Characterization of signal kinetics in real time surgical tissue classification system
Karjalainen, Markus; Kontunen, Anton; Anttalainen, Anna; Mäkelä, Meri; Varga, Soma; Lepomäki, Maiju; Anttalainen, Osmo; Kumpulainen, Pekka; Oksala, Niku; Roine, Antti; Vehkaoja, Antti (2022-08-15)
Karjalainen, Markus
Kontunen, Anton
Anttalainen, Anna
Mäkelä, Meri
Varga, Soma
Lepomäki, Maiju
Anttalainen, Osmo
Kumpulainen, Pekka
Oksala, Niku
Roine, Antti
Vehkaoja, Antti
15.08.2022
131902
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tuni-202205164936
https://urn.fi/URN:NBN:fi:tuni-202205164936
Kuvaus
Peer reviewed
Tiivistelmä
Effective surgical margin assessment is paramount for good oncological outcomes and new methods are in active development. One emerging approach is the analysis of the chemical composition of surgical smoke from tissues. Surgical smoke is typically removed with a smoke evacuator to protect the operating room staff from its harmful effects to the respiratory system. Thus, analysis of the evacuated smoke without disturbing the operation is a feasible approach. Smoke transportation is subject to lags that affect system usability. We analyzed the smoke transportation delay and evaluated its effects to tissue classification with differential mobility spectrometry in a simulated setting using porcine tissues. With a typical smoke evacuator setting, the front of the surgical plume reaches the analysis system in 380 ms and the sensor within one second. For a typical surgical incision (duration 1.5 s), the measured signal reaches its maximum in 2.3 s and declines to under 10% of the maximum in 8.6 s from the start of the incision. Two-class tissue classification was tested with 2, 3, 5, and 11 s repetition rates resulting in no significant differences in classification accuracy, implicating that signal retention from previous samples is mitigated by the classification algorithm.
Kokoelmat
- TUNICRIS-julkaisut [19293]