Thermal mapping: Assessing the optimal sites for temperature measurement in the human body and emerging technologies.

Numerous body locations have been utilized to obtain an accurate body temperature. While some are commonly used, their accuracy, response time, invasiveness varies greatly, and determines their potential clinical and/or research use. This review discusses human body temperature locations, their accuracy, ease of use, advantages, and drawbacks. We explain the concept of core body temperature and which of the locations achieve the best correlation to this temperature. The body locations include axilla, oral cavity, rectum, digestive and urinary tracts, skin, tympanic, nasopharynx, esophagus, and pulmonary artery. The review also discusses the latest temperature technologies, heat-flux technology and telemetric ingestible temperature pills, and the body locations used to validate these devices. Rectal and esophageal measurements are the most frequently used.

Intraoperative thermal mapping of mammary tumors in dogs.

In this study, videothermometry's application in detecting mammary tumors in dogs is explored in-depth. The research hypothesizes that this technique can effectively identify cancerous tissues during surgery by analyzing thermal patterns. The methodology involved comparing thermal imaging results from dogs with palpable mammary nodules against a control group, focusing on capturing real-time thermal patterns. Results were significant, showing distinct thermal patterns in carcinomas. This indicates videothermometry's capability in accurately identifying micro metastases and differentiating between neoplastic and non-neoplastic changes. The study concludes that videothermometry has considerable potential in enhancing surgical precision, especially in tumor resection and safety margin definition, but emphasizes the need for further research to thoroughly understand the thermal signatures of various mammary tumors in dogs.

Exploring the intra-4f and the bright white light upconversion emissions of Gd2O3:Yb3+,Er3+-based materials for thermometry.

Upconversion broadband white light emission driven by low-power near-infrared (NIR) lasers has been reported for many materials, but the mechanisms and effects related to this phenomenon remain unclear. Herein, we investigate the origin of laser-induced continuous white light emission in synthesized nanoparticles (Gd0.89Yb0.10Er0.01)2O3 and a mechanical mixture of commercial oxides with the same composition 89% Gd2O3, 10% Yb2O3, and 1% Er2O3. We report their photophysical features with respect to sample compactness, laser irradiation (wavelength, power density, excitation cycles), pressure, temperature, and temporal dynamics. Despite the sensitizer (Yb3+) and activator (Er3+) being in different particles for the mechanical mixture, efficient discrete and continuous upconversion emissions were observed. Furthermore, the synthesized nanoparticles were developed as primary luminescent thermometers (upon excitation at NIR) in the 299-363 K range, using the Er3+ upconversion 2H11/2 → 4I15/2/4S3/2 → 4I15/2 intensity ratio. They were also operating as secondary ones in the 1949-3086 K, based on the blackbody distribution of the observed white light emission. Our findings provide important insights into the mechanisms and effects related to the transition from discrete to continuous upconversion emissions with potential applications in remote temperature sensing.

Effect of thermometry on the prevention of diabetic foot ulcers: a systematic review with meta-analysis. / Efeito da termometria na prevenção de úlceras de pé diabético: revisão sistemática com metanálise.

OBJECTIVE: to analyze the effect of cutaneous foot thermometry in people with Diabetes Mellitus, compared with the standard prevention of foot ulcers adopted in these patients. METHOD: a systematic review with meta-analysis. Protocol registered with PROSPERO (CRD42020202686). The recommendations of the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) were followed. The search was performed in the following data sources: SCOPUS, Web of Science, MEDLINE via PubMed, MEDLINE via EBSCO, MEDLINE via Biblioteca Virtual em Saúde, Embase, CINAHL, Cochrane Library, LILACS via Biblioteca Virtual em Saúde, Google Scholar, Biblioteca Digital Brasileira de Teses e Dissertações, Catálogo de Teses & Dissertações-Capes, Open Grey and ProQuest Dissertations and Theses. The risk of bias was assessed by the Cochrane Collaboration Risk of Bias Tool (RoB 2), the meta-analysis was performed in the Review Manager 5.4 software and the Certainty of evidence in the Grading of Recommendations Assessment, Development and Evaluation system. RESULTS: of the 670 records, five articles were eligible. The meta-analysis was calculated for the prevention of the incidence of diabetic foot ulcers outcome, with effect summarization (RR 0.53; 95%CI 0.29-0.96; p=0.02), with certainty of moderate evidence. CONCLUSION: thermometry showed a protective effect on the incidence of diabetic foot ulcers when compared to standard foot care.

Pushing the limits of luminescence thermometry: probing the temperature of proteins in cells.

