Evolutionary psychiatry

Evolutionary psychiatry, also known as Darwinian psychiatry,[1][2] is a theoretical approach to psychiatry that aims to explain psychiatric disorders in evolutionary terms.[3][4] As a branch of the field of evolutionary medicine, it is distinct from the medical practice of psychiatry in its emphasis on providing scientific explanations rather than treatments for mental disorder. This often concerns questions of ultimate causation. For example, psychiatric genetics may discover genes associated with mental disorders, but evolutionary psychiatry asks why those genes persist in the population. Other core questions in evolutionary psychiatry are why heritable mental disorders are so common[5] how to distinguish mental function and dysfunction,[6] and whether certain forms of suffering conveyed an adaptive advantage.[7] Disorders commonly considered are depression, anxiety, schizophrenia, autism, eating disorders, and others. Key explanatory concepts are of evolutionary mismatch (when modern environments cause mental health conditions) and the fact that evolution is guided by reproductive success rather than health or wellbeing. Rather than providing an alternative account of the cause of mental disorder, evolutionary psychiatry seeks to integrate findings from traditional schools of psychology and psychiatry such as social psychology, behaviourism, biological psychiatry and psychoanalysis into a holistic account related to evolutionary biology. In this sense, it aims to meet the criteria of a Kuhnian paradigm shift.

Though heavily influenced by evolutionary psychology,[3] as Abed and St John-Smith noted in 2016, "Unlike evolutionary psychology, which is a vibrant and thriving sub-discipline of academic psychology with a strong and well-funded research program, evolutionary psychiatry remains the interest of a small number of psychiatrists who are thinly scattered across the world." It has gained increasing institutional recognition in recent years, including the formation of an evolutionary psychiatry special interest group within the Royal College of Psychiatrists and the Section on Evolutionary Psychiatry within the World Psychiatric Association,[8] and has gained traction with the publication of texts aimed at the popular audience such as 'Good Reasons for Bad Feelings: Insight from the Frontier of Evolutionary Psychiatry'[7] by Randolph Nesse.

History

The pursuit of evolutionary psychiatry in its modern form can be traced to the late 20th century. A landmark text was George Williams and Randolph Nesse's 'Why We Get Sick: The New Science of Darwinian Medicine'[9] (which could also be considered as marking the beginning of evolutionary medicine), the publication of 'Evolutionary Psychiatry: A New Beginning' by John Price and Anthony Stevens and others. However, the questions which evolutionary psychiatry concerns itself with have a longer history, for instance being recognised by Julian Huxley and Ernst Mayr in an early paper[10] considering possible evolutionary explanations for what has become known as the 'schizophrenia paradox'.

Concepts applied by modern evolutionary psychiatry to explain mental disorder are also much older than the field, in many cases. Psychological suffering as an inevitable, and sometimes useful, part of human existence has been long-recognised, and the idea of divine madness pervades ancient societies and religions. Cesare Lombroso, a pioneering psychiatrist, began utilising evolutionary theory to explain mental disorder as early as 1864, proposing that insanity was the price of genius, as human brains had not evolved with the capacity to become hyper-intelligent and creative and yet remain sane.[11] Darwin applied evolutionary theory to explain psychological traits and emotions, and recognised the usefulness of studying mental disorders in pursuit of understanding natural psychological function. Freud was heavily influenced by Darwinian theory, and towards the end of his life recommended psychoanalysts should study evolutionary theory.[12] Bowlby's attachment theory was developed in explicit reference to evolutionary theory.[13]

In 2016 the Evolutionary Psychiatry Special Interest Group (EPSIG) was set up in the Royal College of Psychiatrists, UK by Riadh Abed and Paul St-John Smith.[8] It is now the largest global institution for connecting psychiatrists and researchers interested in evolutionary psychiatry[14] with over 1700 members.[15] It has run several seminars and meetings dedicated to evolutionary psychiatry, hosting lectures by prominent academics such as Simon Baron-Cohen and Robin Dunbar. All of the meetings are available on the EPSIGUK YouTube channel.[16] EPSIG also publishes regular newsletters,[17] organising conferences, conducting interviews and hosting special essays related to evolutionary psychiatry (for which there is not yet a dedicated academic journal). As Riadh Abed, (previous chair) stated in a newsletter "Our aims are both big and radical: they are for evolution to be accepted as the overarching framework for psychiatry and for evolution to take center stage in our understanding of mental health and mental disorder."[14]

Abed and St-John Smith edited a 2022 volume 'Evolutionary Psychiatry: Current Perspectives on Evolution and Mental Health' ,[18] co-published by the Royal College of Psychiatrists and Cambridge University Press, marking the most extensive publication in the field to date, and forming the basis for the first podcast dedicated to evolutionary psychiatry, the 'Evolving Psychiatry' podcast.

Psychological function and dysfunction

Mental disorders are often defined by 'dysfunction' in psychiatric manuals such as the DSM, without a precise definition of what constitutes dysfunction, allowing any mental state deemed socially unacceptable (such as homosexuality) to be considered dysfunctional, and thus a mental disorder.

Evolutionary theory is uniquely placed to be able to distinguish biological function from dysfunction by evolutionary processes.[19] Unlike the objects and processes of physics and chemistry, which cannot strictly be said to be functioning nor dysfunctioning,[20] biological systems are the products of evolution by natural selection, and so their 'function' and 'dysfunction' can be related to that evolutionary process. The concept of evolutionary function is tied to the reproductive success brought about by phenotypes which caused genes to be propagated. Eyes evolved to see – the function of the eyes is to see – so dysfunctional eyes are those that cannot see. This sense of function is defined by the evolutionary history of eyesight providing reproductive success, not current cultural opinions of normality and abnormality on which common conceptions of health and disorder often depend.[21] Jerome Wakefield's influential 'Harmful Dysfunction' definition of disorder utilises evolutionarily selected effects to ground the concept of 'dysfunction' in the objective process of evolution. Wakefield proposes that mental disorder must be both harmful, in a value-defined sense, and dysfunctional, in an evolutionary sense.

This grounding of dysfunction in an objective historical process is important in the context of psychiatry's history of labelling socially undesirable mental states and traits as 'disorders', such as female masturbation and homosexuality. Current diagnostic manuals are decided by consensus. For example, in 1973 the APA called a vote to reconsider homosexuality's status as a mental disorder. By a 58% majority, it was struck off.[22] The category of borderline personality disorder was created upon the basis of a single paper and consensus between about a dozen psychiatrists.[23] In 2014 psychiatrists voted on the features of a new disorder, internet gaming disorder.[24] The reliance on votes and expert consensus rather than objective evidence or biomarkers is a longstanding criticism of psychiatry that evolutionary psychiatry can avoid by adopting the evolutionary definition of dysfunction.

