Your search keyword '"non-invasive measurement"' showing total 12 results

1. Skinly: A novel handheld IoT device for validating biophysical skin characteristics.

Author

Tobar, Maria del Pilar Bonilla, Clemann, Sven, Hagens, Ralf, Pagel‐Wolff, Sonja, Hoppe, Stefan, Behm, Peter, Engelhard, Felicia, Langhals, Maria, Gallinat, Stefan, Zhavoronkov, Alex, Georgievskaya, Anastasia, Kiselev, Konstantin, Tlyachev, Timur, and Jaspers, Sören

Subjects

*ARTIFICIAL intelligence, *MACHINE learning, *DEEP learning, *INTERNET of things, *MOBILE apps, *ARTIFICIAL skin

Abstract

Background: Recent advancements in artificial intelligence have revolutionized dermatological diagnostics. These technologies, particularly machine learning (ML), including deep learning (DL), have shown accuracy equivalent or even superior to human experts in diagnosing skin conditions like melanoma. With the integration of ML, including DL, the development of at home skin analysis devices has become feasible. To this end, we introduced the Skinly system, a handheld device capable of evaluating various personal skin characteristics noninvasively. Materials and Methods: Equipped with a moisture sensor and a multi‐light‐source camera, Skinly can assess age‐related skin parameters and specific skin properties. Utilizing state‐of‐the‐art DL, Skinly processed vast amounts of images efficiently. The Skinly system's efficacy was validated both in the lab and at home, comparing its results to established "gold standard" methods. Results: Our findings revealed that the Skinly device can accurately measure age‐associated parameters, that is, facial age, skin evenness, and wrinkles. Furthermore, Skinly produced data consistent with established devices for parameters like glossiness, skin tone, redness, and porphyrin levels. A separate study was conducted to evaluate the effects of two moisturizing formulations on skin hydration in laboratory studies with standard instrumentation and at home with Skinly. Conclusion: Thanks to its capability for multi‐parameter measurements, the Skinly device, combined with its smartphone application, holds the potential to replace more expensive, time‐consuming diagnostic tools. Collectively, the Skinly device opens new avenues in dermatological research, offering a reliable, versatile tool for comprehensive skin analysis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Volume‐localized measurement of oxygen extraction fraction in the brain using MRI.

Author

O'Brien, Caitlin, Okell, Thomas W., Chiew, Mark, and Jezzard, Peter

Subjects

OXYGEN, REGIONAL differences, BRAIN, FRACTIONS

Abstract

Purpose: T2‐relaxation‐under‐spin‐tagging (TRUST) is an MR technique for the non‐invasive assessment of whole‐brain cerebral oxygen extraction fraction (OEF), through measurement of the venous blood T2 relaxation time in the sagittal sinus. A key limitation of TRUST, however, is the lack of spatial specificity of the measurement. We sought to develop a modified TRUST sequence, selective localized TRUST (SL‐TRUST), having sensitivity to venous blood T2 within a targeted brain region, and therefore achieving spatially localized measurements of cerebral tissue OEF, while still retaining acquisition in the sagittal sinus. Methods: A method for selective localization of TRUST sequence was developed, and the reproducibility of the technique was evaluated in healthy participants. Regional measurements were achieved for a single hemisphere and for a 3D‐localized 70 × 70 × 80 mm3 tissue region using SL‐TRUST and compared to a global TRUST measure. An additional measure of venous blood T1 in the sagittal sinus was used to estimate subject‐specific hematocrit. Six subjects were scanned over 4 sessions, including intra‐session repeat measurements. Results: The average T2 in the sagittal sinus was found to be 60.8 ± 8.9, 62.7 ± 7.9, 64.6 ± 8.4, and 66.3 ± 10.3 ms (mean ± SD) for conventional TRUST, global SL‐TRUST, hemispheric SL‐TRUST, and 3D‐localized SL‐TRUST, respectively. Intra‐, inter‐session, and inter‐subject coefficients of variation for OEF using SL‐TRUST were found to be comparable and in some cases superior to those obtained using TRUST. Conclusion: OEF comparison of 2 contralateral regions was achievable in under 5 min suggesting SL‐TRUST offers potential for quantifying regional OEF differences in both healthy and clinical populations. [ABSTRACT FROM AUTHOR]

