent meta-analysis by Hilton et al. (2016) including 30 randomized controlled trials found high quality evidence for improvement in depressive symptoms. Other review studies have shown that mindfulness meditation can enhance the psychological functioning of breast cancer survivors, is effective for people with eating disorders and may also be effective in treating psychosis.

Studies have also shown that rumination and worry contribute to mental illnesses such as depression and anxiety, and mindfulness-based interventions are effective in the reduction of worry. Some studies suggest that mindfulness meditation contributes to a more coherent and healthy sense of self and identity, when considering aspects such as sense of responsibility, authenticity, compassion, self-acceptance and character.

Brain mechanisms

The analgesic effect of mindfulness meditation may involve multiple brain mechanisms, of which, chronic pain is shown to have a small decrease when performing meditation. Current research demonstrates a lack of high-quality data to support a strong case for clinical prescription of mediation, however future research may further change our understanding of chronic pain treatment and mindfulness, but there are too few studies to allow conclusions about its effects on chronic pain.

Changes in the brain

The act of mindful meditation creates alterations in the brain that lead to a heightened ability to improve emotions. In an 8-week mindfulness meditation study, Gotink et al. discovered that amygdala, insula, cingulate cortex, and hippocampus activity decreased. Importantly, these short-term changes are often equated to a brain with longer time spent doing mindfulness meditation and interventions, such as months or years. There is a clear benefit for performing mindful meditation even if for a short duration. Another meta-analysis found preliminary evidence for effects in the prefrontal cortex and other brain regions associated with body awareness. However, these results should be interpreted with caution as funnel plots indicate that publication bias is an issue in meditation research. A 2016 review using 78 functional neuroimaging studies suggests that different meditation styles are associated with different brain activity. While other studies have found structural changes in the brain may occur, but most studies have utilized weak methodology.

Attention and mindfulness

Attention networks and mindfulness meditation

Psychological and Buddhist conceptualizations of mindfulness both highlight awareness and attention training as key components, in which levels of mindfulness can be cultivated with practice of mindfulness meditation. Focused attention meditation (FAM) and open monitoring meditation (OMM) are distinct types of mindfulness meditation; FAM refers to the practice of intently maintaining focus on one object, whereas OMM is the progression of general awareness of one's surroundings while regulating thoughts.

Focused attention meditation is typically practiced first to increase the ability to enhance attentional stability, and awareness of mental states with the goal being to transition to open monitoring meditation practice that emphasizes the ability to monitor moment-by-moment changes in experience, without a focus of attention to maintain. Mindfulness meditation may lead to greater cognitive flexibility.

In an active randomized controlled study completed in 2019, participants who practiced mindfulness meditation demonstrated a greater improvement in awareness and attention than participants in the active control condition. Alpha wave neural oscillation power (which is normally associated with an alert resting state) has been shown to be increased by mindfulness in both healthy subjects and patients.

Sustained attention

Tasks of sustained attention relate to vigilance and the preparedness that aids completing a particular task goal. Psychological research into the relationship between mindfulness meditation and the sustained attention network have revealed the following:

  • In a continuous performance task an association was found between higher dispositional mindfulness and more stable maintenance of sustained attention.
  • In an electroencephalography study, the attentional blink effect was reduced, and P3b ERP amplitude decreased in a group of participants who completed a mindfulness retreat. The incidence of reduced attentional blink effect relates to an increase in detectability of a second target.
  • A greater degree of attentional resources may also be reflected in faster response times in task performance, as was found for participants with higher levels of mindfulness experience.
Selective attention
  • Selective attention as linked with the orientation network, is involved in selecting the relevant stimuli to attend to.
  • Performance in the ability to limit attention to potentially sensory inputs (i.e. selective attention) was found to be higher following the completion of an eight-week MBSR course, compared to a one-month retreat and control group (with no mindfulness training). The ANT task is a general applicable task designed to test the three attention networks, in which participants are required to determine the direction of a central arrow on a computer screen. Efficiency in orienting that represent the capacity to selectively attend to stimuli was calculated by examining changes in the reaction time that accompanied cues indicating where the target occurred relative to the aid of no cues.
  • Meditation experience was found to correlate negatively with reaction times on an Eriksen flanker task measuring responses to global and local figures. Similar findings have been observed for correlations between mindfulness experience in an orienting score of response times taken from Attention Network Task performance.
  • Participants who engaged in the Meditation Breath Attention Score exercise performed better on anagram tasks and reported greater focused attention on this task compared to those who did not undergo this exercise.
Executive control attention
  • Executive control attention include functions of inhibiting the conscious processing of distracting information. In the context of mindful meditation, distracting information relates to attention grabbing mental events such as thoughts related to the future or past.
  • More than one study have reported findings of a reduced Stroop effect following mindfulness meditation training. The Stroop effect indexes interference created by having words printed in color that differ to the read semantic meaning e.g. green printed in red. However findings for this task are not consistently found. For instance the MBSR may differ to how mindful one becomes relative to a person who is already high in trait mindfulness.
  • Using the Attention Network Task (a version of Eriksen flanker task) it was found that error scores that indicate executive control performance were reduced in experienced meditators and following a brief five-session mindfulness training program.
  • A neuroimaging study supports behavioral research findings that higher levels of mindfulness are associated with greater proficiency to inhibit distracting information. As greater activation of the rostral anterior cingulate cortex (ACC) was shown for mindfulness meditators than matched controls.
  • Participants with at least 6 years of experience meditating performed better on the Stroop Test compared to participants who had not had experience meditating. The group of meditators also had lower reaction times during this test than the group of non-meditators.
  • Following a Stroop test, reduced amplitude of the P3 ERP component was found for a meditation group relative to control participants. This was taken to signify that mindfulness meditation improves executive control functions of attention. An increased amplitude in the N2 ERP component was also observed in the mindfulness meditation group, thought to reflect more efficient perceptual discrimination in earlier stages of perceptual processing.

Emotion regulation and mindfulness

Research shows meditation practices lead to greater emotional regulation abilities. Mindfulness can help people become more aware of thoughts in the present moment, and this increased self-awareness leads to better processing and control over one's responses to surroundings or circumstances.

Positive effects of this heightened awareness include a greater sense of empathy for others, an increase in positive patterns of thinking, and a reduction in anxiety. Reductions in rumination also have been found following mindfulness meditation practice, contributing to the development of positive thinking and emotional well-being.

Evidence of mindfulness and emotion regulation outcomes

Emotional reactivity can be measured and reflected in brain regions related to the production of emotions. It can also be reflected in tests of attentional performance, indexed in poorer performance in attention related tasks. The regulation of emotional reactivity as initiated by attentional control capacities can be taxing to performance, as attentional resources are limited.

  • Patients with social anxiety disorder (SAD) exhibited reduced amygdala activation in response to negative self-beliefs following an MBSR intervention program that involves mindfulness meditation practice.
  • The LPP ERP component indexes arousal and is larger in amplitude for emotionally salient stimuli relative to neutral. Individuals higher in trait mindfulness showed lower LPP responses to high arousal unpleasant images. These findings suggest that individuals with higher trait mindfulness were better able to regulate emotional reactivity to emotionally evocative stimuli.
  • Participants who completed a seven-week mindfulness training program demonstrated a reduction in a measure of emotional interference (measured as slower responses times following the presentation of emotional relative to neutral pictures). This suggests a reduction in emotional interference.
  • Following a MBSR intervention, decreases in social anxiety symptom severity were found, as well as increases in bilateral parietal cortex neural correlates. This is thought to reflect the increased employment of inhibitory attentional control capacities to regulate emotions.
  • Participants who engaged in emotion-focus meditation and breathing meditation exhibited delayed emotional response to negatively valanced film stimuli compared to participants who did not engage in any type of meditation.

Controversies in mindful emotion regulation

It is debated as to whether top-down executive control regions such as the dorsolateral prefrontal cortex (DLPFC), are required or not to inhibit reactivity of the amygdala activation related to the production of evoked emotional responses. Arguably an initial increase in activation of executive control regions developed during mindfulness training may lessen with increasing mindfulness expertise.

Furthermore, current research data is inconclusive and incomplete in linking positive effects of mindful meditation with a variety of reported positive effects. Additional high-fidelity studies are needed before a more complete understanding of the full effects of mindfulness can be reached. 

Stress reduction

Research has shown stress reduction benefits from mindfulness. A 2019 study tested the effects of meditation on the psychological well-being, work stress, and blood pressure of employees working in the United Kingdom. One group of participants were instructed to meditate once a day using a mindfulness app on their smartphones, while the control group did not engage in meditation. Measurements of well-being, stress, and perceived workplace support were taken for both groups before the intervention and then again after four months. Based on self-report questionnaires, the participants who engaged in meditation showed a significant increase in psychological well-being and perceived workplace support. The meditators also reported a significant decrease in anxiety and stress levels.