Evolutionary causation and Tinbergen's four questions

The research questions and concerns of evolutionary medicine and psychiatry can be distinguished from normal biomedicine and biological-psychiatry research as asking ultimate instead of proximate questions. This ultimate-proximate distinction was introduced by Ernst Mayr[25] to identify different levels of causational explanation: proximate explanations refer to mechanistic biological processes (e.g. genes, ontogenetic development, hormones, neurological structure and function) whilst ultimate explanations ask about the evolutionary process of natural selection which led to these biological structures and processes functioning as observed. This could be conceived of as proximate explanations are 'how' questions whilst ultimate explanations are 'why' questions.

Niko Tinbergen further deconstructed this ultimate-proximate distinction into his 'four questions'.[26] These questions of mechanism, ontogeny, function and phylogeny can be asked of any single trait or disorder (often behavioural, although not necessarily) to identify the different questions of causation which are simultaneously relevant.

Proximate questions can be separated into questions of mechanism, which concerns how the trait works, the structure and process of its biological mechanism, and questions of ontogeny or individual development which concerns how the trait develops in an individual.

Ultimate questions can be either of or evolutionary function or adaptive value, which concerns how the trait influenced fitness throughout evolutionary history; and questions of phylogeny or evolution, which concern the history of a trait down the phylogenetic tree.

To take the example of depression, we can ask about proximate mechanisms (e.g. neurotransmitter properties), ontogenetic development (e.g. neurological development over an individual's lifespan), adaptive function (e.g. low mood system) and phylogeny (e.g. apparent low mood in reaction to social defeat in primates).

Key explanatory concepts in evolutionary psychiatry

Mental disorder results from many different environmental and genetic causes, with various complex neurological correlates – but evolutionary medicine recognises several general principles which allow vulnerability to disorder. Adapted from Nesse (2019),[7] Stearns (2016)[27] and Gluckman (2016).[28]

Reproductive success over health

Natural selection acts on reproductive fitness, not biological states which are what may be considered healthy; healthy states are only selected if they also have positive effects on reproductive success. This is used in evolutionary medicine to explain aging and diseases of senescence: diseases which appear past reproductive age have minimal effect on fecundity. Psychological suffering and various cognitive states which may seem unhealthy or disorderly may equally be products of evolutionary processes if they increased reproductive success. Evidence of this may be seen in disorders associated with substantial apparent dysfunction, yet average levels of fertility.

Mismatch

Evolutionary mismatch occurs when evolved traits become maladaptive due to changes in the environment. This is a common factor causing evolutionary change (e.g. in the peppered moth) and is relevant to medicine when the mismatched traits cause problems affecting health. Psychiatric conditions may in some cases be evolved states which we are misinterpreting as disorders because they no longer fit our social expectations; or they may be mental states or traits which would manifest healthily in ancestral environments, but become pathological due to some feature of modern environments. Evidence of mismatch is most prominent when comparing traditional-living humans to modern-living humans or when new environmental factors arise which clearly cause disease (e.g. the availability of cheap, high calorie foods causing obesity).

Defences

Psychological responses such as fear and panic are adaptive in many situations,[29] especially of imminent danger, and seen in multiple species. Certain mental disorders may result from such responses, either as a maladaptive overactivation of the response, or as an adaptive process which is specifically tuned to over-activate because the fitness cost of the response is outweighed by the fitness benefit – called the smoke detector principle.[30] The fact that such experiences are highly distressing, debilitating and inappropriate leads to their diagnosis as mental disorders.

Mutation-selection balance

Natural selection acts upon genetic mutations, which are present in every generation, removing those which reduce fitness and increasing the prevalence of those which improve fitness. Mutations are also more likely to reduce fitness than improve it. Biological traits with a large mutational target size, such as brains, where over 80% of the genome is expressed,[31] are especially likely to be suspect to harmful mutations which negatively affect cognitive function, which are then removed by natural selection. Such mutations are often associated with intellectual disability, certain cases of autism, schizophrenia, and many more disorders. The fact that de-novo mutations cause such disorders in a few cases has been used to argue that the other cases are caused by as-yet undiscovered disease processes, although the presence of heterogeneity within disorder categories and the lack of discovered pathology despite significant work in neuroscience and genetics is evidence against that view.

Evolutionary explanations for specific disorders

Schizophrenia

Schizophrenia is primarily characterized by psychosis (hallucinations and delusions) and symptoms of cognitive debilitation such as erratic speech, lost interest in normal activities and disordered thinking. It is the most extreme condition of the schizophrenia or psychosis spectrum, which includes schizotypy and other psychotic disorders, arguably extending to unusual experiences such as perceiving ghosts or believing in magic which are common in the population.

Schizophrenia is a heritable condition, prevalent in slightly less than 1% of the population, with negative effects of fecundity, especially in men.[32] Because of this, it was perhaps the first psychiatric condition explicitly raised as specifically requiring an evolutionary explanation,[10] in the so-called 'schizophrenia paradox' (now more generally known as the paradox of common, harmful, heritable mental disorders[5]). To explain schizophrenia's persistence various evolutionary hypotheses have been made.

Hypotheses of schizophrenia as a true dysfunction are plentiful. It has been hypothesised that schizophrenia is a dysfunctional byproduct of human evolution for language and brain hemisphere lateralization,[33] or a dysfunction of the social brain,[34] or related to theory-of-mind.[35] Other theories have referred to the possibility it is caused by mutation-selection balance.[5] However, the expected rare and de novo mutations have only been found in a small proportion of cases.[36] Many alleles predisposing to schizophrenia are common in the population, making adaptive hypotheses plausible, as has been noted since the mid 20th century.[10]

Hypotheses explaining schizophrenia as resulting from adaptation vary widely. Early theorists proposed it conveyed improvements to the immune system or illness recovery[10] or facilitates group-splitting.[37] Inspired by the longstanding cultural ideas of madness as related to genius, Nettle proposed that schizotypy could be related to creative success,[38] which added to mating success, and that the positive effects of schizotypal traits might be an explanation for why these traits persist. However, the measured fecundity benefit of such traits has been found to not outweigh the cost of schizophrenia via inclusive fitness (although this may be due to selection bias).[39]

