Hormones...Hijacking the physical body, the chemicals of control
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The human body is an entity that is hijacked and run by hormones. These hormones can be stimulated by media, sports, entertainment, and real life. The parasite knows this and knows how to manipulate behaviour through hormonal stimulation. Romantic love, sexual attraction, pleasure, fear, marriage, trust, etc...are all consummated via CHEMICAL DRUGGING or hormone stimulation.
Hormones
Hormones are chemical messengers that coordinate different functions in your body. Several glands, organs and tissues make and release hormones, many of which make up your endocrine system.
How does DOPAMINE make someone feel happy?
Dopamine is known as the “feel-good” hormone. It gives you a sense of pleasure. It also gives you the motivation to do something when you’re feeling pleasure.
Dopamine is part of your reward system. This system is designed, from an evolutionary standpoint, to reward you when you’re doing the things you need to do to survive — eat, drink, compete to survive and reproduce. As humans, our brains are hard-wired to seek out behaviors that release dopamine in our reward system. When you’re doing something pleasurable, your brain releases a large amount of dopamine. You feel good and you seek more of that feeling.
This is why junk food and sugar are so addictive. They trigger the release of a large amount of dopamine into your brain, which gives you the feeling that you’re on top of the world and you want to repeat that experience.
What is the function of OXYTOCIN?
The two main physical functions of oxytocin are to stimulate uterine contractions in labor and childbirth and to stimulate contractions of breast tissue to aid in lactation after childbirth.
Oxytocin also acts as a chemical messenger in your brain and has an important role in many human behaviors and social interactions, including:
- Sexual arousal.
- Recognition.
- Trust.
- Romantic attachment.
- Parent-infant bonding.
What is the function of SOMATOSTATIN?
The primary function of somatostatin is to prevent the production of other hormones in your endocrine system and certain secretions in your exocrine system. Your endocrine system consists of glands that release hormones directly into your bloodstream. Endocrine glands include your thyroid, pituitary gland and adrenal glands. Your exocrine system consists of glands that release substances through a duct. Exocrine glands include salivary glands, sweat glands and glands within the gastrointestinal tract.
Basically, somatostatin works to turn off the faucet and the flow of certain hormones and secretions when your body doesn’t need them (temporarily) anymore.
Somatostatin also stops the unnatural rapid reproduction of cells such as those that may form tumors. In addition, somatostatin acts as a neurotransmitter in your central nervous system. A neurotransmitter is a signaling molecule that a neuron releases to affect another cell.
What is the function of adrenocorticotropic hormone (ACTH)?
The main function of adrenocorticotropic hormone is to stimulate your adrenal glands to release cortisol.
Cortisol is an essential hormone that affects almost every organ and tissue in your body. Cortisol is widely known as the “stress hormone.” However, it has many important effects and functions throughout your body aside from regulating your body’s stress response.
Cortisol’s many important roles include:
- Regulating your body’s stress response.
- Helping control your body’s use of fats, proteins and carbohydrates, or your metabolism.
- Suppressing inflammation.
- Regulating blood pressure.
- Regulating blood sugar.
- Helping control your sleep-wake cycle.
ACTH also plays a role in stimulating your adrenal glands to release androgens (sex hormones) and stimulating the production of chemical substances that stimulate an increase in other hormones such as adrenaline and noradrenaline.
What is the role of ANDROGENS?
In all genders, androgens help with:
- Bone density.
- Muscle development.
- Puberty.
- Red blood cell production.
- Sexual desire and function.
What is the role of androgens in men?
In people assigned male at birth (AMAB), androgens contribute to:
- Deep voice (vocal cord lengthening).
- Hair growth on the face, scalp, chest, underarms and genitals.
- Sperm development.
What is the role of androgens in women?
In people assigned female at birth (AFAB), other body chemicals convert androgen into estradiol, a form of estrogen. This hormone:
- Regulates menstruation.
- Aids conception and pregnancy.
- Minimizes bone loss (osteoporosis).
- Stimulates pubic and underarm hair growth.
Where the hormone is produced | Hormone(s) secreted | Hormone function |
|---|---|---|
Adrenal glands | Aldosterone | Regulates salt, water balance, and blood pressure |
Adrenal glands | Corticosteroid | Controls key functions in the body; acts as an anti-inflammatory; maintains blood sugar levels, blood pressure, and muscle strength; regulates salt and water balance |
Pituitary gland | Antidiuretic hormone (vasopressin) | Affects water retention in kidneys; controls blood pressure |
Pituitary gland | Adrenocorticotropic hormone (ACTH) | Controls production of sex hormones (estrogen in women and testosterone in men) and the production of eggs in women and sperm in men. |
Pituitary gland | Growth hormone (GH) | Affects growth and development; stimulates protein production; affects fat distribution |
Pituitary gland | Luteinizing hormone (LH) and follicle-stimulating hormone (FSH) | Controls production of sex hormones (estrogen in women and testosterone in men) and the production of eggs in women and sperm in men |
Pituitary gland | Oxytocin | Stimulates contraction of uterus and milk ducts in the breast |
Pituitary gland | Prolactin | Initiates and maintains milk production in breasts; impacts sex hormone levels |
Pituitary gland | Thyroid-stimulating hormone (TSH) | Stimulates the production and secretion of thyroid hormones |
Kidneys | Renin and angiotensin | Controls blood pressure, both directly and also by regulating aldosterone production from the adrenal glands |
Kidneys | Erythropoietin | Affects red blood cell (RBC) production |
Pancreas | Glucagon | Raises blood sugar levels |
Pancreas | Insulin | Lowers blood sugar levels; stimulates metabolism of glucose, protein, and fat |
Ovaries | Estrogen | Affects development of female sexual characteristics and reproductive development, important for functioning of uterus and breasts; also protects bone health |
Ovaries | Progesterone | Stimulates the lining of the uterus for fertilization; prepares the breasts for milk production |
Parathyroid glands | Parathyroid hormone (PTH) | Most important regulator of blood calcium levels |
Thyroid gland | Thyroid hormone | Controls metabolism; also affects growth, maturation, nervous system activity, and metabolism |
Adrenal glands | Epinephrine | Increases heart rate, oxygen intake, and blood flow |
Adrenal glands | Norepinephrine | Maintains blood pressure |
Testes (testicles) | Testosterone | Develop and maintain male sexual characteristics and maturation |
Pineal gland | Melatonin | Releases melatonin during night hours to help with sleep |
Hypothalamus | Growth hormone releasing hormone (GHRH) | Regulates growth hormone release in the pituitary gland |
Hypothalamus | Thyrotropin releasing hormone (TRH) | Regulates thyroid stimulating hormone release in the pituitary gland |
Hypothalamus | Gonadotropin releasing hormone (GnRH) | Regulates LH/FSH production in the pituitary gland |
Hypothalamus | Corticotropin releasing hormone (CRH) | Regulates adrenocorticotropin release in the pituitary gland |
Thymus | Humoral factors | Helps develop the lymphoid system |
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