Reducing the Burden of Tuberculosis Treatment
Reporter: Irina Robu, PhD
Tuberculosis is one of the world’s deadliest infectious diseases, which requires six-month course of daily antibiotics. To help overcome that, a team of researchers led by MIT has devised a new way to deliver antibiotics, which they hope will make it easier to cure more patients and reduce health care costs. In their approach a coiled wire loaded with antibiotics is inserted into the patient’s stomach through a nasogastric tube. Once in the stomach, the device slowly releases antibiotics over one month, eliminating the need for patients to take pills every day.
The device is a thin, elastic wire made of nitinol that can change its shape based on temperature. The researchers can string up to 600 “pills” of various antibiotics along the wire, and the drugs are packaged in polymers whose composition can be adjusted to control the rate of drug release once the device go in the stomach. The wire is distributed to the patient’s stomach via a tube inserted through the nose, which is used regularly in hospitals for delivering medications and nutrients. When the wire reaches the higher temperatures of the stomach, it forms a coil, which stops it from passing further through the digestive system. The researchers then tested the device in pigs and found that this device could release different antibiotics at a constant rate for 28 days. Once all of the drugs are delivered, the device is recovered through the nasogastric tube using a magnet that can attract the coil.
Giovanni Traverso and Robert Langer have been working on a variety of pills and capsules that can remain in the stomach and slowly release medication after being swallowed. This type of drug delivery, can expand treatment to several chronic diseases that require daily doses of medication. One capsule that shows promise appears to be for delivering small amounts of drugs to treat HIV and malaria. After being swallowed, the capsule’s outer coating disintegrates, allowing six arms to expand, helping the device to lodge in the stomach. This device can carry about 300 milligrams of drugs which is enough for a week’s worth of HIV treatment but it falls short of the payload of 3 grams of antibiotics every day needed to treat tuberculosis.
The researchers in addition to David Collins, an economist analyzed the potential economic impact of this type of treatment. He determined that if the treatment is applied in India, costs could be reduced by about $8,000 per patient. I think that such an approach can be helpful for longer regimens required for the treatment of extensively drug-resistant TB and even hepatitis C and this approach can be an vital milestone toward addressing this problem.
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