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Nanotechnology Approach Locates and Removes Dangerous Endometriosis Lesions
Endometriosis is a common gynecological condition in women of childbearing age. The endometrium is the innermost layer of the uterus, and endometriosis occurs when endometrium-like tissue forms lesions outside of the uterine cavity – usually involving the ovaries, the fallopian tubes and the tissue lining the pelvis. On rare occasions, endometrial tissue may spread beyond the pelvic region. There’s no cure for endometriosis, although surgical removal of the lesions can improve fertility. The downside, however, is that the lesions come back about half the time, and more than one-quarter of endometriosis surgery patients need three or more operations because it’s hard to find all of the diseased tissue that needs to be removed. Scientists have now developed a new nanotechnology approach for locating and removing the painful and dangerous lesions associated with endometriosis.
The research led by scientists at the Oregon State University (OSU, Corvallis, OR, USA) involves magnetic nanoparticles - tiny pieces of matter as small as one-billionth of a meter. An animal-model study showed that the iron oxide nanoparticles, injected intravenously, act as a contrast agent – they accumulate in the lesions, making them easier to see by advanced imaging such as MRI. And when exposed to an alternating magnetic field, a non-invasive procedure, the nanoparticles’ temperature soars to more than 120 degrees Fahrenheit, high enough for lesion removal via heat.
Magnetic hyperthermia had not previously been considered as a potential means of ablating endometriosis lesions because other magnetic nanoparticles have relatively low heating efficiency. The nanoparticles could only get hot enough after being directly injected into diseased tissue, which is not a realistic approach for endometriosis. The researchers overcame that problem by developing hexagonal-shaped nanoparticles that have more than six times the heating efficiency of conventional spherical nanoparticles when subjected to an alternating magnetic field.
Modifying the nanoparticles with a peptide - multiple amino acids linked in a chain – that targets a cellular receptor abundant in endometriosis cells enhanced their ability to accumulate in endometriosis lesions, the scientists said. Studies of mice with endometriotic tissue transplanted from macaques demonstrated the nanoparticles’ ability to eradicate the diseased cells following one session of magnetic hyperthermia.
“Endometriosis is a debilitating, systemic disease, and the need for an efficient, non-surgical method of removing the lesions is urgent,” said Oleh Taratula of the Oregon State University College of Pharmacy who led the research. “We invented targeted nanoparticles with extraordinary heating capabilities that enable the use of magnetic hyperthermia for the safe and efficient elimination of endometriosis lesions.”
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