The shamanism hypothesis of schizophrenia states that in traditional societies the experience of psychosis facilitated the induction of shamans (magico-religious practitioners such as medicine men, diviners, witch doctors, exorcists and mediums). Shamanism is a common feature of human societies, with certain individuals deemed to have a particular connection to the supernatural world which gives them the ability to perform magic, especially healing. This in particular is used explain the common religious and grandiose content of psychotic experiences and the belief in supernatural powers, which may have been believed rather than disbelieved in traditional societies. The onset of schizophrenia also closely resembles shamanic initiations, which often feature hallucinations, delusions and incoherent speech. Possible links between shamanism and insanity have been recognised for many decades by anthropologists (e.g. "...mentally ill people are often regarded as holy in primitive societies"[40] and "Feeblemindedness is treated with scorn in Niue today, but insanity still calls forth respect" [41]) but the most recent iteration of the theory is by Joseph Polimeni,[42] who argues that shamans facilitate group functioning, and so psychosis evolved as a result of group selection. Critics have argued that the trance states and self-control exhibited by shamans are unlike the characteristics of schizophrenia.

Autism spectrum disorder (ASD)

Autism spectrum disorder is characterized by difficulties with social interaction and communication, and restricted and repetitive behavior. In developed countries, about 1.5% of children are diagnosed with ASD as of 2017,[43] up from 0.7% in 2000 in the United States. It is diagnosed four-to-five times more often in males than females.[44]

Autism differs widely between individuals (it is highly heterogenous) with different causes for different individuals. Some cases are caused by deleterious mutations[45] or prenatal and neonatal trauma,[46] for which no adaptive explanation is required. These cases are often associated with intellectual disability. Estimates range that between 5-20% of the autism spectrum can be explained by these dysfunctional processes, especially of genetics.[47][45] However, other cases of autism are eligible for adaptive explanations. The fact that multiple explanations for autism exist causes conflict within the autism community, especially between proponents of the neurodiversity perspective and family members caring for individuals with ASD that have severe disabilities.[48]

The idea of autism as conveying cognitive strengths has become steadily more popular since the film Rain Man and the recent growth of the neurodiversity and autism rights movements, although recognition of unusual autistic ability be found even in the early writings of Hans Asperger who called his autistic patients 'little professors'.[49] It has been suggested by autistics such as Temple Grandin that autistic hunter-gatherer ancestors were important figures in the community, especially for their inventive capacity:

'Who do you think made the first stone spear? (...) That wasn't the yakkity yaks sitting around the campfire. It was some Asperger sitting in the back of a cave figuring out how to chip rocks into spearheads. Without some autistic traits you wouldn't even have a recording device to record this conversation on."[50]

Leading autism researcher Simon Baron-Cohen has proposed that autism is an extreme systemising cognitive type,[51] on an empathising-systemising spectrum which all people fall onto, somewhat related to the things-people dimension of interests. He recognised the exceptional talent of many autistic people in some area of non-human knowledge or skill.[52] In his book, "The Pattern Seekers: how autism drives human invention",[53] he proposes a theory of human inventiveness that places autistic individuals as having extreme versions of these inventing (or systemising) traits.

Marco del Giudice has suggested autistic-like traits in their non-pathological form contribute to a male-typical strategy geared toward high parental investment, low-mating effort, and long-term resource allocation.[54] He has also related this to a slow life history strategy.[55] This is based on the fact that autistics show lower interest in short-term mating, higher partner-specific investment, and stronger commitment to long-term romantic relations.

Bernard Crespi has suggested that autism is a disorder of high intelligence,[56] noting that autism commonly involves enhanced, but imbalanced, components of intelligence. This hypothesis is supported by evidence showing that autism and high IQ share a diverse set of convergent correlates, including large brain size, fast brain growth, increased sensory and visual-spatial abilities, enhanced synaptic functions, increased attentional focus, high socioeconomic status, more deliberative decision-making, profession and occupational interests in engineering and physical sciences, and high levels of positive assortative mating. Recent evolutionary selection pressures for high intelligence in humans have therefore conveyed autism risk.

Antisocial personality disorder

Antisocial personality disorder (sometimes known as sociopathy or psychopathy), is characterised by deceitfulness, lack of empathy and guilt, impulsiveness, and antisocial behaviour.[57] The prevalence of psychopathy in the general population is estimated to be around 1%,[58][59] and 20% in prison populations[60] with higher rates in North America than Europe.[61] Psychopathy, narcissism and Machiavellianism are considered to be part of the Dark Triad, traits that are generally characterised by selfishness and low agreeableness.[62]

Various evolutionary hypotheses have been proposed to explain psychopathy and the Dark Triad. Within an ancestral context, high self-interest and low levels of empathy could function as a short-term mating strategy. There is evidence that Dark Triad traits are positively correlated with the number of sexual partners, more unrestrictive sociosexuality and preference for short-term mates.[62]

Glenn et al.[57] stated two theories on how selection might allow for psychopathic traits. The first is as a fast life-history strategy, associated with less focusing on the future, high risk taking and short-term mating. The second is mutation-selection balance, with many common alleles of small effect selected against, which, when accumulated, can result in psychopathic behaviour, without any significant disruption of reproductive fitness.

Mealey's influential account [63] states that psychopaths are designed for social deception and evolved to pursue manipulative life strategies or cheating strategies, (reflected in cheater-cooperation models of game theory). Cheating strategies are stable at low frequencies in the population, but will be detected and punished at higher frequencies. This frequency-dependent strategy would explain the prevalence of psychopathic traits in the population.

Mealey[63] makes four statements about psychopathy:

  1. There is a genetic predisposition for psychopathy, which is normally distributed in all populations.
  2. A few individuals will be deemed "morally insane" in any culture, due to selection filling in this small and frequency-dependent niche.
  3. Depending on environmental conditions, individuals who are less extreme on the continuum will pursue a similar cheating strategy.
  4. An underlying genetic continuum of psychopathy is present in all of us, becoming apparent when antisocial strategies are more profitable in certain conditions.

Mealey[63] also explains the higher male prevalence and predisposing environmental factors (low physical attractiveness, age, health, physical attractiveness, intelligence, socioeconomic status, and social skills) as signals that a cheating strategy is preferable, hence why these factors are associated with psychopathic traits.

