Raman spectroscopy and supervised learning as a potential tool to identify high-dose-rate-brachytherapy induced biochemical profiles of prostate cancer.
Kirsty MilliganSamantha J Van NestXinchen DengRamie Ali-AdeebPhillip ShreevesSamantha PunchNathalie CostieNils PaveyJuanita M CrookDavid M BermanAlexandre G BroloJulian J LumJeffrey L AndrewsAndrew JirasekPublished in: Journal of biophotonics (2022)
High-dose-rate-brachytherapy (HDR-BT) is an increasingly attractive alternative to external beam radiation-therapy for patients with intermediate risk prostate cancer. Despite this, no bio-marker based method currently exists to monitor treatment response, and the changes which take place at the biochemical level in hypo-fractionated HDR-BT remain poorly understood. The aim of this pilot study is to assess the capability of Raman spectroscopy (RS) combined with principal component analysis (PCA) and random-forest classification (RF) to identify radiation response profiles after a single dose of 13.5 Gy in a cohort of nine patients. We here demonstrate, as a proof-of-concept, how RS-PCA-RF could be utilised as an effective tool in radiation response monitoring, specifically assessing the importance of low variance PCs in complex sample sets. As RS provides information on the biochemical composition of tissue samples, this technique could provide insight into the changes which take place on the biochemical level, as result of HDR-BT treatment.
Keyphrases
- high dose
- raman spectroscopy
- prostate cancer
- stem cell transplantation
- low dose
- radical prostatectomy
- machine learning
- end stage renal disease
- chronic kidney disease
- newly diagnosed
- radiation therapy
- ejection fraction
- deep learning
- climate change
- healthcare
- radiation induced
- high glucose
- diabetic rats
- prognostic factors
- squamous cell carcinoma
- drug induced
- social media
- patient reported outcomes
- oxidative stress
- patient reported
- smoking cessation
- human health
- monte carlo