Proteins are involved in numerous cellular activities such as transport and catalysis. Misfolding during biosynthesis and malfunctioning as a molecular machine may lead to physiological disorders and metabolic problems. Protein folding and mechanical work may be viewed as thermodynamic energetically favorable processes in which stochastic nonequilibrium intermediate states may be present with conditions such as thermal fluctuations. In my opinion, measuring those thermal fluctuations may be a way to access the energy exchange between the protein and the physiological environment and to better understand how those nonequilibrium states may influence the misfolding/folding process and the efficiency of the molecular engine cycle. Here, I discuss luminescence thermometry as a possible way to measure those temperature fluctuations from a single-molecule experimental perspective with its current technical limitations and challenges.

Forced-air warming and continuous core temperature monitoring with zero-heat-flux thermometry during cesarean section: a retrospective observational cohort study.

BACKGROUND: Over 30% of parturients undergoing spinal anesthesia for cesarean section become intraoperatively hypothermic. This study assessed the magnitude of hypothermic insult in parturients and newborns using continuous, high-resolution thermometry and evaluated the efficiency of intraoperative forced-air warming for prevention of hypothermia. METHODS: One hundred and eleven parturients admitted for elective or emergency cesarean section under spinal anesthesia with newborn bonding over a 5-month period were included in this retrospective observational cohort study. Patients were divided into two groups: the passive insulation group, who received no active warming, and the active warming group, who received convective warming through an underbody blanket. Core body temperature was continuously monitored by zero-heat-flux thermometry and automatically recorded by data-loggers. The primary outcome was the incidence of hypothermia in the operating and recovery room. Neonatal outcomes were also analyzed. RESULTS: The patients in the passive insulation group had significantly lower temperatures in the operating room compared to the actively warmed group (36.4°C vs. 36.6°C, p = 0.005), including temperature at skin closure (36.5°C vs. 36.7°C, p = 0.017). The temperature of the newborns after discharge from the postanesthetic care unit was lower in the passive insulation group (36.7°C vs. 37.0°C, p = 0.002); thirteen (15%) of the newborns were hypothermic, compared to three (4%) in the active warming group (p < 0.01). CONCLUSION: Forced-air warming decreases perioperative hypothermia in parturients undergoing cesarean section but does not entirely prevent hypothermia in newborns while bonding. Therefore, it can be effectively used for cesarean section, but special attention should be given to neonates.

Efeito da termometria na prevenção de úlceras de pé diabético: revisão sistemática com metanálise / Effect of thermometry on the prevention of diabetic foot ulcers: a systematic review with meta-analysis* / Efecto de la termometría en la prevención de las úlceras del pie diabético: revisión sistemática con metaanálisis

Resumo Objetivo: analisar o efeito da termometria podálica cutânea em pessoas com diabetes mellitus, comparado com prevenção padrão de úlceras podálicas adotada nesses pacientes. Método: revisão sistemática com metanálise. Protocolo registrado na PROSPERO (CRD42020202686). Foram seguidas as recomendações do Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA). Busca realizada nas fontes de dados: SCOPUS, Web of Science, MEDLINE via PubMed, MEDLINE via EBSCO, MEDLINE via Biblioteca Virtual em Saúde, Embase, CINAHL, Cochrane Library, LILACS via Biblioteca Virtual em Saúde, Google Scholar, Biblioteca Digital Brasileira de Teses e Dissertações, Catálogo de Teses & Dissertações-Capes, Open Grey e ProQuest Dissertations and Theses. O risco de viés foi avaliado pela Cochrane Collaboration Risk of Bias Tool (RoB 2), a metanálise no software Review Manager 5.4 e a Certeza da evidência no sistema Grading of Recommendations Assessment, Development and Evaluation. Resultados: dos 670 registros, cinco artigos eram elegíveis. A metanálise foi calculada para o desfecho prevenção da incidência de úlceras de pé diabético, com sumarização de efeito (RR 0,53; IC95% 0,29, 0,96; p=0,02), com certeza da evidência moderada. Conclusão: a termometria mostrou efeito protetor na incidência de úlceras de pé diabético, se comparada ao cuidado podálico padrão.

Abstract Objective: to analyze the effect of cutaneous foot thermometry in people with Diabetes Mellitus, compared with the standard prevention of foot ulcers adopted in these patients. Method: a systematic review with meta-analysis. Protocol registered with PROSPERO (CRD42020202686). The recommendations of the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) were followed. The search was performed in the following data sources: SCOPUS, Web of Science, MEDLINE via PubMed, MEDLINE via EBSCO, MEDLINE via Biblioteca Virtual em Saúde, Embase, CINAHL, Cochrane Library, LILACS via Biblioteca Virtual em Saúde, Google Scholar, Biblioteca Digital Brasileira de Teses e Dissertações, Catálogo de Teses & Dissertações-Capes, Open Grey and ProQuest Dissertations and Theses. The risk of bias was assessed by the Cochrane Collaboration Risk of Bias Tool (RoB 2), the meta-analysis was performed in the Review Manager 5.4 software and the Certainty of evidence in the Grading of Recommendations Assessment, Development and Evaluation system. Results: of the 670 records, five articles were eligible. The meta-analysis was calculated for the prevention of the incidence of diabetic foot ulcers outcome, with effect summarization (RR 0.53; 95%CI 0.29-0.96; p=0.02), with certainty of moderate evidence. Conclusion: thermometry showed a protective effect on the incidence of diabetic foot ulcers when compared to standard foot care.

