Cerebrum

Experience-induced transgenerational programming of neuronal structure and functions

gettingwell4 2-3 stars Required further work, Amygdala, Anterior cingulate cortex, Brain development, Brainstem, Cerebrum, Cortisol, Dopamine, Epigenetics, Glutamate, Hippocampus, Hypothalamus, Limbic system, Locus coeruleus, Lower brain, Memory, Neurochemicals, Oxytocin, Serotonin, Stress , , , , , , , , , , ,

The second paper of Transgenerational epigenetic inheritance week was a 2017 German/Israeli review focused on:

“The inter- and transgenerational effects of stress experience prior to and during gestation..the concept of stress-induced (re-)programming in more detail by highlighting epigenetic mechanisms and particularly those affecting the development of monoaminergic transmitter systems, which constitute the brain’s reward system.

We offer some perspectives on the development of protective and therapeutic interventions in cognitive and emotional disturbances resulting from preconception and prenatal stress.”

The reviewers noted that human studies have difficulties predicting adult responses to stress that are based on gene expression and early life experience. Clinical studies that experimentally manipulate the type, level and timing of the stressful exposure aren’t possible. Clinical studies are also predicated on the symptoms being recognized as disorders and/or diseases.

The researchers noted difficulties in human interventions and treatments. Before and during pregnancy, and perinatal periods are where stress effects are largest. But current human research hasn’t gathered sufficient findings to develop practical guidelines for early intervention programs.

I’m not persuaded by arguments that cite the difficulties of performing human research on transgenerational epigenetic inheritance. There are overwhelming numbers of people who have obvious stress symptoms: these didn’t develop in a vacuum.

Researchers:

  • Design human studies to test what’s known from transgenerational epigenetic inheritance animal studies that will include documenting the subjects’ detailed histories with sufficient biometric samples and data obtained from their lineage.
  • Induce pregnant subjects to at least temporarily avoid what’s harmful for them and/or the offspring, in favor of what’s beneficial.
  • Document the subjects’ actions with history and samples.

I acknowledge that economic incentives may not be enough to get people to participate. I’m familiar with a juvenile sickle-cell study that didn’t get enough subjects despite offering free transportation and hundreds of dollars to the caregivers per visit. The main problem seemed to be that the additional income would be reported and threaten the caregivers’ welfare benefits.

Stop whining that your jobs are difficult, researchers. Society doesn’t owe you a job. EARN IT – get yourself and the people in your organization motivated to advance science!

http://www.sciencedirect.com/science/article/pii/S014976341630731X “Experience-induced transgenerational (re-)programming of neuronal structure and functions: Impact of stress prior and during pregnancy” (not freely available)

Transgenerational effects of early environmental insults on aging and disease

gettingwell4 0-1 star Wasted resources, Brain development, Brain hemispheres, Cerebrum, Cortisol, Epigenetics, Hippocampus, Hypothalamus, Limbic system, Neurochemicals, Stress, Telomeres, Testosterone , , , , , , ,

The first paper of Transgenerational epigenetic inheritance week was a 2017 Canadian/Netherlands review that’s organized as follows:

“First, we address mechanisms of developmental and transgenerational programming of disease and inheritance. Second, we discuss experimental and clinical findings linking early environmental determinants to adverse aging trajectories in association with possible parental contributions and sex-specific effects. Third, we outline the main mechanisms of age-related functional decline and suggest potential interventions to reverse negative effects of transgenerational programming.”

A transgenerational phenotype was defined as an epigenetic modification that was maintained at least either to F2 grandchildren in the paternal lineage, or to F3 great-grandchildren in the maternal lineage.

The reviewers noted that mechanisms of transgenerational programming are complex and multivariate.  Severity, timing, and type of exposure; lineage of transmission; germ cell exposure; and gender of an organism were the main factors that may determine consequences. Mechanisms reviewed were:

  1. Parental exposure to an adverse environment;
  2. Altered maternal behavior and care of offspring; and
  3. Experience-dependent modifications of the epigenome.

