Current understanding in regenerative medicine is that regeneration of that level will probably end up leveraging cellular bioelectric networks instead of DNA. DNA is responsible for dictating the hardware of your anatomy (e.g. proteins) and bioelectric networks are responsible for dictating morphological goals (i.e. grow a finger of this shape starting here). One way of triggering regeneration of teeth will involve modifying bioelectric circuits in your jaw tissues to instruct the cells there to build the tooth that was built previously.

The handy thing about this is that once the circuit is modified, your cells automatically do the rest of the work according to the anatomical mapping contained in the circuit. Including stopping once the structure (tooth) matches the stored mapping.

https://www.science.org/doi/10.1126/sciadv.abj2164

Edit: To directly answer your questions in the context of a theoretical bioelectric repatterning therapeutic:

• Identifying the exact pattern that results in adult tooth formation and the drug combination that can induce said pattern. It's worth noting that there are multiple types of teeth (canine, molar, etc.) that each have a unique bioelectric pattern.
• Potentially local scarring and other biological processes that obstruct regeneration.
• By specifying the pattern for the desired tooth.
• The tooth would regenerate along a similar timeline as the initial formation of the tooth. Months, if not years. There may be a way to accelerate this process, but it hasn't been identified yet to my knowledge.
• Once initiated, it would continue independently. You would likely have regeneration checkups to verify that the growth is proceeding as expected to rule out perturbations in the bioelectric patterns that would result in deformities.
• The procedure wouldn't stop without deliberate intervention, whether surgery to extract the regenerating tissues or modifying the pattern to change the morphological goal from building a tooth to being standard jaw tissue. In the latter case, while it's possible that the cells would automatically revert, I'm only aware of tissues reorienting or "moving" to the target location following perturbation in the case of embryogenesis.

We are more likely to be able to grow and 3d print teeth with stem cell grown pulp and nerves. Modern dentistry would become live tooth replacement as opposed to fixing decayed teeth. Multiple biotech firms have already started prototyping this approach.

The risk of selectively turning genes on and off to grow new teeth are numerous. First, cancer... did I say cancer? Second, older humans don't have the same tissue resiliency, and it is possible if not likely gums may be irreparably damaged by growing new teeth. Finally, the teeth themselves may not develop properly, multiplying the risk for things like orthodontics, TMJ, partial tooth repair, etc.

A tooth that is grown to perfectly fit the existing socket and mouth mechanics that could be successfully transplanted appears to me to be the next best option.

A lot of regrowing teeth related questions lately, not that I'm not excited for it. Have there been new research or announcement that I'm not aware of?

Clearly offtopic: I would say we're gonna need less teeth in the future. Even now, especially in western civ, our teeth are unfit to the food we eat.

I foresee sth like that for our future: https://m.youtube.com/watch?v=Y9nJdfNlZFs

Given that we are born with all our teeth formed or forming, I would think this is quite a way off.

https://www.quora.com/Do-babies-already-have-adult-teeth-waiting

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This is hilarious I asked something really similar yesterday, check out my post!

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I remember reading about that genetic breakthrough a few years ago, and that their preliminary findings were successful on mouse trials. Haven't heard anything about it since. Anyone got an update?

AI will figure that shit out for us. And if not AI, then SAI.

That will likely arrive before this sort of stuff does.

Ray Kurzweil said that we will have figured out every communication pathway in the human body, by 2020. Seems that the human body is more complex than he thought.