Another study conducted to understand association between mindfulness, perceived stress and work engagement indicated that mindfulness was associated with lower perceived stress and higher work engagement.

Other research shows decreased stress levels in people who engage in meditation after shorter periods of time as well. Evidence of significant stress reduction was found after only three weeks of meditation intervention. Brief, daily meditation sessions can alter one's behavioral response to stressors, improving coping mechanisms and decreasing the adverse impact caused by stress. A study from 2016 examined anxiety and emotional states of naive meditators before and after a seven-day meditation retreat in Thailand. Results displayed a significant reduction in perceived stress after this traditional Buddhist meditation retreat.

Insomnia and sleep

Chronic insomnia is often associated with anxious hyperarousal and frustration over inability to sleep. Mindfulness has been shown to reduce insomnia and improve sleep quality, although self-reported measures show larger effects than objective measures.

Future directions

A large part of mindfulness research is dependent on technology. As new technology continues to be developed, new imaging techniques will become useful in this field. Real-time fMRI might give immediate feedback and guide participants through the programs. It could also be used to more easily train and evaluate mental statesFunctional magnetic resonance imaging during meditation itself.

Effects of other types of meditation

Insight (Vipassana) meditation

Vipassana or "insight" meditation is a form of mindfulness meditation believed to have been taught by the Buddha himself. As such, it is one of the most ancient forms of meditation. The practice aims to increase a sense of awareness of the present moment. The practitioner becomes a quiet observer of their thoughts, emotions, and sensations; allowing them to come and go without passing judgement. A plethora of evidence now exists to suggest that vipassana meditation does indeed lead to increased mindfulness, but the benefits of the practice do not stop there. It has also been found to reduce stress and increase both self-kindness and overall well-being.

Electroencephalography studies on Vipassana meditators seemed to indicate significant increase in parieto-occipital gamma rhythms in experienced meditators (35–45 Hz). In another study conducted by NIMHANS on Vipassana meditators, researchers found readings associated with improved cognitive processing after a session of meditation, with distinct and graded difference in the readings between novice meditators and experienced meditators.

Khoury and colleagues (2017) conducted a meta-analysis including a total of 21 studies and 2,912 participants. The study aimed to evaluate the effects of traditional vipassana meditation retreats in various populations including advanced meditators, novice meditators, and incarcerated individuals. More specifically, it explored the psychological outcomes including anxiety symptoms, depressive symptoms, and stress following the retreats, evaluated the impacts of the retreats on levels of mindfulness, and explored variables moderating the effectiveness of traditional retreats. Results suggested that traditional vipassana meditation retreats were moderately effective at improving psychological outcomes, with novice meditators and members of the general population experiencing particularly large reductions in anxiety, depression, and stress when compared to both experienced meditators and incarcerated individuals. Moreover, the results suggested an increased capacity for emotional regulation, acceptance, compassion, and mindfulness as well as higher quality of life scores following the retreats across all populations. These results held steady even at follow-up.

An essential component to the Vipassana mediation approach is the focus on awareness, referring to bodily sensations and psychological status. In a study conducted by Zeng et al. (2013), awareness was described as the acknowledgement of consciousness which is monitoring all aspects of the environment. This definition differentiates the concept of awareness from mindfulness. The emphasis on awareness, and the way it assists in monitoring emotion, is unique to this meditative practice.

Kundalini yoga

Kundalini yoga has proved to increase the prevention of cognitive decline and evaluate the response of biomarkers to treatment, thereby shedding light on the underlying mechanisms of the link between Kundalini Yoga and cognitive impairment. For the study, 81 participants aged 55 and older who had subjective memory complaints and met criteria for mild cognitive impairment, indicated by a total score of 0.5 on the Clinical Dementia Rating Scale. The results showed that at 12 weeks, both the yoga group showed significant improvements in recall memory and visual memory and showed a significant sustained improvement in memory up to the 24-week follow-up, the yoga group showed significant improvement in verbal fluency and sustained significant improvements in executive functioning at week 24. In addition, the yoga cohort showed significant improvement in depressive symptoms, apathy, and resilience from emotional stress. This research was provided by Helen Lavretsky, M.D. and colleagues. In another study, Kundalini Yoga did not show significant effectiveness in treating obsessive-compulsive disorders compared with Relaxation/Meditation.