There was a long list of diseases and impaired functionalities that were consequences of ancestral experiences and exposures. Most studies were of animals, but a few were human, such as those done on effects of extended power outages during a Quebec ice storm of January 1998.

One intervention that was effective in reversing a transgenerational phenotype induced by deficient rodent maternal care was to place pups with a caring foster female soon after birth. It’s probably unacceptable in human societies to preemptively recognize all poor-care human mothers and remove the infant to caring foster mothers. But researchers could probably find enough instances to develop studies of the effectiveness of such placements in reversing a transgenerational phenotype.

The review didn’t have suggestions for reversing human transgenerational phenotypes, just “potential interventions to reverse negative effects of transgenerational programming.” Interventions suggested for humans – exercise, enriched lifestyle, cognitive training, dietary regimens, and expressive art and writing therapies – only reduced impacts of transgenerational epigenetic effects.

Tricky wording of “reverse negative effects of transgenerational programming” showed that research paradigms weren’t aimed at resolving causes. The review was insufficient for the same reasons mentioned in How one person’s paradigms regarding stress and epigenetics impedes relevant research, prompting my same comment:

Aren’t people interested in human treatments of originating causes so that their various symptoms don’t keep bubbling up? Why wouldn’t research paradigms be aligned accordingly?

When reversals of human phenotypes aren’t researched, problems may compound by being transmitted to the next generations.

http://www.sciencedirect.com/science/article/pii/S014976341630714X “Transgenerational effects of early environmental insults on aging and disease incidence” (not freely available)

It’s transgenerational epigenetic inheritance week!

gettingwell4 4-5 stars Advanced knowledge, Brain development, Cerebrum, Epigenetics, Immune system, Limbic system, Lower brain, Memory, Neurochemicals, Stress , , , ,

Transgenerational epigenetic inheritance is a subject whose time has come. This week I sequentially curated two 2017 reviews and two 2016 studies of the subject, and ended with a meta-analysis of human preventive treatments:

It’s the opposite of advancing science for those in the funding chain to give lip service to the subject, and then create an atmosphere where proposals to extend experiments to subsequent generations to study possible transgenerational epigenetic effects are neither encouraged nor funded.

Does living near a forest keep your amygdala healthier?

gettingwell4 2-3 stars Required further work, Amygdala, Anterior cingulate cortex, Cerebrum, Cortisol, Hippocampus, Limbic system, Neurochemicals, Stress ,

A thought-provoking post from A Paper a Day Keeps the Scientist Okay entitled “Living Near a Forest Keeps Your Amygdala Healthier” referenced a 2017 German human study which found:

“..a relationship between place of residence and brain health: those city dwellers living close to a forest were more likely to show indications of a physiologically healthy amygdala structure and were therefore presumably better able to cope with stress.”

The researchers accomplished the imperative of meeting the study’s stated objective:

“We set out to identify and characterize the geographical elements of a city that are associated with these brain structures following a suggestion by Kennedy and Adolph that studies should begin to derive recommendations for urban planning and architecture.

The results of our study may suggest that forests in and around the cities are a valuable resource that should be promoted. However future longitudinal studies are needed to investigate the causal directionality of the effect in order to disentangle whether more forest in ones habitat facilitates brain structural integrity or potentially those people with better brain structural integrity choose to live closer to forests. Moreover we need to investigate whether living close to the forest is associated with an absence of risk factors such as noise, air pollution or stress and thereby has beneficial effects or whether the forest itself constitutes a salutary factor that promotes well-being.”

https://www.nature.com/articles/s41598-017-12046-7 “In search of features that constitute an “enriched environment” in humans: Associations between geographical properties and brain structure”

A major limitation of this study’s methodology was intentional non-use of an available data source. Referring to Do we need to study the brain to understand the mind? posted earlier this week:

“Self-report is still the gold standard for assessing emotional experience and the contents of thought. Isn’t it easier just to ask?”

These researchers put the forest before the trees, and designed a study that didn’t ask subjects important questions such as why they lived where they lived. The researchers inferred sketchy fMRI-geography associations because they didn’t solicit relevant primary information via individual self-reports.

