'Intelligent' nanoparticles could help treat cancer patients

Scientists from the University of Surrey have developed 'intelligent'  nanoparticles which heat up to a temperature high enough to kill  cancerous cells - but which then self-regulate and lose heat before they get hot enough to harm healthy tissue.

The self-stopping nanoparticles could soon be used as part of  hyperthermic-thermotherapy to treat patients with cancer, according to  an exciting new study reported in Nanoscale. Thermotherapy has long been used as a treatment method for cancer, but it is difficult to treat patients without damaging healthy cells. However, tumor cells can be weakened or killed without affecting normal tissue if temperatures can be controlled accurately within a range of 42°C to 45 °C.

This could potentially be a game changer in the way we treat people who have cancer . If we can keep cancer treatment sat at a temperature level high enough to kill the cancer, while low enough to stop harming healthy tissue, it will prevent some of the serious side effects of vital treatment.

It's a very exciting development which, once again, shows that the University of Surrey research is at the forefront of nanotechnologies - whether in the field of energy materials or, in this case, healthcare. Dr. Wei Zhang, Associate Professor from Dalian University of Technology said Magnetic induced hyperthermia is a traditional route of treating  malignant tumors. However, the difficulties in temperature control has significantly restricted its usage If we can modulate the magnetic  properties of the nanoparticles, the therapeutic temperature can be  self-regulated, eliminating the use of clumsy temperature monitoring and controlling systems.

By making magnetic materials with the Curie temperature falling in the range of hyperthermia temperatures, the self-regulation of therapeutics can be achieved. For the most magnetic materials, however,  the Curie temperature is much higher than the human body can endure. By  adjusting the components as we have, we have synthesized the nanoparticles with the Curie temperature as low as 34 °C. This is a major nanomaterials breakthrough.

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'Intelligent' nanoparticles could help treat cancer patients

FDA Approves Once-Weekly Bydureon BCise (exenatide) for Patients with Type-2 Diabetes

 In continuation of my update on exenatide. AstraZeneca announced that the US Food and Drug Administration (FDA) has approved Bydureon® BCise™ (exenatide extended-release) injectable suspension, a new formulation of Bydureon (exenatide extended-release) injectable suspension in an improved once-weekly, single-dose autoinjector device for adults with type-2 diabeteswhose blood sugar remains uncontrolled on one or more oral medicines inaddition to diet and exercise, to improve glycemic control.

Unlike other glucagon-like peptide-1 (GLP-1) receptor agonists, Bydureon BCise has a unique, continuous-release microsphere delivery system designed to provide consistent therapeutic levels of the active ingredient, exenatide, to help patients reach and maintain steady state. The new formulation in the innovative Bydureon BCise device is proven to reduce blood sugar levels, with the added benefit of weight loss, although not a weight loss medicine.

Across two clinical trials, average HbA1c reductions of up to 1.4% and average weight loss of up to 3.1 pounds were achieved when used as  monotherapy or as an add-on to metformin, a sulfonylurea, a thiazolidinedione, or any combination of two of these oral anti-diabetic medicines at 28 weeks. The most common adverse reactions reported in ≥5% of patients in clinical trials were nausea (8.2%) and adverse events associated with injection-s te nodules (10.5%).

Bydureon BCise is designed for ease and patient convenience in a once-weekly, pre-filled device with a pre-attached hidden needle. The medication is administered in three simple steps – mix, unlock, inject.