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“Future is wide, future is bright!”

Surgery has experienced a huge leap forward since advancement of anesthesiology with pharmacology.

Despite of this fact future reserves probably huge discoveries for our children.

For instance, it is obvious that cell junctions are less resilient than cell membranes, and thus could be overcome by gentle pressure and vibration (Ultrasound frequencies?) by a pointed instrument.

Parameters of such an experiment need still to be determined.

Less lesions of tissue would mean also a faster recovery.

Approximation for consolidation could be achieved by simple collagen glue. (No stitches).

It could be that almost no anesthetic is needed for a similar procedure: – Just time, patience (Or robots?!).

Insects (flies, mosquitoes…) use probably a similar technique when they bite, to access vessels.

Their trump penetrates between cells, untill it attains blood in a lumen for aspiration.

Fractures:

While it would be possible to open bone by prolongated section with a frequency in the ultrasonic range, fractures result from a sudden accident.

Perhaps a dynamic compression with a frequency in the ultrasonic range could accelerate bone consolidation tremendously.

In searching for the right pressure and frequencies, one can consider that healing of tissue is associated with an agreeable itching and tingling in the surrounding organ.

A serrated cutter will provide an anfractuous surface of transverse fracture with faster healing.

Compression forces generate electrical currents, which stimulate tissue growth.

Apart from that electricity can be used as such for this purpose.

Long wave currents should be aimed at. (Applied through the pins.)

A pulsating electrical current would probably be right. (Varying wavelength in a safe range of Voltage and Amperage).

Adjusting the parameters individually, until feeling a slight pain at the fracture site will be needed to accelerate callus growth.

Cancellous bone needs larger cutter serrations than cortical one.

The size of the instrument should be adapted individually staining the beginning imprint.

Cells are the smallest units of tissue, but like magnets they form bigger units, like the Weiss domains of magnets.

Thus the shape of used cutlery should adapt, with a finely serrated frame, individually designed after type of tissue.

The aim is the least tissue injury provoked!

Such construction can be exemplified by liver lobules, but is probably at the basis of every organ.

Choosing the correct size of knife serrations is another issue. It could be solved by applying pressure to the organ with different sizes, and staining the beginning cut.

The cleanest – the best! If staining infiltrates through tissue – this means injury, and the knife is to be discarded.