Sahaja yoga and mental silence

Sahaja yoga meditation is regarded as a mental silence meditation, and has been shown to correlate with particular brain and brain wave characteristics. One study has led to suggestions that Sahaja meditation involves 'switching off' irrelevant brain networks for the maintenance of focused internalized attention and inhibition of inappropriate information. Sahaja meditators appear to benefit from lower depression and scored above control group for emotional well-being and mental health measures on SF-36 ratings.

A study comparing practitioners of Sahaja Yoga meditation with a group of non-meditators doing a simple relaxation exercise, measured a drop in skin temperature in the meditators compared to a rise in skin temperature in the non-meditators as they relaxed. The researchers noted that all other meditation studies that have observed skin temperature have recorded increases and none have recorded a decrease in skin temperature. This suggests that Sahaja Yoga meditation, being a mental silence approach, may differ both experientially and physiologically from simple relaxation.

Transcendental Meditation

In a 2006 review, Transcendental Meditation proved comparable with other kinds of relaxation therapies in reducing anxiety. In another 2006 review, study participants demonstrated a one Hertz reduction in electroencephalography alpha wave frequency relative to controls.

A 2012 meta-analysis published in Psychological Bulletin, which reviewed 163 individual studies, found that Transcendental Meditation performed no better overall than other meditation techniques in improving psychological variables.

A 2013 statement from the American Heart Association said that Transcendental Meditation could be considered as a treatment for hypertension, although other interventions such as exercise and device-guided breathing were more effective and better supported by clinical evidence.

A 2014 review found moderate evidence for improvement in anxiety, depression and pain with low evidence for improvement in stress and mental health-related quality of life.

Transcendental Meditation may reduce blood pressure, according to a 2015 review that compared it to control groups. A trend over time indicated that practicing Transcendental Meditation may lower blood pressure. Such effects are comparable to other lifestyle interventions. Conflicting findings across reviews and a potential risk of bias indicated the necessity of further evidence.

Effects of loving, kindness, and compassion

Several meta-analyses have examined the effects of mindful meditation on one’s loving, kindness, and compassionate disposition and behaviors. Significant increases in self-reported self-compassion. Compassion, and well-being were reported alongside decreases in depression and anxiety. Another study indicated an increase in positive emotions. There may be further benefits that are yet to be discovered, with only preliminary data on mindfulness and mediation. Further studies and explorations into the effects of mindful meditation on the self are needed to draw further conclusions.

Research on unspecified or multiple types of meditation

Brain activity

The medial prefrontal and posterior cingulate cortices have been found to be relatively deactivated during meditation by experienced meditators using concentration, loving-kindness, and choiceless awareness meditation. In addition experienced meditators were found to have stronger coupling between the posterior cingulate, dorsal anterior cingulate, and dorsolateral prefrontal cortices both when meditating and when not meditating. Over time meditation can actually increase the integrity of both gray and white matter. The added amount of gray matter found in the brain stem after meditation improves communication between the cortex and all other areas within the brain. Meditation often stimulates a large network of cortical regions including the frontal and parietal regions, lateral occipital lobe, the insular cortex, thalamic nuclei, basal ganglia, and the cerebellum region in the brain. These parts of the brain are connected with attention and the default network of the brain which is associated to day dreaming.

Strengthening of the caudate has been found in avid meditators and yogis.

In addition, both meditation and yoga have been found to have impacts on the brain, specifically the caudate. Strengthening of the caudate has been shown in meditators as well as yogis. The increased connectedness of the caudate has potential to be responsible for the improved well-being that is associated with yoga and meditation.

Changes in the brain

Meditation is under preliminary research to assess possible changes in grey matter concentrations.

Published research suggests that meditation can facilitate neuroplasticity and connectivity in brain regions specifically related to emotion regulation and attention.

Attention and mind wandering

Non-directive forms of meditation where the meditator lets their mind wander freely can actually produce higher levels of activity in the default mode network when compared to a resting state or having the brain in a neutral place. These Non directive forms of meditation allows the meditators to have better control over thoughts during everyday activities or when focusing on specific task due to a reduced frustration at the brains mind wandering process. When given a specific task, meditation can allow quicker response to changing environmental stimuli. Meditation can allow the brain to decrease attention to unwanted responses of irrelevant environmental stimuli and a reduces the Stroop effect. Those who meditate have regularly demonstrated more control on what they focus their attention on while maintaining a mindful awareness on what is around them.  Experienced meditators have been shown to have an increased ability when it comes to conflict monitoring and find it easier to switch between competing stimuli. Those who practice meditation experience an increase of attentional resources in the brain and steady meditation practice can lead to the reduction of the attentional blink due to a decreased mental exertion when identifying important stimuli.

