Diokine
Member
- Joined
- Mar 2, 2016
- Messages
- 624
Adrenal dysfunction is ubiquitous in any disease state. The adrenal, or suprarenal glands, are endocrine glands located on top of the kidneys. Endocrine glands secret hormones and other products directly into the blood to be transported throughout the body. The endocrine secretions of the adrenals are critically important for maintaining proper oxidation of tissues. Damage to the structure of the tissue of the adrenal glands precedes dysfunction, and exposure to electromagnetic fields, common throughout modern infrastructure, has been linked to disruption in the organization of adrenal tissue.
The Zona Fasciculata is located in the adrenal cortex, the outermost part of the adrenal gland. The adrenal cortex is responsible for production of steroid hormones, gluco and mineral corticoids, and cortisol. Stress is perceived and interpreted by the nervous system, leading to release of adrenocorticotrophin releasing hormone, or ACTH. Proper adaptation to stress requires an adrenal cortex that responds accordingly and a return to equilibrium in the body. Excessive stress leads to increased production of the steroid hormones, and can proceed to disease states. Critical reduction in the capacity of the cortex to maintain adaptation to stress can result in progressive injury and can be catastrophic (R)
Disruptions in hormone producing tissue in the cortex can be initiated by exposure to electromagnetic fields, commonly produced by power distribution infrastructure and modern appliances and technology. Rats exposed to 900mHz radio frequency fields showed evidence of thickening of the Zona Fasciculata and increased production of ATCH, indicating exposure to physiological stress (R) Continual thickening of these tissues can lead to congestion, and can change the rate of excretion, which is normally well controlled and manifests as minute-to-minute pulses. Inappropriate or reductions in the rates of these pulses contributes to many physio and neurological impairments.
Adrenal hyperplasia, or excessive growth and disordering of tissue, has been associated with behavioral disturbances such as mania and bipolar disorder (R) These states can represent an inability to manage physiological stress, and can also manifest as hemodynamic disturbances such as postural orthostatic hypotension, or a loss of blood pressure upon standing. One mineralcorticoid produced by the adrenal cortex is aldosterone, and is responsible for maintaining proper levels of sodium in the blood. Insufficient production, as in frank adrenal insufficiency, of these corticoids can contribute to hemodynamic instability. Improper or excessive excretion can also be responsible, as tissues are unable to configure themselves appropriately to the perturbed state of stimulation.
Progressive loss of hemodynamic competency is associated with essentially any disease state. Adrenal size is increased in multiple sclerosis (R) and adrenal insufficiency is associated with cognitive impairment (R) Restoration of proper adrenal activity and hemodynamic stability is paramount when considering therapy for any degenerative disease. Reduction of exposure to electromagnetic fields, especially high frequency radio frequency fields, may be an effective strategy in reducing physiological stress and restoring adrenal activity and normalizing stress responses.
The Zona Fasciculata is located in the adrenal cortex, the outermost part of the adrenal gland. The adrenal cortex is responsible for production of steroid hormones, gluco and mineral corticoids, and cortisol. Stress is perceived and interpreted by the nervous system, leading to release of adrenocorticotrophin releasing hormone, or ACTH. Proper adaptation to stress requires an adrenal cortex that responds accordingly and a return to equilibrium in the body. Excessive stress leads to increased production of the steroid hormones, and can proceed to disease states. Critical reduction in the capacity of the cortex to maintain adaptation to stress can result in progressive injury and can be catastrophic (R)
Disruptions in hormone producing tissue in the cortex can be initiated by exposure to electromagnetic fields, commonly produced by power distribution infrastructure and modern appliances and technology. Rats exposed to 900mHz radio frequency fields showed evidence of thickening of the Zona Fasciculata and increased production of ATCH, indicating exposure to physiological stress (R) Continual thickening of these tissues can lead to congestion, and can change the rate of excretion, which is normally well controlled and manifests as minute-to-minute pulses. Inappropriate or reductions in the rates of these pulses contributes to many physio and neurological impairments.
Adrenal hyperplasia, or excessive growth and disordering of tissue, has been associated with behavioral disturbances such as mania and bipolar disorder (R) These states can represent an inability to manage physiological stress, and can also manifest as hemodynamic disturbances such as postural orthostatic hypotension, or a loss of blood pressure upon standing. One mineralcorticoid produced by the adrenal cortex is aldosterone, and is responsible for maintaining proper levels of sodium in the blood. Insufficient production, as in frank adrenal insufficiency, of these corticoids can contribute to hemodynamic instability. Improper or excessive excretion can also be responsible, as tissues are unable to configure themselves appropriately to the perturbed state of stimulation.
Progressive loss of hemodynamic competency is associated with essentially any disease state. Adrenal size is increased in multiple sclerosis (R) and adrenal insufficiency is associated with cognitive impairment (R) Restoration of proper adrenal activity and hemodynamic stability is paramount when considering therapy for any degenerative disease. Reduction of exposure to electromagnetic fields, especially high frequency radio frequency fields, may be an effective strategy in reducing physiological stress and restoring adrenal activity and normalizing stress responses.