Depression

Major depressive disorder (MDD) is characterized by at least two weeks of persistent low mood. It is accompanied by a wide variety of negative feelings such as low self-esteem, loss of interest in normally enjoyable activities and low energy. There are multiple possible evolutionary explanations for the occurrence of depression and low mood in humans. Many different hypotheses are not mutually exclusive. It has been suggested that different life events and other disease processes are responsible for different forms of depression[64] with subtypes related to infection, long-term stress, loneliness, traumatic experience, hierarchy conflict, grief, romantic rejection, postpartum events, the season, chemicals, somatic diseases and starvation. Individualising treatment based on causational subtypes is suggested as lending direction in treatments. Other hypotheses include:

Social-oriented hypotheses

The social competition hypothesis (similarly to the social rank theory) interprets depression as an emotion of submission, an involuntary strategy to create a subjective sense of incapacity. Feelings of powerlessness or helplessness cause this incapacity, inhibiting aggression towards higher-ranked people and signalling submission. Low mood encourages acceptance of a loss in rank and promotes yielding.[65] John Price endorsed this theory, noting that chickens who lose a fight withdraw from social engagement and act submissively, reducing further attacks by chickens higher in the hierarchy and avoiding being wounded or even killed.[7]

Similar to the social competition hypothesis, the 'social risk hypothesis' states that depression prevents people engaging in social interactions which might lead to them being ostracised. This hypothesis is inspired by risk-sensitive foraging. It suggests that people in successful social relationships can tolerate higher levels of social risk-taking, while on the other hand, people with low social standing cannot. The theory suggests that the low mood which accompanies MDD exists in order to reduce potential risk taking and encourages isolation in those individuals.[66]

Psychic pain hypotheses

Depression is common in people who are pursuing unreachable goals and depression might be a manifestation, similarly to the social competition hypothesis, of a failure to yield.[67] Low mood increases an organism's ability to cope with the adaptive challenges characteristic of unpropitious situations. Pessimism and lack of motivation may give a fitness advantage by inhibiting certain actions. When current life plans are not working, the distress and lack of motivation that characterize depression may motivate planning and reassessment or escape, even by suicide. Feelings of sadness and discouragement may be a useful stimulus to consider ways of changing the situation, by disengagement of motivation from an unreachable goal. In nature, it would make sense to decrease motivation in situations where taking action would be futile and therefore a waste of resources. Therefore, low mood in those situations would help the individual to preserve energy. This hypothesis is inspired by the marginal value theorem.

The 'analytical rumination' hypothesis is a refinement of the psychic pain hypothesis. It suggests that depressive symptoms are triggered by complex problems and an inability to find the correct course of action. This theory describes how this could lead to a loss of interest in virtually all activities in order to benefit the individual to single-mindedly focus on the problem at hand.[68]

Cry-for-help and bargaining hypotheses

Depression, deliberate self-harm and suicide may be reactions to life circumstances that encourage others to provide resources and help to the depressed or suicidal individual. Group members, and especially family members, have a vested interest in keeping the depressed individual alive and changing their circumstances in such a way as to make them a functioning member of society again. It may be the case that certain life choices (e.g. marrying somebody who your parents dislike) may become possible only when depressed or suicidal behaviour is observed by the family or social group.[69] This could explain various precipitating factors for depression.[70] However, some research has found that signs of depression only lead to a short-term increase of care by family members, after which they tend to withdraw.[7]

Eating disorders

Evolutionary perspectives exist on Anorexia nervosa (henceforth 'anorexia') and Bulimia nervosa (henceforth 'bulimia'). Anorexia is characterized by restriction of food intake, bulimia by cycles of binging (excessive eating) and purging (forced removal of the food).[71] Both are associated with fear of weight gain, body image disturbance, and physical attractiveness concerns.[72]

The Sexual Competition Hypothesis[73] relates eating disorders to body shape and physical appearance as of adaptive function in human females (who are highly over-represented in eating disorders): eating disorders are supposed to increase female attractiveness. Some evidence from non-clinical and clinical populations support this hypothesis.[74][75] They apply the framework of life-history theory, proposing anorexia as a slow life history strategy whilst bulimia is a fast strategy. Both studies had their limitations and it was further mentioned that the deep structures of eating disorders may not be reflected by their current classifications.[76]

An alternative account comes from Nesse.[7] Recognising that many anorexia patients are neither actively chasing men nor particularly interested in sex, and that eating disorders became more common in the second half of the 20th century,[77] he argues eating disorders are new problems with no redeeming features. They are caused by increasingly high concerns about appearance linked with the possibility in modern societies to compare someone's appearance to thousands of others instantly. Glorification of unrealistic body types in media, as well as increased availability of sex, may contribute to this.[7] He does, however, acknowledge that intra-sexual competition is a driving force of anorexia and bulimia in undergraduate women.[78]

Obesity is not an eating disorder in any classification system,[79] though it is established that overweight and obesity in particular is connected with various diseases,[80] and an evolutionary perspective can explain the tendency towards overeating. The human body has evolved to cope with the environments of scarcity, selecting for beneficial adaptations of hunger and eating. Fat storage allows preparation for future food shortages.[81] In a case of mismatch, modern environments have cheap, readily available food, and very few times of scarcity. Kardum et al. also elaborated the differences in nutrient composition in modern and ancestral societies to illustrate the challenge modern diet imposes on the not-yet adapted human body and genotype.[79]

Anxiety

Anxiety is a feeling of worry, unpleasantness and dread towards possible future events and exists to protect us from dangers.[82][83] In the US, anxiety disorders are the most common mental illness, with around 29% of adults expected to have any anxiety disorder in their lifetime.[84] Women are disproportionately affected.

Evolutionary perspectives on anxiety disorders generally consider the adaptive function of the emotion of normal anxiety, and reasons this adaptive system may manifest in the various types of anxiety disorder.[85]

A key evolutionary explanation for anxiety disorder is the Smoke Detector Principle.[83] It is often preferable to overactive anxiety in dangerous situations, in the same way a smoke detector is designed to overactivate. Randolph Nesse writes:

"You are thirsty on the ancient African savanna and a watering hole is just ahead, but you hear a noise in the grass. It could be a lion, or it might just be a monkey. Should you flee? It depends on the costs. Assume that fleeing in panic costs 100 calories. Not fleeing costs nothing if it is only a monkey, but if the noise was made by a lion, the cost is 100'000 calories - about how much energy a lion would get from having you for lunch!" [86]

Next to normal anxiety there are multiple types of anxiety disorders which are all characterised by excessive fear and anxiety.[87] These disorders include: specific phobias (e.g., agoraphobia), generalized anxiety disorder, social anxiety disorder, separation anxiety disorder, panic disorder, and selective mutism.[87]

