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Adult development

From Wikipedia, the free encyclopedia

Adult development encompasses the changes that occur in biological and psychological domains of human life from the end of adolescence until the end of one's life. Changes occur at the cellular level and are partially explained by biological theories of adult development and aging.[1] Biological changes influence psychological and interpersonal/social developmental changes, which are often described by stage theories of human development. Stage theories typically focus on "age-appropriate" developmental tasks to be achieved at each stage. Erik Erikson and Carl Jung proposed stage theories[2][3] of human development that encompass the entire life span, and emphasized the potential for positive change very late in life.

The concept of adulthood has legal and socio-cultural definitions. The legal definition of an adult is a person who is fully grown or developed. This is referred to as the age of majority, which is age 18 in most cultures, although there is a variation from 15 to 21. The socio-cultural definition of being an adult is based on what a culture normatively views as being the required criteria for adulthood, which in turn, influences the lives of individuals within that culture. This may or may not coincide with the legal definition.[4] Current views on adult development in late life focus on the concept of successful aging, defined as "...low probability of disease and disease-related disability, high cognitive and physical functional capacity, and active engagement with life."[5]

Biomedical theories hold that one can age successfully by caring for physical health and minimizing loss in function, whereas psychosocial theories posit that capitalizing upon social and cognitive resources, such as a positive attitude or social support from neighbors, family, and friends, is key to aging successfully.[6] Jeanne Louise Calment exemplifies successful aging as the longest living person, dying at 122 years old. Her long life can be attributed to her genetics (both parents lived into their 80s), her active lifestyle and an optimistic attitude.[7][8] She enjoyed many hobbies and physical activities, and believed that laughter contributed to her longevity. She poured olive oil on all of her food and skin, which she believed also contributed to her long life and youthful appearance.[9]

Contemporary and classic theories

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Adult development is a somewhat new area of study in the field of psychology. Previously it was assumed that development would cease at the end of adolescence. This new field of research was influenced by the aging population of the "baby boomer" generation.[10] The population of Americans who are the age of 65 or over was at roughly 9 million in 1940. In just 60 years that total has grown to over 35 million people. This rise in population and life expectancy had shined a light on the manifestation of development throughout adulthood.[11] Changes in adulthood have been described by several theories and metatheories, which serve as a framework for adult development research. One of which is Erik Erikson who went beyond childhood stages and introduced the concept of continuing development until death. [12]

Lifespan development theory

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Life span development can be defined as age-relating experiences that occur from birth to the entirety of a human's life. The theory considers the lifelong accumulation of developmental additions and subtractions, with the relative proportion of gains to losses diminishing over an individual's lifetime.[13] According to this theory, life span development has multiple trajectories (positive, negative, stable) and causes (biological, psychological, social, and cultural). Individual variation is a hallmark of this theory – not all individuals develop and age at the same rate and in the same manner.[14]

Bronfenbrenner's ecological theory

Bronfenbrenner's ecological theory is an environmental system theory and social ecological model which focuses on five environmental systems:

  • Microsystem: This system is the immediate environment of an individual. It includes relationships and interactions that are closest to the individual, therefore, having a very significant and direct impact. Structures in the microsystem may include family, school, peers, or work environments.
  • Mesosystem: This system portrays the connections and interactions between an individual's microsystem structures. This could be demonstrated by the relationship between an individual's family and school.
  • Exosystem: This system contains structures that an individual does not directly interact with and is not directly impacted by; rather, the structures indirectly affect the individual through one of their microsystems. If the individual was a child their exosystem may include elements such as the legal services, their parents' work, or the school board. These elements do not directly impact the child, but they may impact some of the child's microsystems (such as their parents/family) which do directly affect the child.
  • Macrosystem: This system is considered to be the outermost layer of an individual's environment. It encompasses the culture and society in which a person lives in and is affected by. It includes the values, beliefs, laws, and customs by which a culture/society is dictated. The macrosystem ultimately influences the structures within the other systems and their interactions.
  • Chronosystem: This system encompasses the changes that occur throughout time in an individual's life. These changes may entail personal events, such as reaching puberty and the passing of a family member, as well as societal events, such as wars and technological advancements.[15][16]

Jeffrey Arnett's theory of Emerging Adulthood

The theory of Emerging Adulthood was made by a man named Jeffery Arnett in the early 2000s. The theory is a concept about some of the changes one goes through during the transition from being an adultescent to being an adult. This time period takes place usually between the ages of 18 and 29.[17] There are five main characteristics describing what Emerging Adulthood looks like. To examine these five characteristics, in 1995 Jeffery Arnett interviewed 300 young adults aged 18 to 29 on the topic of what they wanted out of life.[18] Due to this, Jeffery Arnett came up with the five characteristic and they go as follows: The Age Of Identity Exploration, The Age of Instability, The Age of Self Focus, The Age of Feeling in Between, and The Age of Possibilities. The Age Of Identity Exploration is one that Arnett found to be the most prevalent in the young people's lives, due to most people at this stage trying to figure out what they want in life and what their values are in life.[18] The Age of Instability is where one comes into the area of life where everything is going to be changing frequently and some of the things that change dramatically are the status of ones love life and schooling. When one is in this stage of life, they have not yet established themselves, who they want to become, and what their career will look like. Many see this time of life in a negative light but it is where you can obtain the foundation to what you're future will be.[18] The Age of Self Focus is the time where you start to decide who you are and what you want to become. This is where the individual will work a lot harder on themselves and begin to see significant personal growth, and will also become far more independent and self motivated.[18] The Age of Feeling in Between stage is where one is in an area of life when you cannot do everything on your own but are starting to move away from being under the rule of your parents.[18] The Age of Possibilities is the stage where many emerging adults have many different futures ahead of them and a sense of optimism for the different opportunities life has to offer. In addition to, this stage any emerging adults believe that they have the opportunity to have better lives than what their parents had before them.[18] Some emerging adults in America between the ages of 18 and 25 when asked if they were adults, were unable to give a definitive answer of "yes" or "no" but more than likely give the answer that "yes, they have aspects of being an adult but they also have aspects of not being an adult yet."[19] Overall, there is much to the theory of Emerging Adulthood but it still has criticism about its legitimacy.[20] There are some that say that the theory neglects other classes and that this is a flaw.[21] Some of the other things that have been stated about this theory is that it is steered too much to our time period and that this can be viewed as a major flaw and that it also focuses too much on Western culture as well.[22]

Erik Erikson's theory of psychosocial development

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Erik Erikson, psychosocial development theorist

Erik Erikson developed stages of ego development that extended through childhood, adolescence, and adulthood. He was trained in psychoanalysis and was highly influenced by Freud, but unlike Freud, Erikson believed that social interaction is very important to the individual's psychosocial development. His stage theory consists of 8 stages in life from birth to old age, each of which is characterized by a specific developmental task.[12] During each stage, one developmental task is dominant, but may be carried forward into later stages as well. According to Erikson, individuals may experience tension when advancing to new stages of development, and seek to establish equilibrium within each stage. This tension is often referred to as a "crisis," a psycho-social conflict, in which an individual experiences conflict between their inner and outer worlds that are relative to whichever stage they are in.[23] If equilibrium is not found for each task there are potential negative outcomes called maladaptation's (abnormally positive) and malignancies (abnormally negative), where malignancy is worse of the two.[23] It posits eight sequential stages of individual human development influenced by biological, psychological, and social factors throughout the lifespan. This bio-psychosocial approach has influenced several fields of study, including gerontology, personality development, identity formation, life cycle development, and more. [2]

  • Stage 1 – Trust vs. Mistrust (0 to 1.5 years)

Trust vs. Mistrust is experienced in the first years of life. Trust in infancy helps the child be secure about the world around them. Because an infant is completely dependent, they start building trust based on the dependability and quality of their caregivers. If a child successfully develops trust, he or she will feel safe and secure.

Maladaptation – sensory distortion (e.g. unrealistic, spoilt, deluded)

Malignancy – withdrawal (e.g. neurotic, depressive, afraid)

  • Stage 2 – Autonomy vs. Shame and Doubt (1.5 – 3 years)

After gaining trust in their caregivers, infants learn that they are responsible for their actions. They begin to make judgments and move on their own. When toddlers are punished too severely or too often, they are likely to experience shame and self-doubt.

Maladaptation – impulsivity (e.g. reckless, inconsiderate, thoughtless)

Malignancy – compulsion (e.g. anal, constrained, self-limiting)

  • Stage 3 – Initiative vs. Guilt (3 – 6 years)

During preschool years children start to use their power and control over the world through playing and other social interactions. Children who successfully pass this stage feel capable and able to lead others, while those who do not are left with a sense of guilt, self-doubt, and lack of initiative.

Maladaptation – ruthlessness (e.g. exploitative, uncaring, dispassionate)

Malignancy – inhibition (e.g. risk-averse, unadventurous)

  • Stage 4 – Industry vs. Inferiority (6 years to puberty)

When children interact with others they start to develop a sense of pride in their abilities and accomplishments. When parents, teachers, or peers command and encourage kids, they begin to feel confident in their skills. Successfully completing this stage leads to a strong belief in one's ability to handle tasks set in front of them.

Maladaptation – narrow virtuosity (e.g. workaholic, obsessive, specialist)

Malignancy – inertia (e.g. lazy, apathetic, purposeless)

  • Stage 5 – Identity vs. Role Confusion (adolescence)

During adolescent years, children begin to find out who they are. They explore their independence and develop a sense of self. This is Erikson's fifth stage, Identity vs Confusion. Completing this stage leads to fidelity, an ability that Erikson described as useful to live by society's standards and expectations.[24]

Maladaptation – fanaticism (e.g. self-important, extremist)

Malignancy – repudiation (e.g. socially disconnected, cut-off)

  • Stage 6 – Intimacy vs. Isolation (early adulthood)

In early adulthood, individuals begin to experience intimate relationships in which they must either commit to relating and connecting to others on a personal level or retreat into isolation, afraid of commitment or vulnerability. Being intimate with someone does not always mean having a sexual component; in a platonic relationship, closeness might take the form of self-disclosure. After reaching this stage, a person is equipped to build strong, enduring relationships with other people.[25]

Maladaptation – promiscuity (e.g. sexually needy, vulnerable)

Malignancy – exclusivity (e.g. loner, cold, self-contained)

  • Stage 7 – Generativity vs. Stagnation (middle adulthood)

This stage usually begins when an individual has established a career and has a family. In this stage, an individual must either contribute significantly to their careers, families and communities in order to ensure success in the next generation or they stagnate, creating a threat to their well-being which can be referred to as a "mid-life crisis." When individuals feel they have successfully fostered growth in themselves and their relationships, they will feel satisfied in their successes and contributions to the world.[26]

Maladaptation – overextension (e.g. do-gooder, busy-body, meddling)

Malignancy – rejectivity (e.g. disinterested, cynical)

  • Stage 8 – Integrity vs. Despair (late adulthood)

This stage often occurs when an older individual is in retirement and expecting the end of their life. They reflect on their life and either come to the conclusion that they have found meaning and peace, or their lives were not fulfilling, and they didn't achieve what they wanted to. The former is self-accepting of who they've become, while the latter is not accepting of themselves or their circumstances in life, which leads to despair.[27]

Maladaptation – presumption (e.g. conceited, pompous, arrogant)

Malignancy – disdain (e.g. miserable, unfulfilled, blaming)

Michael Commons's theory

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Michael Commons's Model of Hierarchical Complexity (MHC) is an enhancement and simplification of Bärbel Inhelder and Jean Piaget's developmental model. It offers a standard method of examining the universal pattern of development. This model of hierarchical complexity explains development in stages that are not connected to a person's age, but on the ability of the person to complete increasingly complex hierarchical tasks. For one task to be more hierarchically complex than another, the new task must meet three requirements: 1) It must be defined in terms of the lower stage actions; 2) it must coordinate the lower stage actions; 3) it must do so in a non-arbitrary way. The following are the Common's 15 stages of development which demonstrate the increasingly complex nature of development.