Published

2019

3. Impact of water exposure on skin barrier permeability and ultrastructure.

Author

Ogawa‐Fuse, Chie, Morisaki, Naoko, Shima, Kyoko, Hotta, Mitsuyuki, Sugata, Keiichi, Ichihashi, Toshiki, Oguri, Masashi, Yoshida, Osamu, and Fujimura, Tsutomu

Subjects

*SKIN permeability, *WATER

Abstract

Background: Skin occlusion caused by the use of diapers or sanitary napkins often results in irritant contact dermatitis. Furthermore, prolonged occlusion and exposure to body fluids are known to increase skin hydration and permeability, thus leading to irritant contact dermatitis. Objective: To investigate the effects of water exposure on the skin and its barrier functions, in order to obtain more insights into the mechanisms of irritant contact dermatitis. Methods: Water patches were applied to the volar forearm skin of 10 human subjects for 3 hours. Permeability of the stratum corneum (SC) was examined with methyl nicotinate (MN). Alterations in the hydration and ultrastructure of the SC were measured with Raman spectroscopy and multiphoton microscopy, respectively. Results: Water profiles found with Raman spectroscopy showed notable increases in water content throughout the SC and skin surface. Multiphoton microscopy showed morphological changes in the intercellular space of the SC. Emerged pools seemed to contribute to increased MN absorption. Conclusion: Excessive skin hydration leading to changes in the SC ultrastructure might result in increased skin permeability to skin irritants and allergens. [ABSTRACT FROM AUTHOR]

Published

2019

4. New assay method based on Raman spectroscopy for enzymes reacting with gaseous substrates.

Author

Kawahara‐Nakagawa, Yuka, Nishikawa, Koji, Nakashima, Satoru, Inoue, Shota, Ohta, Takehiro, Ogura, Takashi, Shigeta, Yasuteru, Fukutani, Katsuyuki, Yagi, Tatsuhiko, and Higuchi, Yoshiki

Abstract

Enzyme activity is typically assayed by quantitatively measuring the initial and final concentrations of the substrates and/or products over a defined time period. For enzymatic reactions involving gaseous substrates, the substrate concentrations can be estimated either directly by gas chromatography or mass spectrometry, or indirectly by absorption spectroscopy, if the catalytic reactions involve electron transfer with electron mediators that exhibit redox‐dependent spectral changes. We have developed a new assay system for measuring the time course of enzymatic reactions involving gaseous substrates based on Raman spectroscopy. This system permits continuous monitoring of the gas composition in the reaction cuvette in a non‐invasive manner over a prolonged time period. We have applied this system to the kinetic study of the [NiFe] hydrogenase from Desulfovibrio vulgaris Miyazaki F. This enzyme physiologically catalyzes the reversible oxidation of H2 and also possesses the nonphysiological functions of H/D exchange and nuclear spin isomer conversion reactions. The proposed system has the additional advantage of enabling us to measure all of the hydrogenase‐mediated reactions simultaneously. Using the proposed system, we confirmed that H2 (the fully exchanged product) is concomitantly produced alongside HD by the H/D exchange reaction in the D2/H2O system. Based on a kinetic model, the ratio of the rate constants of the H/D exchange reaction (k) at the active site and product release rate (kout) was estimated to be 1.9 ± 0.2. The proposed assay method based on Raman spectroscopy can be applied to the investigation of other enzymes involving gaseous substrates. [ABSTRACT FROM AUTHOR]

Published

2019

5. A Modular Approach of Different Geometries for Non-invasive Oxygen Measurement inside Moving Food Packages.

Author

Cocola, L., Fedel, M., Tondello, G., and Poletto, L.

