Dopamine.

It’s our motivation to dominate our environment. 

Winning. 

Eating. 

Sex. 

Dopamine gives us access to food or partners. 

When dopamine splashes over your brain, it’s a rush of pleasure. 

Good grades. 

Praise. 

Dopamine just feels good.

Dopamine pleasure differs from here & now pleasure, which is satisfaction. 

A dopamine surge triggered by winning leaves us wanting more. It’s not enough to win. Dopamine wants anticipation. Winning is never enough for dopamine. Pursuit and victory are the surge, and more times than not, the urge for more.  

Giving into the craving that dopamine provides does not guarantee your pleasure; simply, because wanting something versus liking something are two completely separate things. 

Dopamine will only choose one. 

This explains WHY human beings are willing to repeatedly put themselves into the extremes; it becomes a loop. 

The brain LOVES loops, and this particular brain loop often times goes unnoticed because it’s become comfortable. Humans gravitate toward what is easy and requires no extra effort. As they say, checking all the boxes; but, at what cost? 

When the human brain is engaged with this repeated cycle; to identify a goal in order to achieve their specific desire, one chemical in the brain takes control above all others, that is dopamine.

Becoming a master of your own homeostasis while mitigating allostatic load are the countermeasures to dopamine overload and the key to dopamine control.

A principal mediator of the impact of stress on the brain and behavior are activation of the hypothalamic-pituitary-adrenal-axis, which results in widespread hormonal, neurochemical, and physiological alterations.

• Inflammatory stimuli on brain and behavior have consistently reported evidence that inflammatory cytokines affect the basal ganglia and dopamine neurotransmission. 

• Findings have included inflammation-associated reductions in ventral striatal responses to reward, decreased dopamine and dopamine metabolites in cerebrospinal fluid, and decreased availability of striatal dopamine (Felger & Miller, 2012).

• Dopamine response exhibits increased peripheral cytokines and other inflammatory markers, such as C-reactive protein or autoimmune and/or fibromyalgia response to stressors such as extreme environments (Felger & Miller, 2012).

Could mastering Dopamine Control lead to neurogenesis in extreme environments as opposed to neurodegeneration? 

Can personalized countermeasures mitigate potential negative variables within extreme environments?

• Reinforcing our neural pathways over time through repeated exposure therapy would strengthen our own dopamine control, which could make space for wise-mind decisions through self-mastery. Thus, desensitizing our brain from the things which cause a negative neurophysiological response to stressful stimuli (Boling, 2021).

• These physiological emotional-regulation tools will carry over into the everyday life of the practitioner by providing a renewed self-awareness, and the ability to maintain homeostasis, even in the direst of circumstances (Boling, 2021).

Coming Soon:

Dopamine in Extreme Environments: Dopamine Control, Part Two.

References:

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Boling, Melanie (2021). Reported results of Amazonian Entheogens for treatment of Complex-Post-Traumatic Stress Disorder (C-PTSD); Military Sexual Trauma (MST); and Traumatic Brain Injury (TBI) among U.S. Military Veterans and the benefits of application through small group indigenous shamanic ceremonies. The Amazon Rainforest: From Conservation to Climate Change-research. Harvard Summer School, August 9, 2021.

Castelli, V., Cimini, A., & Ferri, C. (2020). Cytokine Storm in COVID-19: “When You Come Out of the Storm, You Won’t Be the Same Person Who Walked in.” Frontiers in Immunology, 11, 2132. https://doi.org/10.3389/fimmu.2020.02132

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Felger, J. C., & Miller, A. H. (2012). Cytokine effects on the basal ganglia and dopamine function: The subcortical source of inflammatory malaise. Frontiers in Neuroendocrinology, 33(3), 315—327. https://doi.org/10.1016/j.yfrne.2012.09.003

Felger, J. C. (2017). The Role of Dopamine in Inflammation-Associated Depression: Mechanisms and Therapeutic Implications. Current Topics in Behavioral Neurosciences, 31, 199–219. https://doi.org/10.1007/7854_2016_13

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About the author:

Melanie began attending Harvard in 2020 to complete a Graduate Certificate in Human Behavior with a specialization in Neuropsychology. Boling’s research has examined extreme environments and how they can have a potential negative impact on humans operating in the extreme environment. During her time at Harvard, she has built a mental wellness tool called a psychological field kit. Implementing these tools will allow an individual to thrive in an extreme environment while mitigating negative variables such as abnormal human behavior which can play a role in team degradation.