Resumen Objetivo: analizar el efecto de la termometría cutánea del pie en personas con diabetes mellitus, en comparación con la prevención estándar de las úlceras del pie adoptada en estos pacientes. Método: revisión sistemática con metaanálisis. Protocolo registrado en PROSPERO (CRD42020202686). Se siguieron las recomendaciones de Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA). La búsqueda se realizó en las fuentes de datos: SCOPUS, Web of Science, MEDLINE a través de PubMed, MEDLINE a través de EBSCO, MEDLINE a través de la Biblioteca Virtual en Salud, Embase, CINAHL, Cochrane Library, LILACS a través de la Biblioteca Virtual en Salud, Google Scholar, Biblioteca Digital Brasileña de Tesis y Disertaciones, Catálogo de Tesis y Disertaciones-Capes, Open Grey y ProQuest Dissertations and Theses. El riesgo de sesgo se evaluó mediante la Cochrane Collaboration Risk of Bias Tool (RoB 2), el metaanálisis se realizó con el software Review Manager 5.4 y la certeza de la evidencia se evaluó mediante el sistema Grading of Recommendations Assessment, Development and Evaluation. Resultados: de los 670 registros, cinco artículos fueron elegibles. El metaanálisis se calculó para el resultado prevención de la incidencia de úlceras del pie diabético, con sumarización del efecto (RR 0,53; IC95% 0,29, 0,96; p=0,02), con certeza de evidencia moderada. Conclusión: la termometría mostró un efecto protector sobre la incidencia de úlceras del pie diabético en comparación con el cuidado estándar del pie.

Screening microchip sites to predict body temperature in young calves.

Thermal microchip sensors can automate body temperature measurements. The best site of implantation is still unknown, and the accuracy and precision of body temperature predictions based on microchip data need to be investigated. The aim of this study was to investigate the best site for microchip implant for monitoring body temperature in dairy calves. Seventeen calves were used (32.2 ± 5.2 kg of body weight) and the microchips were implanted four days after birth. The microchips were implanted at navel, ear and tail base (subcutaneous), neck (cleidocephalicus) and internal face of leg (gracilis) (intramuscular). Rectal temperature (RT, °C), obtained with a clinical thermometer, was considered as core temperature. Air temperature (AT), relative humidity (RH) and the temperature and humidity index (THI) were evaluated at the same time of rectal and microchip temperature measurements over 56 days. The range of AT, RH and THI was 7.6-34.4 °C, 17.5-99.0% and 50.6 to 91.5. The average for rectum, ear, neck, tail, leg, and navel were 38.7; 36.9; 38.0; 37.0, 37.8 and 37.0 °C. The intramuscular implantations had closest values to RT. The correlations between RT and ear, neck, tail, leg, and navel temperatures were 0.56, 0.60, 0.60, 0.53 e 0.48. The RT prediction based on microchip data had precision (rc) ranged between 0.49 and 0.60 and accuracy (Cb) between 0.79 and 0.88. The inclusion of AT, RH and THI as predictive variables in models decrease the mean absolute error (23%) and increase the precision (21.3%) and accuracy (10.2%). The Concordance Correlation Coefficient and root-mean-square error for equations using tail or neck microchips were 0.68 and 0.67, and 0.29 and 0.28 °C, respectively. The tail base is a promising site for microchip implantation to predict rectal temperature. The inclusion of air temperature as a predictive variable in the models is recommended.

Effects of heat stress on performance and thermoregulatory responses of Piau purebred growing pigs.

