Chapter 7: Immortality vs. Body Regeneration
Immortality vs. Body Regeneration
Or Berenice's Hair and Water Project versus Neon Shoes and Gloves Project.
These are two distinct subjects, while the immortality discussed in my e-book prolongs the age of the human being, the purpose of body regeneration is to create cells.
It is common to see this procedure in nature; insects and snakes, for example, carry out a shell shedding procedure.
Human muscles must withstand the conditions of gravity, the more time spent under the force of gravity, the more visible the effects caused by this long-term exposure are.
With healthy organs, muscles and bones, the skin can receive appropriate treatment to improve its appearance as it ages.
That said, the human body already has forms of regeneration.
The cerebellum and its 4 divisions, Mitosis cell regeneration, Silicon and iron bones, Stem cells (Muscular) and Hydration.
Observing nature gives you a sense of how important the force of gravity is.
The humpback whale lives 45 to 50 years with its entire large body in the ocean.
The land tortoise can live for about 200 years, with its protective shell.
Nail and bone plates. A shoe, clothing, organic exoskeleton, or bronze armor.
Strategies to Enhance Regeneration
Cerebellum: The cerebellum, a crucial structure of the central nervous system, can be divided in different ways depending on the criteria used.
Deep Cerebellar Nuclei: Within the cerebellum, there are four deep nuclei: the fastigial nucleus, the globose nucleus, the emboliform nucleus, and the dentate nucleus. These nuclei act as processing centers, receiving information from the cerebellar cortex and sending signals to other areas of the brain.
Mitosis: Mitosis is essential for the maintenance of life, ensuring growth, tissue repair and cell renewal. Errors in mitosis can lead to health problems, such as cancer, which is characterized by uncontrolled cell division. Mitosis is a type of cell division that results in the formation of two daughter cells that are genetically identical to the parent cell.1
Cell Renewal: In many tissues, cells have a limited lifespan and need to be replaced regularly. Mitosis ensures that these cells are constantly renewed, maintaining tissue function and health. A common example is the renewal of skin cells, or epithelial tissues such as those in the intestine.
Silicon: Silicon is a trace element found in the human body that plays an important role in collagen formation and bone mineralization. Studies suggest that silicon may contribute to bone density and strength, as well as promote joint health. Silicon supplementation is being explored as a way to strengthen bones and prevent osteoporosis.
Iron: Iron is essential for the production of hemoglobin, the protein that carries oxygen in the blood. Although iron is not a major component of bones, it plays an indirect role in bone health by ensuring the supply of oxygen to bone cells. Iron deficiency can lead to anemia, which can negatively affect bone health.
Muscle stem cells: These are adult stem cells found in skeletal muscle tissue. They have the ability to self-renew and differentiate into mature muscle cells, called myocytes. They play a key role in the maintenance and repair of damaged muscle tissue.
Hydration: Hydration plays a key role in cellular regeneration and overall body health. Proper hydration is essential for maintaining blood volume and proper circulation. Efficient blood circulation ensures that nutrients and oxygen reach regenerating tissues.
Humpback whale: (Megaptera novaeangliae) is one of the largest and most fascinating marine creatures on the planet. Known for its acrobatic leaps, complex songs and long migrations, the humpback delights and intrigues scientists and nature enthusiasts.
Land turtles: Also known as tortoises, these are fascinating reptiles that are distinguished from sea turtles and freshwater turtles by their exclusively terrestrial lifestyle. Land turtles are known for their longevity, with some species living over 100 years.
Technologies and Aids
Nail Plates: Nails are composed primarily of keratin, a tough fibrous protein that is also found in skin and hair. The keratin in nails is harder and denser than the keratin in skin, providing protection and support. Nails grow continuously from the nail matrix, located at the base of the nail.
Organic exoskeleton: In biology, it refers to external protective structures found in some animals, such as insects and crustaceans. In technology, it can refer to wearable devices that aid human movement.
Example of creating exoskeletons
Keratinocytes form the structure of the organic exoskeleton.
Mechanical resistance: Keratin is extremely resistant to traction, compression and abrasion. This means that it can withstand considerable forces without breaking or deforming easily.
Impermeability: Keratin is also water resistant, which helps prevent excessive fluid loss from the body and protects against the entry of harmful substances.
Flexibility: Although it is resistant, keratin also has a certain flexibility, which allows the structures that contain it to move and adapt to different conditions without breaking.
The creation of an organic exoskeleton from stem cells, made in a laboratory, is a promising field of research. Understanding keratinization, controlling cell differentiation and tissue bioengineering are crucial to the success of the project.
Organic exoskeletons could provide support and protection for healing tissues, speeding recovery and improving patients' quality of life.
In the more distant future, this technology could lead to the development of exoskeletons that enhance human physical capabilities, increasing strength, endurance and agility.
Organic exoskeletons could be used to create biocompatible and self-repairing materials, with applications in areas such as construction, the aerospace industry and the production of consumer goods.
Water: Essential for hydration and cellular function.
Supplements: Can provide essential nutrients for regeneration.
Exercises: Stimulate blood circulation and muscle regeneration.
Adaptation: The body's ability to adapt to different situations.
Keywords: Water, Supplements, Exercises and Adaptation.