INTRODUCING THEORY LINKING GENESIS OF HAIR SHAFT BIPOLARITY WITH ARRECTOR PILI MUSCLE PROXIMAL ATTACHMENT

precipitated Potassium Ferricyanide crystals. In this manuscript additional data is presented elucidating the genesis of said absence. The in vitro experiments showing a correlation between a segmental absence of longitudinal terminal palisades nervous endings prevalent in the rest of the outer membrane in the hair follicle anatomy this absence attributed to the arrector pili muscle (APM) proximal attachment site to the hair follicle. Due to their intrinsic metabolism, nerve cells do emit electromagnetic radiation; their absence not allowing for the positive (+) charge of precipitated Potassium Ferricyanide crystals to reach one side of the shaft. In addition, it was concluded that there are two types of human hair images. The first by optical microscopy, the second a functional one obtained from electromagnetic radiation precipitating Ferricyanide crystals.


INTRODUCTION
This manuscript could be described as a retrospective enhancement of two prior publications from this author. It entails a deeper view on the genesis of the human hair shaft bipolarity. The first publication had the words "curious observations", which is defined as the first step in a decision-making process; as published in the title; the hair shaft electrical bipolarity was added at the end of the paper as an afterthought Embi (2021). The second publication, the presence of an electromagnetic gap (GAP) in the outer sheath of the hair follicle was identified as a mechanism for the hair shaft electrical bipolarity (Figure 1), Embí (2021). In the present and third manuscript on the same topic, the genesis of the GAP is attributed and supported as resulting from a previously documented anatomical segmental absence of terminal nerve endings in the follicle (Figure 2), ( Figure 3). This void or nerve endings could be attributed as consequence of the proximal anatomical attachment point of the arrector pili muscle (APM). The GAP as stated in Suzuki et al. (2012) "Most palisade endings had a gap in a circle of longitudinal lanceolate endings. The gap was 1/8-1/2 of the circle and usually faced to the epidermis, that is, superficial side of the hair root which canted over to the skin surface". The term "palisade" is used to describe a layer of columnar nervous endings. Since the terminal nerve cells require energy for their functions Ashrafi and Ryan (2017) this energy would in turn be converted into electromagnetic radiation Scherlag et al. (2016).

MATERIALS AND METHODS
This manuscript is quoting and reproducing previously published images supporting the absence of terminal nerves endings in a segment of the hair follicle. This absence, in turn causes an abrupt cessation of electromagnetic radiation as shown in the attached image ( Figure 3 plus video), which in turn does not allow for a positive (+) charge to reach the hair shaft.

RESULTS AND DISCUSSION
Numerous images obtained by this author, show that when the human hair is placed on a slide and covered by liquid Potassium Ferricyanide (K3Fe) there is an accumulation of K3Fe crystals attracted to the outer layers of the shaft. This is due to the attraction of incoming electromagnetic radiation by K3Fe Baranov et al. (2015), Figgis et al. (1969) . As documented in Figure 3 above (please scan QR Code) after removing the hair, a silhouette of the hair proper magnetic fields is displayed. Notice the GAP. The K3Fe positive (+) charge unable to reach one side of the hair shaft. Additionally, functional electromagnetic hair images are presented Figure 1, Figure 2, Figure 3. Of interest is their difference from artists drawings of pathologist slides with the electromagnetic imprints.

MEDICAL IMPLICATIONS
Further research is recommended to elucidate if there are electrical bipolarity changes in hair follicles diseases, such as Alopecia Areata and Telogen Effluvium amongst others. Published research has already documented aging as probable factor in decreasing the hair magnetic imprints as shown in the unpublished image below Figure 4.
Questions Arise: Would follicular diseases be identified by altered hair shaft bipolarities? ....Does the APM has a role in maintaining the follicular integrity and stability? ( Sinclair et al. (2015), Torkamani et al. (2014)