2.Thermal comfort and thermoregulation in manned space flight.
Zhen-Zhong YANG ; Jin-Xue FEI ; Xue-Jun YU
Chinese Journal of Applied Physiology 2013;29(6):518-524
Exposure to thermal environment is one of the main concerns for manned space exploration. By focusing on the works performed on thermoregulation at microgravity or simulated microgravity, we endeavored to review the investigation on space thermal environmental physiology. First of all, the application of medical requirements for the crew module design from normal thermal comfort to accidental thermal emergencies in a space craft will be addressed. Then, alterations in the autonomic and behavioral temperature regulation caused by the effect of weightlessness both in space flight and its simulation on the ground are also discussed. Furthermore, countermeasures like exercise training, simulated natural ventilation, encouraged drink, etc., in the protection of thermoregulation during space flight is presented. Finally, the challenge of space thermal environment physiology faced in the future is figured out.
Aerospace Medicine
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Body Temperature Regulation
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Environment
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Exercise
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Humans
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Space Flight
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Weightlessness
;
Weightlessness Simulation
3.Temperature and humidity monitoring system of imaging equipment room based on wireless network.
Chinese Journal of Medical Instrumentation 2011;35(3):234-237
This paper presents a wireless temperature and humidity control system for hospital's video room. The system realizes one to multiple communication using wireless communication module CC1020 and SHT11 as sensors, and then sets up the communication between system and the central station with serial communication controller MSCOMM. The system uses VISUAL C++ programming to realize the video room temperature and humidity alarm control. It is wireless, efficacious and manpower-efficient.
Computer Communication Networks
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Diagnostic Equipment
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Environment, Controlled
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Equipment Design
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Equipment and Supplies, Hospital
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Humidity
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Software
;
Temperature
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Wireless Technology
;
instrumentation
4.Prevalence of Dry Eye Syndrome after a Three-Year Exposure to a Clean Room.
Hyun A CHO ; Jae Jung CHEON ; Jong Seok LEE ; Soo Young KIM ; Seong Sil CHANG
Annals of Occupational and Environmental Medicine 2014;26(1):26-26
OBJECTIVE: To measure the prevalence of dry eye syndrome (DES) among clean room (relative humidity < or =1%) workers from 2011 to 2013. METHODS: Three annual DES examinations were performed completely in 352 clean room workers aged 20-40 years who were working at a secondary battery factory. Each examination comprised the tear-film break-up test (TFBUT), Schirmer's test I, slit-lamp microscopic examination, and McMonnies questionnaire. DES grades were measured using the Delphi approach. The annual examination results were analyzed using a general linear model and post-hoc analysis with repeated-ANOVA (Tukey). Multiple logistic regression was performed using the examination results from 2013 (dependent variable) to analyze the effect of years spent working in the clean room (independent variable). RESULTS: The prevalence of DES among these workers was 14.8% in 2011, 27.1% in 2012, and 32.8% in 2013. The TFBUT and McMonnies questionnaire showed that DES grades worsened over time. Multiple logistic regression analysis indicated that the odds ratio for having dry eyes was 1.130 (95% CI 1.012-1.262) according to the findings of the McMonnies questionnaire. CONCLUSIONS: This 3-year trend suggests that the increased prevalence of DES was associated with longer working hours. To decrease the prevalence of DES, employees should be assigned reasonable working hours with shift assignments that include appropriate break times. Workers should also wear protective eyewear, subdivide their working process to minimize exposure, and utilize preservative-free eye drops.
Dry Eye Syndromes*
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Environment, Controlled*
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Humidity
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Linear Models
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Logistic Models
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Odds Ratio
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Ophthalmic Solutions
;
Prevalence*
5.Physiological effects of weightlessness: countermeasure system development for a long-term Chinese manned spaceflight.