The study of how different breeds adapt to heat stress and the further understanding of mechanisms underlying pigs thermotolerance is of utmost importance to attenuate the negative effects of heat stress on pigs welfare, physiology, and performance. Therefore, this study aimed at evaluating the effects of ambient temperature on performance and thermoregulatory responses of Piau purebred pigs. The Brazilian native pig breed Piau is a fat-type breed characterized by adaptability and resistance to diseases. To achieve our goal, Piau purebred pigs (65 kg initial BW) were allocated to one of the two constant ambient temperature conditions: thermoneutral (22 °C; n = 11) and heat stress (30 °C; n = 11). The experimental period lasted 15 days (days 1 to 15). Pigs were individually weighed at the beginning and end of the experimental period. Body and rectal temperatures, respiratory rate and blood indicators of stress and metabolism were measured throughout the experiment. Piau purebred pigs exposed to 30 °C had lower (p < 0.05) feed intake, body weight gain and final body weight than pigs at 22 °C. Feed conversion rate was not affected (p > 0.05) by ambient temperature. Irrespective of ambient temperature, pigs had similar (p > 0.05) backfat thickness and loin eye area. Piau pigs at 30 °C had increased (p < 0.05) nape, dorsal, flank, and rectal temperatures and increased respiratory rate than their counterparts reared at 22 °C. In summary, our results show that Piau purebred pigs acclimation to 30 °C of ambient temperature is characterized by increased body skin temperature to optimize sensible heat loss to the environment; increased respiratory rate to promote latent heat loss; and by a concomitant reduced voluntary feed intake to reduce heat production associated with digestion and metabolic processes with negative effects on body weight gain.

Asociación entre la termografía por infrarrojo, parámetros antropométricos y gasto energético de reposo en hombres / Association between infrared thermography, anthropometry parameters and rest energy expenditure in men

RESUMEN: Es reconocido que un incremento de la grasa corporal subcutánea es capaz de alterar el patrón de liberación de calor a través de la piel. Sin embargo, la asociación con otras variables antropométricas y la influencia del gasto energético en reposo (GER), han sido escasamente abordadas. Este estudio determinó la relación de la temperatura de la piel con variables antropométricas, peso corporal y GER de hombres adultos sanos. Participaron en el estudio un total de 24 varones sanos de 33,9±8,7 años de edad, 85,8±9,7 kg de peso corporal, 172,5±6,1 cm de estatura y 28,9±3,4 kg/m2 de índice de masa corporal (IMC). Se realizaron evaluaciones antropométricas, de termografía por infrarrojo y del GER por calorimetría indirecta, con analizador de gases. La temperatura promedio de los 6-pliegues, y las individuales (toracoabdominales, supra-espinal y abdominal), tuvieron correlaciones negativas con el IMC, perímetro de cintura, índice cintura cadera, índice cintura estatura, y la sumatoria de 6 pliegues; todos con p<0,05. Además, la temperatura del pliegue supraespinal tuvo una correlación negativa con el porcentaje de masa adiposa (MA%), r=0,47(p=0,0194). La MA% y el IMC tuvieron correlaciones negativas con el GER, con r=-0,59 (p=0,002) y r=-0,53 (p=0,006), respectivamente. El promedio de temperatura de los 6-pliegues presentó una correlación positiva con el GER (r=0,44; p=0,02). La composición corporal causa una modificación en los patrones de termografía superficial local, sin afectar la relación entre el promedio de la temperatura superficial total con el GER, pudiendo éste ser un factor predictor.

SUMMARY: It is known that an increase in the subcutaneous body fat can alter the pattern of heat release through the skin. However, the relationship with other anthropometric variables and the influence of the Resting Energy Expenditure (REE) have scarcely been addressed. To determine the relationship of skin temperature with different anthropometric variables, body weight, and the REE of healthy adult males. The participants were a total of 24 healthy males of 33.9±8.7 years-old, 85.8±9.7 kg of body mass, 172.5±6.1 cm of height, and 28.9±3.4 kg/m2 of body mass index (BMI). Anthropometric, infrared thermography, and indirect calorimetry REE assessments were performed with gas analyzer. The six skinfolds average temperature, as well as the individual skinfolds (thoracoabdominal, supraspinal, and abdominal), had negative correlations with the BMI, waist circumference, waist- hip ratio, waist-to-height ratio, and the sum of the six skinfolds, all with p<0.05. In addition, the temperature of the supraspinal fold had a negative correlation with the percentage of fat mass (MA%), r=0.47 (p=0.0194). MA% and BMI had negative correlations with REE, with r=-0.59 (p=0.002) and r=-0.53 (p=0.006), respectively. The six-skinfolds average temperature presented a positive correlation with the REE (r=0.44; p=0.02). Body composition changes cause a modification in the local surface thermography patterns without affecting the relationship between the average total body surface temperature with the REE; therefore, this could act as a predictive factor.

