Appearance and Basic Functional Elements of an Interactive Multimodal Hybrid Conformal Microsystem for Real-Time Transdermal Biomedical Monitoring and Correction of the Body State

The constructive and technological solutions of a new generation interactive multimodal hybrid conformal sensor-correcting microsystem are presented. The functional modules of the microsystem made in the form of an ultrathin bracelet or patch with the possibility of fixation on human skin are considered. The advantages of the proposed microsystem, its purpose and possible applications are discussed.

Analysis of the thyroid status of pregnant women in the region of mild iodine deficiency

Introduction. Thyroid hormones play an important role during pregnancy, providing organogenesis, growth and development of the fetus, participate in the formation and development of the brain and its structures, affecting cognitive abilities. Thyroid dysfunction is associated with the pathological course of pregnancy and childbirth, as well as a negative effect on the fetus. Iodine deficiency, which persists throughout Russia, creates the preconditions for the more frequent development of subclinical hypothyroidism and hypothyroxinemia in pregnant women. Therefore, early detection of thyroid dysfunction during gestation in the region of iodine deficiency is relevant.Aim. To assess the thyroid status in pregnant women in the region of iodine deficiency.Materials and methods. A single-center, prospective, one-sample study was performed in a population of pregnant women registered from June 2019 to December 2019 to the antenatal clinic in Tyumen.Results. According to the results of biomedical monitoring of iodine deficiency in the population of pregnant women in Tyumen, iodine supply improved, as evidenced by the median concentration of ioduria 154.4 μg / l, the frequency of endemic goiter was 0.37%. Continuous screening of women in the 1st trimester of pregnancy without thyroid pathology revealed subclinical hypothyroidism in 21.5% of pregnant women, carriage of antibodies to thyroperoxidase was found in 10.5% of women.Conclusions. Given the persisting problem of iodine deficiency, the widespread occurrence of subclinical hypothyroidism in the population of pregnant women, it is necessary to include the study of thyroid status in the standard of examination of pregnant women when registering in an antenatal clinic for early diagnosis and timely treatment of hypothyroidism. It is also recommended to continue preventive measures aimed at replenishing the iodine deficiency starting from the stage of pregravid preparation.

A non-printed integrated-circuit textile for wireless theranostics

While the printed circuit board (PCB) has been widely considered as the building block of integrated electronics, the world is switching to pursue new ways of merging integrated electronic circuits with textiles to create flexible and wearable devices. Herein, as an alternative for PCB, we described a non-printed integrated-circuit textile (NIT) for biomedical and theranostic application via a weaving method. All the devices are built as fibers or interlaced nodes and woven into a deformable textile integrated circuit. Built on an electrochemical gating principle, the fiber-woven-type transistors exhibit superior bending or stretching robustness, and were woven as a textile logical computing module to distinguish different emergencies. A fiber-type sweat sensor was woven with strain and light sensors fibers for simultaneously monitoring body health and the environment. With a photo-rechargeable energy textile based on a detailed power consumption analysis, the woven circuit textile is completely self-powered and capable of both wireless biomedical monitoring and early warning. The NIT could be used as a 24/7 private AI “nurse” for routine healthcare, diabetes monitoring, or emergencies such as hypoglycemia, metabolic alkalosis, and even COVID-19 patient care, a potential future on-body AI hardware and possibly a forerunner to fabric-like computers.

Wearable Biosensors: An Alternative and Practical Approach in Healthcare and Disease Monitoring

With the increasing prevalence of growing population, aging and chronic diseases continuously rising healthcare costs, the healthcare system is undergoing a vital transformation from the traditional hospital-centered system to an individual-centered system. Since the 20th century, wearable sensors are becoming widespread in healthcare and biomedical monitoring systems, empowering continuous measurement of critical biomarkers for monitoring of the diseased condition and health, medical diagnostics and evaluation in biological fluids like saliva, blood, and sweat. Over the past few decades, the developments have been focused on electrochemical and optical biosensors, along with advances with the non-invasive monitoring of biomarkers, bacteria and hormones, etc. Wearable devices have evolved gradually with a mix of multiplexed biosensing, microfluidic sampling and transport systems integrated with flexible materials and body attachments for improved wearability and simplicity. These wearables hold promise and are capable of a higher understanding of the correlations between analyte concentrations within the blood or non-invasive biofluids and feedback to the patient, which is significantly important in timely diagnosis, treatment, and control of medical conditions. However, cohort validation studies and performance evaluation of wearable biosensors are needed to underpin their clinical acceptance. In the present review, we discuss the importance, features, types of wearables, challenges and applications of wearable devices for biological fluids for the prevention of diseased conditions and real-time monitoring of human health. Herein, we summarize the various wearable devices that are developed for healthcare monitoring and their future potential has been discussed in detail.

USE OF TELEMEDICINE METHODS AND MEANS OF IMAGE INFORMATION ACQUISITION FROM COSMONAUTS

Telemedicine potential in informational support to the biomedical monitoring of Russian crewmembers at the International space station (ISS) is illustrated by experiment BIMS aimed to demonstrate platforms TBK-1 and TBK-1S developed for acquisition and processing of dental, otholaryngological and dermatological images. The paper presents the procedure and results of detailed oral mucosa and teeth examination with the use of TBK-1S, and deliberates on desirable improvements of the on-board telemedicine practice.