Linjie WANG ; Zhili LI ; Cheng TAN ; Shujuan LIU ; Jianfeng ZHANG ; Siyang HE ; Peng ZOU ; Weibo LIU ; Yinghui LI
Frontiers of Medicine 2019;13(2):202-212
The Chinese space station will be built around 2020. As a national space laboratory, it will offer unique opportunities for studying the physiological effects of weightlessness and the efficacy of the countermeasures against such effects. In this paper, we described the development of countermeasure systems in the Chinese space program. To emphasize the need of the Chinese space program to implement its own program for developing countermeasures, we reviewed the literature on the negative physiological effects of weightlessness, the challenges of completing missions, the development of countermeasure devices, the establishment of countermeasure programs, and the efficacy of the countermeasure techniques in American and Russian manned spaceflights. In addition, a brief overview was provided on the Chinese research and development on countermeasures to discuss the current status and goals of the development of countermeasures against physiological problems associated with weightlessness.
China
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Humans
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Program Evaluation
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Space Flight
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Weightlessness
;
Weightlessness Simulation
6.A investigation of thirdhand smoke pollution in 3 types of places of Nanjing, 2014.
Shuxing ZHANG ; Shanlei QIAO ; Minjian CHEN ; Yankai XIA ; Bo HANG ; Senping CHENG
Chinese Journal of Preventive Medicine 2015;49(1):31-35
OBJECTIVETo investigate thirdhand smoke (THS) pollution in certain places of Nanjing, as well as to analyze its distribution characteristics.
METHODSFrom March to May, 2014, we selected 3 types of places (residencies, public places and transportation vehicles) that were close to people's living in Jianye,Yuhua,Jiangning,Xuanwu,Gulou and Pukou districts of Nanjing city.For each of the above 3 types of places, 2-3 smoking and non-smoking (smoking ban) locations were investigated, totally 51 locations, 9-10 samples were collected each location, totally 477 samples. The surface wipe sampling method in conjunction with liquid chromatography-tandem mass spectrometry (LC-MS/MS) was utilized to quantify the levels of nicotine that served as the tracer of THS pollution.One-way ANOVA and t-tests were employed to compare the levels of nicotine collected at different places and locations.
RESULTSTotally 477 samples were collected in this study, of which 27.0% was from residencies (129/477), 61.0% (291/477) from public places and 11.9% (57/477) from transportations. The levels of indoor surface nicotine in smoking residences, public places and transportations were (214 ± 55),(1 408 ± 177) and (1 511 ± 785) µg/m(2), respectively, which were all higher than those in the corresponding non-smoking places ((23 ± 9),(62 ± 11), and (46 ± 15) µg/m(2); t values were 13.79, 13.15, 3.45, respectively. P values were <0.001, <0.001 and 0.006, respectively).In the smoking places, the levels of surface nicotine on walls, desks, sofas, cabinets, door backsides and air conditioning openings were (171 ± 62),(232 ± 38),(373 ± 151),(903 ± 239), (978 ± 212), (1 721 ± 517) µg/m(2) (F = 7.06, P = 0.009).In the smoking condition, the levels of surface nicotine collected from public places were higher (F = 9.25, P = 0.024), while under non-smoking (smoking ban) conditions, the levels of surface nicotine collected from residences were lower (F = 7.88, P < 0.001).
CONCLUSIONTHS pollution was widespread in public places, residences and transportations in Nanjing city, which was more serious in the smoking environments than non-smoking (smoking ban) environments; the contamination was less serious in non-smoking (smoking ban) private residences; in the smoking condition, the levels of surface nicotine were relatively high at locations close to air conditioning openings, door backsides and cabinets.
Air Conditioning ; China ; Housing ; Humans ; Nicotine ; Public Facilities ; Smoking ; Tandem Mass Spectrometry ; Tobacco Smoke Pollution ; Transportation
7.Tuberculosis Infection Control in Health-Care Facilities: Environmental Control and Personal Protection.
Tuberculosis and Respiratory Diseases 2016;79(4):234-240
Transmission of tuberculosis (TB) is a recognized risk to patients and healthcare workers in healthcare settings. The literature review suggests that implementation of combination control measures reduces the risk of TB transmission. Guidelines suggest a three-level hierarchy of controls including administrative, environmental, and respiratory protection. Among environmental controls, installation of ventilation systems is a priority because ventilation reduces the number of infectious particles in the air. Natural ventilation is cost-effective but depends on climatic conditions. Supplemented intervention such as air-cleaning methods including high efficiency particulate air filtration and ultraviolet germicidal irradiation should be considered in areas where adequate ventilation is difficult to achieve. Personal protective equipment including particulate respirators provides additional benefit when administrative and environmental controls cannot assure protection.
