Biophotonics

The use of light for medical applications is growing. Organic optoelectronic devices can be used for sensing muscle movement and can be applied in prosthetics, where a flexible, comfortable organic optoelectronic device can be worn on the residual limb to measure signals from muscles and help control artificial limbs. 

Use of optical muscle contraction sensor

In the design of an active prosthetic device, the detection of a signal suitable as a trigger or as a proportional controller for the prosthesis actuation is among the key issues. Using an optical technique is appealing, as they are intrinsically free from electromagnetic noise and are not invasive on the tissues. The near-infrared optical absorption of muscle is dominated by blood and as such, during contraction, the muscle undergoes blood depletion. It has been demonstrated that the contraction can be detected as a decrease in the optical absorption of the muscle.

Light can also be applied in the treatment of many diseases. Photodynamic therapy (PDT) uses light in combination with a photosensitiser (a medicine activated by light) which can be used to kill parasites, cancer cells, fungal infection and even antibiotic resistant bacteria. 

Most PDT methods use large hospital-based light sources, like lasers or arrays of inorganic light emitting diodes (LEDs), which are not available to treat patients at home and require lengthy stays in hospital.

The University of St Andrews have developed a wearable light source which can be used for PDT, meaning treatment can be taken to the patient in their own home, rather than being restricted to a few hospitals with specialised equipment. Light-emitting bandages, using organic light-emitting diodes (OLEDs) are also being developed to make thin, bright and flexible light sources for PDT.

OLED bandages allow treatment to occur outside the hospital setting and facilitate patients quickly returning to day to day activities. Wider applications for OLED bandages include treatment for many skin infections and conditions. The next step involves developing a solar charging system for the bandages, removing the need for batteries or an external electricity source.

Photodynamic therapy (PDT) uses light to treat skin cancer.

The University of St Andrews are also developing and applying advances in optoelectronics in the field of biological assay to identify the effectiveness of drugs and investigating the possibility of other medical applications of organic light-emitting diodes.

Examples of Current Publications

Flexible organic light-emitting diodes for antimicrobial photodynamic therapy. C. Lian; M. Piska; K. Yoshida; S. Persheyev K. J. Pawlik; K Matczyszyn and I. D. W. Samuel.     npj  Flexible Electronics 3, 18. (2019)