Artificial pancreas is a safe and effective treatment for type 1 diabetes
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Use of an artificial pancreas is associated with better control of blood sugar levels for people with type 1 diabetes compared with standard treatment, finds a review of the available evidence published by The BMJtoday.The findings show that artificial pancreas treatment provides almost two and a half extra hours of normal blood glucose levels (normoglycaemia) a day, while reducing time in both high (hyperglycaemia) and low (hypoglycaemia) blood glucose levels.
The artificial pancreas is a system that measures blood sugar levels using a continuous glucose monitor (CGM) and transmits this information to an insulin pump that calculates and releases the required amount of insulin into the body, just as the pancreas does in people without diabetes.
Lead researcher, Eleni Bekiari at Aristotle University of Thessaloniki, Greece and the team set out to investigate the effectiveness and safety of artificial pancreas systems in people with type 1 diabetes.They reviewed the results of 41 randomised controlled trials involving over 1000 people with type 1 diabetes, that compared artificial pancreas systems with other types of insulin based treatment, including insulin pump therapy.They found that the artificial pancreas was associated with almost two and a half additional hours in normoglycaemia compared with other types of treatment when used overnight and over a 24 hour period.
Use of the artificial pancreas also reduced time spent in hyperglycaemia by approximately two hours – and in hypoglycaemia (20 minutes less) – compared to other types of therapy.While further research is needed to verify the findings, the researchers say these results support the view that “artificial pancreas systems are a safe and effective treatment approach for people with type 1 diabetes.”
Kovatchev's artificial pancreas, also referred to as closed-loop control of blood glucose in diabetes, takes away much of the human interaction that is currently necessary in self-medication.The central hub of the system uses a platform called InControl that runs on a reconfigured smartphone. This handheld device is linked wirelessly to a blood sugar monitor, an insulin pump and a remote monitoring site. The blood sugar monitor takes the glucose levels in the blood every 5 minutes and delivers the readings to the InControl device.
The device is controlled by algorithms and administers the correct amount of insulin through a fine needle without the patient having to spill even a drop of blood.