Evaluation of a Wearable Non-Invasive Thermometer for Monitoring Ear Canal Temperature during Physically Demanding (Outdoor) Work

Aimed at preventing heat strain, health problems, and absenteeism among workers with physically demanding occupations, a continuous, accurate, non-invasive measuring system may help such workers monitor their body (core) temperature. The aim of this study is to evaluate the accuracy and explore the usability of the wearable non-invasive Cosinuss° °Temp thermometer. Ear canal temperature was monitored in 49 workers in real-life working conditions. After individual correction, the results of the laboratory and field study revealed high correlations compared to ear canal infrared thermometry for hospital use. After performance of the real-life working tasks, this correlation was found to be moderate.
It was also observed that the ambient environmental outdoor conditions and personal protective clothing influenced the accuracy and resulted in unrealistic ear canal temperature outliers. It was found that the Cosinuss° °Temp thermometer did not result in significant interference during work. Therefore, it was concluded that, without a correction factor, the Cosinuss° °Temp thermometer is inaccurate. Nevertheless, with a correction factor, the reliability of this wearable ear canal thermometer was confirmed at rest, but not in https://biodas.org/ outdoor working conditions or while wearing a helmet or hearing protection equipment.

Mobile Health-Based Thermometer for Monitoring Wound Healing After Endovascular Therapy in Patients With Chronic Foot Ulcer: Prospective Cohort StudY

Background: Foot temperature may increase after endovascular therapy, but the relationship between foot temperature and wound healing is unclear.
Objective: This study was performed to evaluate the feasibility of a mobile health (mHealth)-based thermometer for foot temperature monitoring in patients with chronic foot ulcer before and after endovascular therapy and to determine the association between temperature change and wound healing time.
Methods: This was a prospective cohort study. Patients who had a chronic foot ulcer (>3 months) and underwent endovascular therapy between June 2019 and December 2019 were included. The participants received standard medical care and endovascular therapy for revascularization. The mHealth-based thermometer, composed of 4 temperature-sensing chips, was put on the foot before and after endovascular therapy. Data from the chips were transferred to an associated mobile phone app via Bluetooth. Wound healing time was estimated using the Kaplan-Meier method, and the associations between baseline characteristics and clinical outcomes were evaluated using a Cox proportional hazard model.
Results: A total of 163 patients with chronic foot ulcer who underwent endovascular therapy were enrolled and followed up until wound healing was complete or for 180 days. The mean foot temperature before endovascular therapy was 30.6 (SD 2.8 °C). Foot temperature increased significantly (mean 32.1 °C, SD 2.8 °C; P=.01) after the procedure. Wound healing time was significantly different in the Kaplan-Meier curves of the patient group with temperature changes ≥2 °C and the group with temperature changes ≤2 °C (log-rank P<.001). A foot temperature increase ≥2 °C after endovascular therapy was associated with increased wound healing in univariate analysis (hazard ratio [HR] 1.78, 95% CI 1.24-2.76, P=.02), and the association remained significant in multivariate analysis (HR 1.69, 95% CI 1.21-2.67, P=.03).
Conclusions: The mHealth-based thermometer was feasible and useful for foot temperature monitoring, which may provide health care professionals with a new endpoint for endovascular therapy. Foot temperature increases ≥2 °C after endovascular therapy were associated with faster wound healing in patients with chronic foot ulcer. Further studies are needed, however, to confirm these findings.

Tympanic thermometers support fast and accurate temperature monitoring in acute and alternative care

This article explores body temperature and the physiological process of thermoregulation. Normal body temperature and body temperature changes are discussed, including comorbidities associated with body temperature and signs of hyperthermia and hypothermia, and the factors that affect intraoperative temperature regulation.
The evidence base behind thermometry is discussed and is applied to contemporary clinical conditions and symptoms, including: sepsis and suspected COVID-19. After discussing clinical considerations and regulations that encompass thermometry, three case studies present the use of the Genius 3 Tympanic Thermometer in clinical practice, with user feedback supporting its benefits, which include speed, accuracy and ease of use.

Mitochondria-Anchored Molecular Thermometer Quantitatively Monitoring Cellular Inflammations

Temperature in mitochondria can be a critical indicator of cell metabolism. Given the highly dynamic and inhomogeneous nature of mitochondria, it remains a big challenge to quantitatively monitor the local temperature changes during different cellular processes. To implement this task, we extend our strategy on mitochondria-anchored thermometers from “on-off” probe Mito-TEM to a ratiometric probe Mito-TEM 2.0 based on the Förster resonance energy transfer mechanism. Mito-TEM 2.0 exhibits not only a sensitive response to temperature through the ratiometric changes of dual emissions but also the specific immobilization in mitochondria via covalent bonds.
Both characters support accurate and reliable detection of local temperature for a long time, even in malfunctioning mitochondria. By applying Mito-TEM 2.0 in fluorescence ratiometric imaging of cells and zebrafishes, we make a breakthrough in the quantitative visualization of mitochondrial temperature rises in different inflammation states.