  • 0 Calculatory- exact computations only, no generalizations are made
  • 1 Sensory and motor- organisms respond to a single stimulus in a reflexive way
  • 2 Circular sensory-motor- basic movements like turning head, moving limbs, view objects and movements
  • 3 Sensory-motor- form concepts, respond to stimuli in a class
  • 4 Nominal- make connections between concepts
  • 5 Sentential- imitate and acquire sequences, follow commands and short sequential acts
  • 6 Preoperational- make simple deductions, follow longer lists of sequential acts, tell stories
  • 7 Primary- apply simple logical rules, able to perform simple arithmetic
  • 8 Concrete- able to do complex arithmetic, plan deals
  • 9 Abstract- discriminate variables and stereotypes, make propositions
  • 10 Formal- argue using linear, one dimensional logic
  • 11 Systematic- construct multivariate systems and matrices
  • 12 Metasystematic- combine or compare systems to make multi-systems
  • 13 Paradigmatic- put metasystems together to create paradigms
  • 14 Cross-paradigmatic- put paradigms together to form fields
  • 15 Meta-Cross-paradigmatic- reflect on the cross-paradigmatic implications and limitations [28][29]

Carl Jung's theory

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Carl Jung, a Swiss psychoanalyst, formulated four stages of development and believed that development was a function of reconciling opposing forces.[30]

  • Childhood: (birth to puberty) Childhood has two substages. The archaic stage is characterized by sporadic consciousness, while the monarchic stage represents the beginning of logical and abstract thinking. The ego starts to develop." Jung believed that consciousness is formed in a child starting when a child can say the word "I". And through that, the more a child distinguish him/herself from others and the world, the more ego develops. According to Jung, the psyche assumes a definite content not until puberty. That is when a teenager struggles through difficulties; he/she also begins to fantasize."[31][32]
  • Youth: (Age 15-39) Maturing sexuality, growing consciousness, and a realization that the carefree days of childhood are gone forever. People strive to gain independence, find a mate, and raise a family.[33][32]
  • Middle Age: (Age 40-64) The realization that you will not live forever creates tension. If you desperately try to cling to youth, you will fail in the process of self-realization. Jung believed that in midlife, one confronts one's shadow. Religiosity may increase during this period, according to Jung.[32]
  • Old Age: (Age 65 and over) Consciousness is reduced. Jung thought that death is the ultimate goal of life. By realizing this, people will not face death with fear, but with a hope for rebirth.[32]

Daniel Levinson's theory

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Daniel Levinson's theory, influenced by Erikson's theory of development, explain a set of psychosocial 'seasons' through which adults must pass as they move through early adulthood and midlife. Each of these seasons is characterized by a crisis to overcome. Stages are created by the challenges of building or maintaining a life structure and by the social norms that apply to particular age groups, particularly concerning relationships and career.[34] Levinson also emphasized that a common part of adult development is the midlife crisis. The process that underlies all these stages is individuation - a movement towards balance and wholeness over time. The key stages that he discerned in early adulthood and midlife were as follows:

  • Early Adult Transition (Ages 16–24)
  • Forming a Life Structure (Ages 24–28)
  • Settling down (Ages 29–34)
  • Becoming One's Own Man (Ages 35–40)
  • Midlife Transition (The early forties)
  • Restabilization, into Late Adulthood (Age 45 and on)[35]

Levinson's work includes research on differences in the lives of men and women. He published The Seasons of a Man's Life and The Seasons of a Woman's Life, with findings that men and women went through essentially the same crises but differed in "The Dream." The author wrote that men's dreams are centered around occupations and women's are conflicted between occupation and marriage and family.[36][37]

A biopsychosocial metatheory of adult development

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The 'biopsychosocial' approach to adult development states that to understand human development in its fullness, biological, psychological, and social levels of analysis must be included. There are a variety of biopsychosocial meta-models, but all entail a commitment to the following four premises:

  1. Human development happens concurrently at biological, psychological, and social levels throughout life, and a full descriptive account of development must include all three levels.
  2. Development at each of these three levels reciprocally influences the other two levels; therefore nature (biology) and nurture (social environment) are in constant complex interaction when considering how and why psychological development occurs.
  3. Biological, psychological and social descriptions, and explanations are all as valid as each other, and no level has causal primacy over the other two.
  4. Any aspect of human development is best described and explained in relation to the whole person and their social context, as well as to their biological and cognitive-affective parts. This can be called a holistic or contextualist viewpoint, and can be contrasted with the reductionist approach to development, which tends to focus solely on biological or mechanistic explanations.[38]

Robert Kegan's theory

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Robert Kegan is an American developmental psychologist as well as the author or co-author of books such as In Over Our Heads,[39] The Evolving Self,[40] How the Way We Talk Can Change the Way We Work,[41] and An Everyone Culture: Becoming a Deliberately Developmental Organization[42] among other works. Kegan was also a professor at Harvard Graduate School of Education.

In The Evolving Self, Kegan explores human life problems through meaning-making, the process of making sense of experience by discovering problems and resolving problems. This book assists professional helpers with ways to understand how their clients make sense of their problems.[40] Kegan proposes a framework of six evolutionary balances (developmental stages) that each have a culture of embeddedness. The culture of embeddedness can be examined in terms of three functions in development: confirmation (holding on), contradiction (letting go), and continuity (staying put).[40] In this book, Kegan describes the process of emergence for the six evolutionary balances. These evolutionary balances have analogues to theories from Piaget, Kohlberg, Loevinger, Maslow, McClelland/Murray, and Erikson.[40] In Over Our Heads further elaborates Kegan's perspective on adult development.[39]

The book How the Way We Talk Can Change the Way We Work presents a practical method called the "immunity map" to help people overcome an immunity to change, an obstacle to further psychological development.[41] The map is made of a four-column worksheet that guides a process of self-reflective inquiry.

The book An Everyone Culture: Becoming a Deliberately Developmental Organization Kegan and colleagues connect the concept of deliberately developmental organizations (DDOs) with adult development theories and argues for the importance of transitioning from a socialized mind to a self-authoring mind and then from a self-authoring mind to a self-transforming mind.[42]

Normative physical changes in adulthood

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Physical development in midlife and beyond include changes at the biological level (senescence) and larger organ and musculoskeletal levels. Sensory changes and degeneration begin to be common in midlife. Degeneration can include the breakdown of muscle, bones, and joints. Which leads to physical ailments such as sarcopenia or arthritis.[43]

An elderly couple exhibiting typical signs of physical aging

At the sensory level, changes occur to vision, hearing, taste, touch, and smell. Two common sensory changes that begin in midlife include our ability to see close objects and our ability to hear high pitches.[44][45] Other developmental changes to vision might include cataracts, glaucoma, and the loss of central visual field with macular degeneration.[46] Hearing also becomes impaired in midlife and aging adults, particularly in men. In the past 30 years, hearing impairment has doubled.[47] Hearing aids as an aid for hearing loss still leave many individuals dissatisfied with their quality of hearing. Changes in olfaction and sense of taste can co-occur. "Olfactory dysfunction can impair quality of life and may be a marker for other deficits and illnesses" and can also lead to decreased satisfaction in taste when eating. Losses to the sense of touch are usually noticed when there is a decline in the ability to detect a vibratory stimulus. The loss of sense of touch can harm a person's fine motor skills such as writing and using utensils. The ability to feel painful stimuli is usually preserved in aging, but the process of decline for touch is accelerated in those with diabetes.[46]

Physical deterioration to the body begins to increase in midlife and late life, and includes degeneration of muscle, bones, and joints. Sarcopenia, a normal developmental change, is the degeneration of muscle mass, which includes both strength and quality.[48] This change occurs even in those who consider themselves athletes, and is accelerated by physical inactivity.[49] Many of the contributing factors that may cause sarcopenia to include neuronal and hormonal changes, inadequate nutrition, and physical inactivity.[48] Apoptosis has also been suggested as an underlying mechanism in the progression of sarcopenia. The prevalence of sarcopenia increases as people age and is associated with the increased likelihood of disability and restricted independence among elderly people. Approaches to preventing and treating sarcopenia are being explored by researchers. A specific preventive approach includes progressive resistance training, which is safe and effective for the elderly.[50]

Developmental changes to various organs and organ systems occur throughout life. These changes affect responses to stress and illness, and can compromise the body's ability to cope with the demand for organs.[51] The altered functioning of the heart, lungs, and even skin in old age can be attributed to factors like cell death or endocrine hormones. There are changes to the reproductive system in midlife adults, most notably menopause for women, the permanent end of fertility. In men, hormonal changes also affect their reproductive and sexual physiology, but these changes are not as extreme as those experienced by women.[52]

Illnesses associated with aging

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As adult bodies undergo a variety of physical changes that cause health to decline, a higher risk of contracting a variety of illnesses, both physical and mental, is possible.[53]

Scientists have made a distinctive connection between aging and cancer. It has been shown that the majority of cancer cases occur in those over 50 years of age.[54] This may be due to the decline in the strength of the immune system as one ages or to co-existing conditions. There a variety of symptoms associated with cancer, commonly growths or tumors may be indicators of cancer. Radiation, chemotherapy, and in some cases, surgery, is used to treat cancer.

  • The following are the most common types of cancer in the elderly:
    • Breast Cancer
      • Breast cancer is the second most common cancer among women, with a five-year survival rate of 93.2%. The incidence of breast cancer in Korea was 24.2% in 2018. The number of breast cancer survivors has been consistently increasing [[ 1]]. Whereas breast cancer commonly affects those aged 50 years or older in the United States and Europe, it has the highest incidence among those in their 40s in Korea. The earlier onset of breast cancer means a longer period lived as a breast cancer survivor.[55]
    • Prostate Cancer
      • Prostate cancer (PCa) is the second most frequent cancer diagnosed in men worldwide, only behind lung cancer. In 2020, over 1,414,259 new PCa cases and 375,304 deaths were estimated for PCa worldwide.[56]
    • Lung Cancer
      • Lung cancer is the second most common cancer in both men and women (not counting skin cancer). Lung cancer is the leading cause of death from cancer making up almost 25% of all cancer deaths. Mortality from lung cancer is high due to its frequent presentation at a late stage. According to the 2020 statistics by the American Cancer Society, 228,820 new lung cancer cases will be diagnosed in 2020 and there will be 135,720 deaths due to lung cancer in USA. Each year more people die of lung cancer than of colon, breast and prostate cancers combined.[57]
    • Bowel Cancer
      • Bowel cancer is a general term for cancer that begins in the large bowel. Depending on where the cancer starts, bowel cancer is sometimes called colon or rectal cancer. Bowel cancer is one of the most common types of cancer diagnosed in the UK. Most people diagnosed with it are over the age of 60.[58]
  • Arthritis

Osteoarthritis is one of the most commonly experienced illnesses in adults as they age. Although there are a variety of types of arthritis they all include very similar symptoms: aching joints, stiff joints, continued joint pain, and problems moving joints.[59]

It has been found that older age does increase the risk factor of contracting cardiovascular disease. Hypertension and high cholesterol have also been found to increase the likelihood of acquiring cardiovascular disease, which is also commonly found in older adults. Cardiovascular diseases include a variety of heart conditions that may induce a heart attack or other heart-related problems. Healthy eating, exercise, and avoiding smoking are usually used to prevent cardiovascular disease.