Subjects

FOOD packaging, OXYGEN analysis, SEMICONDUCTOR lasers, LASER spectroscopy, ABSORPTION spectra, MODULAR design

Abstract

The importance of a controlled atmosphere in food packages is paramount to maximize shelf life, limit bacterial activity and avoid mould growth. Residual oxygen is one of the most important gases related with ageing of products meant to have a long shelf life. As oxygen is a main component in the atmosphere, it can be present in foods after manufacturing and usually needs to be removed during the packaging process. An experimental set-up for non-invasive gaseous oxygen sensing inside food packages using laser spectroscopy has been studied in order to easily adapt the measurement technique on a wide range of trays with different geometrical and optical properties. Different measurement arrangements have been considered and evaluated in order to provide guidelines to the applicability of this system to samples in a continuously moving production line. Copyright © 2017 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2017

6. Reliability of spot-check transcutaneous hemoglobin measurement in children.

Author

Paksu, Sule, Paksu, Muhammet Sukru, Ozdemir, Sadriye, Karli, Arzu, Acikgoz, Mehmet, Sezgin, Ugur, and Murat, Naci

Subjects

*VEINS, *ACTIVE oxygen in the body, *BLOOD testing, *BODY weight, *DEMOGRAPHY, *DRUG administration, *HEART rate monitoring, *HEMATOCRIT, *HEMOGLOBINS, *PEDIATRICS, *PERFUSION, *RESEARCH funding, *STATISTICS, *STATURE, *TRANSDERMAL medication, *VITAL signs, *DATA analysis, *HUMAN research subjects, *PATIENT selection, *DATA analysis software, *DESCRIPTIVE statistics, *AUTOANALYZERS, *ANATOMY

Abstract

Background This study investigated the correlation between spot-check transcutaneous hemoglobin (Hb) and simultaneously measured venous Hb in children. Methods Two hundred and seventeen children weighing 10-30 kg in whom complete blood count had been obtained for any reason were enrolled in this study. Demographic characteristics and vital signs were recorded. Prior to taking blood samples, transcutaneous Hb, heart rate, oxygen saturation, and perfusion index were measured using a probe connected to the subject's thumb. To determine the reliability of the transcutaneous measurement versus venous blood measurement performed via an autoanalyzer device, interclass correlation coefficient (ICC) was calculated. The correlation between the two measurements was evaluated on Bland-Altman analysis. Results A total of 59.4% of the patients were boys. The average age was 53 months (range, 6-132 months). Average bodyweight was 16 kg (range, 10-25 kg). Mean venous Hb, hematocrit, and transcutaneous Hb were 11.94 ± 1.15 g/dL, 35.8 ± 3.2%, and 12.42 ± 1.24 g/dL, respectively. The ICC for the reliability of the transcutaneous measurements versus venous blood measurements was r = 0.67 (95%CI: 0.5776-0.7526). The correlation between the two sets of measurements was good, as evaluated by the Bland-Altman analysis. Conclusion There is good correlation between transcutaneous and venous blood measurements of Hb. In the future, transcutaneous measurement, as a non-invasive method, may be an alternative for the measurement of Hb in childhood. [ABSTRACT FROM AUTHOR]

Published

2016

7. Comparison of two series of non-invasive instruments used for the skin physiological properties measurements: the 'Soft Plus' from Callegari S.p.A vs. the series of detectors from Courage & Khazaka.

Author

Hua, W., Xie, H., Chen, T., and Li, L.

Subjects

*SKIN physiology, *MEDICAL equipment, *SEBUM, *MELANINS, *HYDRATION, *COMPARATIVE studies

Abstract

Background The invasive measuring techniques are of great help in the evaluation of skin physiological functions and topical formulation. The reproducibility and accuracy of the instrument are crucial. Aims The aim of this study is to reveal the differences and correlations in measuring skin hydration, pH, sebum, elasticity and melanin on the forearm or faces between two commercially available series of instruments. Materials & Methods 20 subjects were enrolled to be measured by the two series of instruments. The measurements by each series were performed on the left/right side of the body randomly. The pH, sebum, elasticity and melanin measurements were performed on the faces in different areas, while the hydration measurements were operated on the forearms before and after wet dressing, respectively. Results Positive correlations were found in the values of skin SC hydration, pH, sebum and melanin detected by the two series. The values related to skin elasticity measured by the two instruments were statistically negative correlated. The Soft Plus series has higher variation in detecting skin hydration, pH, and melanin than the instruments from Courage & Khazaka. Discussion The differences of the two series must be instrument related. The difference in level of measurement can be due either to differences in the design of the probe, to differences in time for measurement, to differences in left/right part of the body or a combination of these three. Conclusion The two series have significant correlations. The instruments from CK are more reproducible. [ABSTRACT FROM AUTHOR]

Published

2014

8. Measurement of exhaled nitric oxide: Comparison of different analysers S Korn et al. Comparison of different NO analysers.