Perception

Studies have shown that meditation has both short-term and long-term effects on various perceptual faculties. In 1984 a study showed that meditators have a significantly lower detection threshold for light stimuli of short duration. In 2000 a study of the perception of visual illusions by zen masters, novice meditators, and non-meditators showed statistically significant effects found for the Poggendorff Illusion but not for the Müller-Lyer Illusion. The zen masters experienced a statistically significant reduction in initial illusion (measured as error in millimeters) and a lower decrement in illusion for subsequent trials. Tloczynski has described the theory of mechanism behind the changes in perception that accompany mindfulness meditation thus: "A person who meditates consequently perceives objects more as directly experienced stimuli and less as concepts… With the removal or minimization of cognitive stimuli and generally increasing awareness, meditation can therefore influence both the quality (accuracy) and quantity (detection) of perception." Brown points to this as a possible explanation of the phenomenon: "[the higher rate of detection of single light flashes] involves quieting some of the higher mental processes which normally obstruct the perception of subtle events." In other words, the practice may temporarily or permanently alter some of the top-down processing involved in filtering subtle events usually deemed noise by the perceptual filters.

Memory

Meditation enhances memory capacity specifically in the working memory and increases executive functioning by helping participants better understand what is happening moment for moment. Those who meditate regularly have demonstrated the ability to better process and distinguish important information from the working memory and store it into long-term memory with more accuracy than those who do not practice meditation techniques. Meditation may be able to expand the amount of information that can be held within working memory and by so doing is able to improve IQ scores and increase individual intelligence. The encoding process for both audio and visual information has been shown to be more accurate and detailed when meditation is used. Though there are limited studies on meditation's effects on long-term memory, because of meditations ability to increase attentional awareness, episodic long-term memory is believed to be more vivid and accurate for those who meditate regularly. Meditation has also shown to decrease memory complaints from those with Alzheimer's disease which also suggests the benefits meditation could have on episodic long-term memory which is linked to Alzheimer's.

Calming and relaxation

Electroencephalography activity slows as a result of meditation. Some types of meditation may lead to a calming effect by reducing sympathetic nervous system activity while increasing parasympathetic nervous system activity. Or, equivalently, that meditation produces a reduction in arousal and increase in relaxation.

Herbert Benson, founder of the Mind-Body Medical Institute, which is affiliated with Harvard University and several Boston hospitals, reports that meditation induces a host of biochemical and physical changes in the body collectively referred to as the "relaxation response". The relaxation response includes changes in metabolism, heart rate, respiration, blood pressure and brain chemistry. Benson and his team have also done clinical studies at Buddhist monasteries in the Himalayan Mountains. Benson wrote The Relaxation Response to document the benefits of meditation, which in 1975 were not yet widely known.

Aging

There is no good evidence to indicate that meditation affects the brain in aging.

Happiness and emotional well-being

Studies have shown meditators to have higher happiness than control groups, although this may be due to non-specific factors such as meditators having better general self-care.

Positive relationships have been found between the volume of gray matter in the right precuneus area of the brain and both meditation and the subject's subjective happiness score. A recent study found that participants who engaged in a body-scan meditation for about 20 minutes self-reported higher levels of happiness and decrease in anxiety compared to participants who just rested during the 20-minute time span. These results suggest that an increase in awareness of one's body through meditation causes a state of selflessness and a feeling of connectedness. This result then leads to reports of positive emotions.

A technique known as mindfulness-based stress reduction (MBSR) displays significant benefits for mental health and coping behaviors. Participants who had no prior experience with MBSR reported a significant increase in happiness after eight weeks of MBSR practice. Focus on the present moment and increased awareness of one's thoughts can help monitor and reduce judgment or negative thoughts, causing a report of higher emotional well-being. The MBSR program and evidence for its effectiveness is described in Jon Kabat-Zinn's book Full Catastrophe Living.

Pain

Meditation has been shown to reduce pain perception. An intervention known as mindfulness-based pain management (MBPM) has been subject to a range of studies demonstrating its effectiveness.

Adverse effects and limits of meditation and mindfulness

Meditation and mindfulness have also been correlated with unpleasant experiences, but the potential for adverse effects from meditation has received limited attention in scientific articles and the popular press.