Drying of residual tilapia skin from filleting using a thermophotovoltaic solar dehydrator / Secagem da pele de tilápia residual de filetagem em desidratador solar termofotovoltaico

Tilapia comprises one of the most cultivated fish species worldwide, mainly commercialized in the form of fillets. As a result, the amount of waste generated by processing is high, with tilapia skin being commonly discarded and not used as food for human consumption. In this context, the aim of this study was to dry residual filleted tilapia skins in a solar dehydrator and perform physical-chemical analyses after drying in order to evaluate the potential for the development of byproducts. The skins were collected at a fish market on Mercado do Peixe in Teresina - PI. Treatments consisted of four sodium chloride concentrations (0.0%; 25.0%; 50.0% and 100.0%), with five replications, totaling 25 samples. The skins were dried in the solar dehydrator for 24 hours, followed by moisture, ash, protein, lipids, pH and water activity analyses. Moisture in the in naturaskins was 57.7%, differing significantly from the dehydrated tilapia skins, which ranged from 9.4% to 10.6%. The ash in the in natura skins was 0.17%, while dehydrated tilapia skins displayed variations from 1.19% to 4.17%. The crude protein found of the in natura skins was 41.4%, significantly different (P <0.05) from the skins submitted to the solar dehydration method. Based on these findings, the use of solar dehydrator for short periods is confirmed to favor the uniform dehydration of residual tilapia skin from filleting, generating a product with satisfactory bromatological patterns for the development of fish-based by-products.(AU)

A tilápia é uma das espécies de peixe mais cultivadas no mundo, sendo comercializada principalmente na forma de filé, com isso, a quantidade de resíduos gerada com o processamento é elevada, sendo a pele de tilápia comumente descartada e não aproveitada como alimento de consumo humano. Desta forma, o objetivo desse estudo foi aproveitar peles de tilápia residuais de filetagem e realizar análises físico-química após secagem em desidratador solar afim de avaliar seu potencial para desenvolvimento de coprodutos. As peles foram coletadas no Mercado do Peixe em Teresina - PI. Foram definidos os tratamen-tos, adicionando quatro concentrações de cloreto de sódio (0,0%; 25,0%; 50,0% e 100,0%), com cinco repetições, totalizando 25 amostras. As peles foram encaminhadas para secagem no desidratador solar por 24 horas. Depois, realizou-se as análises de umidade, cinzas, proteína, lipídios, pH e atividade de água. O teor de umidade encontrado na pele em natureza foi de 57,7%, diferindo significativamente das peles de tilápia desidratadas que variaram de 9,4% a 10,6%. O teor de cinzas encontrado na pele em natureza foi de 0,17%, enquanto nas peles de tilápia desidratadas houve uma variação de 1,19% a 4,17%. A proteína bruta encontrada nas peles da tilápia em natureza foi de 41,4%, diferindo significativamente (P < 0,05) das peles submetidas ao método de desidratação solar. Com base nos resultados observados nesse estudo, conclui-se que a utilização de desidrata-dor solar em curtos períodos favorece a desidratação uniforme da pele de tilápia residual de filetagem, gerando produto com padrões bromatológicos satisfatórios para o desenvolvimento de coprodutos à base de pescado.(AU)

Drying of residual tilapia skin from filleting using a thermophotovoltaic solar dehydrator / Secagem da pele de tilápia residual de filetagem em desidratador solar termofotovoltaico

Tilapia comprises one of the most cultivated fish species worldwide, mainly commercialized in the form of fillets. As a result, the amount of waste generated by processing is high, with tilapia skin being commonly discarded and not used as food for human consumption. In this context, the aim of this study was to dry residual filleted tilapia skins in a solar dehydrator and perform physical-chemical analyses after drying in order to evaluate the potential for the development of byproducts. The skins were collected at a fish market on Mercado do Peixe in Teresina - PI. Treatments consisted of four sodium chloride concentrations (0.0%; 25.0%; 50.0% and 100.0%), with five replications, totaling 25 samples. The skins were dried in the solar dehydrator for 24 hours, followed by moisture, ash, protein, lipids, pH and water activity analyses. Moisture in the in naturaskins was 57.7%, differing significantly from the dehydrated tilapia skins, which ranged from 9.4% to 10.6%. The ash in the in natura skins was 0.17%, while dehydrated tilapia skins displayed variations from 1.19% to 4.17%. The crude protein found of the in natura skins was 41.4%, significantly different (P <0.05) from the skins submitted to the solar dehydration method. Based on these findings, the use of solar dehydrator for short periods is confirmed to favor the uniform dehydration of residual tilapia skin from filleting, generating a product with satisfactory bromatological patterns for the development of fish-based by-products.

