Background

The number of facial non-melanoma skin cancers continues to rise every year therefore, the number of skin cancer removal surgeries continue to rise as well. Every removal surgery requires reconstruction of the resulting defect. For a large, abnormal shaped, or complexly located defect reconstruction can be difficult and time consuming to plan. A device to assist Mohs Micrographic Surgery (MMS) reconstruction which can analyze defects quickly, precisely, and in a sterile manner is needed.