Contemplative traditions

According to Farias et al. (2020) the most common adverse effects of meditation are anxiety and depression. Other adverse affects may include depersonalization or altered sense of self or the world, distorted emotions or thoughts, and, in a few cases, visual and auditory psychosis, and with pre-existing historical factors suicide.

Schlosser et al. (2019) reported that, of 1,232 regular meditators with at least two months of meditation experience, about a quarter reported having had particularly unpleasant meditation-related experiences (such as anxiety, fear, distorted emotions or thoughts, altered sense of self or the world), which they thought may have been caused by their meditation practice. Meditators with high levels of repetitive negative thinking and those who only engage in deconstructive meditation were more likely to report unpleasant side effects. Adverse effects were less frequently reported in women and religious meditators.

Meditation also has an addictive potential as it both offers biochemical rewards and socially acceptable avenues for escapism (like internet use, social media, substance abuse). Using spiritual ideas and practices "to sidestep or avoid facing unresolved emotional issues, psychological wounds, and unfinished developmental tasks" is known as Spiritual bypass, a term introduced in the mid 1980s by John Welwood, a Buddhist teacher and psychotherapist.

"Zen sickness", exhaustion caused by prolonged intense practice and self-neglect is described by Hakuin and Bankei.

Mindfulness

In recent years both the soundness of the scientific foundations and the desirability of the societal effects of mindfulness have been questioned.

Britton et al. (2019), in a study on the effects of mindfulness-based programs (MBPs), found negative side-effects in 37% of the sample while lasting bad effects in 6–14% of the sample. Most of the side effects were related to signs of dysregulated arousal (i.e., hyperarousal and dissociation). The majority of these adverse events occurred as a result of regular practice at home or during class something that challenges the notion that it is only intense practice that can give rise to negative experiences; as it turns out intense all-day retreats or working with difficulty practice accounts for only 6% of adverse effects. The symptoms most readily recognized as negative were those of hyperarousal (e.g., anxiety and insomnia). On the other hand, while dissociation symptoms (e.g., emotional blunting, derealization, and self-disturbance) were both less frequent and less likely to be appraised as negative, they were still associated with more than 5–10 times greater risk for lasting bad effects… This means that re-appraisal of dissociative symptoms via non-judgmental acceptance is not sufficient to prevent impairment in functioning and should not constitute the only response. Instead, training in how to recognize dissociative symptoms as potential indicators of the need for intervention, which have recently been added to some mindfulness teacher training programs may be important.

There is also mounting evidence that mindfulness can disturb various prosocial behaviors. By blunting emotions, in particular the social emotions of guilt and shame, it may produce deficits in the feelings of empathy and remorse thus creating calm but callous practitioners. Hafenbrack et al. (2022), in a study on mindfulness with 1400 participants, found that focused-breathing meditation can dampen the relationship between transgressions and the desire to engage in reparative prosocial behaviors. Poullin et al. (2021) found that mindfulness can increase the trait of selfishness. The study, consisting of two interrelated parts and totaling 691 participants, found that a mindfulness induction, compared to a control condition, led to decreased prosocial behavior. This effect was moderated by self-construals such that people with relatively independent self-construals became less prosocial while people with relatively interdependent self-construals became more so. In the western world where independent self-construals generally predominate meditation may thus have potentially detrimental effects.

These new findings about mindfulness' socially problematic effects imply that it can be contraindicated to use mindfulness as a tool to handle acute personal conflicts or relational difficulties; in the words of Andrew Hafenbrack, one of the authors of the study, “If we 'artificially' reduce our guilt by meditating it away, we may end up with worse relationships, or even fewer relationships”. In line with this, a meta-analysis by Kreplin et al. (2018) concluded that meditation only has a limited effect in increasing prosocial behaviours (e.g., empathy, compassion).

Mindfulness is not helpful if it used to avoid facing ongoing problems or emerging crises in the meditator's life, in which case it will function as just another form of experiential avoidance and potentially exacerbate the crisis. In such situations, it may instead be helpful to apply mindful attitudes while actively engaging with current problems. According to the NIH, meditation and mindfulness should not be used as a replacement for conventional health care or as a reason to postpone seeing a doctor.

Support

Organizations such as Cheetah House and Meditating in Safety document research on problems arising in meditation, and offer help for meditators in distress or those recovering from meditation-related health problems. In some cases, adverse effects may be attributed to "improper use of meditation" or the aggravation of a preexisting condition; however, developing research in this area suggests the need for deeper engagement with the causes of severe distress, which previous "meditation teachers have perhaps too quickly and rather insensitively dismissed as pre-existing or unrelated psychopathology". Where meditation is prescribed or offered as a treatment,

principles of informed consent require that treatment choice be based in part on the balance of benefits to harms, and therefore can only be made if harms are adequately measured and known.