Delivery of Health Care
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Environment, Controlled
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Filtration
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Humans
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Infection Control*
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Personal Protective Equipment
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Tuberculosis*
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Ventilation
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Ventilators, Mechanical
8.Transmission Electron Microscopic Findings of Lacrimal Gland Acinar Cells Induced by In Vivo Dry Eye.
Yu Ri SEO ; A Reum YEO ; Hye Mi NOH ; Dong Yong CHUNG ; Tae Im KIM ; Kyoung Yul SEO ; Eung Kweon KIM ; Hyung Keun LEE
Journal of the Korean Ophthalmological Society 2014;55(8):1187-1194
PURPOSE: To determine the change in lacrimal gland (LG) acinar cells induced by in vivo dry eye (DE). METHODS: Six to 8-week-old (C57BL/6) mice were placed in a controlled environment chamber at <20% humidity for 2 weeks, and a control group was bred in a normal environment. After these 2 weeks of dry eye (DE) induction, the mice were sacrificed and their LGs were collected. Lacrimal gland acinar cell organelle structures were observed with Transmission Electron Microscopy (TEM). TEM images were analyzed using the Image J program. RESULTS: The size of the LGs of DE-induced mice decreased compared to those of normal mice. Terminal deoxynucleotidyl transferase dUTP Nick End Labeling (TUNEL) staining was negative in DE-induced LGs. Under the TEM, the endoplasmic reticulum (ER) lumen was dilated and the lumen density increased in DE-induced mice. Additionally, cell organelles were surrounded by elongated ER lumens. The mitochondrial structure was destroyed and the number of vacuoles increased in the LGs of DE-induced mice. CONCLUSIONS: Structural changes of the LG developed due to DE induction. This suggests that the detailed mechanisms of these changes were ER stress and autophagy. However, there were no definite signs of apoptosis in the acinar cells of the DE-induced LGs. These findings are regarded as an important clue of the pathogenesis of non-Sjogren-type dry eye.
Acinar Cells*
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Animals
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Apoptosis
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Autophagy
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DNA Nucleotidylexotransferase
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Endoplasmic Reticulum
;
Environment, Controlled
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Humidity
;
Lacrimal Apparatus*
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Mice
;
Microscopy, Electron, Transmission
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Organelles
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Vacuoles
9.Secondary metabolism in simulated microgravity and space flight.
Hong GAO ; Zhiheng LIU ; Lixin ZHANG
Protein & Cell 2011;2(11):858-861
Space flight experiments have suggested that microgravity can affect cellular processes in microorganisms. To simulate the microgravity environment on earth, several models have been developed and applied to examine the effect of microgravity on secondary metabolism. In this paper, studies of effects of space flight on secondary metabolism are exemplified and reviewed along with the advantages and disadvantages of the current models used for simulating microgravity. This discussion is both significant and timely to researchers considering the use of simulated microgravity or space flight to explore effects of weightlessness on secondary metabolism.
Humans
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Metabolism
;
physiology
;
Models, Theoretical
;
Space Flight
;
Weightlessness Simulation
10.Mechanism of cardiac atrophy under weightlessness/simulated weightlessness.
Guo-Hui ZHONG ; Shu-Kuan LING ; Ying-Xian LI
Acta Physiologica Sinica 2016;68(2):194-200
Cardiac remodeling is the heart's response to external or internal stimuli. Weightlessness/simulated weightlessness leads to cardiac atrophy and heart function declining. Understanding the mechanism of cardiac atrophy under weightlessness is important to help astronaut recover from unloading-induced cardiovascular changes after spaceflight. Unloading-induced changes of hemodynamics, metabolic demands and neurohumoral regulation contribute to cardiac atrophy and function declining. During this process, Ca(2+)-related signaling, NF-κB signaling, ERK signaling, ubiquitin-proteasome pathway and autophagy are involved in weightlessness-induced cardiac atrophy. This article reviews the underlying mechanism of cardiac atrophy under weightlessness/simulated weightlessness.
Atrophy
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Heart
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Heart Diseases
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Hemodynamics
;
Humans
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NF-kappa B
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Space Flight
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Weightlessness
;
Weightlessness Simulation