I don’t live in Berlin, and I’m not part of the selected cohort, but I otherwise generally meet this study’s subject parameters. Something in my past causes me to actively select housing that isn’t in a noisy environment. If I were asked why I lived where I lived, my answer would have included:

  • A deciding factor in why I sold my second house was traffic noise in wintertime;
  • A deciding factor in why I bought my fourth house was its location in the housing development’s center, away from street noise; and
  • A deciding factor in why I live where I now live is the house’s orientation away from both direct and reflective traffic noise sources.

Processing my hypothetical fMRI data with my self-reported historical housing choices may or may not have found:

“Geographical features in the proximal participants’ habitat are associated with brain integrity.”

Using better-quality information of self-reports, though, it’s unlikely that an association this study would have found to be significant – a chance fact that I live within one kilometer of a forest – would have been deemed significant.

Do we need to study the brain to understand the mind?

gettingwell4 4-5 stars Advanced knowledge, Amygdala, Anterior cingulate cortex, Cerebrum, Hippocampus, Limbic system, Memory

A coauthor of the studies referenced in:

offered an opinion piece in A Paper a Day Keeps the Scientist Okay entitled “Do We Need To Study The Brain To Understand The Mind?”

“The emerging consensus appears to be that implementation is important. Interestingly, the inverse question is also being asked by neurobiologists—do we need consider the mind to understand the brain?—and answered largely and increasingly in the affirmative.

Is pain different from negative emotions such as sadness and anger, or are they variants on a common theme? Pain appears to be distinct from negative emotion, but commonalities suggest ways in which they may share underlying processes such as heightened attention.

One of the biggest pitfalls is the temptation to observe brain activity and make inferences about the psychological state—for example, to infer:

  • Episodic memory retrieval from hippocampal activity,
  • Fear from amygdala activity, or
  • Visual processing from activity in the ‘visual cortex.’

These inferences ignore the scope of processes which may activate each of these areas and involve a fallacy in reasoning: “if memory then hippocampus” is not the same thing as “if hippocampus then memory.”

The fact that few brain areas, including the ‘visual cortex,’ are dedicated to one process means that self-report is still the gold standard for assessing emotional experience and the contents of thought. This is a serious challenge for those who would like, for example, to assess your brand preferences or your political affiliation from a brain scan. (And isn’t it easier just to ask?)”

Epigenetic effects of early life stress exposure

gettingwell4 5+ stars Premium, Amygdala, Anterior cingulate cortex, Brain development, Brainstem, Cerebrum, Cortisol, Dopamine, Epigenetics, Glutamate, Hippocampus, Hypothalamus, Limbic system, Locus coeruleus, Lower brain, Memory, Neurochemicals, Primal Therapy, Serotonin, Stress, Thalamus, Vasopressin , , , , , , , , ,

This 2017 Netherlands review subject was the lasting epigenetic effects of early-life stress:

“Exposure to stress during critical periods in development can have severe long-term consequences.

One of the key stress response systems mediating these long-term effects of stress is the hypothalamic-pituitary-adrenal (HPA) axis.

Early life stress (ELS) exposure has been reported to have numerous consequences on HPA-axis function in adulthood.

ELS is able to “imprint” or “program” an organism’s neuroendocrine, neural and behavioral responses to stress. Research focuses along two complementary lines:

  1. ELS during critical stages in brain maturation may disrupt specific developmental processes (by altered neurotransmitter exposure, gene transcription, or neuronal differentiation), leading to aberrant neural circuit function throughout life.
  2. ELS may induce modifications of the epigenome which lastingly affect brain function.

These epigenetic modifications are inducible, stable, and yet reversible, constituting an important emerging mechanism by which transient environmental stimuli can induce persistent changes in gene expression and ultimately behavior.”

In early life, the lower brain and limbic system brain structures are more developed and dominant, whereas the cerebrum is less developed (use the above rodent graphic as a rough guide). Stress and pain generally have a greater impact on a fetus than an infant, and a greater impact on an infant than an adult.

