ABSTRACT
Intraoperative evaluation is deeply changed using many new tools, both invasive and non-invasive. Peripheral oxygen saturation percentage (SpO2) is the more reliable method for a non-invasive monitoring of patient's blood oxygen concentration. Capnography (using end-tidal CO2 (EtCO2)) evaluation is an immediate and continuous non-invasive monitoring of carbon dioxide (CO2) in the breathing that provides important information on circulatory status and ventilation.Aim of this study is to perform a preliminary analysis of oxygen change during surgery exploring its possible influence on post-operative evolution. METHODS AND RESULTS: Intraoperative evaluation of SpO2 and EtCO2 was performed. Change in each parameter was categorised as 1 point for each five-point variation from baseline value (∆SpO2 as 1 point for each 5%, ∆EtCO2 as 1 point for each 5 mmHg). For each patient, the length of stay (LOS) in the intensive care unit (ICU), total hospitalisation, duration of intervention, surgical risk and complications were recorded. RESULTS: We analysed 93 consecutive patients (43 males and 40 females, aged 66.35 ± 9.79 years) that underwent peridiaphragmatic surgery. Forty patients (48.19%) presented complications after surgery. There was no statistically significant difference in age, duration of intervention and length of stay in ICU between complicated and non-complicated patients. As expected, patients with complications present an increased hospitalisation time compared to uncomplicated cases (14.69 ± 11.41 days vs 10.70 ± 6.28 days; p < 0.05). ∆EtCO2 was significantly increased (p < 0.05) in complicated compared to non-complicated. No differences were found in ∆SpO2 between the two groups. Considering the whole population, ∆EtCO2 presents a significant direct correlation to surgical risk, hospitalisation and duration of intervention. CONCLUSION: ∆EtCO2 may be related to possible complications after surgery and hospitalisation. An important comparison between SpO2 and EtCO2 and strict monitoring with an intraoperative arterial blood gas (ABG) sample during the main steps of surgery could bring some essential information to understand oxygen changes in intra- and post-operative evolution. However, a further validation analysis is needed before the approach can be used extensively in daily clinical settings.
Subject(s)
Capnography , Carbon Dioxide , Male , Female , Humans , Carbon Dioxide/analysis , Pilot Projects , Capnography/methods , Oxygen , HospitalizationABSTRACT
AIM: Airways humidification during mechanical ventilation (MV) can be performed by means of heat and moisture exchangers (HME). Good performance of selected hygroscopic HME was shown in terms of tracheal temperature and humidity control and low tube obstruction rates. However, few data are available on their effects on tracheobronchial ciliated cells. The purpose of this study was to evaluate the effects of 2 different HME on ciliated cell during MV. METHODS: Twenty consecutive patients undergoing elective surgery lasting <4 h were randomly assigned to be treated with Rusch (Group 1) or Mediflux (Group 2) hygroscopic HME. The morphology of tracheobronchial ciliated cells was evaluated from cytologic smears of endotracheal aspirate. Smears were prepared by using the thin-prep processor, stained using the Papanicolau method and examined in triplicate: recognizable respiratory cells were graded on a six-point scale, according to the normal appearance of cilia, cytoplasm and nucleus. RESULTS: In Group 1, 178.3+37 cells were retrieved from aspirates and , 155.6+58 in Group 2 (NS). The score was 739+241 in Group 1 and 617+329 in Group 2 (NS). Cilia and end plate were undamaged in 80+17% and 81+20% cells respectively in Group 1 and in 56+23% and 62+22% cells respectively in Group 2 (P<0.01 and <0.05). CONCLUSIONS: During MV epithelial tracheobronchial cells can be affected by the humidification device used. Our findings suggest that the 2 HME tested in the present study have a different impact on ciliated cells structure.
