Applied Cell Biology
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90.10. MedBed and its Effect on Cultivated Intestinal Epithelial Cells and Functional Neutrophils
Peter C. Dartsch
Dartsch Scientific GmbH, Institute for Cell Biological Test Systems, Auf der Vosshardt 25, D-49419 Wagenfeld, Germany
Abstract
Background: Quantum entanglement is a phenomenon in theoretical physics that happens when pairs or groups of particles are generated in such a way that the quantum state of each particle cannot be described independently of the others even
when the particles are separated by a large distance.
Material and methods: The 90.10. MedBed is a virtual bed that is quantum entangled with a 90.10.-CUBE by a quantum processor, the 9010MedBedOS. The 90.10.-CUBE was located in Akumal Quintana Roo, Mexico, 8,603 kilometers
air-line distance from the cell culture laboratory conducting the tests. The 90.10. MedBed is a virtual bed that is quantum entangled with a 90.10.-CUBE by a quantum processor, the 9010MedBedOS. By the process of 90.10. quantum entanglement, the 90.10. CUBE’s basic potential is transferred to the 90.10. MedBed. For the present in vitro-study with intestinal epithelial cells and functional neutrophils – at laboratory conditions instead of a bed – seeded cells in the culture dishes were quantum entangled with the 90.10. MedBed, i.e. the system was installed on the dishes and activated in the laboratory to conduct the study. Control dishes were not treated and were incubated in the same incubator with a distance of at least 30 to 40 cm to the treated dishes.
Results: For intestinal epithelial cells, a better regeneration process was determined demonstrating that 90.10. MedBed was able to promote healing processes of the intestinal cell layer and, thus, to promote intestinal and systemic health and wellbeing. The second experimental series with functional neutrophils as inflammationmediating cells demonstrated a marked decrease in the generation of reactive superoxide anion radicals by exposure to 90.10. MedBed quantum entanglement. In vivo, this influence might have a positive impact on the healing process of complicated secondary wounds or on (chronic) inflammatory processes directly.
Conclusions: The results clearly demonstrate the effectiveness of the 90.10. MedBed which was quantum entangled with a 90.10.-CUBE by a quantum processor, the 9010MedBedOS, on the cellular level. The results confirm and complement previous findings on the effect of 90.10. quantum entanglement on cultured organ-specific cells in which we demonstrated an increased regeneration of cultured connective tissue fibroblasts.