The reviewers cited 50+ studies from years 2000-2015 in the “Early Life Stress Effects in a “Matching” Stressful Adult Environment” section to argue for the match / mismatch theory:

“Encountering ELS prepares an organism for similar (“matching”) adversities during adulthood, while a mismatching environment results in an increased susceptibility to psychopathology, indicating that ELS can exert either beneficial or disadvantageous effects depending on the environmental context.

Initial evidence for HPA-axis hypo-reactivity is observed for early social deprivation, potentially reflecting the abnormal HPA-axis function as observed in post-traumatic stress disorder.

Experiencing additional (chronic) stress in adulthood seems to normalize these alterations in HPA-axis function, supporting the match / mismatch theory.”

Evidence for this theory was contrasted with the allostatic load theory presented in How one person’s paradigms regarding stress and epigenetics impedes relevant research.

The review mainly cited evidence from rodent studies that mismatched reactions in adulthood may be consequences of early-life events. These events:

“Imprint or program an organism’s neuroendocrine, neural and behavioral responses..leading to aberrant neural circuit function throughout life..which lastingly affect brain function.”

Taking this research to a personal level:

  • Have you had feelings that you were unsafe, although your environment was objectively safe?
  • Have you felt uneasy when people are nice to you?
  • Have you felt anxious when someone pays attention to you, even after you’ve acted to gain their attention?

Mismatched human feelings are one form of mismatched reactions. These may be consequences of early-life experiences, and indicators of personal truths.

If researchers can let go of their biases and Advance science by including emotion in research, they may find that human subjects’ feelings produce better evidence for what actually happened during the subjects’ early lives than do standard scientific methods of:

Incorporating feeling evidence may bring researchers and each individual closer to discovering the major insults that knocked their development processes out of normally robust pathways and/or induced “persistent changes in gene expression and ultimately behavior.”

https://www.frontiersin.org/articles/10.3389/fncel.2017.00087/full “Modulation of the Hypothalamic-Pituitary-Adrenal Axis by Early Life Stress Exposure”

I came across this review as a result of it being cited in http://www.sciencedirect.com/science/article/pii/S1084952117302884 “Long-term effects of early environment on the brain: Lesson from rodent models” (not freely available)

Epigenetic effects of THC differ between female adolescents and adults

gettingwell4 4-5 stars Advanced knowledge, Amygdala, Brain development, Cerebrum, Epigenetics, Hippocampus, Limbic system , , ,

This 2017 Italian rodent study found:

“THC [delta9-tetrahydrocannabinol, the psychoactive compound of cannabis] exposure affects histone modifications in the brain of female rats in a region- and age-specific manner. Specifically, THC acts on different targets depending on the considered brain area and, remarkably, the adolescent brain is generally more sensitive to THC than the adult brain.

Adolescent exposure to THC, or to synthetic cannabinoids, induced sex-dependent brain and behavioral alterations at adulthood. In female rats, the phenotype was more complex, as both depressive-like and psychotic-like signs were present.

Development of the depressive/psychotic-like phenotype is restricted to adolescent THC exposure. Not only the behavioral phenotype developed after adolescent, and not adult, exposure, but also changes in both histone modifications and gene expression were more widespread and intense after adolescent treatment, further confirming a specific adolescent susceptibility.

The primary effect in the adolescent brain was represented by changes leading to transcriptional repression, whereas the one observed after adult treatment led to transcriptional activation. Moreover, only in the adolescent brain, the primary effect was followed by a homeostatic response to counterbalance the THC-induced repressive effect, except in the amygdala.”

The authors’ interpretation of the brain area results was:

“The amygdala is more responsive in adult than adolescent animals. Since it has been established that the amygdala is activated during exposure to aversive stimuli, functioning as a “behavioral brake”, different response between adult and adolescent animals could represent the biological bases of the adolescent propensity for risk-taking and novelty-seeking behaviors. Also in adolescent humans, neuroimaging studies have shown a weaker involvement of the amygdala, and a greater contribution of the NAc [nucleus accumbens], in response to negative and positive stimuli compared to adults.”

http://www.mdpi.com/1422-0067/18/10/2094 “Chronic Δ9-THC Exposure Differently Affects Histone Modifications in the Adolescent and Adult Rat Brain”

Prisoners of our childhoods

gettingwell4 4-5 stars Advanced knowledge, Beliefs, Cerebrum, Primal Therapy , , , ,

Same old shit – another failed relationship.