Author

KORN, Stephanie, TELKE, Ina, KORNMANN, Oliver, and BUHL, Roland

Subjects

*NITRIC oxide, *EOSINOPHILIA, *AIRWAY (Anatomy), *INFLAMMATION, *OBSTRUCTIVE lung diseases, *DIAGNOSIS, *DISEASES

Abstract

Exhaled nitric oxide (NO) is used as a surrogate marker to monitor eosinophilic airway inflammation, assist in diagnosis, and support treatment decisions for asthma patients. The aim of this study was to compare five NO analysers: Medisoft (M), Aerocrine Niox (N), Aerocrine Niox flex (NF), Aerocrino Niox mino (NM) and EcoMedics (E). In 85 subjects (25 asthma patients, 25 COPD patients, 35 healthy volunteers; median age 36.5 years, range 23-79, 47% female), three NO measurements per individual were performed, using each analyser according to the American Thoracic Society/European Respiratory Society guidelines. Subjects evaluated the devices on the basis of comfort and ease of performing the measurement. Median NO concentrations were 24.8 parts per billion (ppb) (range 6.3-262.7) for M, 14.5 ppb (0.0-196.6) for N, 15.2 ppb (5.6-67.7) for NF, 16.3 ppb (5.0-208.3) for NM, and 13.1 ppb (4.0-103.0) for E. There was significant correlation among the absolute NO values measured with all the devices (0.743 for M vs NF < r < 0.979 for N vs NF). Bland-Altman plots suggested an acceptable degree of agreement among the results obtained with the three Niox analysers. Measurements obtained with the Medisoft and Ecomedics analysers were not directly comparable with those obtained with the other devices. The greatest differences in absolute NO levels for individual patients were between measurements with the M and E analysers (8.3 ppb, range 27.4-159.7, P < 0.001). Acceptance of the measurements by patients was high, independent of the device used. Exhaled NO values obtained with different devices were not directly comparable and may differ to a clinically relevant extent, depending on which device is used. Several exhaled nitric oxide sampling devices are available to monitor eosinophilic airway inflammation. This study showed that exhaled nitric oxide values measured with the different devices may differ to a clinically relevant extent. [ABSTRACT FROM AUTHOR]

Published

2010

9. The perception threshold measurement can be a useful tool for evaluation of sensitive skin.

Author

Kim, S.-J., Lim, S.-U., Won, Y.-H., An, S.-S., Lee, E.-Y., Moon, S.-J., and Kim, J.

Subjects

*SKIN care, *SENSORY perception, *ELECTRIC currents, *NERVE fibers, *CAPSAICIN

Abstract

Synopsis Sensitive skin is characterized by subjective symptoms that are hard to quantify. However, a neurobiological approach could improve our understanding of the nature of skin sensitivity. In this study, we measured the sensory perception of well-controlled electric currents on the skin that stimulated sensory nerve fibres such as the myelinated A fibre, A delta fibre and unmyelinated c-fibre. The sensory perception thresholds were obtained quantitatively from subjects with sensitive-prone skin and controls. Application of 0.075% capsaicin, known to stimulate the nociceptor c-fibre, was topically applied; then the sensory perception thresholds were measured to determine whether the exposure to nociceptive stimulation could affect the subsequent sensory perception. The results showed that the perception thresholds of skin sensitive-prone subjects were low for the c-fibre measurements at 5 Hz electric current stimulation. Furthermore, a wide variation in sensory perception was noted in the skin sensitive-prone subjects after topical application of capsaicin. In conclusion, the abnormal sensory perception in individuals with sensitive skin appears to be related to neurological instability, where c-fibre nociception plays a role. Thus, quantitative sensory perception threshold measurement was found to be a useful method for the identification of skin sensitive-prone subjects. [ABSTRACT FROM AUTHOR]

Published

2008

10. INVESTIGATION INTO THE HYDRODYNAMICS OF GAS--SOLID FLUIDIZED BEDS USING PARTICLE IMAGE VELOCIMETRY COUPLED WITH DIGITAL IMAGE ANALYSIS.