Difficulties in the scientific study of meditation

Weaknesses in historic meditation and mindfulness research

A comparison of the effect of various meditation techniques on systolic blood pressure

In June 2007, the United States National Center for Complementary and Integrative Health published an independent, peer-reviewed, meta-analysis of the state of meditation research, conducted by researchers at the University of Alberta Evidence-based Practice Center. The report reviewed 813 studies involving five broad categories of meditation: mantra meditation, mindfulness meditation, yoga, tai chi, and qigong, and included all studies on adults through September 2005, with a particular focus on research pertaining to hypertension, cardiovascular disease, and substance abuse. The report concluded:

Scientific research on meditation practices does not appear to have a common theoretical perspective and is characterized by poor methodological quality. Future research on meditation practices must be more rigorous in the design and execution of studies and in the analysis and reporting of results. (p. 6)

It noted that there is no theoretical explanation of health effects from meditation common to all meditation techniques.

A version of this report subsequently published in the Journal of Alternative and Complementary Medicine in 2008 stated: "Most clinical trials on meditation practices are generally characterized by poor methodological quality with significant threats to validity in every major quality domain assessed." This was despite a statistically significant increase in quality of all reviewed meditation research, in general, over time between 1956 and 2005. Of the 400 clinical studies, 10% were found to be good quality. A call was made for rigorous study of meditation. These authors also noted that this finding is not unique to the area of meditation research and that the quality of reporting is a frequent problem in other areas of complementary and alternative medicine (CAM) research and related therapy research domains.

Of more than 3,000 scientific studies that were found in a comprehensive search of 17 relevant databases, only about 4% had randomised controlled trials (RCTs), which are designed to exclude the placebo effect.

In a 2013 meta-analysis, Awasthi argued that meditation is defined poorly and despite the research studies showing clinical efficacy, exact mechanisms of action remain unclear. A 2017 commentary was similarly mixed, with concerns including the particular characteristics of individuals who tend to participate in mindfulness and meditation research.

Position statements

A 2013 statement from the American Heart Association evaluated the evidence for the effectiveness of Transcendental Meditation as a treatment for hypertension as "unknown/unclear/uncertain or not well-established", and stated: "Because of many negative studies or mixed results and a paucity of available trials... other meditation techniques are not recommended in clinical practice to lower BP at this time." According to the American Heart Association, while there are promising results about the impact of meditation in reducing blood pressure and managing insomnia, depression and anxiety, it is not a replacement for healthy lifestyle changes and is not a substitute for effective medication.

Methodological obstacles

The term meditation encompasses a wide range of practices and interventions rooted in different traditions, but research literature has sometimes failed to adequately specify the nature of the particular meditation practice(s) being studied. Different forms of meditation practice may yield different results depending on the factors being studied.

The presence of a number of intertwined factors including the effects of meditation, the theoretical orientation of how meditation practices are taught, the cultural background of meditators, and generic group effects complicates the task of isolating the effects of meditation:

Numerous studies have demonstrated the beneficial effects of a variety of meditation practices. It has been unclear to what extent these practices share neural correlates. Interestingly, a recent study compared electroencephalogram activity during a focused-attention and open monitoring meditation practice from practitioners of two Buddhist traditions. The researchers found that the differences between the two meditation traditions were more pronounced than the differences between the two types of meditation. These data are consistent with our findings that theoretical orientation of how a practice is taught strongly influences neural activity during these practices. However, the study used long-term practitioners from different cultures, which may have confounded the results.

Quantum mysticism

From Wikipedia, the free encyclopedia

Quantum mysticism, sometimes referred pejoratively to as quantum quackery or quantum woo, is a set of metaphysical beliefs and associated practices that seek to relate consciousness, intelligence, spirituality, or mystical worldviews to the ideas of quantum mechanics and its interpretations. Quantum mysticism is considered pseudoscience and quackery by quantum mechanics experts.

Before the 1970s the term was usually used in reference to the von Neumann–Wigner interpretation, but was later more closely associated with the purportedly pseudoscientific views espoused by New Age thinkers such as Fritjof Capra and other members of the Fundamental Fysiks Group, who were influential in popularizing the modern form of quantum mysticism.

