Abstract
The human hair consists of a follicle anchored in the skin and a protruding shaft, it has also been described as a miniorgan, having its own cell divisions, metabolism, and known to undergo aging stages; eventually reaching a point where the old hair sheds and a new hair growing cycle begins from the same follicular tissue. Using sophisticated magnetometers, magnetic field emitted by direct current (DC) in human hair follicles were detected and introduced in 1980. Most recently in 2015, a tabletop optical microscopy method was developed and published in 2016, thus allowing for the detection of hair follicles and shaft magnetic fields. Qualitative images are presented where the bipolar electrical property of the shaft is documented. This finding was inferred since blood tissue carries a negative charge, thus repelled by an equal charge; experiments support a positive (+) field as triggering coagulation. The shaft is repeatedly shown in experiments to express a contralateral positive side triggering. Fibrin formation is also documented by images showing intricate networks indicative of blood coagulation. In conclusion, the genesis of hair shafts bipolarity is shown resulting from a “gap” in the follicle electromagnetic fields inhibiting energy from fully engulfing the shaft.
Highlights
The human hair consists of a follicle anchored in the skin and a protruding shaft, it has been described as a miniorgan, having its own cell divisions, metabolism, and known to undergo aging stages (Schneider et al (2009)); eventually reaching a point where the old hair sheds and a new hair growing cycle begins from the same follicular tissue
When a hair shaft is in contact with fresh blood tissue on a slide, an interesting finding occurs, which is one side inducing blood coagulation and the opposite side inhibiting of coagulation
Qualitative images are presented where the bipolar electrical property of the shaft is documented; and showing electromagnetic radiation (EMR) originating from the hair follicle routed only to one side of the shaft, a gap in the hair follicle’s EMR continuity accounting for the shaft’s bipolarity (+ −) (Figure 2, Figure 3)
Summary
The human hair consists of a follicle anchored in the skin and a protruding shaft, it has been described as a miniorgan, having its own cell divisions, metabolism, and known to undergo aging stages (Schneider et al (2009)); eventually reaching a point where the old hair sheds and a new hair growing cycle begins from the same follicular tissue. Magnetic field emitted by direct current (DC) in human hair follicles were detected and introduced in 1980 (Cohen et al (1980)). Prior research by this author showed the follicle and shaft magnetic fields properties on a glass slide (in the absence of blood) with the addition of only liquid K3Fe, as shown in images showing the hair shaft unilateral presence of electromagnetic radiation (EMR) (Embi (2018)) (Figure 2).
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