Is head transplant possible?
No, human head transplants are not possible - and they will not be possible for the foreseeable future. Not if one would want the head to be able to actually control the body supporting it.
This is what makes it impossible:
The above is a cross section of single spinal nerve bundle under a scanning Electron Microscope (because EM photos can only be dichromatic the colours are computer generated - hence the red at the center, a blood vessel, is added later). Every circular shape is a myelin sheath (think of a cable insulation) encasing a neuronal axon (think of a cable wire), originating somewhere in the central nervous system and aiming at a particular sensory or kinetic (muscle) target. And the spinal cord contains a great number of these bundles, with millions of axons in total.
No light microscope can achieve such magnification, mind you, an electron microscope would be needed. And observing a tissue sample under the electron microscope means that tissue is already dead, its micro-shape imprinted on a thin layer of metal (usually silver) and all traces of the original tissue dissolved before sliding its mold alone under the electron beam. The process of preparing the specimen usually takes several hours, if not days, to complete. In other words, such an image is impossible to generate in an operating theater. And even if it were possible, it would still not matter because neither human nor surgical robot can operate at this scale.
The best a neurosurgeon could do today, in an attempt to connect the two ends of a severed spinal cord, would be to try to identify major regions of the severed segments, guesstimate the location of the contained bundles (about as effective as ignoring them) and push the two pieces together. Hoping that the supporting Schwann cells, that generate the myelin and do neuronal repairs in the peripheral nervous system, will try to seal together the opposing axons - even if they are mismatched, incompatible and lack the targeted growth signals to guide their regeneration.
If such a mismatched connection were possible to work, people who have suffered spinal cord trauma would had regained the use of their body a long time ago - and reattaching the two severed ends of the same spinal cord would be a much easier task. We all know that, unfortunately, this has not been the case and spinal cord injuries are not yet repairable.
A spinal cord is millions of times more complex than a car but, in order to illustrate this, imagine sawing a car in half - and then simply pushing together and …duct-taping the two halves externally. What are the chances of that car ever working again? That would be a crude approximation as to why we cannot fix spinal cord injuries.
Now, how about if you take two halves from different cars? Because that would be a simplified approximation of the claims of head transplants made by the notorious Italian doctor. Declaring it a “success” after trying it on a cadaver is like duct-tapping together half a TOYOTA and half a BUICK and then claiming your attempt to be successful - without ever bothering to turn your contraption on!
Nowadays it is not be very hard to connect the major arteries, reattach the spinal column segments and their ligaments and stitch up the muscles and skin. Supporting the head’s tissues with oxygen, nutrients and blood circulation has been a perilous yet routine operation for some time. That is why, ever since 1959, it has been possible to attach a second head to an animal: this works because the original head is still in place and is the one controlling the body.
The insurmountable obstacle, however, still is making the correct connections to the millions of spinal nerve axons - that will not even match in number, let alone shape, size and location - in order for the head to be able to sense and take control the new body.