A tilápia é uma das espécies de peixe mais cultivadas no mundo, sendo comercializada principalmente na forma de filé, com isso, a quantidade de resíduos gerada com o processamento é elevada, sendo a pele de tilápia comumente descartada e não aproveitada como alimento de consumo humano. Desta forma, o objetivo desse estudo foi aproveitar peles de tilápia residuais de filetagem e realizar análises físico-química após secagem em desidratador solar afim de avaliar seu potencial para desenvolvimento de coprodutos. As peles foram coletadas no Mercado do Peixe em Teresina - PI. Foram definidos os tratamen-tos, adicionando quatro concentrações de cloreto de sódio (0,0%; 25,0%; 50,0% e 100,0%), com cinco repetições, totalizando 25 amostras. As peles foram encaminhadas para secagem no desidratador solar por 24 horas. Depois, realizou-se as análises de umidade, cinzas, proteína, lipídios, pH e atividade de água. O teor de umidade encontrado na pele em natureza foi de 57,7%, diferindo significativamente das peles de tilápia desidratadas que variaram de 9,4% a 10,6%. O teor de cinzas encontrado na pele em natureza foi de 0,17%, enquanto nas peles de tilápia desidratadas houve uma variação de 1,19% a 4,17%. A proteína bruta encontrada nas peles da tilápia em natureza foi de 41,4%, diferindo significativamente (P < 0,05) das peles submetidas ao método de desidratação solar. Com base nos resultados observados nesse estudo, conclui-se que a utilização de desidrata-dor solar em curtos períodos favorece a desidratação uniforme da pele de tilápia residual de filetagem, gerando produto com padrões bromatológicos satisfatórios para o desenvolvimento de coprodutos à base de pescado.

Interventionist videothermometry: a new model of cardiac ischemia evaluation.

BACKGROUND: The purpose of the present study was to evaluate, through videothermometry, the temperature variation in the hearts of rabbits, that underwent induced myocardial ischemia and reperfusion. RESULTS: A total of 20 female rabbits were divided into two groups: a treated group and a sham group, the treatment group underwent 5 min of cardiac arrest and reperfusion, using the inflow occlusion technique. Throughout the experiment, the animals were monitored by videothermometry, observing the thermal variations of the myocardial tissue. During the experiment, at different times, blood gas tests and tests to evaluate the lactate concentrations were performed. At the end of the experiment, each heart was submitted to histopathological evaluation. In the treated group, there was a reduction in temperature of the myocardial tissue during the circulatory arrest compared to the sham group. Additionally, a colder area next to the caudal vena cava ostium and the right atrium was observed. Notably, despite the 5 min of cardiac arrest in the treated group, both the lactate and bicarbonate levels were maintained without significant variation. However, there was an increase in PaCO2 and pH reduction, featuring respiratory acidosis. In relation to the histopathological study, the presence of hydropic degeneration in the myocardium of animals in the treated group was observed. CONCLUSIONS: Based on these results, the videothermometry was efficient in identifying the range of myocardial tissue temperature, suggesting that the first areas to suffer due to cardiac arrest were the caudal vena cava ostium and the right atrium. However, in regard to the angiographic coronary thermography, the study was not feasible due to the small size of the coronary. There was no variation between the groups regarding the presence of myocardial infarction, myocardial congestion, myocardial edema and myocardial hemorrhage.

An In Vivo Assessment of Regional Brain Temperature during Whole-Body Cooling for Neonatal Encephalopathy.

OBJECTIVE: To assess differences in regional brain temperatures during whole-body hypothermia and test the hypothesis that brain temperature profile is nonhomogenous in infants with hypoxic-ischemic encephalopathy. STUDY DESIGN: Infants with hypoxic-ischemic encephalopathy were enrolled prospectively in this observational study. Magnetic resonance (MR) spectra of basal ganglia, thalamus, cortical gray matter, and white matter (WM) were acquired during therapeutic hypothermia. Regional brain tissue temperatures were calculated from the chemical shift difference between water signal and metabolites in the MR spectra after performing calibration measurements. Overall difference in regional temperature was analyzed by mixed-effects model; temperature among different patterns and severity of injury on MR imaging also was analyzed. Correlation between temperature and depth of brain structure was analyzed using repeated-measures correlation. RESULTS: In total, 53 infants were enrolled (31 girls, mean gestational age: 38.6 ± 2 weeks; mean birth weight: 3243 ± 613 g). MR spectroscopy was acquired at mean age of 2.2 ± 0.6 days. A total of 201 MR spectra were included in the analysis. The thalamus, the deepest structure (36.4 ± 2.3 mm from skull surface), was lowest in temperature (33.2 ± 0.8°C, compared with basal ganglia: 33.5 ± 0.9°C; gray matter: 33.6 ± 0.7°C; WM: 33.8 ± 0.9°C, all P < .001). Temperatures in more superficial gray matter and WM regions (depth: 21.9 ± 2.4 and 21.5 ± 2.2 mm) were greater than the rectal temperatures (33.4 ± 0.4°C, P < .03). There was a negative correlation between temperature and depth of brain structure (rrm = -0.36, P < .001). CONCLUSIONS: Whole-body hypothermia was effective in cooling deep brain structures, whereas superficial structures were warmer, with temperatures significantly greater than rectal temperatures.

