E12 technique: Conventional epoxy resin sheet plastination.

Epoxy plastination techniques were developed to obtain thin transparent body slices with high anatomical detail. This is facilitated because the plastinated tissue is transparent and the topography of the anatomical structures well preserved. For this reason, thin epoxy slices are currently used for research purposes in both macroscopic and microscopic studies. The protocol for the conventional epoxy technique (E12) follows the main steps of plastination-specimen preparation, dehydration, impregnation and curing/casting. Preparation begins with selection of the specimen, followed by freezing and slicing. Either fresh or fixed (embalmed) tissue is suitable for epoxy plastination, while slice thickness is kept between 1.5 and 3 mm. Impregnation mixture is made of epoxy E12 resin plus E1 hardener (100 ppw; 28 ppw). This mixture is reactive and temperature sensitive, and for this reason, total impregnation time under vacuum at room laboratory temperature should not last for more than 20-24 hr. Casting of impregnated slices is done in either flat chambers or by the so-called sandwich method in either fresh mixture or the one used for impregnation. Curing is completed at 40°C to allow a complete polymerization of the epoxy-mixture. After curing, slices can be photographed, scanned or used for anatomical study under screen negatoscope, magnification glass or fluorescent microscope. Based on epoxy sheet plastination, many anatomical papers have recent observations of and/or clarification of anatomical concepts in different areas of medical expertice.

P40 polyester sheet plastination technique for brain and body slices: The vertical and horizontal flat chamber methods.

The P40 technique produces high-quality brain and body slices and is the user-friendliest of the polyester techniques. The P40 polyester technique follows the same classical steps for plastination. That is, preparation of the specimen, fixation (optional), dehydration by freeze substitution, forced impregnation and curing. Two methods used to prepare two different types of specimens, that is, brain slices and body slices are described. Each method has its own characteristics depending on the specimen type used. Brain slices were used to illustrate the vertical small chamber method while the body slices were used to illustrate the horizontal large chamber method. The brain slices obtained using P40 are of very good quality presenting good contrast between grey and white matter. The body slices are also of very good quality. The physical appearance of these slices makes them an exceptional instrument for diagnostic imaging and anatomical correlation. Body slices prepared with P40 retain the natural colour of the tissue and preserve the anatomical relationships.

Plastination of larger and massive specimens-With Silicone.

In 1977, plastination was unveiled, which replaced tissue fluid with a curable polymer. Today preservation via plastination of various animal and plant tissues, organs, and whole bodies is an extremely useful technique to display such and help educate vast arrays of both allied science students and the lay public across the planet. The diversity of applications of plastination techniques seems to be without limits. In fact, the only real limitation to plastination is one's imagination! The size of plastinates during the early years of plastination was comparatively small and dictated primarily by the size of the available plastination kettle/chamber, 35 L Heidelberg plastination kettle (49 cm H × 34.5 cm diam.). In the 1990s larger chambers were designed and slowly became available:150-210 cm (long) × 65-80 cm (wide) and 83-92 cm (high). Today a few large vacuum chambers are in service which will accommodate whole bodies of man and domestic or exotic animals. Today, at least two gigantic chambers are available to impregnate massive specimens. These are 3.5 m × 2 m × 1.5 m (Dalian) and 4 m × 3 m × 2.2 m (Guben). Also, the need for larger quantities of acetone and impregnation mix, not to mention the great increase in specimen preparation time, makes this a major investment. The "cold temperature process" is used to impregnate these massive creations. The room temperature technique could be used. The same four plastination steps are necessary for larger and massive specimens. Besides their tremendous size, the slippery silicone polymer is a reckoning force.