Treatment

Evolutionary psychiatry has so far primarily concentrated on scientific explanations for mental disorders rather than developing novel treatment approaches.[7] However, there are various consequences of taking an evolutionary perspective on mental disorder for treatment decisions, at an individual and public health level, which make evolutionary psychiatry an important field of future research and application.[19]

Evolutionary explanations for disorders which reframe them as mismatched or otherwise costly adaptations may be taken to imply that treatment is unnecessary – but this is not the view of evolutionary psychiatrists – and is the same mistake made by those who believe evolutionary biology means endorsing eugenics, a version of the naturalistic fallacy – that what is natural (in this case, evolved) is good. Many medical interventions are 'unnatural' in this sense (e.g. contraception and anaesthetic). The explanations of evolutionary psychiatry have no inherent value in directing treatment. Randolph Nesse writes:

"On learning that low mood can be useful, some people conclude that it therefore should not be treated. This mistake is like the one that arose when anethesia was first invented: some doctors refused to use it, even during surgery, because, they said, pain is normal. We must not let new understanding of the utility of low mood interfere with our efforts to relieve mental pain."[7]:111

Although evolutionary explanations may not affect the necessity for treatment, they can be directive or supportive of treatment, or make current treatment strategies more effective. Proposed benefits of taking an evolutionary perspective on mental disorders have largely come from integrating evolutionary explanations into psychotherapy.[88][89][90] Bailey and Gilbert write:

"The evolutionary approach helps to answer three fundamental questions about humanity that go to the heart of professional helping and clinical practice: First, what and who are we as human beings – that is, what is human nature or species 'normality'?; second, how and why do humans develop and/or behave in less than optimal ways – that is, what can evolution tell us about the causes of suffering and psychopathology?; and, third, what can professional helpers and psychotherapists do to ameliorate or even 'cure' the suffering of heart and mind?"[90]:333

It has been suggested that patients are encouraged and destigmatised by hearing evolutionary explanations for their conditions,[89] with positive effects during cognitive behavioural therapy – integration of knowledge of behavioural genetics, neuroscience and evolutionary psychiatry into psychotherapy has been called 'Informed Cognitive Therapy'[89] by Mike Abrams. Abrams also proposes that recognising the inherited and somewhat immutable nature of certain traits (such as psychopathy and autism) implies that therapists should not try and alter the traits characteristics, but instead provide advice on how to best utilise these cognitive types within the context of modern society. This aligns with the aims and claims of the neurodiversity movement.

Evolutionary explanations for mental disorders, especially of mismatch, have connotations for public health measures and organisational psychology. Disorders which are consequences of novel environments may be rectified or prevented by implementing social structures which better replicate ancestral environments. For example, postpartum depression may be more likely in modern environments where single parents are given sole responsibility in raising a child, which is highly unusual in the context of an evolutionary history of alloparenting and communal care. Reversing this mismatch, social services supporting new mothers in parenting may prevent postpartum depression (see Evolutionary approaches to postpartum depression). Education and employment environments which are particularly likely to cause mental disorders may also be altered to better suit natural human psychological capacities.