Coincident with the start of our relationship, I was struck by a phrase by Dr. Janov, posted in Beyond Belief: What we do instead of getting well:

“It doesn’t matter about the facts we know if we cannot maintain a relationship with someone else.”

I kept that thought in the forefront.

Both of us are prisoners of our childhoods. I’ve tried to see and feel the walls and bars for what they are.

Like all of us, J hadn’t tried to process the reality of her childhood and life. For example, on her birthday I asked her how she celebrated her birthdays when she was growing up. She provided a few details, then mentioned that her parents had skipped some of her birthdays. Although I had no immediate reaction, she quickly said that she had a happy childhood.

I was at fault, too, of course. I again asked a woman to marry me who hadn’t ever told me she loved me, except in jest.

I asked J to marry me around the six-month point of our relationship. I felt wonderful, in love with her that August morning after she slept with me at my house. I made an impromptu plan: in the middle of a four-mile walk, I asked her to marry me while kneeling before her as she sat on a bench outside a jewelry store. But she wouldn’t go in to choose a ring. She said she’d think about it.

A month later, after several dates, sleepovers at her house, and a four-day trip to Montreal, I again brought up marriage while we rested on her large couch in her nice sun room. The thing I felt would be wonderful brought about the end.

I tried to understand why she couldn’t accept me for the person who I intentionally showed her I am. She abstracted everything that she said.

I tried to get her to identify why, after all the times we cared for each other, after all our shared experiences, she didn’t want me around anymore.

Didn’t happen. She didn’t tell me things that made sense as answers to my questions.

One thing she said without abstraction was that I was weak for showing my feelings. She told me I was clingy.

Another thing she communicated at the end shocked me. She somehow thought that I was going to dump her. I said that the thought never even crossed my mind.

I didn’t recognize it as projection at the time. Prompted by her underlying feelings, she attributed to me the actions and thoughts that only she herself had.

I’ve tried to put myself in J’s place.

  • How horrible must it have been for her to be steadily intimate with a man and not feel that his touches, kisses, words, affection, expressed love?
  • That he couldn’t really love me, and so I couldn’t love him?
  • That he was actually after something else, because it was impossible that he loved me?

One thing I’ve felt after the end was that the need underlying my only stated relationship goal – to live with a woman I love who also loves me – is again ruining my life. My latest efforts towards that goal were rife with unconscious symbolic act outs of an unsatisfied need from my early life.

That unrelenting need is for a woman’s love. The women I’ve chosen, though, have always given me what I got from my mother: they wouldn’t accept me as I am, and didn’t love me.

And there can never be a substitute. Most of my Primal Therapy sessions included the PAIN OF FEELING exactly that.

My prison cell is what Dr. Janov calls the imprint where I – as a child, teenager, young man, middle-aged man, old man – futilely ATTEMPT TO CHANGE THE PAST.

“Standing next to me in this lonely crowd
Is a man who swears he’s not to blame
All day long I hear him shout so loud
Crying out that he was framed

I see my light come shining
From the west down to the east
Any day now, any day now
I shall be released”

P.S. – We got back together seven months later, and are still going strong.

A gaping hole in a review of nutritional psychiatry

gettingwell4 0-1 star Wasted resources, Brain development, Cerebrum, Dopamine, Epigenetics, Glutamate, Hippocampus, Limbic system, Lower brain, Memory, Neurochemicals, Stress , , , , ,

This December 2016 Australian review published in September 2017 concerned:

“..the nutritional psychiatry field..the neurobiological mechanisms likely modulated by diet, the use of dietary and nutraceutical interventions in mental disorders, and recommendations for further research.”