Infection occurs more easily as one ages, as the immune system starts to slow and become less effective. Aging also changes how the immune system reacts to infection, making new infections harder to detect and attack. Essentially, the immune system has a higher chance of being compromised the older one gets.[60]

A chronic illness that effect body processes glucose. It becomes far more prevalent in those over 45. Both type 1 and type 2 diabetes may lead to the following serious illnesses such as; strokes, heart attacks, nerve damage, kidney damage and blindness.

Adult neurogenesis and neuroplasticity

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New neurons are constantly formed from stem cells in parts of the adult brain throughout adulthood, a process called adult neurogenesis. The hippocampus is the area of the brain that is most active in neurogenesis. Research shows that thousands of new neurons are produced in the hippocampus every day.[61] The brain constantly changes and rewires itself throughout adulthood, a process known as neuroplasticity. Evidence suggests that the brain changes in response to diet, exercise, social environment, stress, and toxin intake. These same external factors also influence genetic expression throughout adult life - a phenomenon known as genetic plasticity.[62]

Non-normative cognitive changes in adulthood

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Dementia is characterized by persistent, multiple cognitive deficits in the domains including, but not limited to, memory, language, and visuospatial skills and can result from central nervous system dysfunction.[63][64][65] Two forms of dementia exist: degenerative and nondegenerative. The progression of nondegenerative dementias, like head trauma and brain infections, can be slowed or halted but degenerative forms of dementia, like Parkinson's disease, Alzheimer's disease, and Huntington's are irreversible and incurable.

Alzheimer's disease

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Alzheimer's disease (AD) was discovered in 1907 by Dr. Alois Alzheimer, a German neuropathologist and psychiatrist.[66] Physiological abnormalities associated with AD include neurofibrillary plaques and tangles. Neuritic plaques, that target the outer regions of the cortex, consist of withering neuronal material from a protein, amyloid-beta. Neurofibrillary tangles, paired helical filaments containing over-phosphorylated tau protein, are located within the nerve cell. Early symptoms of AD include difficulty remembering names and events, while later symptoms include impaired judgment, disorientation, confusion, behavior changes, and difficulty speaking, swallowing, and walking. After initial diagnosis, a person with AD can live, on average, an additional 3 to 10 years with the disease.[67] In 2024, it was estimated that 6.9 million Americans age 65 and older had AD.[68] Environmental factors such as head trauma, high cholesterol, and type 2 diabetes can increase the likelihood of AD.[69]

The impact of Alzheimer's disease on individuals and their families is profound, making ongoing research and promising developments in treatments like lecanemab incredibly important. The strides being made in understanding the physiological aspects of the disease, as well as the potential treatments, provide hope for millions of people worldwide who are affected by Alzheimer's. It's heartening to hear about the progress in clinical trials for lecanemab and the possibility it holds for mitigating the early symptoms of cognitive decline. Continued investment in research and support for those living with Alzheimer's is crucial as we work towards a future where effective treatments and, ultimately, a cure can improve the lives of those impacted by this devastating condition.

Recent studies for the drug lecanemab have shown promising results for people who suffer from Alzheimer's disease. The drug has been approved for phase three clinical trials[1]. This medication treats early symptoms of cognitive deterioration in people with Alzheimer's.

Huntington's disease

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Huntington's disease (HD) named after George Huntington is a disorder that is caused by an inherited defect in a single gene on chromosome 4, resulting in a progressive loss of mental faculties and physical control.[70][71] HD affects personality, leads to involuntary muscle movements, cognitive impairment, and deterioration of the nervous system.[72][73] Symptoms usually appear between the ages of 30 and 50 but can occur at any age, including adolescence.[71] There is currently no cure for HD and treatments focus on managing symptoms and quality of life. Current estimates claim that 1 in 10,000 Americans have HD, however, 1 in 250,000 are at-risk of inheriting it from a parent.[74] Most individuals with HD live 10 to 20 years after a diagnosis.

Parkinson's disease

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Parkinson's disease (PD) was first described by James Parkinson in 1817.[75] James Parkinson did describe his first findings of Parkinson's disease (PD) in early essays.[76] It typically affects people over the age of 50 and affects about 0.3% of developed populations.[77] PD is related to damaged nerve cells that produce dopamine.[78] Common symptoms experienced by people with PD include trembling of the hands, arms, legs, jaw, or head; rigidity (stiffness in limbs and the midsection); bradykinesia; and postural instability, leading to impaired balance and/or coordination.[79][80] Other areas such as speech, swallowing, olfaction, and sleep may be affected.[77] No cure for PD is available, but diagnosis and treatment can help relieve symptoms. Treatment options include medications like Carbidopa/Levodopa (L-dopa), that reduce the severity of motor symptoms in patients.[81] Alternative treatment options include non-pharmacological therapy. Surgery (pallidotomy, thalamotomy) is often viewed as the last viable option.[82]

Around 80% of patients that have Parkinson's diseases also experience tremors.[83] The tremor's severity is caused by dopamine levels and other factors.[84] Gait disturbances caused by Parkinson's disease may lead to falls.[77] Non-experts need to be aware of the features of Parkinson's disease and should have a basic understanding of how the condition should be treated between primary and secondary care.[85] Some cases of secondary Parkinsonism have been described as iatrogenic after the use of certain drugs such as phenothiazines and reserpine. The vast majority of Parkinsonism is still of unknown etiology and many hypotheses have been proposed.[86][87]

Mental health in adulthood and old age

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Older adults represent a significant proportion of the population, and this proportion is expected to increase with time.[88] Mental health concerns of older adults are important at treatment and support levels, as well as policy issues. The prevalence of suicide among older adults is higher than in any other age group.[89][90]

Depression

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Older adults are often at higher risk for disorders such as depression.

Depression is one of the most common disorders that is present in old age and is usually comorbid with other physical and psychiatric conditions, perhaps due to the stress induced by these conditions.[91] In older adults, depression presents as impairments already associated with age such as memory and psychomotor speed.[92] Research indicates that higher levels of exercise can decrease the likelihood of depression in older adults even after taking into consideration factors such as chronic conditions, body mass index, and social relationships.[93] In addition to exercise, behavioral rehabilitation and prescribed antidepressants, which is well tolerated in older adults, can be used to treat depression.[91] Some research has indicated that a diet rich in folic acid and Vitamin B12 has been tied to preventing the development of depression among older adults.[94]

Anxiety

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Anxiety is a relatively uncommon diagnosis in older adults and it is difficult to determine its prevalence.[95] Anxiety disorders in late life are more likely to be under-diagnosed because of medical comorbidity, cognitive decline, and changes in life circumstances that younger adults do not face.[96] However, in the Epidemiological Catchment Area Project, researchers found that 6-month prevalence rates for anxiety disorders were lowest for the 65 years of age and older cohort.[97] A recent study found that the prevalence of general anxiety disorder (GAD) in adults aged 55 or older in the United States was 33.7% with an onset before the age of 50.[98]

Loneliness in adulthood plays a major factor in depression and anxiety.[99] According to Cacioppo, loneliness is described as a time in one's life when you are emotionally sad and feel as if there is a void in your life for social interactions.[100] Older adults tend to be lonelier due to death of a spouse or children moving away as a result of marriage or careers. Another factor is friends sometimes lose their mobility and cannot socialize like they used to, as socialization plays an important role in protecting people from becoming lonely.[101] Loneliness is categorized in three parts, which are intimate loneliness, relational loneliness and collective loneliness.[102] All three types of loneliness has to do with your personal environment. Older adults sometimes depend on a child, spouse, or friend to be around for them socially for daily interactions and help with everyday chores. Loneliness can be treated by mostly social involvement, such as social skills and social support.

Attention deficit hyperactivity disorder (ADHD)

[edit]

ADHD is generally believed to be a children's disorder and is not commonly studied in adults. Research suggests that the overall percentage of adults with ADHD is 4.4%.[103] However, ADHD in adults results in lower household incomes, less educational achievement as well as a higher risk of marital issues and substance abuse.[104] Activities such as driving can be affected; adults with inattentiveness due to ADHD experience increased rates of car accidents.[105] ADHD impairs the driver's ability to drive in such a way that it may resemble intoxicated driving. Adults with ADHD tend to be more creative, vibrant, aware of multiple activities, and are able to multitask when interested in a certain topic.[104]

Other mental disorders

[edit]

The impact of mental disorders such as schizophrenia, delusional disorders, paraphrenia, schizoaffective disorder, and bipolar disorder in adulthood is largely mediated by the environmental context. Those in hospitals and nursing homes differ in risk for a multitude of disorders in comparison to community-dwelling older adults.[106] Differences in how these environments treat mental illness and provide social support could help explain disparities and lead to a better knowledge of how these disorders are manifested in adulthood.

Optimizing health and mental well-being in adulthood

[edit]
An older adult performing a recommended exercise for aging individuals

Exercising four to six times a week for thirty to sixty minutes has physical and cognitive effects such as lowering blood sugar and increasing neural plasticity.[107] Physical activity reduces the loss of function by 10% each decade after the age of 60 and active individuals drop their rate of decline in half.[108] Cardio activities like walking promote endurance while strength, flexibility, and balance can all be improved through Tai Chi, yoga, and water aerobics. Diets containing foods with calcium, fiber, and potassium are especially important for good health while eliminating foods with high sodium or fat content. A well-balanced diet can increase resistance to disease and improve management of chronic health problems thus making nutrition an important factor for health and well-being in adulthood.[109]

The effects that both aerobic and resistance training can have on the older population can go as far as expanding lifespan. Research has shown that the type of exercise chosen can cause a major difference in results. Resistance training has been found to increase cognitive function not only just in older adults, but in people with intellectual disabilities as well. A high percentage of this population happens to be older adults, but the fact that this exercise makes a difference in other populations as well, shows just how valuable it is.[110] Although it has been shown time and time again that the effects of resistance training on the older adult population are beneficial to cognitive function, these results are not always instant. In some cases, these changes to cognitive function can take years to occur. When referring to results, these results are also not only physical. Resistance training has also been found to play a major role in decreasing depressive mood and isolation from friends. [111] Within the older adult population, Alzheimer’s disease is the most found form of dementia that comes with major symptoms. This can lead to interference and decreased ability to perform daily tasks such as going to the grocery store or even standing and sitting. What we do know is that physical activity (especially resistance training) can help improve the overall functionality of this population. This increase in function stems from the positive effects that resistance training has on brain function. Resistance training has also been found to have a positive role in affecting neuron plasticity, neurogenesis, neuron signals, neuron receptors and most neuronal networks. [112]

Cognitive decline, including dementia and Alzheimer’s disease, continues to be a health condition that many older adults struggle with. This group of neural diseases tend to inhibit the nervous system’s ability to properly send signals for everyday activities, sometimes even killing neurons. Due to nervous tissue’s limited regenerative ability, people with cognitive decline are often left with lifelong issues remembering information, judging situations, communicating with others, or thinking in general. The National Institutes of Health (NIH) estimates that 66% of Americans experience some level of cognitive decline in their lifetime.[113] Physical activity has been suggested as a form of preventative medicine to slow cognitive decline; many propose this is due to its positive effects on quality of life, physical, mental, and emotional.[114] A combination of physical changes that come with continuous exercise along with its effect on mental health and emotional connection is the broad focus of many reviews regarding the effectiveness of exercise as preventative medicine and treatment. There are various other proposed explanations, including increasing neuroplasticity and neurogenesis, secretion of neural tissue-protecting substances, and improved cardiovascular fitness.[115] [116] For example, a research team in Japan conducted studies in mice that compared physically active to physically inactive mice. They found that physically active mice had higher circulating irisin, a peptide made in contacting muscles that has a role in neurogenesis and other cognition factors.[117] Most studies and literature reviews similarly conclude that moderate-intensity exercise with long-term adherence will yield the best results for retaining cognitive function in older adults.[118] There are researchers who argue that the association is not as strong as we thought due to low long-term follow up studies, but future research can be done to understand all the factors between cognitive decline and physical activity.[119][120] A large collection of clinical trial results showed that many studies didn’t follow participants after 10 years and there was less of a dose-response relationship between reducing cognitive decline symptoms with the use of consistent exercise. Overall, consistent moderate-intensity exercise should be a significant part of the lives of older adults in order to prevent and treat cognitive decline.

