The Breakthrough To Rapid Malaria Detection
— Yessi Pratiwi • December 24th, 2007
Malaria is a vector-borne infectious disease caused by protozoan parasites. It is one of the most common infectious diseases and an enormous public health problem.
No vaccine is currently available for malaria; but now, a research team led by Dr. Paul Wiseman of the Departments of Physics and Chemistry at McGill University has developed a radically new technique.
Current detection techniques require a laborious process dependent on the skill and availability of trained analysts : stain slides, look for the parasite’s DNA signature under the microscope, and then manually count all the visible infected cells.
On the contrary, the new technique uses lasers and non-linear optical effects to detect malaria infection in human blood. It relies on a known optical effect called third harmonic generation (THG), which causes hemozoin — a crystalline substance secreted by the parasite — to glow blue when irradiated by an infrared laser.
Dr. Paul Wiseman, the leader of research team of the Departments of Physics and Chemistry at McGill University said, we have a fundamental sound frequency and then multiples of that frequency. Non-linear optical effects are similar: if you shine an intense laser beam of a specific frequency on certain types of materials, you generate multiples of the frequency. Hemozoin has a huge, non-linear optical response for the third harmonic, which causes the blue glow.
The researchers say the new technique holds the promise of simpler, faster and far less labor-intensive detection of the malaria parasite in blood samples. They hope to adapt well-established existing technologies like fibre-optic communications lasers and fluorescent cell sorters to quickly move the technique out of the laboratory and into the field.
Adapted from materials provided by McGill University.
Ikuti diskusi, tuliskan komentar Anda.