History

Many early quantum physicists held some interest in traditionally Eastern metaphysics. Physicists Werner Heisenberg and Erwin Schrödinger, two of the main pioneers of quantum mechanics in the 1920s, were interested in Eastern mysticism, but are not known to have directly associated one with the other. In fact, both endorsed the Copenhagen interpretation of quantum mechanics.

Olav Hammer said that "Schrödinger’s studies of Hindu mysticism never compelled him to pursue the same course as quantum metaphysicists such as David Bohm or Fritjof Capra." Schrödinger biographer Walter J. Moore said that Schrödinger's two interests of quantum physics and Hindu mysticism were "strangely dissociated".

In his 1961 paper "Remarks on the mind–body question", Eugene Wigner suggested that a conscious observer played a fundamental role in quantum mechanics, a concept which is part of the von Neumann–Wigner interpretation. While his paper served as inspiration for later mystical works by others, Wigner's ideas were primarily philosophical and were not considered overtly pseudoscientific like the mysticism that followed. By the late 1970s, Wigner had shifted his position and rejected the role of consciousness in quantum mechanics. Harvard historian Juan Miguel Marin suggests that "consciousness [was] introduced hypothetically at the birth of quantum physics, [and] the term 'mystical' was also used by its founders, to argue in favor of and against such an introduction."

Mysticism was argued against by Albert Einstein. Einstein's theories have often been falsely believed to support mystical interpretations of quantum theory. Einstein said, with regard to quantum mysticism, "No physicist believes that. Otherwise he wouldn't be a physicist." He debates several arguments about the approval of mysticism, even suggesting Bohr and Pauli to be in support of and to hold a positive belief in mysticism which he believes to be false.

Niels Bohr denied quantum mysticism and had rejected the hypothesis that quantum theory requires a conscious observer as early as 1927, despite having been "sympathetic towards the hypothesis that understanding consciousness might require an extension of quantum theory to accommodate laws other than those of physics".

In New Age thought

In the early 1970s New Age culture began to incorporate ideas from quantum physics, beginning with books by Arthur Koestler, Lawrence LeShan and others which suggested that purported parapsychological phenomena could be explained by quantum mechanics.

In this decade, the Fundamental Fysiks Group emerged. This group of physicists embraced quantum mysticism, parapsychology, Transcendental Meditation, and various New Age and Eastern mystical practices.

Inspired in part by Wigner's exploration of the von Neumann–Wigner interpretation, Fritjof Capra, a member of the Fundamental Fysiks Group, wrote The Tao of Physics: An Exploration of the Parallels Between Modern Physics and Eastern Mysticism (1975), which espoused New Age quantum physics; the book was popular among the non-scientific public. In 1979, Gary Zukav, a non-scientist and "the most successful of Capra's followers", published The Dancing Wu Li Masters. The Fundamental Fysiks Group and Capra's book are said to be major influences for the rise of quantum mysticism as a pseudoscientific interpretation of quantum mechanics.

Modern usage and examples

In contrast to the mysticism of the early 20th century, today quantum mysticism typically refers to New Age beliefs that combine ancient mysticism with the language of quantum mechanics. Called a pseudoscience and a "hijacking" of quantum physics, it draws upon "coincidental similarities of language rather than genuine connections" to quantum mechanics. Physicist Murray Gell-Mann coined the phrase "quantum flapdoodle" to refer to the misuse and misapplication of quantum physics to other topics.

An example of such use is New Age guru Deepak Chopra's "quantum theory" that aging is caused by the mind, expounded in his books Quantum Healing (1989) and Ageless Body, Timeless Mind (1993). In 1998, Chopra was awarded the parody Ig Nobel Prize in the physics category for "his unique interpretation of quantum physics as it applies to life, liberty, and the pursuit of economic happiness". In 2012, Stuart Hameroff and Chopra proposed that the "quantum soul" could exist "apart from the body" and "in space-time geometry, outside the brain, distributed nonlocally".

The 2004 film What the Bleep Do We Know!? dealt with a range of New Age ideas in relation to physics. It was produced by the Ramtha School of Enlightenment, founded by J.Z. Knight, a channeler who said that her teachings were based on a discourse with a 35,000-year-old disembodied entity named Ramtha. Featuring Fundamental Fysiks Group member Fred Alan Wolf, the film misused some aspects of quantum mechanics—including the Heisenberg uncertainty principle and the observer effect—as well as biology and medicine. Numerous critics dismissed the film for its use of pseudoscience.

Computing education

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Computing_education Elementar...