Tissue-conserving cancer surgery is a highly skilled procedure which involves time-consuming tissue preparation to detect the margins of cancerous tissue. The goal is to remove as much of the tumour as possible while sparing healthy tissue.
With funding from the National Institute for Health Research (NIHR), experts at The University of Nottingham have developed a highly accurate prototype technique which can produce a detailed 'spectroscopic fingerprint' of each tissue layer removed during surgery. This technique - which can produce detailed maps of the tissue rich in information at the molecular level - has the potential to speed up and improve the diagnosis of cancer tissue during the operation as well as reduce unnecessary surgery.
The research has been published in the prestigious journal Proceedings of the National Academy of Sciences and the team, led by Dr Ioan Notingher in the School of Physics and Astronomy, are now looking to build an optimised instrument that can be tested in the clinic.
Dr Notingher said: "By refining our prototype instrument to make it more user-friendly and even faster to use. Diagnosis of each tissue layer could be obtained in just a few minutes - rather than hours. Such developments have the potential to revolutionise the surgical treatment of cancers. This technology will provide a fast and objective way for surgeons to make sure that all the cancer cells have been removed whilst at the same time preserving as much healthy tissue as possible."
The challenges of tissue-conserving surgery
Typically, skin conserving surgery involves cutting away one thin layer of tissue after another and each layer after another is carefully examined to make sure that all the cancer has been removed. This lengthy process is stopped when only health tissue is left. Successful removal of all cancer cells is the key to achieving lower rates of the cancer returning but there is always a balance to be struck between making sure all the cancer is removed and preserving as much healthy tissue as possible in order to reduce scarring and disfigurement.
Dr Notingher said: "The real challenge is to know where the cancer starts and ends when looking at it during an operation so that the surgeon knows when to stop cutting. Our technique can also diagnose the presence or absence of skin cancer in thick chunks of skin tissue, making it unnecessary to cut the tissue up further into thin slices."
Scientific research in this field started around two decades ago and only now are scientists starting to publish the results of their work. The use of lasers and high-sensitivity light detection technologies allows faster and more sensitive imaging of tissues and discrimination of tumours.
A huge step forward for the patient