Varieties (fungal/bacterial-like slime forms) located on ear or nose hairs also resembles that aspect of a snail as nasal varieties, but with rather round/roundish glassy body. These round/oval shaped snail formations have a consistency which rather resembles a bright candy gum. They recognizable kind of feelers, less dorsals villi/fibers, as well with a tail type formation, which serves as anchor (retaining tool) upon human host`s hairs. (Note photos below)

Multicolored fibers are recognizable in the body of these varieties too, and also some fibers and gripping structures (forms, tools), which serve as attachments to the human hair. It seems that the integrated multicolored fibers are not only the original industrial fibers, but being also clothing fibers.

It appears that the outside covering could also absorb surrounding liquids (worm behavior, osmosis) and assume its color. In this case, it was blood (see photos below).

It`s apparent that nose and ear varieties do have enough oxygen or CO2, food and protection from environmental influences. Secondly, it`s plentiful in the nose including the protein of the hair follicle. Mostly they are settled in the regions of the first nasal cavern. But also in the mouth and in or on the tongue.

Live forms (mostly insect-like) on smooth skin are rather equipped with longer fibers or fuzzs all rolled up/together in a formation that resembles an octopus with head and tentacles, which surround the glassy body. (see lower pictures)

On the skin is aroused the impression of a black point, which appears again transparent however in the expenditure condition, so the body seems no longer correctly recognizably, as well as the individual fibers (0.01 mm), which are thinner than normal spider threads. And physically behave similarly as tear-firm nylon fiber.

Depending upon the beam of light, some of these organisms appears nearly invisible on the skin. This may be due to different reflecting surface textures, which produce a mirror effect, which again-reflects the skin color or lets shine through, depending on the point of view.

At the same time, they seem to adapt extremely fast to the respective body regions, also after respective biocide treatments, tactically and also morphologically. Parasites taken out of the nose area, looks complete different than those of the head or back varieties etc. The sizes generally vary between 0.1 mm up to 1 mm.

Smaller still are the young ones, populations concentrated on the human terminal hairs. They are approximately. 0.01 mm. One must study the varieties by location of infestation. There are other varieties located in the hairy skalp region of the host, that exhibit shorter and blacker threads rather than glassy.

There are varieties of the face and body, which exhibit extented lenghty glassy and multi colors, but with less black threads. Generally these are rolled together and wrapped in their own slime. (Note photos below)

The external skeleton of the insect-like organisms probably consists of a typical chitin layer, which can be strengthened additionally with own slime. And will still depending upon adaptation expenditure and can change and apparently become thickened, thus creating several protective layers, which function as insulation for heat, cold and protection against toxins and also when required, can harden.

The "leftover" of an egg or a larva slipping could represent the following picture; It represents a shapeless, empty hollow body, broken up in several places and confirming egg packages, which can contain approx. 4-12 insect-like organisms. (note photos below)

Prior to transformation, the larvae appears briefly as brown and already equipped with threads and integrated existing biting tools. Other larvae or eggs appear round, with a few coated threads, small glassy feelers or wing-similar paddles or laterally small excrescences. (see lower pictures)

Also the larvae can produce kind of tentacles or fibers and as adults they become 1-2 inch long. The fibers are very flexible and without hinges. Mostly however glass type in appearence, in addition the basic colours (red, green, blue), which seem to grow out of the body. Long black fibers are mostly present and probably serve as basic adhesion tool on the human skin. These later become glassily transparent too. (Note photos below)

If they stay under the skin. In the stretched status, the threads looks rather round and stout. While formed in its rolled-together condition, these fibrils appear rather twisted and flat. If necessary the organism can stretch out or roll these fibrils together, similar as butterfly feelers. Particularly during the penetration into the skin, these fibers are rolled together and surrounded with slime in order to increase the gliding ability.

Unrolled they may serve to adhere and for some movement on the host skin. In this case, the long threads are used as a rolling down variant. An fibril arm is stretched and stuck, (by means of slime and additional hooks at the fiber end) and releases another fibril arm which then rolls together. A very spider-like and effective kind of fast progressive movement, for one without legs. This movements are also known from bacterial biofilm (Bacillus subtilis).