Infrared enthalpymetric methods: A new, fast and simple alternative for sodium determination in food sauces.

This work developed a new technique and an application of an existing approach to determine sodium in food sauces, involving enthalpimetric reactions in the infrared. Infrared Thermometric Titration (TT-IR) was utilized, with simple analyzers and low-cost measurement instruments for the acquisition of the surface temperature generated in the sodium precipitation reaction and development of software for the acquisition and processing of data using Raspberry Pi. The sodium was also quantified by Thermal Infrared Enthalpimetry (TIE), a recently developed technique. The rapid and simple quantification of sodium by the TT-IR and TIE showed the possibility of a selective reaction for sodium, using aluminum nitrate, potassium and ammonium fluoride in an acid medium, with reduction of the reagents and without the digestion step in the sample preparation. The results acquired through TT-IR and TIE corroborated the Flame Atomic Emission Spectrometry (FAES) with 96 to 103% and 95 to 102%, respectively.

In vivo magnetic nanoparticle hyperthermia: a review on preclinical studies, low-field nano-heaters, noninvasive thermometry and computer simulations for treatment planning.

Magnetic nanoparticle hyperthermia (MNH) is a promising nanotechnology-based cancer thermal therapy that has been approved for clinical use, together with radiation therapy, for treating brain tumors. Almost ten years after approval, few new clinical applications had appeared, perhaps because it cannot benefit from the gold standard noninvasive MRI thermometry technique, since static magnetic fields inhibit heat generation. This might limit its clinical use, in particular as a single therapeutic modality. In this article, we review the in vivo MNH preclinical studies, discussing results of the last two decades with emphasis on safety as a clinical criteria, the need for low-field nano-heaters and noninvasive thermal dosimetry, and the state of the art of computational modeling for treatment planning using MNH. Limitations to more effective clinical use are discussed, together with suggestions for future directions, such as the development of ultrasound-based, computed tomography-based or magnetic nanoparticle-based thermometry to achieve greater impact on clinical translation of MNH.

Videothermometry to evaluate metabolic activity in real time during pneumectomy in rats.

PURPOSE: To evaluate, in rats, the open field videothermometry in real time while performing left pneumonectomy for early diagnosis of cardiopulmonary changes. METHODS: Twelve non-specific pathogen-free Wistar rats were randomly allocated into two groups; pneumectomy group (GP) and sham surgery group (GS). Mean arterial pressure, videothermometry in real time, of the right lung, and histopathological analysis of the remaining lung were evaluated in all animals. RESULTS: Videothermometry in real time allowed identification of temperature variance of right lung after pneumectomy, indicating a significant decrease in temperature during evaluation. There was a statistical difference between M0 and M1, M1 and M2 and M0 and M2 (p<0.004) in GS, and significant difference between M0 and M1, M1 and M2, and M2 and M0 with p<0.0001 in GP. CONCLUSIONS: Left pneumonectomy in rats shows initial histopathological changes after 60 minutes of its completion, indicating a possible compensation beginning. The open-field videothermometry in real time proved to be efficient identifying the temperature changes of the remaining lung.

Videothermometry to evaluate metabolic activity in real time during pneumectomy in rats

Purpose:To evaluate, in rats, the open field videothermometry in real time while performing left pneumonectomy for early diagnosis of cardiopulmonary changes.Methods:Twelve non-specific pathogen-free Wistar rats were randomly allocated into two groups; pneumectomy group (GP) and sham surgery group (GS). Mean arterial pressure, videothermometry in real time, of the right lung, and histopathological analysis of the remaining lung were evaluated in all animals.Results:Videothermometry in real time allowed identification of temperature variance of right lung after pneumectomy, indicating a significant decrease in temperature during evaluation. There was a statistical difference between M0 and M1, M1 and M2 and M0 and M2 (p<0.004) in GS, and significant difference between M0 and M1, M1 and M2, and M2 and M0 with p<0.0001 in GP.Conclusions:Left pneumonectomy in rats shows initial histopathological changes after 60 minutes of its completion, indicating a possible compensation beginning. The open-field videothermometry in real time proved to be efficient identifying the temperature changes of the remaining lung.(AU)

Métodos de termometria não invasiva em comparação oa método de aferição da temperatura de cateter de artéria pulmonar: um estudo de medidas repetidas / Comparison of noninvasive methods of thermometry and the pulmonary artery, temperature method: a repeated measures study

