PriMera Scientific Surgical Research and Practice (ISSN: 2836-0028)

Review Article

Volume 1 Issue 5

The Quantum Functioning of Stem Cells in Autism and in Certain Somatic Diseases

Adam Adamski*

April 18, 2023

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Abstract

Human life is not only a matter of biology and biochemistry, it is also a cybernetic-information and bioelectronic construct that affects health, disease and human behavior. In this new bioelectronic paradigm, human cognition begins to emerge in the aspect of quantum processes taking place in an integrated circuit. In bioelectronic terms, an organism is understood as an integrated system made of biological piezoelectrics, pyroelectrics, ferroelectrics and semiconductors, filled with bioplasma and managed by quantum processes electronically using biocomputers.

The human biological system, apart from the biochemical way, uses the transfer of information by means of electromagnetic, acoustic, soliton waves, electric, electromagnetic, torsion (spin) fields and bioplasma. In stem cells, quantum processes play a significant role, it depends on them human psychophysical development. In the Universe, the primordial information "ingeneza" works, which is encoded in atoms. Each DNA atom is encoded with specific genetic information. Ingeneza programs are quantized and create all stages of development, cell, organism, biosphere and cosmos. Water molecules are carriers of information.

Keywords: stem cells; autism; quantum processes

References

  1. Campbell DJ, Chang J and Chawarska K. “Early generalized overgrowth in autism spectrum disorder. Prevalence rates, gender e ects, and clinical outcomes”. Journal of the American Academy of Child & Adolescent Psychiatry 53. (2014): 1063-1065.
  2. Constantino JN., et al. “Validation of a brief quantitative measure of autistic traits. Comparison of the social responsiveness scale with the autism diagnostic interview-revised”. Journal of Autism and Developmental Disorders 33.4 (2003): 427-433.
  3. Courchesne E, Carper R and Akshoomoff N. “Evidence of brain overgrowth in the first year of life in autism”. Journal of the American Medical Association 290.3 (2003): 337-344.
  4. Courchesne E., et al. “Unusual brain growth patterns in early life in patients with autistic disorder”. An MRI study, Neurology 57.2 (2001): 245-254.
  5. Chrousos GP. “Stress and disorders of the stress system”. Nat Rev Endocrinol 11 (2009): 374-81.
  6. Graziano P and Derefinko K. “Cardiac vagal control and children's adaptive functioning: a meta- analysis”. Biol Psychol 94 (2013): 22-37.
  7. Heffernan KS., et al. “Brief report: physical activity, body mass index and arterial stiffness in children with autism spectrum disorder: preliminary findings”. J Autism Dev Disord 48 (2018): 625-31.
  8. Ichim TE., et al. “Stem Cell Therapy for Autism”. Journal of Translational Medicine 5 (2007): 30.
  9. Jann K., et al. “Altered resting perfusion and functional connectivity of default mode network in youth with autism spectrum disorder”. Brain Behav 5 (2015): e00358.
  10. Lisik M. “The molecular basis of autism spectrum disorders”. Psychiatria Polska 48.4 (2014): 689-700.
  11. Langen M., et al. “Caudate nucleus is enlarged in high-functioning medication-naive subjects with autism”. Biological Psychiatry 62 (2007): 262-266.
  12. Lord C., et al. “The autism diagnostic observation schedule-generic. A standard measure of social and communication deficits associated with the spectrum of autism”. Journal of Autism and Developmental Disorders 30.3 (2000): 205-223.
  13. Lv YT., et al. “Transplantation of human cord blood mononuclear cells and umbilical cord-derived mesenchymal stem cells in autism”. J Transl Med 11 (2013): 196.
  14. Noriuchi M., et al. “Altered white matter fractional anisotropy and social impairment in children with autism spectrum disorder”. Brain Research 1362 (2010): 141-149.
  15. Ming X., et al. “Reduced cardiac parasympathetic activity in children with autism”. Brain Dev. 27 (2005): 509-16.
  16. Pontious A., et al. “Role of intermediate progenitor cells in cerebral cortex development”. Developmental Neuroscience 30 (2008): 24-32.
  17. Redcay E and Courchesne E. “Deviant functional magnetic resonance imaging patterns of brain activity to speech in 2-3 year old children with an autism spectrum disorder”. Biological Psychiatry 64.7 (2008): 589-598.
  18. Ross V, Marshall H and Scott M. Psychologia dziecka, Wyd. “WSiP”, Warszawa (2004): 269.
  19. Sharma Nandini Gokulchandran., et al. “Autologous bone marrow mononuclear cell therapy for autism - an open label proof of concept study”. Stem cell international (2013).
  20. Sharma Nandini Gokulchandran., et al. “An Improved Case of Autism as Revealed by PET CT Scan in Patient Transplanted with Autologous Bone Marrow Derived Mononuclear Cells”. J Stem Cell Res Ther 3 (2013): 2.
  21. Siniscalco D. “Stem Cell Research: An Opportunity for Autism Spectrum Disorders Treatment”. Autism 2 (2012): e106.
  22. Siniscalco D., et al. “Autism spectrum disorders: is mesenchymal stem cell personalized therapy the future?”. J Biomed Biotechnol (2012): 480289.
  23. Siniscalco D, Bradstreet JJ and Antonucci N. “The Promise of Regenerative Medicine and Stem Cell Research for the Treatment of Autism”. J Regen Med 1 (2012): 1.
  24. Suchowierska M, Ostaszewski P and bubble P. 2012: The Behavioural therapy of children with autism. Ed. GWP. Warsaw (2012).
  25. Schumann CM., et al. “Longitudinal magnetic resonance imaging study of cortical development through early childhood in autism”. Journal of Neuroscience 30 (2010): 4419-4427
  26. Thapa R., et al. “Reduced heart rate variability in adults with autism spectrum disorder”. Autism Res. 12 (2019): 922-30.
  27. Wan CY and Schlaug G. “Neural pathways for language in autism: the potential for music- based treatments”. Future Neurology 5.6 (2010): 797-805.
  28. Wojtkowiak D. Psychopathology according to universal categories, Author's Scientific Series: Determinism, Gda?sk (2008).
  29. Wolff JJ., et al. “Differences in white matter fiber tract development present from 6 to 24 months in infants with autism”. American Journal of Psychiatry 169 (2012): 589-600.
  30. Xuejun Kong, Xiaochun Wang and William Stone. “Prospects of Stem Cell Therapy for Autism Spectrum Disorders”. North American Journal of Medicine and Science 4.3 (2011): 134-138.
  31. Zatorre R and Belin P. “Spectral and temporal processing in human auditory cortex”. Cerebral Cortex 11.10 (2001): 946-953.