See also

References

  1. Pearlson GD, Folley BS (July 2008). "Schizophrenia, psychiatric genetics, and Darwinian psychiatry: an evolutionary framework". Schizophrenia Bulletin. 34 (4): 722–33. doi:10.1093/schbul/sbm130. PMC 2632450. PMID 18033774.
  2. Panksepp J (July 2006). "Emotional endophenotypes in evolutionary psychiatry". Progress in Neuro-Psychopharmacology & Biological Psychiatry. 30 (5): 774–84. doi:10.1016/j.pnpbp.2006.01.004. PMID 16554114. S2CID 2763876.
  3. Dubrovsky B (January 2002). "Evolutionary psychiatry. Adaptationist and nonadaptationist conceptualizations". Progress in Neuro-Psychopharmacology & Biological Psychiatry. 26 (1): 1–19. doi:10.1016/S0278-5846(01)00243-3. PMID 11853097. S2CID 23854829.
  4. McGuire M, Troisi A (June 1998). Darwinian Psychiatry. Oxford University Press. doi:10.1093/med:psych/9780195116731.001.0001. ISBN 9780195116731.
  5. Keller MC, Miller G (August 2006). "Resolving the paradox of common, harmful, heritable mental disorders: which evolutionary genetic models work best?". The Behavioral and Brain Sciences. 29 (4): 385–404, discussion 405–52. doi:10.1017/S0140525X06009095. PMID 17094843.
  6. Wakefield JC (April 1992). "Disorder as harmful dysfunction: a conceptual critique of DSM-III-R's definition of mental disorder". Psychological Review. 99 (2): 232–47. doi:10.1037/0033-295X.99.2.232. PMID 1594724.
  7. Nesse RM (6 February 2020). Good reasons for bad feelings : insights from the frontier of evolutionary psychiatry. Penguin Books, Limited. ISBN 978-0-14-198491-9. OCLC 1100591660.
  8. Abed R, St John-Smith P (October 2016). "Evolutionary psychiatry: a new College special interest group". BJPsych Bulletin. 40 (5): 233–236. doi:10.1192/pb.bp.115.052407. PMC 5046779. PMID 27752339.
  9. Nesse RM, Williams TC (1996). Why we get sick : the new science of Darwinian medicine. New York: First Vintage Books. ISBN 0-679-74674-9. OCLC 34176260.
  10. Huxley J, Mayr E, Osmond H, Hoffer A (October 1964). "Schizophrenia as a Genetic Morphism". Nature. 204 (4955): 220–1. Bibcode:1964Natur.204..220H. doi:10.1038/204220a0. PMID 14212411. S2CID 39056966.
  11. Mazzarello, Paolo (2011-07-03). "Cesare Lombroso: an anthropologist between evolution and degeneration". Functional Neurology. 26 (2): 97–101. ISSN 0393-5264. PMC 3814446. PMID 21729591.
  12. Marcaggi G, Guénolé F (2018-06-19). "Freudarwin: Evolutionary Thinking as a Root of Psychoanalysis". Frontiers in Psychology. 9: 892. doi:10.3389/fpsyg.2018.00892. PMC 6018481. PMID 29971023.
  13. Holmes J. "Bowlby, Darwin and group selection — a free energy neuroscience perspective". YouTube. Retrieved 2021-06-04.
  14. Evolutionary Psychiatry Special Interest Group. "Newsletter No.Covid 19 edition 2020" (PDF). Royal College of Psychiatrists.
  15. Evolutionary Psychiatry Special Interest Group, RCPsych (June 2021). "Minutes for EPSIG AGM June 2021" (PDF). Retrieved 2021-06-22.
  16. "EPSIGUK YouTube channel". YouTube.
  17. "Newsletters". Royal College of Psychiatrists.
  18. McManus, C. (2022). Abed, Riadh; St John-Smith, Paul (eds.). Evolutionary Psychiatry: Current Perspectives on Evolution and Mental Health. pp. 174–175. doi:10.1017/9781009030564. ISBN 978-1-316-51656-0. PMC 1296191. {{cite book}}: |journal= ignored (help)
  19. Hunt, Adam (2020). "The evolution of psychiatry". Works in Progress. Retrieved 2021-06-22.
  20. Bolton D, Gillett G (2019). The biopsychosocial model of health and disease : new philosophical and scientific developments. Cham, Switzerland. ISBN 978-3-030-11899-0. OCLC 1091903217.{{cite book}}: CS1 maint: location missing publisher (link)
  21. Fabrega H, Brüne M (2017). "Evolutionary Foundations of Psychiatric Compared to Nonpsychiatric Disorders". In Shackelford TK, Zeigler-Hill V (eds.). The Evolution of Psychopathology. Evolutionary Psychology. Cham: Springer International Publishing. pp. 1–35. doi:10.1007/978-3-319-60576-0_1. ISBN 978-3-319-60575-3.
  22. Drescher J (December 2015). "Out of DSM: Depathologizing Homosexuality". Behavioral Sciences. 5 (4): 565–75. doi:10.3390/bs5040565. PMC 4695779. PMID 26690228.
  23. Davies J (April 2017). "How Voting and Consensus Created the Diagnostic and Statistical Manual of Mental Disorders (DSM-III)". Anthropology & Medicine. 24 (1): 32–46. doi:10.1080/13648470.2016.1226684. PMID 27650639. S2CID 33057318.
  24. Petry NM, Rehbein F, Gentile DA, Lemmens JS, Rumpf HJ, Mößle T, et al. (September 2014). "An international consensus for assessing internet gaming disorder using the new DSM-5 approach". Addiction. 109 (9): 1399–406. doi:10.1111/add.12457. PMID 24456155.
  25. Mayr E (November 1961). "Cause and effect in biology". Science. 134 (3489): 1501–6. Bibcode:1961Sci...134.1501M. doi:10.1126/science.134.3489.1501. PMID 14471768.
  26. Bateson P, Laland KN (December 2013). "Tinbergen's four questions: an appreciation and an update". Trends in Ecology & Evolution. 28 (12): 712–8. doi:10.1016/j.tree.2013.09.013. PMID 24144467.
  27. Stearns SC, Medzhitov R (2016). Evolutionary medicine. Sunderland, Massachusetts. ISBN 978-1-60535-260-2. OCLC 908554440.{{cite book}}: CS1 maint: location missing publisher (link)
  28. Gluckman PD, Beedle A, Buklijas T, Low F, Hanson MA (2016). Principles of evolutionary medicine (Second ed.). Oxford. ISBN 978-0-19-182320-6. OCLC 951230129.{{cite book}}: CS1 maint: location missing publisher (link)
  29. Blumstein DT (2020). The Nature of Fear. Cambridge, MA. ISBN 978-0-674-24996-7. OCLC 1223250836.{{cite book}}: CS1 maint: location missing publisher (link)
  30. Nesse, R. M. (2001). "The smoke detector principle. Natural selection and the regulation of defensive responses". Annals of the New York Academy of Sciences. 935: 75–85. doi:10.1111/j.1749-6632.2001.tb03472.x. hdl:2027.42/75092. ISSN 0077-8923. PMID 11411177. S2CID 20128143.
  31. Negi SK, Guda C (April 2017). "Global gene expression profiling of healthy human brain and its application in studying neurological disorders". Scientific Reports. 7 (1): 897. Bibcode:2017NatSR...7..897N. doi:10.1038/s41598-017-00952-9. PMC 5429860. PMID 28420888.
  32. Haukka J, Suvisaari J, Lönnqvist J (March 2003). "Fertility of patients with schizophrenia, their siblings, and the general population: a cohort study from 1950 to 1959 in Finland". The American Journal of Psychiatry. 160 (3): 460–3. doi:10.1176/appi.ajp.160.3.460. PMID 12611825.