While there is a certain level of individualism at play, there are three articles that show how aging in a healthy way, physically and mentally, can be achieved by focusing on cognitive health, muscle retention, and curbing the effects of neurodegenerative disease. The first article I found explains how consistent exercise and boost the cognitive function of older adults, with proven immediate and long-term benefits. [121] The article also touches on the physical limitations that can come with attempting to achieve these benefits, including things like depression and/or social isolation. It continues by arguing that physical activity can help preserve cognitive health. [122] The second article focuses mainly on whey protein supplementation and how it supports muscle retention while aging. [123] Although the main focus is physical muscle health, similar to the first article, it includes cognitive assessments that gauge cognition throughout the study. These assessments included things like tests for reaction time and working memory, but the main conclusions this article drew, which is a difference I noticed compared to the other two articles) is that it focused more on physical muscle health with whey protein supplementation rather than how it impacts cognitive function, preserves cognition, or prevents any cognitive disorders. The last article I researched looks explicitly at Alzheimer’s disease and how physical activity and exercise may slow its progression. [124] Unlike the second article, but similar to the first, the third article explores the process of mitophagy - removal of damaged mitochondria - and how it may inhibit the progression of this neurodegenerative disease. In short, it explains how exercise could theoretically reduce oxidative stress, which in turn supports a healthy brain and slowing the progression of Alzheimer’s. [125] The central notions of the first and third articles are pretty similar, and the methods of the second article (specifically the assessments for cognitive function) all brought supportive evidence and concepts pointing to the idea that physical activity and exercise help maintain cognitive function in older adults and potentially can curb the effects of neurodegenerative disease.

Mental stimulation and optimism are vital to health and well-being in late adulthood. Adults who participate in intellectually stimulating activities every day are more likely to maintain their cognitive faculties and are less likely to show a decline in memory abilities.[126] Mental exercise activities such as crossword puzzles, spatial reasoning tasks, and other mentally stimulating activities can help adults increase their brain fitness.[127] Additionally, researchers have found that optimism, community engagement, physical activity, and emotional support can help older adults maintain their resiliency as they continue through their life span.[128]

Managing stress and developing coping strategies

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Older adults doing Tai Chi

Cognitive, physical, and social losses, as well as gains, are to be expected throughout the lifespan. Older adults typically self-report having a higher sense of well-being than their younger counterparts because of their emotional self-regulation. Researchers use Selective Optimization with Compensation Theory to explain how adults compensate for changes to their mental and physical abilities, as well as their social realities. Older adults can use both internal and external resources to help cope with these changes.[129]

The loss of loved ones and ensuing grief and bereavement are inevitable parts of life. Positive coping strategies are used when faced with emotional crises, as well as when coping with everyday mental and physical losses.[130] Adult development comes with both gains and losses, and it is important to be aware and plan ahead for these changes in order to age successfully.[131]

Personality in adulthood

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Personality change and stability occur in adulthood. For example, self-confidence, warmth, self-control, and emotional stability increase with age, whereas neuroticism and openness to experience tend to decline with age.[132] As people grow older, they experience not only physical changes but psychological ones that can change throughout one's lifespan.[133]

Personality change in adulthood

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Two types of statistics are used to classify personality change over the life span. Rank-order change refers to a change in an individual's personality trait relative to other individuals. Mean-level change refers to absolute change in the individual's level of a certain trait over time.[134] Typically, it appears that as individuals' age they show increased self-confidence, warmth, self-control, and emotional stability. These changes seem to mostly take place between the ages of 20 and 40.[135]

Controversy

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The plaster hypothesis refers to personality traits tending to stabilize by age 30.[136] Stability in personality throughout adulthood has been observed in longitudinal and sequential research.[137][138] However, personality also changes. Research on the Big 5 Personality traits include a decrease in openness and extraversion in adulthood; an increase of agreeableness with age; peak conscientiousness in middle age; and a decrease of neuroticism late in life.[139] The concepts of both adjustment and growth as developmental processes help reconcile the large body of evidence for personality stability and the growing body of evidence for personality change.[140]

Intelligence in adulthood

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According to the lifespan approach, intelligence is a multidimensional and multidirectional construct characterized by plasticity and interindividual variability.[141] Intellectual development throughout the lifespan is characterized by decline as well as stability and improvement.[141] Mechanics of intelligence, the basic architecture of information processing, decreases with age. Pragmatic intelligence, knowledge acquired through culture and experience, remains relatively stable with age.

The psychometric approach assesses intelligence based on scores on standardized tests such as the Wechsler Adult Intelligence Scale and Stanford Binet for children.[142] The Cognitive Structural approach measures intelligence by assessing the ways people conceptualize and solve problems, rather than by test scores.[142]

[edit]

Primary mental abilities are independent groups of factors that contribute to intelligent behavior and include word fluency, verbal comprehension, spatial visualization, number facility, associative memory, reasoning, and perceptual speed.[143] Primary mental abilities decline around the age of 60 and may interfere with life functioning.[144] Secondary mental abilities include crystallized intelligence (knowledge acquired through experience) and fluid intelligence (abilities of flexible and abstract thinking). Fluid intelligence declines steadily in adulthood while crystallized intelligence increases and remains fairly stable with age until very late in life.[145]

Relationships

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A combination of friendships and family is the support system for many individuals and an integral part of their lives from young adulthood to old age.

Family

[edit]
Ties to family become increasingly important in old age.

Family relationships tend to be some of the most enduring bonds created within one's lifetime. As adults age, their children often feel a sense of filial obligation, in which they feel obligated to care for their parents. Adult children can often be informal caregivers to their parents as they help them with personal needs, chores, and finances.[146]

Marital satisfaction remains high in older couples, oftentimes increasing shortly after retirement. This can be attributed to increased maturity and reduced conflict within the relationship. However, when health problems arise, the relationship can become strained. Studies of spousal caregivers of individuals with Alzheimer's disease show marital satisfaction is significantly lower than in couples who are not affected.[147] Most people will experience the loss of a family member by death within their lifetime. This life event is usually accompanied by some form of bereavement, or grief. There is no set time frame for a mourning period after a loved one passes away, rather every person experiences bereavement in a different form and manner.[148]

In the United States, Hispanic populations tend to have far less poor disease outcomes in comparison to non-Hispanic whites. The support that individuals receive when diagnosed with health problems has been proven to have a significant impact on how well the person handles it later on. Social support from not only family but friends as well can influence a person's survival rate and health outcome. The cultural differences of social relationships between Hispanics and non-Hispanic whites may help to explain this paradox. Typically, Hispanic families may be more resilient against disease outcomes because of having a stronger support system including family and friends.[149]

Friends

[edit]

Friendships, similar to family relationships, are often the support system for many individuals and a fundamental aspect of life from young adulthood to old age. Social friendships are important to emotional fulfillment, behavioral adjustment, and cognitive function.[150] Research has shown that emotional closeness in relationships greatly increases with age even though the number of social relationships and the development of new relationships begin to decline.[151] In young adulthood, friendships are grounded in similar aged peers with similar goals, though these relations might be less permanent than other relationships.[152] In older adulthood, friendships have been found to be much deeper and longer lasting. While small in number, the quality of relationships is generally thought to be much stronger for older adults.[153]

Retirement

[edit]

Retirement, or the point in which a person stops employment entirely, is often either a time of psychological distress or a time of high quality and enhanced subjective well-being for individuals. Most individuals choose to retire between the ages of 50 and 70, and researchers have examined how this transition affects subjective well-being in old age.[154] One study examined subjective well-being in retirement as a function of marital quality, life course, and gender. Results indicated a positive correlation between well-being for married couples who retire around the same time compared to couples in which one spouse retires while the other continues to work.[154]

Retirement communities

[edit]

Retirement communities provide for individuals who want to live independently but do not wish to maintain a home. They can maintain their autonomy while living in a community with individuals who are similar in age as well as within the same stage of life.[155] The senior living industry has transformed greatly since its formation in the early 1960s. Newer active adult communities consist of added services to better accommodate those who might feel as if they're missing something compared to their previous lifestyle. These improved retirement communities are meant to help create a standard of living which strengthen engagement, socialization, and most importantly, creating a purpose for its residents.[156]

Compared to the previous generation, older adults (born between 1946 and 1964) seem to typically search for a lifestyle that consist of the ability to continue their life and search for the "next" best thing in their lives. These can be interpreted as a career change, volunteer opportunities, learning a new skill, new degree, or even just a refocus on their health and wellness. An integration of technology into these communities allows there to be applications for convenience, nonintrusive monitoring of vitals, and the ability for members of the community to be in contact with other family members and friends 24/7. It is reported that residents have a greater awareness over their wellness factors and are more efficiently able to set their goals.[156]

Phased Retirement

[edit]

Oftentimes jobs become a part of people's identities because they work there for so long that it becomes part of who they are and is a place where they feel they belong. Abrupt retirement does not allow them to come to terms with losing this part of their identity. This can create a lot of psychological distress and it can make people not want to retire at all. It is painful and can be unhealthy to just fully retire instead of phasing into retirement, however, phased retirement has costs along with its benefits.[157]

Retirement is a major life transition that can be complicated. Phasing into retirement makes people more flexible during the transition, can make life less stressful and easier, and can make the act of retiring a lot more tolerable. Phasing into retirement is just like it sounds, slowly coming out of working. It entails usually moving to part time from full time working. Oftentimes going from full time to part time gives people a sense of relief that allows them to realize how taxing their jobs really were on them. It also helps them realize how nice the new free time they have is. They are able to spend their free time on their hobbies and other recreational activities that got put on the back burner while they worked full time.[157]

Although phased retirement has lots of benefits the main cost of course is reduced pay which for some is not a big deal, but for those that might struggle more financially it is not ideal. It is especially not an attractive option if they are not yet eligible for social security or Medicare. Different workplaces have different plans and ways to help, but the main stumbling block is that loss of income for many people. Phasing makes people have to lessen their involvement and commitment which still can be hard for some as they feel less needed and still feel that sense of losing part of their identity. They can start to feel disconnected since they are not around as much and might feel like they miss out on the daily things that happen.[157]

