Cell Therapy

Embryonic Organ (Cell Extract) Therapy  An evolution of “Cell Therapy”  
Cell therapy traditionally involves the ingestion or intramuscular injection of cellular tissue preparations from fetal sheep or cattle tissue. Generally, specific tissues and organs are separated and removed from the fetus to nourish corresponding human tissues and organs. For example, animal fetal brain tissue extract may be used to nourish a functionally impaired human brain. Often several fetal tissues are selected and administered simultaneously to human recipients according to individual need.

Today, embryonic cellular tissue extracts from porcine (swine) sources are thought to be superior to their older fetal ovine (sheep), bovine (cattle) and swine counterparts, especially if they have not been frozen or dried. Younger embryonic cells are regarded as more vital and more adaptable than older fetal cells. They are unlikely to cause allergic reactions which can occur with older fetal cell extracts. Porcine tissue has the advantage of resembling human tissue more so than any other animal source except other primates (apes, monkeys and their relatives), improving chances of desired communicative effects within the human host, at least theoretically. Swine is not known to transmit certain infectious diseases found in ovine and bovine sources. Fresh chilled extracts are also thought more effective within the host than extracts devitalized by freeze drying or other preservation processes. Testing extract samples from batches stored in cold temperatures over time assures safety and sterility.  

Theoretically, embryonic tissues provide nourishing materials that recipient tissues incorporate to help optimize function and repair. Following ingestion or injection much of the material is transported by mechanisms within the body to organs which correspond to the same organs in the donor embryo from where the material originated. Thus, embryonic thyroid goes to thyroid and embryonic kidney goes to kidney. Additionally, the embryonic materials, programmed by nature to generate and organize into functionally viable structures, are thought to aid in restoration and normalization of human recipients. Their use has been associated with exciting beneficial outcomes involving anti-aging, revitalization, and organ repair.

Embryonic tissue is particularly suitable for injection as well as it is for ingestion because of its special relationship to the immune system. Embryonic tissue is not recognized as a foreign invader by the immune system of the mother. The immune system of the mother therefore does not attack nor destroy the embryo. If this were not so, no embryo would survive the womb, leading to extinction of the species.

 

Fortunately, this stealth quality remains viable when embryonic tissue is transferred from one mammalian species to another. Thus, embryonic porcine tissue when injected into a human being is not destroyed by the immune system of its new host. As mammalian tissue matures beyond fetal development it loses its ability to avoid recognition and destruction by the immune system of another species. Typically, in commercial processing the embryo is removed from the mother animal when it is slaughtered for food. Specific parts of the embryo are removed, macerated, and prepared for storage and ingestion or injection under sterile conditions. Maternal animals are generally raised on pristine pastures without exposure to synthetic chemicals to assure freedom from toxicity and disease. In addition, testing is performed to avoid contamination.

Cell therapy has been used to overcome deficits in both genetic and acquired illnesses. Dramatic   results may be found for example, with genetically impaired mongoloid children in terms of
improved facial characteristics, performance, coordination and intelligence following cell therapy, Dramatic results may also be found in many acquired conditions ranging from chronic kidney failure to traumatic brain injury.

Embryonic cell therapy is well known for its use in anti-aging regimes. Upon conception we are programmed to generate and organize into fully developed beings. As we mature and pass peak reproductive adulthood the process of disorganization and degeneration begins to predominate eventually providing room for future generations to take our place. By introducing embryonic tissue into older humans, programming for generation and organization is theoretically in part restored to more youthful levels resulting in rejuvenation of health. Periodic administration of embryonic cell extracts is thought to help maintain youthfulness and prevent premature health decline. 

Embryonic cellular extracts differ from stem cells. Extracts contain cellular components, not whole cells, and can not reproduce. The extracts with active ingredients programmed by mother nature for organization and generation, theoretically can affect host cells to become more active.  Since embryonic cell extracts may be used to nourish many organs and processes, potential benefits  are many.

Embryonic cell extracts are less expansive and more convenient to administer than stem cell injections. Stem cells from sources other than those of the person hosting them, in event they should survive in their new host, are destined to develop the characteristics of their original source as they mature. Such characteristics may be recognized as foreign (non-self) by the immune system of the new host. Maturing stem cells manifesting such foreign characteristics are targeted and destroyed by the new host immune system, unless immune suppressive drugs are used. Autologous stem cells, that is, stem cells derived from tissues of the host are not likely to be destroyed since they are foreign entities. Technology remains expensive being stem cell technology remains in its relative infancy.