Author

Laverman, Jan Albert, Roghair, Ivo, van Sint Annaland, Martin, and Kuipers, Hans

Subjects

HYDRODYNAMICS, FLUIDIZATION, PARTICLE image velocimetry, DIGITAL images, IMAGE analysis, BUBBLES

Abstract

Copyright of Canadian Journal of Chemical Engineering is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2008

11. Reliability of spot-check transcutaneous hemoglobin measurement in children

Author

Mehmet Acikgoz, Ugur Sezgin, Arzu Karli, Sule Paksu, Muhammet Sukru Paksu, Sadriye Ozdemir, Naci Murat, and Ondokuz Mayıs Üniversitesi

Subjects

Male, Intraclass correlation, Hematocrit, AutoAnalyzer, Hemoglobins, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, 030225 pediatrics, Heart rate, medicine, Humans, Prospective Studies, Oxygen saturation (medicine), transcutaneous hemoglobin, child, Hematologic Tests, medicine.diagnostic_test, business.industry, Infant, Reproducibility of Results, Complete blood count, Venous blood, non-invasive measurement, Child, Preschool, Pediatrics, Perinatology and Child Health, Female, Hemoglobin, business, Nuclear medicine

Abstract

Acikgoz, Mehmet/0000-0003-1091-9697 WOS: 000388980400007 PubMed: 27031285 BackgroundThis study investigated the correlation between spot-check transcutaneous hemoglobin (Hb) and simultaneously measured venous Hb in children. MethodsTwo hundred and seventeen children weighing 10-30 kg in whom complete blood count had been obtained for any reason were enrolled in this study. Demographic characteristics and vital signs were recorded. Prior to taking blood samples, transcutaneous Hb, heart rate, oxygen saturation, and perfusion index were measured using a probe connected to the subject's thumb. To determine the reliability of the transcutaneous measurement versus venous blood measurement performed via an autoanalyzer device, interclass correlation coefficient (ICC) was calculated. The correlation between the two measurements was evaluated on Bland-Altman analysis. ResultsA total of 59.4% of the patients were boys. The average age was 53 months (range, 6-132 months). Average bodyweight was 16 kg (range, 10-25 kg). Mean venous Hb, hematocrit, and transcutaneous Hb were 11.94 1.15 g/dL, 35.8 +/- 3.2%, and 12.42 +/- 1.24 g/dL, respectively. The ICC for the reliability of the transcutaneous measurements versus venous blood measurements was r = 0.67 (95%CI: 0.5776-0.7526). The correlation between the two sets of measurements was good, as evaluated by the Bland-Altman analysis. ConclusionThere is good correlation between transcutaneous and venous blood measurements of Hb. In the future, transcutaneous measurement, as a non-invasive method, may be an alternative for the measurement of Hb in childhood. Ondokuz Mayis UniversityOndokuz Mayis University [PYO.TIP.1901.12.010] This study was funded by Ondokuz Mayis University (Grant number: PYO.TIP.1901.12.010, to M.S.P.).

Published

2016

12. Diaphragm‐based optical fiber sensor for pulse wave monitoring and cardiovascular diseases diagnosis.

Author

Wang, Jingyi, Liu, Kewei, Sun, Qizhen, Ni, Xiaoling, Ai, Fan, Wang, Senmao, Yan, Zhijun, and Liu, Deming

Abstract

Arterial pulse wave has been considered as a vital sign in assessment of cardiovascular diseases. Noninvasive pulse sensor with compact structure, immunity to electro‐magnetic interference and high sensitivity is the research focus in recent years. While, optical fiber biosensor is a competitive option to meet these needs. Here, a diaphragm‐based optical fiber pulse sensor was proposed to achieve high‐precision radial pulse wave monitoring. A wearable device was developed, composed of a sports wristband and an aluminum diaphragm‐based optical fiber sensor tip of only 1 cm in diameter, which was highly sensitive to the weak acoustic signal. In particular, coherent phase detection was adopted to improve detection signal‐to‐noise ratio, so as to recover the high‐fidelity pulse waveforms. A clinical experiment was carried out to detect and morphological analyze the pulse waveforms of four subjects, the results of which preliminarily demonstrated the feasibility of pulse diagnosis method. The proposed pulse fiber sensor provides a comfortable way for pulse diagnosis, which is promising in early cardiovascular diseases indicating. [ABSTRACT FROM AUTHOR]

Published

2019