  33. Crow TJ (January 1996). "Language and psychosis: common evolutionary origins". Endeavour. 20 (3): 105–109. doi:10.1016/0160-9327(96)10023-5. ISSN 0160-9327.
  34. Crespi B, Badcock C (June 2008). "Psychosis and autism as diametrical disorders of the social brain" (PDF). The Behavioral and Brain Sciences. 31 (3): 241–61, discussion 261–320. doi:10.1017/S0140525X08004214. PMID 18578904.
  35. Brüne M (January 2005). ""Theory of mind" in schizophrenia: a review of the literature". Schizophrenia Bulletin. 31 (1): 21–42. doi:10.1093/schbul/sbi002. PMID 15888423.
  36. Keller MC (May 2018). "Evolutionary Perspectives on Genetic and Environmental Risk Factors for Psychiatric Disorders". Annual Review of Clinical Psychology. 14: 471–493. doi:10.1146/annurev-clinpsy-050817-084854. PMID 29401047.
  37. Stevens A, Price J (2000). Evolutionary psychiatry : a new beginning (2nd ed.). London: Routledge. ISBN 0-415-21978-7. OCLC 43207590.
  38. Nettle D, Clegg H (March 2006). "Schizotypy, creativity and mating success in humans". Proceedings. Biological Sciences. 273 (1586): 611–5. doi:10.1098/rspb.2005.3349. PMC 1560060. PMID 16537133.
  39. Del Giudice M (December 2010). Gilbert MT (ed.). "Reduced fertility in patients' families is consistent with the sexual selection model of schizophrenia and schizotypy". PLOS ONE. 5 (12): e16040. Bibcode:2010PLoSO...516040D. doi:10.1371/journal.pone.0016040. PMC 3012205. PMID 21253008.
  40. Ränk G (August 1967). "Shamanism as a research subject: some methodological viewpoints". Scripta Instituti Donneriani Aboensis. 1: 15–22. doi:10.30674/scripta.67020. ISSN 2343-4937.
  41. Loeb EM (1924-07-09). "The Shaman of Niue". American Anthropologist. 26 (3): 393–402. doi:10.1525/aa.1924.26.3.02a00090. ISSN 0002-7294.
  42. Polimeni J (2012). Shamans among us : schizophrenia, shamanism and the evolutionary origins of religion. Scottsdale, Arizona. ISBN 978-1-300-43091-9. OCLC 895889736.{{cite book}}: CS1 maint: location missing publisher (link)
  43. Lyall K, Croen L, Daniels J, Fallin MD, Ladd-Acosta C, Lee BK, et al. (March 2017). "The Changing Epidemiology of Autism Spectrum Disorders". Annual Review of Public Health. 38 (1): 81–102. doi:10.1146/annurev-publhealth-031816-044318. PMC 6566093. PMID 28068486.
  44. "ASD data and statistics". Centers for Disease Control and Prevention. Archived from the original on 18 April 2014. Retrieved 11 July 2016.
  45. de la Torre-Ubieta L, Won H, Stein JL, Geschwind DH (April 2016). "Advancing the understanding of autism disease mechanisms through genetics". Nature Medicine. 22 (4): 345–61. doi:10.1038/nm.4071. PMC 5072455. PMID 27050589.
  46. Mandy W, Lai MC (March 2016). "Annual Research Review: The role of the environment in the developmental psychopathology of autism spectrum condition". Journal of Child Psychology and Psychiatry, and Allied Disciplines. 57 (3): 271–92. doi:10.1111/jcpp.12501. PMID 26782158.
  47. Bourgeron T (September 2015). "From the genetic architecture to synaptic plasticity in autism spectrum disorder". Nature Reviews. Neuroscience. 16 (9): 551–63. doi:10.1038/nrn3992. PMID 26289574. S2CID 12742356.
  48. Baron-Cohen S. "The Concept of Neurodiversity Is Dividing the Autism Community". Scientific American Blog Network. Retrieved 2021-06-04.
  49. Silberman S (2015). Neurotribes : the legacy of autism and the future of neurodiversity. New York. ISBN 978-0-399-18561-8. OCLC 957008230.{{cite book}}: CS1 maint: location missing publisher (link)
  50. Weiss B (2010-02-23). "Life Among the 'Yakkity Yaks'". Wall Street Journal. ISSN 0099-9660. Retrieved 2021-06-03.
  51. Baron-Cohen S (June 2002). "The extreme male brain theory of autism". Trends in Cognitive Sciences. 6 (6): 248–254. doi:10.1016/s1364-6613(02)01904-6. PMID 12039606. S2CID 8098723.
  52. Baron-Cohen S, Ashwin E, Ashwin C, Tavassoli T, Chakrabarti B (May 2009). "Talent in autism: hyper-systemizing, hyper-attention to detail and sensory hypersensitivity". Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 364 (1522): 1377–83. doi:10.1098/rstb.2008.0337. PMC 2677592. PMID 19528020.
  53. Baron-Cohen S (2020). The pattern seekers : how autism drives human invention (First ed.). New York. ISBN 978-1-5416-4714-5. OCLC 1155485628.{{cite book}}: CS1 maint: location missing publisher (link)
  54. Del Giudice M, Angeleri R, Brizio A, Elena MR (2010). "The evolution of autistic-like and schizotypal traits: a sexual selection hypothesis". Frontiers in Psychology. 1: 41. doi:10.3389/fpsyg.2010.00041. PMC 3153759. PMID 21833210.
  55. Del Giudice M (2018). Evolutionary psychopathology : a unified approach. New York, NY. ISBN 978-0-19-024685-3. OCLC 1091626016.{{cite book}}: CS1 maint: location missing publisher (link)
  56. Crespi BJ (2016-06-30). "Autism As a Disorder of High Intelligence". Frontiers in Neuroscience. 10: 300. doi:10.3389/fnins.2016.00300. PMC 4927579. PMID 27445671.
  57. Glenn AL, Kurzban R, Raine A (September 2011). "Evolutionary theory and psychopathy". Aggression and Violent Behavior. 16 (5): 371–380. doi:10.1016/j.avb.2011.03.009. ISSN 1359-1789.
  58. Neumann CS, Hare RD (October 2008). "Psychopathic traits in a large community sample: links to violence, alcohol use, and intelligence". Journal of Consulting and Clinical Psychology. 76 (5): 893–9. doi:10.1037/0022-006X.76.5.893. PMID 18837606.
  59. Coid J, Yang M, Ullrich S, Roberts A, Hare RD (March 2009). "Prevalence and correlates of psychopathic traits in the household population of Great Britain" (PDF). International Journal of Law and Psychiatry. 32 (2): 65–73. doi:10.1016/j.ijlp.2009.01.002. PMID 19243821.
  60. Wormith S (2000). "Review of Without conscience: The disturbing world of the psychopaths among us". Canadian Psychology. 41 (2): 134–136. doi:10.1037/h0088168.
  61. Coid J, Yang M, Ullrich S, Roberts A, Moran P, Bebbington P, et al. (May 2009). "Psychopathy among prisoners in England and Wales" (PDF). International Journal of Law and Psychiatry. 32 (3): 134–41. doi:10.1016/j.ijlp.2009.02.008. PMID 19345418.
  62. Jonason PK, Li NP, Webster GD, Schmitt DP (February 2009). "The dark triad: Facilitating a short‐term mating strategy in men". European Journal of Personality. 23 (1): 5–18. doi:10.1002/per.698. ISSN 0890-2070. S2CID 12854051.