The reviewers inexplicably omitted acetyl-L-carnitine, which I first covered in A common dietary supplement that has rapid and lasting antidepressant effects. A PubMed search on “acetyl carnitine” showed over a dozen studies from the past twelve months that were relevant to the review’s subject areas. Here’s a sample, beginning with follow-on research published in June 2016 of the study I linked above:

Reply to Arduini et al.: Acetyl-l-carnitine and the brain: Epigenetics, energetics, and stress

Dietary supplementation with acetyl-l-carnitine counteracts age-related alterations of mitochondrial biogenesis, dynamics and antioxidant defenses in brain of old rats

Neuroprotective effects of acetyl-l-carnitine on lipopolysaccharide-induced neuroinflammation in mice: Involvement of brain-derived neurotrophic factor

ALCAR promote adult hippocampal neurogenesis by regulating cell-survival and cell death-related signals in rat model of Parkinson’s disease like-phenotypes

Analgesia induced by the epigenetic drug, L-acetylcarnitine, outlasts the end of treatment in mouse models of chronic inflammatory and neuropathic pain

The cited references in these recent studies were older, of course, and in the time scope of the review. There’s no excuse for this review’s omission of acetyl-L-carnitine.

https://www.cambridge.org/core/journals/proceedings-of-the-nutrition-society/article/nutritional-psychiatry-the-present-state-of-the-evidence/88924C819D21E3139FBC48D4D9DF0C08 “Nutritional psychiatry: the present state of the evidence” (not freely available)

Parental lying thwarted both their children and researchers

gettingwell4 2-3 stars Required further work, Brain development, Brain hemispheres, Cerebrum, Epigenetics, Stress , , , ,

This 2017 German human study explored the relationship between birth stress and handedness. The authors summarized previous research which, among other points, estimated epigenetic contributions to handedness as great as 75%.

The research hypothesis itself was worthwhile based on the prior studies cited and elsewhere such as Group statistics don’t necessarily describe an individual. But the study hit a snag in its reliance on the sixty participants (average age 24) completing, with the assistance of their parents and medical records, a 24-item questionnaire of maternal health problems during pregnancy, substance use during pregnancy, and birth complications.

It’s extremely unlikely that the sixty subjects provided accurate information. For example:

  • Only one of the subjects reported maternal alcohol use during pregnancy. An expected number would have been twenty-six!
  • None of the subjects reported maternal mental illness during pregnancy. An expected number would have been at least seven!

I’d guess that the subjects’ parents willingly misled their children about facts of their child’s important earliest development periods. It’s my view that parental lies and omissions are not only unethical to the children, but also, whenever the lies and omissions became recognized, they potentially diminish or destroy the society among family members.

As mentioned on the Welcome page, lies and omissions ruin the standard scientific methodology of surveying parents and caregivers. The absence of reliable evidence made it impossible for the current study’s researchers to determine causes of epigenetic effects still present in the subjects’ lives.

Parental lies and omissions also diminish or destroy the society between the sources of information – the research subjects – and the users of the information. Such lies and omissions adversely affect anyone who values evidence-based research.

http://www.tandfonline.com/doi/full/10.1080/1357650X.2017.1377726 “DNA methylation in candidate genes for handedness predicts handedness direction” (not freely available)

How one person’s paradigms regarding stress and epigenetics impedes relevant research

gettingwell4 < 0 Detracted from science, Amygdala, Beliefs, Brain development, Brainstem, Cerebrum, Cortisol, Epigenetics, Glutamate, Hippocampus, Hypothalamus, Limbic system, Locus coeruleus, Lower brain, Memory, Neurochemicals, Serotonin, Stress, Testosterone , , , , , , , , ,

This 2017 review laid out the tired, old, restrictive guidelines by which current US research on the epigenetic effects of stress is funded. The reviewer rehashed paradigms circumscribed by his authoritative position in guiding funding, and called for more government funding to support and extend his reach.

The reviewer won’t change his beliefs regarding individual differences and allostatic load pictured above since he helped to start those memes. US researchers with study hypotheses that would develop evidence beyond such memes may have difficulties finding funding except outside of his sphere of influence.

