Tropes

www.futurity.org_med 2015 000043.txt

#Could cell#backpacks#deliver inflammation drugs? Scientists have created ellular backpacksthat could carry therapeutic agents to the site of inflammation and then release them. Inflammation is a normal way for the body to respond to injury or infection. The swelling, heat, and even pain are the body trying to protect its soft tissue, remove offending objects, substances, or microbes, and start healing. ASICALLY THE MAIN BENEFIT IS THAT YOU CAN DELIVER THE DRUG IN A MORE EFFECTIVE DOSE However, persistent inflammation is often indicative of more serious conditions and can lead to problems of its own, including impaired healing, loss of function, or even tissue death. any diseases result in inflammation, says Samir Mitragotri, professor of chemical engineering at University of California, Santa barbara, and director of the campus Center for Bioengineering. Whether inflammation is a byproduct of the disease or the inflammation is the disease, it is a common indicator of a problem with the system. f we could target the common denominator, whether the inflammation is coming from cancer or arthritis, we could deliver the drug there, says Mitragotri, who specializes in targeted drug delivery. By taking advantage of natural body processes, researchers at UC Santa barbara and MIT have developed a method of targeting inflamed tissues creating a way to treat both the inflammation and its underlying cause. t a cell-mediated approach to targeted drug delivery, says grad student researcher Aaron Anselmo, lead author of a study in the current issue of the Journal of Controlled Release. Once at the site, these monocytes transform into macrophages, cells that reside in the affected tissues to engulf and digest foreign material. Working with the expertise of chemical engineering and materials science researchers at MIT, the researchers developed an approach based on ellular backpacks? flat, disc-shaped polymeric particles that could, in the near future, hold therapeutic agents that can be released at the site of the inflammation. These polymeric discs are coated on one side with a single layer of an antibody that can bind to receptors on the monocyte surface. To prevent the cellular backpack from being engulfed and devoured by the very cell that is transporting it, the researchers chose a flexible particle that is nonspherical in shape, which, according to the study, has proved to be more durable and resistant to phagocytosis than a rigid spherical particle. The shape and flexibility gives the backpack the ability to bind strongly while resisting phagocytosis to hitchhike onto monocytes and reach the inflamed tissue. In-vitro and in-vivo tests have proved that cellular backpacks are successful in attaching to and being transported by monocytes to target areas without impairing the monocytesnatural functions, says Anselmo. CHEMO DELIVERY? Further studies will include research into how much drug can be loaded into the cellular backpacks. Ideally, Anselmo says, the cellular backpacks loaded with drugs would be injected into the bloodstream, whereupon they would attach to these traveling monocytes and hitchhike to the target region. At the inflamed site, the particles would simultaneously degrade and release their drugs.""It is a good idea to get your levels checked on a yearly basis . If you are deficient, you and your doctor can make a plan on how to reverse it through diet, supplements, or other therapies,"says Adam Murphy. Low Vitamin d linked to aggressive prostate cancer The development of effective cellular backpacks has broad potential, say the researchers. asically the main benefit is that you can deliver the drug in a more effective dose, Mitragotri says. Take for example the case of chemotherapy, which often has a narrow therapeutic range: too little and the treatment is not effective, too much and it can be lethal. Because chemo travels through the bloodstream and affects all the tissues it comes in contact with, dosages are restricted at least in part based on the deleterious effect it has on other, unafflicted organs and their functions. Not only can targeted therapy ensure other body systems remain unaffected, Mitragotri explains, but it could also allow for higher doses of drug to the site, which could decrease treatment time h

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