Autistic children GDV analysis
Similar approach was used for detecting heterogeneity and unique features in autism [Kostyuk N. et.al. 2009, 2010].
The autistic children in this study were previously diagnosed with mild autism and/or Asperger’s Syndrome. The age of the autistic children fell into a range of five to twelve years old, 9.3 being the mean age. All autistic participants were males. To reduce the barrier of a new setting for autistic children, parents were asked to participate first. The cerebral cortex, cerebral vessels, spleen, epiphysis, left kidney, gallbladder, abdomen, sacrum and thorax show lower activity compared to the rest of the organs.
Results revealed heterogeneity and unique features in the participants with ASD and their parents. The low activities that were found in the zones of gastro-intestinal tract, immune system, cerebral cortex, and cerebral vessels have been described in the literature and confirm previous data on autistic patients. These zones were found to be present in all autistic children we tested and therefore are unique signatures of autism in our preliminary study. Additionally, the bio-electrographic study detected epiphysis, kidneys, adrenal gland, cervical zone, thorax zone and sacrum as the zones of misbalance in autistic children. Despite of being diagnosed with Asperger’s syndrome/mild autism, autistic children had different values assigned to the zones of cerebral cortex and cerebral vessels. This indicates that there exists heterogeneity within one phenotype which implies the individualized approach. The uneven distribution of EPE especially as to the response of the parasympathetic nervous system leads us to hypothesize that there exists a misbalance, which is expressed on the physical level in respective zones of EPE.
Brothers and sisters of the autistic children though labeled as normals also exhibited unique features common to autistic sibling but additionally had low activities in pancreas and pelvis minor zone. The only difference between the autistic children and their siblings is in the distribution of EPE values. In autistic children the distribution is very uneven between left and right hand while in the siblings the distribution is fairly even.
The fathers of the autistic children share some unique features of autism such as cerebral cortex, cerebral vessels, epiphysis and spleen.
Electrophotonic Analysis in Medicine
Characteristically fathers show low activities in the liver, transverse colon, descending colon, respiratory system, cardiovascular system and coronary vessels.
Mothers of the autistic children share some unique features of autism such as cerebral cortex, cerebral vessels, immune system, epiphysis and kidneys. Distinguishing features include transverse colon, pancreas, and urogenital system. The images were characterized by inconsistency and gaps pertaining to certain sector. The outer isoline of some images had fractile nature which could be the evidence of emotional tension or stress.
In conclusion, bioelectrographic method is a promising step towards creating autism profile and identifying unique signatures pertaining to the parents and their siblings. Further work should involve more participants in order to augment our findings by the bioelectrographic approach.