On average, patients with chronic illnesses follow their prescribed treatments about 50 percent of the time. That’s a problem. If drugs aren’t taken regularly, on time, and in the right doses, the treatment may not work, and the person’s condition can worsen.
The issue isn’t that people are unwilling to take their prescriptions. It’s that some drugs, like HIV medications, require unwavering commitment. And essential medicines, like insulin, can be brutally expensive. Plus, the Covid pandemic illustrated the difficulties of delivering perishable follow-up vaccine shots to regions with no cold chain. “Are we really squeezing all the utility out of those drugs and vaccines?” asks Kevin McHugh, a bioengineer at Rice University. “The answer is, in general, no. And sometimes we’re missing out on a lot.”
For example, the injectable drug bevacizumab can be used to treat macular degeneration, a leading cause of blindness. But even though it’s effective, dosing adherence is notoriously low. “People hate getting injections into their eyes,” McHugh says. “And I don’t blame them at all—that’s terrible.”
McHugh’s lab is in the drug delivery business. The goal is to give patients what they want—less hassle—while also giving them what they need: consistent dosing. The lab’s answer is an injection of drug-delivering microparticles that release their contents in timed delays that can span days or even weeks. “We’re trying to engineer these delivery systems to work in the real world, as opposed to in this idealized version of the world,” McHugh says.
In the June issue of Advanced Materials, McHugh’s team described how their system works. It starts with an injection containing hundreds of tiny microplastic particles, each encapsulating a small dose of a drug. These miniscule capsules are made of the polymer PLGA, which our bodies break down safely. By adjusting the molecular weight of the polymer used for each capsule, the scientists can control how fast they erode and release medication. In this study, the team demonstrated a single shot containing four groups of microparticles that released their contents at 10, 15, 17, and 36 days after injection.
“Having long-acting delivery strategies is a great unmet need,” says SriniVas Sadda, an ophthalmologist with UCLA and the Doheny Eye Institute who was not involved in the study. The patients Sadda sees are elderly. They are often dependent on family members for transportation and may skip appointments because of other health problems. “Maybe they’ve fallen and broke their hip and they end up not coming in,” he says. “Missed visits can be a big problem because you miss treatment and the disease could get worse. And it’s not always possible to recover.”
It’s hard to have delicate control over the levels of a drug in your body, in part because most medications operate like sledgehammers. Pop an ibuprofen or an antidepressant, and those levels will spike as the drug quickly passes through your gastrointestinal tract. Extended release pills prolong a drug’s effect but still taper off from a peak. And you can’t simply front-load a steep dose to delay the next one, since some drugs, like insulin, have a narrow “therapeutic window” between being helpful and dangerous.
from Hacker News https://ift.tt/Ij68WP5
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