Here’s one example of the reviewer’s restrictive views taken from the Conclusion section:

Adverse experiences and environments cause problems over the life course in which there is no such thing as “reversibility” (i.e., “rolling the clock back”) but rather a change in trajectory [10] in keeping with the original definition of epigenetics [132] as the emergence of characteristics not previously evident or even predictable from an earlier developmental stage. By the same token, we mean “redirection” instead of “reversibility”—in that changes in the social and physical environment on both a societal and a personal level can alter a negative trajectory in a more positive direction.”

What would happen if US researchers proposed tests of his “there is no such thing as reversibility” axiom? To secure funding, the prospective studies’ experiments would be steered toward altering “a negative trajectory in a more positive direction” instead.

An example of this influence may be found in the press release of Familiar stress opens up an epigenetic window of neural plasticity where the lead researcher stated a goal of:

“Not to ‘roll back the clock’ but rather to change the trajectory of such brain plasticity toward more positive directions.”

I found nothing in citation [10] (of which the reviewer is a coauthor) where the rodent study researchers even attempted to directly reverse the epigenetic changes! The researchers under his guidance simply asserted:

“A history of stress exposure can permanently alter gene expression patterns in the hippocampus and the behavioral response to a novel stressor”

without making any therapeutic efforts to test the permanence assumption!

Never mind that researchers outside the reviewer’s sphere of influence have done exactly that, reverse both gene expression patterns and behavioral responses!!

In any event, citation [10] didn’t support an “there is no such thing as reversibility” axiom.

The reviewer also implied that humans respond just like lab rats and can be treated as such. Notice that the above graphic conflated rodent and human behaviors. Further examples of this inappropriate rodent / human merger of behaviors are in the Conclusion section.

What may be a more promising research approach to human treatments of the epigenetic effects of stress? As pointed out in The current paradigm of child abuse limits pre-childhood causal research:

“If the current paradigm encouraged research into treatment of causes, there would probably already be plenty of evidence to demonstrate that directly reducing the source of the damage would also reverse damaging effects. There would have been enough studies done so that the generalized question of reversibility wouldn’t be asked.

Aren’t people interested in human treatments of originating causes so that their various symptoms don’t keep bubbling up? Why wouldn’t research paradigms be aligned accordingly?”

http://journals.sagepub.com/doi/full/10.1177/2470547017692328 “Neurobiological and Systemic Effects of Chronic Stress”

Epigenetic stress effects in preterm infants

gettingwell4 4-5 stars Advanced knowledge, Brain development, Brain hemispheres, Cerebrum, Cortisol, Epigenetics, Glutamate, Hypothalamus, Limbic system, Neurochemicals, Serotonin, Stress , , , , , ,

This 2017 Italian review selected 9 human studies on the epigenetic effects of:

“One of the major adverse events in human development. Preterm infants are hospitalized in the Neonatal Intensive Care Unit where they are exposed to life-saving yet pain-inducing procedures and to protective care.”

Highlights of the referenced studies included:

  • “Early exposure to adverse events during the third trimester of pregnancy is capable to alter the epigenetic status of imprinted and placenta-related genes which have relevant implications for fetal development and preterm infants’ HPA [hypothalamic–pituitary–adrenal] stress reactivity during infancy.”
  • “There was an association between DNAm [DNA methylation] and white matter tract tissue integrity and shape inferred from dMRI [diffusion MRI], suggesting that epigenetic variation may contribute to the cerebral phenotype of preterm birth.”

Limitations of the referenced studies included:

  • “A multiple sampling design that includes parental samples, placental tissue, cord blood and extends across the life-course would be required to investigate the relative contributions of in utero and postnatal exposures to changes in DNAm, and the extent to which preterm birth leaves a legacy on the methylome.”
  • Saliva, blood, and other tissues’ DNA methylation may not produce valid links to brain tissue DNA methylation of the same gene, which may hamper conclusive inferences about behavior, etc.

http://www.sciencedirect.com/science/article/pii/S0149763417302117 “Preterm Behavioral Epigenetics: A systematic review” (not freely available)

http://www.nature.com/tp/journal/v6/n1/full/tp2015210a.html “Epigenomic profiling of preterm infants reveals DNA methylation differences at sites associated with neural function” (one of the studies selected, quoted above)

What are we to believe?

gettingwell4 4-5 stars Advanced knowledge, Beliefs, Cerebrum

This 2017 blog post from Antiwar.com’s Justin Raimondo outlines the latest instance of exploiting beliefs:

“Neither the sources of this story nor those who are reporting it can be trusted. Journalism is not a means of discovering knowledge, but a weapon to be deployed in a political-ideological conflict.”