Long-term Care

[edit]
Resident in an assisted living facility

Assisted living facilities are housing options for older adults that provide a supportive living arrangement for people who need assistance with personal care, such as bathing or taking medications, but are not so impaired that they need 24-hour care. These facilities provide older adults with a home-like environment and personal control while helping to meet residents' daily routines and special needs.[155]

Adult daycare is designed to provide social support, supervision, companionship, healthcare, and other services for adult family members who may pose safety risks if left at home alone while another family member, typically a caregiver, must work or otherwise leave the home. Adults who have cognitive impairments should be carefully introduced to adult daycare.[158]

Nursing home facilities provide residents with 24-hour skilled medical or intermediate care. A nursing home is typically seen as a decision of last resort for many family members. While the patient is receiving comprehensive care, the cost of nursing homes can be very high with only a few insurance companies choosing to cover it. There is research that looks into other methods of care, such as independent care or independent living.[159]

Independent living communities are facilities where people may have access to fully furnished homes or private apartments. Independent living communities are useful for seniors who want to preserve their independence while dealing with a limited number of medical issues. Independent living communities are noted for their strong sense of community, which is enhanced by social outings and other recreational activities. These continuing care communities offer this type of care to residents as a way to maintain a comprehensive continuum of care and other services as their needs fluctuate.[160]