A aferição da temperatura corporal é uma ferramenta essencial no cuidado de pacientes críticos. Para a identificação da temperatura corporal é necessário o uso de um termômetro preciso e ágil. Quando técnicas invasivas não estão sendo utilizadas, a equipe de enfermagem depende de termômetros não invasivos. Atualmente, na literatura, não há um consenso sobre a acurácia e precisão de métodos como as temperaturas oral, axilar, de membrana timpânica ou de artéria temporal. Ademais evidências acerca dos fatores que podem alterar a confiabilidade desses métodos são escassas. Por isso estudos clínicos devem ser realizados com esses métodos para respaldar o uso dessas técnicas na prática. Objetivo: Comparar a acurácia e precisão de métodos de termometria não invasivas (artéria temporal, membrana timpânica, oral e axilar) em comparação a temperatura de artéria pulmonar. Método: Foram realizados uma revisão sistemática e metanálise e um estudo clínico de medidas repetidas. A metanálise foi realizada com dados de 41 artigos pesquisados na literatura. Os dados do estudo clínico foram coletados em duas Unidades de Terapia Intensiva na cidade de Belo Horizonte. Foram incluídos pacientes adultos em uso do cateter de artéria pulmonar. As cinco temperaturas foram aferidas três vezes de cada paciente. Para análise dos dados foi realizada análise descritiva, gráficos de Bland-Altman e análises de regressão. Resultados: A acurácia e precisão das temperaturas na metanálise foram; temperatura axilar, -0,35 e 0,06; temperatura oral, -0,21 e 0,08; temperatura de membrana timpânica, -0,05 e 0,05; e temperatura de artéria temporal, -0,22 e 0,26. A acurácia e precisão após análise dos dados do estudo clínico foram, respectivamente: temperatura axilar, -0,42 e 0,59; temperatura oral, -0,30 e 0,37; temperatura de membrana timpânica, -0,21 e 0,44; e temperatura de artéria temporal, -0,25 e 0,61. Conclusão: Os termômetros não invasivos mostraram uma boa acurácia e precisão em relação a temperatura de artéria pulmonar, entretanto em pacientes com alterações da temperatura os termômetros não invasivos tornam-se pouco acurados.(AU)

The identification of body temperature is an essential tool in critical care nursing. The use of a reliable and agile thermometer is necessary to identify the real body temperature. When available, invasive thermometer are indicated for its precision. Although, when not available, the nursing staff must rely in noninvasive thermometers. Nowadays, in the literature, there isn´t a consensus about the reliability of noninvasive temperature techniques, such as axillary, oral, tympanic membrane and temporal artery. Furthermore, there is a lack of knowledge about factors that alters the reliability of those thermometers. Clinical studies must be developed to back these techniques in nursing care. Aim: Compare the accuracy and precision of noninvasive techniques (axillary, oral, tympanic membrane and temporal artery) with the pulmonary artery temperature. Methods: An Systematic review/Metanalysis and a Cross-sectional Repeated measure clinical study were developed. The Metanalysis used data from 41 published articles. The data for the clinical study were collected in two intensive care units of two hospitals in Belo Horizonte. Patients with pulmonary artery catheter were included. The five temperatures were measured three times in each patient. Descriptive analyses were made, Bland-Altmann graphics were plotted and a four regression models were developed. Results: The accuracy and precision identified in the Metanalysis were: axillary, -0,35 and 0,06; oral, -0,21 and 0,08; tympanic membrane, -0,05 and 0,05; and temporal artery, -0,22 and 0,26. The accuracy and precision of the noninvasive thermometers and the pulmonary artery temperature identified in the clinical study were: axillary -0,42 and 0,59; oral -0,30 and 0,37; tympanic membrane -0,21 and 0,44; and temporal artery -0,25 and 0,61. Conclusion: The noninvasive thermometers showed a good accuracy and precision when compared with the pulmonary temperature, However, in non-normothermic patients the reliability of the thermometers is poor.(AU)

Videothermometry to evaluate metabolic activity in real time during pneumectomy in rats

Abstract Purpose: To evaluate, in rats, the open field videothermometry in real time while performing left pneumonectomy for early diagnosis of cardiopulmonary changes. Methods: Twelve non-specific pathogen-free Wistar rats were randomly allocated into two groups; pneumectomy group (GP) and sham surgery group (GS). Mean arterial pressure, videothermometry in real time, of the right lung, and histopathological analysis of the remaining lung were evaluated in all animals. Results: Videothermometry in real time allowed identification of temperature variance of right lung after pneumectomy, indicating a significant decrease in temperature during evaluation. There was a statistical difference between M0 and M1, M1 and M2 and M0 and M2 (p<0.004) in GS, and significant difference between M0 and M1, M1 and M2, and M2 and M0 with p<0.0001 in GP. Conclusions: Left pneumonectomy in rats shows initial histopathological changes after 60 minutes of its completion, indicating a possible compensation beginning. The open-field videothermometry in real time proved to be efficient identifying the temperature changes of the remaining lung.