Similar to the development of other beliefs, the reporting of the referenced story discouraged inquiries into “Information about the real world..giving us a highly distorted version of events.” It followed the blueprint of Using citations to develop beliefs instead of evidence in that once the faulty information became widely cited, refuting evidence would be ignored, and the false belief was used for other purposes.

http://original.antiwar.com/justin/2017/08/10/what-are-we-to-believe/ “What Are We To Believe? Fake news plus phony “intelligence” equals disaster”

This post has somehow become a target for spammers, and I’ve disabled comments. Readers can comment on other posts and indicate that they want their comment to apply here, and I’ll re-enable comments.

Using citations to develop beliefs instead of evidence

gettingwell4 5+ stars Premium, Beliefs, Cerebrum

This 2009 Harvard study analyzed how citations were used as tools to establish a belief.

The researched data was gathered from 1992 to 2007 on a specific subject of Alzheimer’s research. The belief was:

“β amyloid is produced by inclusion body myositis myofibres or is uniquely present in inclusion body myositis muscle.”

The author used social network analysis to determine:

“Four primary data papers, five model papers, and one review paper constituted the 10 most authoritative papers that the claim was true.

The supportive papers received 94% of the 214 citations to these primary data, whereas the six papers containing data that weakened or refuted the claim received only 6% of these citations.

95% of all citation paths flow through four review papers by the same research group.

Amplification of a claim is instead introduced into belief systems through the citing of review papers and other papers that lack data addressing the claim.”

Some of the benefits believers received included:

  1. It became easier to build models if a researcher believed:

    “Animal and cell culture experiments are valid models of inclusion body myositis”

    although:

    “The uncited data suggest that the animal and cell culture experiments are no more models of inclusion body myositis than any other neuromuscular disease in which muscle regeneration occurs.”

  2. Believers used exaggerations in their confirming research that diverted the original claim’s meaning. As an example:

    “Three supportive citations developed into 7,848 supportive citation paths—chains of false claim in the network.”

  3. Citation biases and diversions could be used to support proposals for new funding.

Just imagine how compressed this phenomenon’s timeframe is now with our social networks! The tools available for creating memes and widespread nonfactual distortions are children’s play.

A few questions for the current year:

  1. What do we believe in that isn’t thoroughly investigated, where we haven’t found the time or inclination to search for opposing results?
  2. What causes us to believe these things?
  3. What are the positive and negative consequences of our beliefs?

http://www.bmj.com/content/339/bmj.b2680 “How citation distortions create unfounded authority: analysis of a citation network”

Hat tip to Jon in the comments section of Neuroskeptic’s blog post “The Ethics of Citation” http://blogs.discovermagazine.com/neuroskeptic/2017/03/12/the-ethics-of-citation

Hope sells

gettingwell4 4-5 stars Advanced knowledge, Beliefs, Cerebrum, Primal Therapy

I used a browser yesterday that didn’t have ad blocker software installed. The below pictures came from one of the ads that displayed:

helpless

hope

A young girl in a dance position and outfit juxtaposed with an appeal: “No situation is HELPLESS because there is HOPE.” How interesting!

I didn’t click through the ad yesterday to see what was being sold by engaging customers’ beliefs, within which lay hope. When I clicked the ad today, it asked for donations to “Sponsor a Child,” develop “the perfect recipe for sustainable success,” and, at the bottom of the page, “We love because Jesus loves.”

What do we know about this ad’s appeal from reading Dr. Arthur Janov’s May 2016 book Beyond Belief? Can hope change a helpless situation per the ad?

On one level – yes, in a believer’s brain, by blocking helpless feelings. Otherwise – no. Hope ultimately isn’t a remedy for the causes of what created helpless feelings.

I donated to a similar organization for a few years, but not anymore.