See also

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Notes

[edit]
  1. ^ Hayflick, Leonard (November 1998). "How and why we age". Experimental Gerontology. 33 (7–8): 639–653. doi:10.1016/s0531-5565(98)00023-0. PMID 9951612. S2CID 34114351.
  2. ^ Jung, Carl (2024-05-09). On the Psychology of the Unconscious. Livraria Press. ISBN 978-3-68938-496-8.
  3. ^ "Google Scholar". scholar.google.com. Retrieved 2024-10-29.
  4. ^ Robinson, Oliver (2012). Development through Adulthood: An Integrative Sourcebook. Macmillan Education UK. ISBN 978-0-230-29799-9.[page needed]
  5. ^ Rowe, J. W.; Kahn, R. L. (1 August 1997). "Successful Aging". The Gerontologist. 37 (4): 433–440. doi:10.1093/geront/37.4.433. PMID 9279031.
  6. ^ Bowling, Ann; Dieppe, Paul (24 December 2005). "What is successful ageing and who should define it?". BMJ. 331 (7531): 1548–1551. doi:10.1136/bmj.331.7531.1548. PMC 1322264. PMID 16373748.
  7. ^ Danner, Deborah D.; Snowdon, David A.; Friesen, Wallace V. (2001). "Positive emotions in early life and longevity: Findings from the nun study". Journal of Personality and Social Psychology. 80 (5): 804–813. doi:10.1037/0022-3514.80.5.804. PMID 11374751.
  8. ^ Diener, Ed; Chan, Micaela Y. (March 2011). "Happy People Live Longer: Subjective Well-Being Contributes to Health and Longevity". Applied Psychology: Health and Well-Being. 3 (1): 1–43. doi:10.1111/j.1758-0854.2010.01045.x. S2CID 13490264.
  9. ^ Young, Robert (2020-02-01). "If Jeanne Calment Were 122, That Is All the More Reason for Biosampling". Rejuvenation Research. 23 (1): 48–64. doi:10.1089/rej.2020.2303. ISSN 1549-1684. PMID 31928204.
  10. ^ Sutton, Jeremy (August 5, 2020). "Erik Erikson's Stages of Psychosocial Development Explained".
  11. ^ Adult Development and Aging - IResearchNet. Psychology. (n.d.). http://psychology.iresearchnet.com/developmental-psychology/adult-development-and-aging/.
  12. ^ a b Marcia, James; Josselson, Ruthellen (2013-02-21). "Eriksonian Personality Research and Its Implications for Psychotherapy". Journal of Personality. 81 (6): 617–629. doi:10.1111/jopy.12014. ISSN 0022-3506. PMID 23072442.
  13. ^ Dacey, J. S.; Travers, J. F.; Fiore, L. B. (2002). Human development across the lifespan. New York: McGraw-Hill.
  14. ^ Baltes, Paul B.; Lindenberger, Ulman; Staudinger, Ursula M. (2007). "Life Span Theory in Developmental Psychology". Handbook of Child Psychology. American Cancer Society. doi:10.1002/9780470147658.chpsy0111. hdl:11858/00-001M-0000-0025-7FD1-1. ISBN 978-0-470-14765-8.
  15. ^ Addison, J. T. (1992). Urie Bronfenbrenner. Human Ecology, 20(2), 16-20
  16. ^ Berns, Roberta M. (2015). Child, Family, School, Community: Socialization and Support. 10th Edition. Stamforf, CT: Cengage Learning US. pp. 21–33. ISBN 9781305544734.
  17. ^ Arnett, Jeffrey J.; Žukauskienė, Rita; Sugimura, Kazumi (December 2014). "The new life stage of emerging adulthood at ages 18-29 years: implications for mental health". The Lancet. Psychiatry. 1 (7): 569–576. doi:10.1016/S2215-0366(14)00080-7. ISSN 2215-0374. PMID 26361316.
  18. ^ a b c d e f "Emerging adults: The in-between age". 2020-09-15. Archived from the original on 2020-09-15. Retrieved 2022-11-27.
  19. ^ Arnett, Jeffrey Jensen (1994-10-01). "Are college students adults? Their conceptions of the transition to adulthood". Journal of Adult Development. 1 (4): 213–224. doi:10.1007/BF02277582. ISSN 1573-3440. S2CID 144401480.
  20. ^ Syed, M. (2016). Emerging adulthood: Developmental stage, theory, or nonsense. The Oxford handbook of emerging adulthood, 11-25.
  21. ^ Bynner, John (2005-12-01). "Rethinking the Youth Phase of the Life-course: The Case for Emerging Adulthood?". Journal of Youth Studies. 8 (4): 367–384. doi:10.1080/13676260500431628. ISSN 1367-6261. S2CID 145684711.
  22. ^ Hendry, Leo B.; Kloep, Marion (2007-12-07). "Conceptualizing Emerging Adulthood: Inspecting the Emperor's New Clothes?". Child Development Perspectives. 1 (2): 74–79. doi:10.1111/j.1750-8606.2007.00017.x.
  23. ^ a b Erikson, E. H. (1980). Identity and the life cycle. London: W.W.Norton & Co.[page needed]
  24. ^ Santrock, J. W. (2014). Essentials of LifeSpan Development (3rd edition). New York: McGraw Hill[page needed]
  25. ^ Gold, Joshua M.; Rogers, Joan D. (2016-09-15). "Intimacy and Isolation: A Validation Study of Erikson's Theory". Journal of Humanistic Psychology. 35: 78–86. doi:10.1177/00221678950351008. S2CID 145305842.
  26. ^ Malone, J. C.; Liu, S. R.; Vaillant, G. E.; Rentz, D. M.; Waldinger, R. J. (2016). "APA PsycNet". Developmental Psychology. 52 (3): 496–508. doi:10.1037/a0039875. PMC 5398200. PMID 26551530.
  27. ^ Goodcase, Eric T.; Love, Heather A. (2016-08-17). "From Despair to Integrity: Using Narrative Therapy for Older Individuals in Erikson's Last Stage of Identity Development". Clinical Social Work Journal. 45 (4): 354–363. doi:10.1007/s10615-016-0601-6. ISSN 0091-1674. S2CID 151779539.
  28. ^ Commons, Michael Lamport; Crone-Todd, Darlene; Chen, Shuling Julie (July 2014). "Using SAFMEDS and direct instruction to teach the model of hierarchical complexity". The Behavior Analyst Today. 14 (1–2): 31–45. doi:10.1037/h0101284. ISSN 1539-4352 – via APA PsycNet.
  29. ^ Commons, Michael Lamport; Kjorlien, Olivia Alexandra (October 2016). "The Meta-Cross-Paradigmatic Order and Stage 16". Behavioral Development Bulletin. 21 (2): 154–164. doi:10.1037/bdb0000037.
  30. ^ Crowther, Catherine (October 1997). "Carl Gustav Jung: A Biography By Frank McLynn. London: Bantam. 1996. 624 pp. £25.00. ISBN 0 593033 914". British Journal of Psychiatry. 171 (4): 396–397. doi:10.1192/s0007125000148469. ISSN 0007-1250. S2CID 148768697.
  31. ^ Child, Psych. "Changes in child Psychology: Carl Jung".
  32. ^ a b c d Jung, C. G.HG (2014-12-31). Hull, R. F.C (ed.). Collected Works of C.G. Jung, Volume 8: Structure & Dynamics of the Psyche. doi:10.1515/9781400850952. ISBN 9781400850952.
  33. ^ "The Stages of Life According to Carl Jung | Thomas Armstrong, Ph.D." www.institute4learning.com. Retrieved 2021-01-21.
  34. ^ Levinson, Daniel J. (January 1986). "A conception of adult development". American Psychologist. 41 (1): 3–13. doi:10.1037/0003-066X.41.1.3.
  35. ^ Wrightsman, Lawrence S. (1994). "Erikson's theory of psychosocial development". Adult personality development: Theories and concepts. Thousand Oaks, CA: SAGE Publications. pp. 59–84. doi:10.4135/9781452233796.n4. ISBN 978-1-4522-3379-6.
  36. ^ Daniel J. Levinson; Charlotte N. Darrow; Edward B. Klein; Maria H. Levinson; Braxton McKee (1978). The Seasons of a man's life (1st ed.). New York: Alfred A. Knopf. ISBN 0-394-40694-X. OCLC 3361598.
  37. ^ Levinson, Daniel J.; Levinson, Judy D. (1997). The seasons of a woman's life (1st ed.). New York: Ballantine Books. ISBN 0-345-31174-4. OCLC 36428335.
  38. ^ Robinson, Oliver (2012). Development through Adulthood: An Integrative Sourcebook. Palgrave Macmillan. ISBN 978-1-137-29121-9.[page needed]
  39. ^ a b Kegan, Robert (1994). In over our heads: the mental demands of modern life. Cambridge, MA: Harvard University Press. ISBN 0-674-44587-2. OCLC 29565488.
  40. ^ a b c d Conn, Joann Wolski (1983). "The Evolving Self: Problem and Process in Human Development. By Robert Kegan. Cambridge, MA: Harvard University Press, 1982. xi + 318 pages. $25.00". Horizons. 10 (2): 390–391. doi:10.1017/s0360966900024348. ISSN 0360-9669. S2CID 170444317.
  41. ^ a b Kegan, Robert; Lahey, Lisa Laskow (2001). How the way we talk can change the way we work: seven languages for transformation. San Francisco: Jossey-Bass. ISBN 0-7879-5535-3. OCLC 44972130.
  42. ^ a b Kegan, Robert; Lahey, Lisa Laskow; Miller, Matthew L.; Fleming, Andy; Helsing, Deborah (2016). An everyone culture: becoming a deliberately developmental organization. Boston, MA: Harvard Business Review Press. ISBN 978-1-62527-862-3. OCLC 907194200.
  43. ^ Lawrence, Reva C.; Helmick, Charles G.; Arnett, Frank C.; Deyo, Richard A.; Felson, David T.; Giannini, Edward H.; Heyse, Stephen P.; Hirsch, Rosemarie; Hochberg, Marc C.; Hunder, Gene G.; Liang, Matthew H.; Pillemer, Stanley R.; Steen, Virginia D.; Wolfe, Frederick (May 1998). "Estimates of the prevalence of arthritis and selected musculoskeletal disorders in the United States". Arthritis and Rheumatism. 41 (5): 778–99. doi:10.1002/1529-0131(199805)41:5<778::AID-ART4>3.0.CO;2-V. PMID 9588729.
  44. ^ Gates, George A; Mills, John H (September 2005). "Presbycusis". The Lancet. 366 (9491): 1111–1120. doi:10.1016/S0140-6736(05)67423-5. PMID 16182900. S2CID 208788711.
  45. ^ Glasser, Adrian; Campbell, Melanie C.W. (January 1998). "Presbyopia and the optical changes in the human crystalline lens with age". Vision Research. 38 (2): 209–229. doi:10.1016/s0042-6989(97)00102-8. PMID 9536350. S2CID 7873653.
  46. ^ a b Nusbaum, Neil J. (March 1999). "Aging and Sensory Senescence". Southern Medical Journal. 92 (3): 267–275. doi:10.1097/00007611-199903000-00002. PMID 10094265.
  47. ^ Strawbridge, William J.; Wallhagen, Margaret I.; Shema, Sarah J.; Kaplan, George A. (1 June 2000). "Negative Consequences of Hearing Impairment in Old Age". The Gerontologist. 40 (3): 320–326. doi:10.1093/geront/40.3.320. PMID 10853526.
  48. ^ a b Marzetti, Emanuele; Leeuwenburgh, Christiaan (December 2006). "Skeletal muscle apoptosis, sarcopenia and frailty at old age". Experimental Gerontology. 41 (12): 1234–1238. doi:10.1016/j.exger.2006.08.011. PMID 17052879. S2CID 23566430.
  49. ^ Roubenoff, R. (June 2000). "Sarcopenia and its implications for the elderly". European Journal of Clinical Nutrition. 54 (3): S40–S47. doi:10.1038/sj.ejcn.1601024. PMID 11041074. S2CID 35889428.
  50. ^ Baumgartner, R. N.; Koehler, K. M.; Gallagher, D.; Romero, L.; Heymsfield, S. B.; Ross, R. R.; Garry, P. J.; Lindeman, R. D. (15 April 1998). "Epidemiology of Sarcopenia among the Elderly in New Mexico". American Journal of Epidemiology. 147 (8): 755–763. doi:10.1093/oxfordjournals.aje.a009520. PMID 9554417.
  51. ^ Evers, B. Mark; Townsend, Courtney M.; Thompson, James C. (February 1994). "Organ Physiology of Aging". Surgical Clinics of North America. 74 (1): 23–39. doi:10.1016/s0039-6109(16)46226-2. PMID 8108769.
  52. ^ Hermann, M; Untergasser, G; Rumpold, H; Berger, P (December 2000). "Aging of the male reproductive system". Experimental Gerontology. 35 (9–10): 1267–1279. doi:10.1016/s0531-5565(00)00159-5. PMID 11113607. S2CID 25814453.
  53. ^ Bjorklund, B.R. The Journey of Adulthood. Prentice Hall.[page needed]
  54. ^ Howlader N, Noone AM, Krapcho M, Miller D, Brest A, Yu M, Ruhl J, Tatalovich Z, Mariotto A, Lewis DR, Chen HS, Feuer EJ, Cronin KA (eds). SEER Cancer Statistics Review, 1975-2017, National Cancer Institute. Bethesda, MD, [1], based on November 2019 SEER data submission, posted to the SEER web site, April 2020.
  55. ^ Park, Jin-Hee; Jung, Yong Sik; Kim, Ji Young; Bae, Sun Hyoung (2021-10-15). Chow, Ka Ming (ed.). "Determinants of quality of life in women immediately following the completion of primary treatment of breast cancer: A cross-sectional study". PLOS ONE. 16 (10): e0258447. Bibcode:2021PLoSO..1658447P. doi:10.1371/journal.pone.0258447. ISSN 1932-6203. PMC 8519416. PMID 34653187.
  56. ^ Pamarthy, Sahithi; Sabaawy, Hatem E. (December 2021). "Patient derived organoids in prostate cancer: improving therapeutic efficacy in precision medicine". Molecular Cancer. 20 (1): 125. doi:10.1186/s12943-021-01426-3. ISSN 1476-4598. PMC 8480086. PMID 34587953.
  57. ^ Alomaish, Hassan; Ung, Yee; Wang, Stella; Tyrrell, Pascal N.; Zahra, Saly Abo; Oikonomou, Anastasia (2021-09-07). Staab-Weijnitz, Claudia (ed.). "Survival analysis in lung cancer patients with interstitial lung disease". PLOS ONE. 16 (9): e0255375. Bibcode:2021PLoSO..1655375A. doi:10.1371/journal.pone.0255375. ISSN 1932-6203. PMC 8423282. PMID 34492020.
  58. ^ "Bowel cancer". nhs.uk. 2017-10-20. Retrieved 2021-11-25.
  59. ^ "Arthritis - Symptoms and causes". Mayo Clinic. Retrieved 2021-07-06.
