And because of that insensitivity the pancreas tries to produce more and more insulin which leads in later stages to the beta cells “wearing out”. At this time you’ll need insulin.
So a smart insulin would be a solution for Type 2, wouldn’t it?
No, it still wouldn’t address the insulin resistance, just the consequences of the β-cell dysfunction. Ideally therapy would address the hyperglycaemia and preserve β-cell functionality.
Currently insulin is prescribed in T2D when two oral agents aren’t effective at controlling hyperglycaemia.
So while potentially applicable, it would not be a solution.
Ah - when I posted the question I was thinking of my mom who was type 2 and needed to take insulin very regularly (and eventually had a continuous glucose monitor patch on her arm at all times)
It does seem like it should help for cases like that, which I wasn’t aware were less common.
And because of that insensitivity the pancreas tries to produce more and more insulin which leads in later stages to the beta cells “wearing out”. At this time you’ll need insulin. So a smart insulin would be a solution for Type 2, wouldn’t it?
No, it still wouldn’t address the insulin resistance, just the consequences of the β-cell dysfunction. Ideally therapy would address the hyperglycaemia and preserve β-cell functionality. Currently insulin is prescribed in T2D when two oral agents aren’t effective at controlling hyperglycaemia. So while potentially applicable, it would not be a solution.
Ah - when I posted the question I was thinking of my mom who was type 2 and needed to take insulin very regularly (and eventually had a continuous glucose monitor patch on her arm at all times)
It does seem like it should help for cases like that, which I wasn’t aware were less common.
Definitely would help, as part of a most probably already complicated therapeutic regime :)
Thank you for clarifying it.