  63. Mealey L (September 1995). "The sociobiology of sociopathy: An integrated evolutionary model". Behavioral and Brain Sciences. 18 (3): 523–541. doi:10.1017/S0140525X00039595. ISSN 0140-525X. S2CID 53956461.
  64. Rantala MJ, Luoto S, Krams I, Karlsson H (March 2018). "Depression subtyping based on evolutionary psychiatry: Proximate mechanisms and ultimate functions". Brain, Behavior, and Immunity. 69: 603–617. doi:10.1016/j.bbi.2017.10.012. PMID 29051086. S2CID 3975281.
  65. Price JS, Gardner Jr R, Wilson DR, Sloman L, Rohde P, Erickson M (July 2007). "Territory, Rank and Mental Health: The History of an Idea". Evolutionary Psychology. 5 (3): 147470490700500305. doi:10.1177/147470490700500305. ISSN 1474-7049.
  66. Allen NB, Badcock PB (2003). "The Social Risk Hypothesis of Depressed Mood: Evolutionary, Psychosocial, and Neurobiological Perspectives". Psychological Bulletin. 129 (6): 887–913. doi:10.1037/0033-2909.129.6.887. ISSN 1939-1455. PMID 14599287.
  67. Nesse RM (January 2000). "Is depression an adaptation?". Archives of General Psychiatry. 57 (1): 14–20. doi:10.1001/archpsyc.57.1.14. PMID 10632228.
  68. Andrews PW, Thomson JA (July 2009). "The bright side of being blue: depression as an adaptation for analyzing complex problems". Psychological Review. 116 (3): 620–54. doi:10.1037/a0016242. PMC 2734449. PMID 19618990.
  69. Hagen, E.H. "The Bargaining Model of Depression", Genetic and Cultural Evolution of Cooperation, The MIT Press, 2003, doi:10.7551/mitpress/3232.003.0008, ISBN 978-0-262-27482-1, retrieved 2021-06-22
  70. Hagen, Edward H.; Rosenström, Tom (2016-02-15). "Explaining the sex difference in depression with a unified bargaining model of anger and depression". Evolution, Medicine, and Public Health. 2016 (1): 117–132. doi:10.1093/emph/eow006. ISSN 2050-6201. PMC 4804352. PMID 26884416.
  71. American Psychiatric Association (2013-05-22). Diagnostic and Statistical Manual of Mental Disorders (Fifth ed.). American Psychiatric Association. doi:10.1176/appi.books.9780890425596. hdl:2027.42/138395. ISBN 978-0-89042-555-8.
  72. Berrios GE, Porter R (1995). A history of clinical psychiatry : the origin and history of psychiatric disorders. London: Athlone. ISBN 0-485-24211-7. OCLC 34071171.
  73. Abed RT (December 1998). "The sexual competition hypothesis for eating disorders". The British Journal of Medical Psychology. 71 ( Pt 4) (4): 525–47. doi:10.1111/j.2044-8341.1998.tb01007.x. PMID 9875960.
  74. Abed R, Mehta S, Figueredo AJ, Aldridge S, Balson H, Meyer C, Palmer R (2012). "Eating disorders and intrasexual competition: testing an evolutionary hypothesis among young women". TheScientificWorldJournal. 2012: 290813. doi:10.1100/2012/290813. PMC 3330742. PMID 22566764.
  75. Nettersheim J, Gerlach G, Herpertz S, Abed R, Figueredo AJ, Brüne M (2018-10-31). "Evolutionary Psychology of Eating Disorders: An Explorative Study in Patients With Anorexia Nervosa and Bulimia Nervosa". Frontiers in Psychology. 9: 2122. doi:10.3389/fpsyg.2018.02122. PMC 6220092. PMID 30429818.
  76. Del Giudice M (July 2018). Evolutionary Psychopathology. Vol. 1. Oxford University Press. doi:10.1093/med-psych/9780190246846.001.0001. ISBN 978-0-19-024684-6.
  77. Rosenvinge JH, Pettersen G (January 2015). "Epidemiology of eating disorders, part I: introduction to the series and a historical panorama". Advances in Eating Disorders. 3 (1): 76–90. doi:10.1080/21662630.2014.898206. ISSN 2166-2630. S2CID 56799581.
  78. Faer LM, Hendriks A, Abed RT, Figueredo AJ (September 2005). "The evolutionary psychology of eating disorders: female competition for mates or for status?". Psychology and Psychotherapy. 78 (Pt 3): 397–417. doi:10.1348/147608305X42929. PMID 16259854.
  79. Kardum I, Hudek-Knezevic J, Gračanin A, Mehic N (2017). "Assortative Mating for Psychopathy Components and its Effects on the Relationship Quality in Intimate Partners". Psihologijske Teme. 26 (1): 211–239. doi:10.31820/pt.26.1.10. ISSN 1849-0395.
  80. Pinel JP, Assanand S, Lehman DR (October 2000). "Hunger, eating, and ill health". The American Psychologist. 55 (10): 1105–16. doi:10.1037/0003-066X.55.10.1105. PMID 11080830.
  81. Gatchel RJ, Oordt MS (2003). Clinical health psychology and primary care : practical advice and clinical guidance for successful collaboration (1st ed.). Washington, DC: American Psychological Association. ISBN 1-55798-989-3. OCLC 51216223.
  82. Abnormal psychology. Gerald C. Davison (3rd Canadian ed.). Mississauga, Ont.: Wiley. 2008. ISBN 978-0-470-84072-6. OCLC 170166898.{{cite book}}: CS1 maint: others (link)
  83. Nesse, Randolph M. (January 2005). "Natural selection and the regulation of defenses". Evolution and Human Behavior. 26 (1): 88–105. doi:10.1016/j.evolhumbehav.2004.08.002.
  84. Kessler, Ronald C.; Berglund, Patricia; Demler, Olga; Jin, Robert; Merikangas, Kathleen R.; Walters, Ellen E. (2005-06-01). "Lifetime Prevalence and Age-of-Onset Distributions of DSM-IV Disorders in the National Comorbidity Survey Replication". Archives of General Psychiatry. 62 (6): 593–602. doi:10.1001/archpsyc.62.6.593. ISSN 0003-990X. PMID 15939837. S2CID 2011814.
  85. Nesse, Randolph (1998). "Emotional disorders in evolutionary perspective". British Journal of Medical Psychology. 71 (4): 397–415. doi:10.1111/j.2044-8341.1998.tb01000.x. ISSN 2044-8341. PMID 9875953.
  86. Nesse, Randolph M. (2019). Good reasons for bad feelings : insights from the frontier of evolutionary psychiatry. New York, New York. ISBN 978-1-101-98566-3. OCLC 1057242826.{{cite book}}: CS1 maint: location missing publisher (link)
  87. Diagnostic and statistical manual of mental disorders : DSM-5. American Psychiatric Association, American Psychiatric Association. DSM-5 Task Force (5th ed.). Arlington, VA: American Psychiatric Association. 2013. ISBN 978-0-89042-554-1. OCLC 830807378.{{cite book}}: CS1 maint: others (link)
  88. Glantz K, Pearce JK (1989). Exiles from Eden: psychotherapy from an evolutionary perspective (1st ed.). New York: Norton. ISBN 0-393-70073-9. OCLC 19322243.
  89. Abrams M (2021). The new CBT : clinical evolutionary psychology. San Diego, CA. ISBN 978-1-5165-2162-3. OCLC 1252217632.{{cite book}}: CS1 maint: location missing publisher (link)
  90. Gilbert P, Bailey KG (2000). Genes on the couch : explorations in evolutionary psychotherapy. East Sussex: Brunner-Routledge. ISBN 1-58391-103-0. OCLC 830729147.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.