  60. ^ Schaie, K. Warner; Gribbin, Kathy (January 1975). "Adult Development and Aging". Annual Review of Psychology. 26 (1): 65–96. doi:10.1146/annurev.ps.26.020175.000433. PMID 1094935.
  61. ^ Lledo, Pierre-Marie; Alonso, Mariana; Grubb, Matthew S. (March 2006). "Adult neurogenesis and functional plasticity in neuronal circuits". Nature Reviews Neuroscience. 7 (3): 179–193. doi:10.1038/nrn1867. PMID 16495940. S2CID 6687815.
  62. ^ Gottlieb, Gilbert (1998). "Normally occurring environmental and behavioral influences on gene activity: From central dogma to probabilistic epigenesis". Psychological Review. 105 (4): 792–802. doi:10.1037/0033-295X.105.4.792-802. PMID 9830380.
  63. ^ Kempler, Daniel (2005). Neurocognitive Disorders in Aging. SAGE. ISBN 978-0-7619-2163-9.[page needed]
  64. ^ Bayles, Kathryn A; Tomoeda, Cheryl K (1995). The ABCs of dementia (2nd ed.). Canyonlands. ISBN 978-0-9639381-2-1.[page needed]
  65. ^ Borda, Cynthia (2006). Alzheimer's Disease and Memory Drugs. Infobase Publishing. ISBN 978-1-4381-0190-3.[page needed]
  66. ^ Hippius, H.; Neundörfer, G. (March 2003). "The discovery of Alzheimer's disease". Dialogues in Clinical Neuroscience. 5 (1): 101–108. doi:10.31887/DCNS.2003.5.1/hhippius. PMC 3181715. PMID 22034141.
  67. ^ Zanetti, O.; Solerte, S.B.; Cantoni, F. (January 2009). "Life expectancy in Alzheimer's disease (AD)". Archives of Gerontology and Geriatrics. 49: 237–243. doi:10.1016/j.archger.2009.09.035. PMID 19836639.
  68. ^ "2024 ALZHEIMER'S DISEASE FACTS AND FIGURES" (PDF). ALZHEIMER’S Association. Retrieved 2024-08-18.
  69. ^ Kelly, Evelyn B. (2008). Alzheimer's Disease. Infobase Publishing. ISBN 978-1-4381-1811-6.[page needed]
  70. ^ "Huntington's Disease".
  71. ^ a b "Fast Facts About HD" (PDF). Huntington's Disease Society of America. Archived from the original (PDF) on 4 July 2011.
  72. ^ Fundukian, Laurie J. (2009). The Gale encyclopedia of alternative medicine (3rd ed.). Detroit: Gale, Cengage Learning. ISBN 978-1-4144-4872-5. OCLC 222134974.
  73. ^ Blanchfield, Deirdre S., ed. (2016). The Gale encyclopedia of children's health: infancy through adolescence (3rd ed.). Farmington Hills, MI: Gale, Cengage Learning. ISBN 978-1-4103-3274-5. OCLC 945448821.
  74. ^ "Parkinson's Disease". WebMD.
  75. ^ Goetz, C. G. (2011-09-01). "The History of Parkinson's Disease: Early Clinical Descriptions and Neurological Therapies". Cold Spring Harbor Perspectives in Medicine. 1 (1): a008862. doi:10.1101/cshperspect.a008862. ISSN 2157-1422. PMC 3234454. PMID 22229124.
  76. ^ Parkinson, James (May 2002). "An Essay on the Shaking Palsy". The Journal of Neuropsychiatry and Clinical Neurosciences. 14 (2): 223–236. doi:10.1176/jnp.14.2.223. ISSN 0895-0172. PMID 11983801.
  77. ^ a b c Sveinbjornsdottir, Sigurlaug (2016). "The clinical symptoms of Parkinson's disease". Journal of Neurochemistry. 139 (S1): 318–324. doi:10.1111/jnc.13691. ISSN 1471-4159. PMID 27401947. S2CID 44378445.
  78. ^ de Lau, Lonneke ML; Breteler, Monique MB (June 2006). "Epidemiology of Parkinson's disease". The Lancet Neurology. 5 (6): 525–535. doi:10.1016/S1474-4422(06)70471-9. PMID 16713924. S2CID 39310242.
  79. ^ Kouli, Antonina; Torsney, Kelli M.; Kuan, Wei-Li (2018), Stoker, Thomas B.; Greenland, Julia C. (eds.), "Parkinson's Disease: Etiology, Neuropathology, and Pathogenesis", Parkinson's Disease: Pathogenesis and Clinical Aspects, Brisbane (AU): Codon Publications, ISBN 978-0-9944381-6-4, PMID 30702842, retrieved 2020-12-15
  80. ^ Chou, Kelvin L.; Taylor, Jennifer L.; Patil, Parag G. (November 2013). "The MDS−UPDRS tracks motor and non-motor improvement due to subthalamic nucleus deep brain stimulation in Parkinson disease". Parkinsonism & Related Disorders. 19 (11): 966–969. doi:10.1016/j.parkreldis.2013.06.010. PMC 3825788. PMID 23849499.
  81. ^ Hauser, Robert A; Hsu, Ann; Kell, Sherron; Espay, Alberto J; Sethi, Kapil; Stacy, Mark; Ondo, William; O'Connell, Martin; Gupta, Suneel (April 2013). "Extended-release carbidopa-levodopa (IPX066) compared with immediate-release carbidopa-levodopa in patients with Parkinson's disease and motor fluctuations: a phase 3 randomised, double-blind trial". The Lancet Neurology. 12 (4): 346–356. doi:10.1016/S1474-4422(13)70025-5. PMID 23485610. S2CID 21819903.
  82. ^ Lang, Anthony E; Obeso, Jose A (May 2004). "Challenges in Parkinson's disease: restoration of the nigrostriatal dopamine system is not enough". The Lancet Neurology. 3 (5): 309–316. doi:10.1016/S1474-4422(04)00740-9. PMID 15099546. S2CID 6551470.
  83. ^ "Parkinson's Tremors: What You Need to Know". WebMD. Retrieved 2021-01-19.
  84. ^ Pasquini, Jacopo; Ceravolo, Roberto; Qamhawi, Zahi; Lee, Jee-Young; Deuschl, Günther; Brooks, David James; Bonuccelli, Ubaldo; Pavese, Nicola (2018-03-01). "Progression of tremor in early stages of Parkinson's disease: a clinical and neuroimaging study". Brain. 141 (3): 811–821. doi:10.1093/brain/awx376. ISSN 0006-8950. PMID 29365117. S2CID 43631583.
  85. ^ Magee, Kenneth R.; Elliott, Alta (July 1955). "Parkinson's Disease". The American Journal of Nursing. 55 (7): 814–817. doi:10.2307/3469061. JSTOR 3469061. PMID 14388044.
  86. ^ Wirdefeldt, Karin; Adami, Hans-Olov; Cole, Philip; Trichopoulos, Dimitrios; Mandel, Jack (June 2011). "Epidemiology and etiology of Parkinson's disease: a review of the evidence". European Journal of Epidemiology. 26 (S1): S1-58. doi:10.1007/s10654-011-9581-6. ISSN 0393-2990. PMID 21626386. S2CID 38023183.
  87. ^ Sasco, Annie J.; Paffenbarger, Ralph S. (November 1990). "Smoking and Parkinsonʼs Disease". Epidemiology. 1 (6): 460–465. doi:10.1097/00001648-199011000-00008. JSTOR 25759850. PMID 2090284. S2CID 21995635.
  88. ^ Zarit, S. H., & Zarit, J. M. (1998). Mental disorders in older adults: Fundamentals of assessment and treatment. New York: Guilford Press.[page needed]
  89. ^ Garand, Linda; Mitchell, Ann M.; Dietrick, Ann; Hijjawi, Sophia P.; Pan, Di (May 2006). "Suicide in Older Adults: Nursing Assessment of Suicide Risk". Issues in Mental Health Nursing. 27 (4): 355–370. doi:10.1080/01612840600569633. ISSN 0161-2840. PMC 2864075. PMID 16546935.
  90. ^ Mello-Santos, Carolina de; Bertolote, José Manuel; Wang, Yuan-Pang (June 2005). "Epidemiology of suicide in Brazil (1980 - 2000): characterization of age and gender rates of suicide". Brazilian Journal of Psychiatry. 27 (2): 131–134. doi:10.1590/S1516-44462005000200011. ISSN 1516-4446. PMID 15962138.
  91. ^ a b Alexopoulos, George S (June 2005). "Depression in the elderly". The Lancet. 365 (9475): 1961–1970. doi:10.1016/S0140-6736(05)66665-2. PMID 15936426. S2CID 34666321.
  92. ^ Tessier, Anne-Julie; Wing, Simon S.; Rahme, Elham; Morais, José A.; Chevalier, Stéphanie (2022-07-01). "Association of Low Muscle Mass With Cognitive Function During a 3-Year Follow-up Among Adults Aged 65 to 86 Years in the Canadian Longitudinal Study on Aging". JAMA Network Open. 5 (7): e2219926. doi:10.1001/jamanetworkopen.2022.19926. ISSN 2574-3805. PMC 9250053. PMID 35796211.
  93. ^ Strawbridge, W. J.; Deleger, S; Roberts, RE; Kaplan, GA (15 August 2002). "Physical Activity Reduces the Risk of Subsequent Depression for Older Adults". American Journal of Epidemiology. 156 (4): 328–334. doi:10.1093/aje/kwf047. hdl:2027.42/51511. PMID 12181102.
  94. ^ Walker, Janine G.; Mackinnon, Andrew J.; Batterham, Philip; Jorm, Anthony F.; Hickie, Ian; McCarthy, Affrica; Fenech, Michael; Christensen, Helen (July 2010). "Mental health literacy, folic acid and vitamin B12, and physical activity for the prevention of depression in older adults: randomised controlled trial". The British Journal of Psychiatry. 197 (1): 45–54. doi:10.1192/bjp.bp.109.075291. ISSN 0007-1250. PMID 20592433.
  95. ^ Scogin, Forrest R. (1998). "Anxiety in old age". In Nordhus, Inger Hilde; VandenBos, Gary R.; Berg, Stig; Fromholt, Pia (eds.). Clinical Geropsychology. Washington DC: American Psychological Association. pp. 205–209. ISBN 978-1-55798-519-4.
  96. ^ Wolitzky-Taylor, Kate B.; Castriotta, Natalie; Lenze, Eric J.; Stanley, Melinda A.; Craske, Michelle G. (February 2010). "Anxiety disorders in older adults: a comprehensive review". Depression and Anxiety. 27 (2): 190–211. doi:10.1002/da.20653. PMID 20099273.
  97. ^ Regier, Darrel A.; Narrow, William E.; Rae, Donald S. (1990-01-01). "The epidemiology of anxiety disorders: The epidemiologic catchment area (ECA) experience". Journal of Psychiatric Research. 24: 3–14. doi:10.1016/0022-3956(90)90031-K. ISSN 0022-3956. PMID 2280373.
  98. ^ Wolitzky-Taylor, Kate B.; Castriotta, Natalie; Lenze, Eric J.; Stanley, Melinda A.; Craske, Michelle G. (February 2010). "Anxiety disorders in older adults: a comprehensive review". Depression and Anxiety. 27 (2): 190–211. doi:10.1002/da.20653. PMID 20099273. S2CID 12981577.
  99. ^ So, Christine; Fiori, Katherine (2022). "Attachment anxiety and loneliness during the first-year of college: Self-esteem and social support as mediators". Personality and Individual Differences. 187: 111405. doi:10.1016/j.paid.2021.111405. ISSN 0191-8869. S2CID 244781776.
  100. ^ Caccioppo, S (2015). "Loneliness: clinical import and interventions". Association for Psychological Science. 10 (Perspective on psychological science): 238–249. doi:10.1177/1745691615570616. PMC 4391342. PMID 25866548.
  101. ^ Singh, Archana; Misra, Nishi (2009). "Loneliness, depression and sociability in old age". Industrial Psychiatry Journal. 18 (1): 51–55. doi:10.4103/0972-6748.57861. PMC 3016701. PMID 21234164.
  102. ^ Kassin, Saul; Fein, Steven; Markus, Hazel Rose (2007). Social Psychology (10th ed.). Cengage Learning. pp. 356–357. ISBN 978-1-305-58022-0.
  103. ^ Kessler, Ronald C.; Adler, Lenard; Barkley, Russell; Biederman, Joseph; Conners, C. Keith; Demler, Olga; Faraone, Stephen V.; Greenhill, Laurence L.; Howes, Mary J.; Secnik, Kristina; Spencer, Thomas; Ustun, T. Bedirhan; Walters, Ellen E.; Zaslavsky, Alan M. (April 2006). "The prevalence and correlates of adult ADHD in the United States: results from the National Comorbidity Survey Replication". The American Journal of Psychiatry. 163 (4): 716–723. doi:10.1176/ajp.2006.163.4.716. ISSN 0002-953X. PMC 2859678. PMID 16585449.
  104. ^ a b Brod, Meryl; Schmitt, Eva; Goodwin, Marc; Hodgkins, Paul; Niebler, Gwendolyn (June 2012). "ADHD burden of illness in older adults: a life course perspective". Quality of Life Research. 21 (5): 795–799. doi:10.1007/s11136-011-9981-9. PMID 21805205. S2CID 23837863.
  105. ^ Reimer, Bryan; D'Ambrosio, Lisa A.; Gilbert, Jennifer; Coughlin, Joseph F.; Biederman, Joseph; Surman, Craig; Fried, Ronna; Aleardi, Megan (November 2005). "Behavior differences in drivers with attention deficit hyperactivity disorder: The driving behavior questionnaire". Accident Analysis & Prevention. 37 (6): 996–1004. doi:10.1016/j.aap.2005.05.002. PMID 15955521.
  106. ^ Zarit, Steven H.; Zarit, Judy M. (1998). Mental Disorders in Older Adults: Fundamentals of Assessment and Treatment. Guilford Publications. ISBN 978-1-57230-368-3.[page needed]
  107. ^ Scholes, S., & Mindell, J. (2012). Physical activity in adults. Health survey for England, 1(2), 1-49.
  108. ^ "Program Summary: Healthy Moves for Aging Well". NCOA. 27 November 2023.
  109. ^ "How to prevent and manage chronic diseases with nutrition-conscious diet?". www.menusano.com. 11 May 2018. Retrieved 2020-10-07.
  110. ^ Borji, Rihab; Affes, Sana; Zarrouk, Nidhal; Sahli, Sonia; Rebai, Haithem (2023). "Acute effects of aerobic versus resistance exercises on cognitive function in individuals with intellectual disability". Journal of Applied Research in Intellectual Disabilities. 36 (1): 106–115. doi:10.1111/jar.13039. PMID 36216517.
  111. ^ Shi, Jiaming; Jiang, Chaoxin; Zhao, Qi (2024). "The benefits of physical exercise on older adults' cognitive function: A cohort study exploring potential mechanisms". Psychology of Sport and Exercise. 74. doi:10.1016/j.psychsport.2024.102685. PMID 38844016.
