Journal of clinical monitoring and computing
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J Clin Monit Comput · Oct 2020
A clinical study comparing ultrasound-measured pyloric antrum cross-sectional area to computed tomography-measured gastric content volume to detect high-risk stomach in supine patients undergoing emergency abdominal surgery.
The main aim of this study was to assess whether the ultrasound examination and measurement of the pyloric antral cross-sectional area (antral-CSA) in the supine position could be useful to diagnose a full stomach using a computed tomography (CT) as a comparator in emergency patients. Immediately before general anesthesia induction in patients undergoing emergency abdominal surgery, antral-CSA was measured and the volume of the gastric contents was evaluated via ultrasound in the supine position. Gastric content volume was also calculated from a CT image taken prior to the operation. ⋯ Antral-CSA measured in the supine position may help to assess the high-risk stomach patients undergoing emergency surgery. Trial registration: www.umin.ac.jp (UMIN 000013416). Registered 14 March 2014.
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J Clin Monit Comput · Oct 2020
Clinical TrialThe incidence and interpretation of large differences in EIT-based measures for PEEP titration in ARDS patients.
Positive end-expiratory pressure (PEEP) can be titrated by electrical impedance tomography (EIT). The aim of the present study was to examine the performance of different EIT measures during PEEP trials with the aim of identifying "optimum" PEEP and to provide possible interpretations of largely diverging results. After recruitment (maximum plateau pressure 35 cmH2O), decremental PEEP trial with steps of 2 cmH2O and duration of 2 min per step was performed. ⋯ The existence of differences in the recommended PEEP among the analyzed EIT measures might be an indicator of non-recruitable lungs and heterogeneous airway resistances. In these extreme cases, the largely diverging results may prompt the attending clinician to develop individual ventilation strategies. Clinical Trial Registration Registration number NCT03112512, https://clinicaltrials.gov/ Registered 13 April 2017.
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J Clin Monit Comput · Oct 2020
Continuous respiratory rate monitoring during an acute hypoxic challenge using a depth sensing camera.
Respiratory rate is a well-known to be a clinically important parameter with numerous clinical uses including the assessment of disease state and the prediction of deterioration. It is frequently monitored using simple spot checks where reporting is intermittent and often prone to error. We report here on an algorithm to determine respiratory rate continuously and robustly using a non-contact method based on depth sensing camera technology. ⋯ These results were achieved with a 100% reporting uptime. In conclusion, excellent agreement was found between RRdepth and RRcap. Further work should include a larger cohort combined with a protocol to further test algorithmic performance in the face of motion and interference typical of that experienced in the clinical setting.
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J Clin Monit Comput · Oct 2020
Observational StudyAlterations of retinal vessels in patients with sepsis.
To compare the retinal vasculature of septic patients with age-matched healthy volunteers. This is a single-centre prospective observational study from January 2018 to May 2019 in a third-level ICU. We performed a single fundus imaging using a hand-held digital fundus camera in patients with sepsis or septic shock (n = 40) during the first 24 h after ICU admission and compared these data with age-matched healthy controls (n = 20). ⋯ However, median CRVE and AVR of septic patients did not differ with healthy controls (247[223-282] vs. 244[215-272], p = 0.396 and 0.64[0.58-0.74] vs. 0.61[0.55-0.68], p = 0.145) respectively. Patients with sepsis showed a significant decrease in retinal vascular length density compared with healthy subjects (p < 0.001). Retinal observation using a hand-held fundus imaging device showed signs of arteriolar vasodilation with decreased vascular density in septic patients in comparison to healthy controls.
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J Clin Monit Comput · Oct 2020
Editorial CommentNon-invasive monitoring is coming the full circle, making our patients safer!
Non-invasive monitoring is becoming more accurate, more available and mobile. The clinical advantage that this developing technology provides is that the data may be monitored continuously; relatively unobtrusively, and transmitted directly to the caregiver. The downside of being non-invasive has been the potential loss of accuracy in the data displayed. ⋯ The study by Applegate et al. [1] confirms the trend accuracy of SpHb as an indication to perform a laboratory confirmation of hemoglobin level. This will lead to earlier laboratory screening, so that developing adverse conditions, such as postoperative bleeding, may be identified at a time that major events, such as failure to rescue can be avoided. This increased availability of non-invasive technology will make patients safer both in our hospitals and at home.