Embryonic and fetal organ sources used to nourish health of corresponding human tissues and organs as well as the whole person include, but are not limited to:

EMBRYONIC AND FETAL ORGAN SOURCES FROM:

  • adrenal
  • artery
  • bone
  • bone marrow
  • brain
  • cartilage
  • eye
  • gall bladder
  • heart
  • hypothalamus
  • kidney
  • intestine
  • ligament
  • liver
  • lung
  • mesenchyme
  • muscle
  • ovary
  • pancreas
  • pituitary
  • prostate
  • spinal marrow
  • spleen
  • stomach
  • testicle
  • thymus
  • thyroid
  • veins
  • vessels
  • placenta
  • whole embryo

Since organs complement one another within the body, combinations of extracts from different organ sources are often used for the purpose of achieving better outcomes more quickly. Extracts are employed in commercially available synergistic combinations for this purpose.

Various forms of therapy have been called cell therapy. Cell therapy has been called by various names. Various methods of preparation and administration have been used with different degrees of efficacy. Despite these clouding issues, scientific studies, clinical case reports, and testimonials lending credence to cell therapy are abound.

Once known as a European therapy for the rich and famous, including notables such as Winston Churchill, Charlie Chaplin, and Pope Pius XII, cell therapy has become available in other areas of the world, including the United States. Obviously, the therapy is not a vaccination against death. However, benefits often far outweigh the costs. Cell therapy has become considerably more affordable for more people relative to past years.

Embryonic cell therapy has been used to improve overall health in people with various conditions. HISTORICALLY, CONDITIONS OF PEOPLE WHO HAVE USED FETAL OR EMBRYONIC “CELL” EXTRACTS INCLUDE:

  • acne
  • adrenal insufficiency
  • AIDS
  • arterial cerebral sclerosis
  • agammaglobulinemia
  • aging
  • alcoholism
  • alopecia
  • amenorrhea
  • congenital
  • antibody deficiency
  • arteriosclerosis
  • arthritis
  • asthenia
  • aseptic necrosis
  • asthma
  • ataxia
  • auto-immunity
  • bronchitis chronic
  • burns
  • cardiac insufficiency
  • cancer
  • cancer prevention
  • cerebral paresis
  • cerebral dysfunction
  • circulation impairment
  • cholesterolemia
  • colitis
  • depression
  • diabetes insipidus
  • diabetes mellitus
  • disturbed fertility
  • Down's syndrome
  • fatigue
  • Fibromyalgia
  • granulocytopenia
  • habitual abortion
  • hepatitis
  • hypertension
  • hypogonadism
  • hypoparathyroidism
  • hypotension
  • hypothyroidism
  • ichthyosis
  • immune impairment
  • injuries
  • insomnia
  • keloids
  • liver cirrhosis
  • leukemia
  • leukodystrophy
  • lung emphysema
  • lymphoma
  • Meniere's disease
  • Obesity
  • Macular degeneration
  • mental retardation
  • multiple sclerosis
  • muscular dystrophy
  • dwarfism
  • nephritis
  • nephrosis
  • nervous tic
  • osteomyelitis,
  • osteoporosis
  • Parkinson's disease
  • post-polio syndrome
  • potency disorders
  • prostatic
  • hypertrophy
  • radiation syndrome
  • retinitis pigmentosa
  • revitalization
  • Reynaud's syndrome
  • scleroderma
  • stroke
  • stuttering
  • sickle cell anemia
  • tinnitus
  • thrombocytopenia
  • Turner's syndrome
  • ulcers, peptic
  • weak physical performance
  • weakened mental function
  • wound healing impairment
  • wrinkled skin

 

Outcomes in overall health improvement associated with nourishment provided via fetal or embryonic cell extracts vary from individual to individual. Usage of cell extracts to treat, mitigate and/or prevent disease is not approved by United States governmental agencies inclusive of the FDA. Accordingly, no claims for disease specific indications or therapeutic benefits are made for embryonic and fetal cell extracts.

 
 
 
 
 
 

To download a copy of "The Case for Intravenous EDTA Chelation Therapy", click on the book cover. This will take you to a page where you can read some of the background information about this therapy and also download a free copy of the book. The book is reproduced word for word except for changes in contact information for organizations.

Wishing you the VERY best of health! Dr. Martin Dayton