  112. ^ Shen, Yong; Li, Rena (2016). "What do we know from clinical trials on exercise and Alzheimer's disease?". Journal of Sport and Health Science. 5 (4). Sport Health Sci: 397–399. doi:10.1016/j.jshs.2016.10.002. PMC 5679699. PMID 29130020.
  113. ^ Hale, J. M.; Schneider, D. C.; Mehta, N. K.; Myrskylä, M. (2020). "Cognitive impairment in the U.S.: Lifetime risk, age at onset, and years impaired". SSM - Population Health. 11. doi:10.1016/j.ssmph.2020.100577. PMC 7153285. PMID 32300635.
  114. ^ "Physical Activity, Cognitive Decline, and Quality of Life in Older Adults". International Journal of Sport Studies for Health. 7 (2): 13–22. 6 June 2024. doi:10.61838/kman.intjssh.7.2.2.
  115. ^ "Physical Activity, Cognitive Decline, and Quality of Life in Older Adults". International Journal of Sport Studies for Health. 7 (2): 13–22. 6 June 2024. doi:10.61838/kman.intjssh.7.2.2.
  116. ^ Park, Jonghyuk; Kim, Jimmy; Mikami, Toshio (5 September 2022). "Exercise hormone irisin prevents physical inactivity-induced cognitive decline in mice". Behavioural Brain Research. 433. doi:10.1016/j.bbr.2022.114008. PMID 35850397.
  117. ^ Park, Jonghyuk; Kim, Jimmy; Mikami, Toshio (5 September 2022). "Exercise hormone irisin prevents physical inactivity-induced cognitive decline in mice". Behavioural Brain Research. 433. doi:10.1016/j.bbr.2022.114008. PMID 35850397.
  118. ^ "Physical Activity, Cognitive Decline, and Quality of Life in Older Adults". International Journal of Sport Studies for Health. 7 (2): 13–22. 6 June 2024. doi:10.61838/kman.intjssh.7.2.2.
  119. ^ "Physical Activity, Cognitive Decline, and Quality of Life in Older Adults". International Journal of Sport Studies for Health. 7 (2): 13–22. 6 June 2024. doi:10.61838/kman.intjssh.7.2.2.
  120. ^ Iso-Markku, P.; Aaltonen, S.; Kujala, U. M.; Halme, H. L.; Phipps, D.; Knittle, K.; Vuoksimaa, E.; Waller, K. (2024). "Physical Activity and Cognitive Decline Among Older Adults: A Systematic Review and Meta-Analysis". JAMA Network Open. 7 (2): e2354285. doi:10.1001/jamanetworkopen.2023.54285. PMC 10835510. PMID 38300618.
  121. ^ Shi, Jiaming; Jiang, Chaoxin; Zhao, Qi (September 2024). "The benefits of physical exercise on older adults' cognitive function: A cohort study exploring potential mechanisms". Psychology of Sport and Exercise. 74. doi:10.1016/j.psychsport.2024.102685. PMID 38844016.
  122. ^ Shi, Jiaming; Jiang, Chaoxin; Zhao, Qi (September 2024). "The benefits of physical exercise on older adults' cognitive function: A cohort study exploring potential mechanisms". Psychology of Sport and Exercise. 74. doi:10.1016/j.psychsport.2024.102685. PMID 38844016.
  123. ^ Griffen, Corbin; Cullen, Tom; Hattersley, John; Weickert, Martin O.; Dallaway, Alexander; Duncan, Michael; Renshaw, Derek (2024). "Effects of resistance exercise and whey protein supplementation on cognitive function in older men: secondary analysis of a randomised, double-blind, placebo-controlled trial". Experimental Gerontology. 193. doi:10.1016/j.exger.2024.112477. hdl:2436/625564. PMID 38844183.
  124. ^ Zhao, N.; Xia, J.; Xu, B. (2021). "Physical exercise may exert its therapeutic influence on Alzheimer's disease through the reversal of mitochondrial dysfunction via SIRT1-FOXO1/3-PINK1-Parkin-mediated mitophagy". Journal of Sport and Health Science. 10 (1): 1–3. doi:10.1016/j.jshs.2020.08.009. PMC 7856556. PMID 32861777.
  125. ^ Zhao, N.; Xia, J.; Xu, B. (2021). "Physical exercise may exert its therapeutic influence on Alzheimer's disease through the reversal of mitochondrial dysfunction via SIRT1-FOXO1/3-PINK1-Parkin-mediated mitophagy". Journal of Sport and Health Science. 10 (1): 1–3. doi:10.1016/j.jshs.2020.08.009. PMC 7856556. PMID 32861777.
  126. ^ Daffner, Kirk R.; Ryan, Katherine K.; Williams, Danielle M.; Budson, Andrew E.; Rentz, Dorene M.; Wolk, David A.; Holcomb, Phillip J. (October 2006). "Increased Responsiveness to Novelty is Associated with Successful Cognitive Aging". Journal of Cognitive Neuroscience. 18 (10): 1759–1773. doi:10.1162/jocn.2006.18.10.1759. PMID 17014379. S2CID 2157698.
  127. ^ Cavanaugh, John C.; Blanchard-Fields, Fredda (January 2018). "Attention and Memory". Adult Development and Aging. Cengage Learning. pp. 157–184. ISBN 978-1-337-67012-8.
  128. ^ Dainese, Sara M.; Allemand, Mathias; Ribeiro, Nadja; Bayram, Sanem; Martin, Mike; Ehlert, Ulrike (January 2011). "Protective Factors in Midlife: How Do People Stay Healthy?". GeroPsych. 24 (1): 19–29. doi:10.1024/1662-9647/a000032.
  129. ^ Urry, Heather L.; Gross, James J. (December 2010). "Emotion Regulation in Older Age". Current Directions in Psychological Science. 19 (6): 352–357. doi:10.1177/0963721410388395. S2CID 1400335.
  130. ^ Hansson, Robert O.; Stroebe, Margaret S. (2007). Bereavement in Late Life: Coping, Adaptation, and Developmental Influences. American Psychological Association. ISBN 978-1-59147-472-2.[page needed]
  131. ^ Kahana, Eva; Kelley-Moore, Jessica; Kahana, Boaz (May 2012). "Proactive aging: A longitudinal study of stress, resources, agency, and well-being in late life". Aging & Mental Health. 16 (4): 438–451. doi:10.1080/13607863.2011.644519. PMC 3825511. PMID 22299813.
  132. ^ Srivastava, Sanjay; John, Oliver P.; Gosling, Samuel D.; Potter, Jeff (May 2003). "Development of personality in early and middle adulthood: Set like plaster or persistent change?". Journal of Personality and Social Psychology. 84 (5): 1041–1053. doi:10.1037/0022-3514.84.5.1041. PMID 12757147. S2CID 14790757.
  133. ^ De Vries, Jantje Hinrika; Spengler, Maik; Frintrup, Andreas; Mussel, Patrick (2021). "Personality Development in Emerging Adulthood—How the Perception of Life Events and Mindset Affect Personality Trait Change". Frontiers in Psychology. 12: 671421. doi:10.3389/fpsyg.2021.671421. ISSN 1664-1078. PMC 8256263. PMID 34234715.
  134. ^ Schwaba, Ted; Bleidorn, Wiebke (2018). "Individual differences in personality change across the adult life span". Journal of Personality. 86 (3): 450–464. doi:10.1111/jopy.12327. ISSN 0022-3506. PMID 28509384.
  135. ^ Roberts, Brent W.; Mroczek, Daniel (February 2008). "Personality Trait Change in Adulthood". Current Directions in Psychological Science. 17 (1): 31–35. doi:10.1111/j.1467-8721.2008.00543.x. ISSN 0963-7214. PMC 2743415. PMID 19756219.
  136. ^ Costa, Paul T.; McCrae, Robert R. (1994). "Set like plaster? Evidence for the stability of adult personality". In Heatherton, T. F.; Weinberger, J. L. (eds.). Can personality change?. pp. 21–40. doi:10.1037/10143-002. ISBN 1-55798-213-9.
  137. ^ Leon, Gloria R.; Gillum, Brenda; Gillum, Richard; Gouze, Marshall (June 1979). "Personality stability and change over a 30-year period—middle age to old age". Journal of Consulting and Clinical Psychology. 47 (3): 517–524. doi:10.1037/0022-006x.47.3.517. PMID 528720.
  138. ^ Mõttus, René; Johnson, Wendy; Deary, Ian J. (March 2012). "Personality traits in old age: Measurement and rank-order stability and some mean-level change" (PDF). Psychology and Aging. 27 (1): 243–249. doi:10.1037/a0023690. hdl:20.500.11820/39c061a9-27f6-49a2-9b91-3c1293210310. PMID 21604884. S2CID 13165488.
  139. ^ Donnellan, M. Brent; Lucas, Richard E. (September 2008). "Age differences in the big five across the life span: Evidence from two national samples". Psychology and Aging. 23 (3): 558–566. doi:10.1037/a0012897. PMC 2562318. PMID 18808245.
  140. ^ Mühlig-Versen, Andrea; Bowen, Catherine E.; Staudinger, Ursula M. (2012). "Personality plasticity in later adulthood: Contextual and personal resources are needed to increase openness to new experiences". Psychology and Aging. 27 (4): 855–866. doi:10.1037/a0029357. PMID 22846062.
  141. ^ a b Baltes, Paul B. (1987). "Theoretical propositions of life-span developmental psychology: On the dynamics between growth and decline". Developmental Psychology. 23 (5): 611–626. doi:10.1037/0012-1649.23.5.611.
  142. ^ a b Neisser, Ulric; Boodoo, Gwyneth; Bouchard, Thomas J.; Boykin, A. Wade; Brody, Nathan; Ceci, Stephen J.; Halpern, Diane F.; Loehlin, John C.; Perloff, Robert; Sternberg, Robert J.; Urbina, Susana (February 1996). "Intelligence: Knowns and unknowns". American Psychologist. 51 (2): 77–101. doi:10.1037/0003-066X.51.2.77.
  143. ^ Thurstone, L. L. (1938). "Primary Mental Abilities". Psychometric Monographs. 1 (2813): Xi-121. PMID 18933605. NAID 10011544177.
  144. ^ Hertzog, Christopher; Schaie, K. Warner (1988). "Stability and change in adult intelligence: II. Simultaneous analysis of longitudinal means and covariance structures". Psychology and Aging. 3 (2): 122–130. doi:10.1037/0882-7974.3.2.122. PMID 3268250.
  145. ^ Horn, John L.; Cattell, Raymond B. (1967). "Age differences in fluid and crystallized intelligence". Acta Psychologica. 26 (2): 107–129. doi:10.1016/0001-6918(67)90011-X. PMID 6037305.
  146. ^ Schulz, Richard; Beach, Scott R.; Czaja, Sara J.; Martire, Lynn M.; Monin, Joan K. (2020-01-04). "Family Caregiving for Older Adults". Annual Review of Psychology. 71 (1): 635–659. doi:10.1146/annurev-psych-010419-050754. ISSN 0066-4308. PMC 7291827. PMID 31905111.
  147. ^ Cavanaugh, John C.; Blanchard-Fields, Fredda (January 2018). "Where People Live: Person-Environment Interactions". Adult Development and Aging. Cengage Learning. pp. 126–156. ISBN 978-1-337-67012-8.
  148. ^ Wrzus, Cornelia; Hänel, Martha; Wagner, Jenny; Neyer, Franz J. (2013). "Social network changes and life events across the life span: A meta-analysis". Psychological Bulletin. 139 (1): 53–80. doi:10.1037/a0028601. PMID 22642230. S2CID 25046835.
  149. ^ "Exploring the Role of Social Relationships in Hispanic Health". University of Arizona News. 2021-09-14. Retrieved 2022-12-11.
  150. ^ Seeman, Teresa E.; Lusignolo, Tina M.; Albert, Marilyn; Berkman, Lisa (2001). "Social relationships, social support, and patterns of cognitive aging in healthy, high-functioning older adults: MacArthur Studies of Successful Aging". Health Psychology. 20 (4): 243–255. doi:10.1037/0278-6133.20.4.243. PMID 11515736.
  151. ^ Cacioppo, John T.; Hawkley, Louise C.; Thisted, Ronald A. (2010). "Perceived social isolation makes me sad: 5-year cross-lagged analyses of loneliness and depressive symptomatology in the Chicago Health, Aging, and Social Relations Study". Psychology and Aging. 25 (2): 453–463. doi:10.1037/a0017216. PMC 2922929. PMID 20545429.
  152. ^ Shulman, Norman (1975). "Life-Cycle Variations in Patterns of Close Relationships". Journal of Marriage and Family. 37 (4): 813–821. doi:10.2307/350834. JSTOR 350834.
  153. ^ Larson, Reed; Mannell, Roger; Zuzanek, Jiri (1986). "Daily well-being of older adults with friends and family". Psychology and Aging. 1 (2): 117–126. doi:10.1037/0882-7974.1.2.117. PMID 3267387.
  154. ^ a b Kim, Jungmeen E.; Moen, Phyllis (June 2001). "Is Retirement Good or Bad for Subjective Well-Being?". Current Directions in Psychological Science. 10 (3): 83–86. doi:10.1111/1467-8721.00121. S2CID 12604129.
  155. ^ a b "Choosing a long-term care setting: Facility types - review the choices". Oregon Department of Human Services. Archived from the original on 2 January 2016.
  156. ^ a b "The Future of Active Adult Housing | BU SHA | Boston Hospitality Review". www.bu.edu. Retrieved 2022-12-12.
  157. ^ a b c Allen, Steven (May 2004). The Value of Phased Retirement (Report). Cambridge, MA: National Bureau of Economic Research. doi:10.3386/w10531.
  158. ^ Brandburg, G. L. (2007). Making the transition to nursing home life: A framework to help older adults adapt to the long-term care environment. Journal of gerontological nursing, 33(6), 50-56.
  159. ^ Matson, Johnny L.; Dempsey, Timothy; Fodstad, Jill C. (November 2009). "The effect of Autism Spectrum Disorders on adaptive independent living skills in adults with severe intellectual disability". Research in Developmental Disabilities. 30 (6): 1203–1211. doi:10.1016/j.ridd.2009.04.001. ISSN 0891-4222. PMID 19450950.
  160. ^ "Different Kinds of Long-Term Care Facilities". March 29, 2018.
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