Non-invasive and wearable thermometer for continuous monitoring of core body temperature under various convective conditions

We describe the design of a thermometer that can be worn during everyday activities for monitoring core body temperature (CBT) at the skin surface. This sensor estimates the CBT by measuring the heat flux from the body core based on a thermal conductive model. The heat flux is usually affected by the ambient convective conditions (e.g. air conditioner or posture), which in turn affects the model’s accuracy. Thus, we analytically investigated heat conduction and designed a sensor interface that would be robust to convection changes. We performed an in vitro experiment and a preliminary in vivo experiment. The accuracy of CBT in an in vitro experiments was 0.1°C for convective values ranging from 0 to 1.2 m/s. The wearable thermometer has high potential as non-invasive CBT monitor.

Effect of monitoring the onset of calving by a calving alarm thermometer on the prevalence of dystocia, stillbirth, retained fetal membranes and clinical metritis in a Hungarian dairy farm

The objective of the present study was to assess the effectiveness of an intravaginal thermometer in the field prediction of the second stage of labor and to determine its impact on the health of dams and newborn calves. Holstein cows (n = 241) were randomly selected about 5 (mean ± SD: 4.7 ± 2.0) days before the expected date of calving and the thermometer was inserted into the vagina. Another 113 cattle served as controls. There was no false alarm during the experiment. The risk of dystocia (Score >1) was 1.9 times higher, the prevalence of stillbirth was 19.8 times higher, the risk of retained fetal membranes (RFM) was 2.8 times higher and the risk of clinical metritis was 10.5 times higher in the control group than in the experimental group.
The prevalence of stillbirth was 7 times higher in cows with dystocia compared to cows with eutocia. The presence of dystocia and stillbirth increased the risk of RFM 4 and 5 times, respectively. The occurrence of RFM increased the risk of development of clinical metritis with a 22 times higher odds. The results indicate that the use of calving alert systems not only facilitates controlling the time of parturition and providing prompt and appropriate calving assistance but also decreases the number of dystocia cases and improves reproductive efficiency, postpartum health of the dam and newborn calf survival.

SOM02.0 Selected Ion Monitoring 2 Components - 1ML

CLPS-SOM-ISB Scientific Laboratory Supplies 1ML 133.65 EUR

THERMOMETER, DIGITAL

T786 PhytoTechnology Laboratories 1EA 84.82 EUR

scanning thermometer

T8710 Consort ea 1538.4 EUR

scanning thermometer

T8720 Consort ea 1538.4 EUR

3M Clean-Trace Hygiene Monitoring and Management System - EACH

FSA1260 Scientific Laboratory Supplies EACH 7275.15 EUR

Thermometer -1 to 101C (0.2)

THE1374 Scientific Laboratory Supplies EACH 18.45 EUR

SOM02.0 Deuterated Monitoring Compounds Standard Spiking Solution - 1ML

CLPS-SOM-ISA Scientific Laboratory Supplies 1ML 1463.4 EUR

Spirit Thermometer -10 to 110C

THE1080 Scientific Laboratory Supplies EACH 3.48 EUR

Thermometer (TDC 150) - EACH

THE1802 Scientific Laboratory Supplies EACH 55.52 EUR

Thermometer/hygrometer - EACH

DD98463 Scientific Laboratory Supplies EACH 29.7 EUR

Thermometer -1 to 101C (0.2) - EACH

THE1372 Scientific Laboratory Supplies EACH 28.23 EUR

Thermometer -1 to 51C (0.1)

THE1366 Scientific Laboratory Supplies EACH 18.45 EUR

Thermometer -1 to 51C (0.2)

THE1370 Scientific Laboratory Supplies EACH 18.45 EUR

Testo Thermometer 110+Battery - EACH

THE2070 Scientific Laboratory Supplies EACH 163.04 EUR

Teflon Thermometer -20 to 110 - EACH

THE1164 Scientific Laboratory Supplies EACH 24.71 EUR

Teflon Thermometer -10 to 210 - EACH

THE1166 Scientific Laboratory Supplies EACH 30.11 EUR

Teflon Thermometer -20 to 150 - EACH

THE1178 Scientific Laboratory Supplies EACH 26.48 EUR

Alarm Thermometer -50 to +150C - EACH

THE1502 Scientific Laboratory Supplies EACH 39.15 EUR

Digital Thermometer Hygrometer

THE1168 Scientific Laboratory Supplies EACH 38.4 EUR

Spirit Thermometer -10 to 110C - EACH

THE1062 Scientific Laboratory Supplies EACH 5.32 EUR

Spirit Thermometer -10 to 150C - EACH

THE1064 Scientific Laboratory Supplies EACH 4.41 EUR

Spirit Thermometer -0 to 240F - EACH

THE1066 Scientific Laboratory Supplies EACH 5.32 EUR

Digital Thermometer -40 to 240 - EACH

THE1174 Scientific Laboratory Supplies EACH 35.4 EUR

Digital Thermometer -50 to 300 - EACH

THE1176 Scientific Laboratory Supplies EACH 67.12 EUR