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FRISC: The Faculty Research Interests Science Comparator |
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Professor of Internal Medicine and Physiology
Integrative
Biology
Office: 214-648-3425
FAX: 214-648-3566
Email: blomqvist@swmed.edu
Energy requirements for space flight.
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Score: 0.624 | |
Recording of blood pressure, heart rate and aortic nerve activity during parabolic flight in the rat via radio-telemetry.
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Score: 0.603 | |
Fluid volume control during short-term space flight and implications for human performance.
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Score: 0.589 | |
Clinical aspects of the control of plasma volume at microgravity and during return to one gravity.
|
Score: 0.574 | |
Metabolic energy required for flight.
|
Score: 0.566 | |
Insight into mechanisms of reduced orthostatic performance after exposure to microgravity: comparison of ground-based and space flight data.
|
Score: 0.547 | |
Effects of the space flight environment on the immune system.
|
Score: 0.546 | |
Effects of microgravity on vestibular ontogeny: direct physiological and anatomical measurements following space flight (STS-29).
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Score: 0.545 | |
Changes in muscle sympathetic nerve activity and effects of breathing maneuvers in humans during microgravity induced by parabolic flight.
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Score: 0.536 | |
Human flight and exercise in microgravity.
|
Score: 0.526 | |
Cardiovascular physiology. Effects of microgravity.
|
Score: 0.519 | |
Space flight, microgravity, stress, and immune responses.
|
Score: 0.518 | |
Space exercise and Earth benefits.
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Score: 0.518 | |
[Effect of space flight factors on hemopoiesis]
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Score: 0.516 | |
Effect of microgravity on plasma catecholamine responses to stressors during space flight.
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Score: 0.516 | |
Countermeasure for space flight effects on immune system: nutritional nucleotides.
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Score: 0.516 | |
[THE MAXIMUM RANGE OF PHYSIOLOGICAL TOLERANCE IN SOME CONDITIONS OF MODERN FLIGHT AND OF SPACE FLIGHT.]
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Score: 0.516 | |
Recording heart rate and blood pressure in rats during parabolic flight.
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Score: 0.514 | |
Cardiovascular response to submaximal exercise in sustained microgravity.
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Score: 0.513 | |
Planning strategies for development of effective exercise and nutrition countermeasures for long-duration space flight.
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Score: 0.511 | |
Space flight. 1.
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Score: 0.510 | |
Space flight. 2.
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Score: 0.510 | |
Effects of clinostat-microgravity on bone and calcium metabolism in rats.
|
Score: 0.508 | |
Exercise countermeasures for spaceflight.
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Score: 0.507 | |
Physiological adaptations to space flight.
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Score: 0.507 | |
Spacelab Life Sciences flight experiments: an integrated approach to the study of cardiovascular deconditioning and orthostatic hypotension.
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Score: 0.506 | |
[New information on space flight. 4. Training for space flight; defense against acceleration effects; efficacy of training]
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Score: 0.503 | |
[Phenomenology and mechanisms of changes in the basic functions of the human body in weightlessness]
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Score: 0.503 | |
Biomedical results of the Skylab Program.
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Score: 0.503 | |
The immune system in space and microgravity.
|
Score: 0.502 | |
A review of muscle atrophy in microgravity and during prolonged bed rest.
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Score: 0.502 | |
Physiology in microgravity.
|
Score: 0.501 | |
Preliminary medical results of the Mir year-long mission.
|
Score: 0.501 | |
[Mechanisms reducing orthostatic stability of humans in long-term space flight]
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Score: 0.500 | |
Determinants of space perception in space flight.
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Score: 0.495 | |
Soviet space flight: the human element.
|
Score: 0.491 | |
Nutrition in space.
|
Score: 0.489 | |
Soviet space flight: the human element.
|
Score: 0.488 | |
Cardiovascular function and basics of physiology in microgravity.
|
Score: 0.487 | |
Orthostatic hypotension of prolonged weightlessness: clinical models.
|
Score: 0.485 | |
Influence of microgravity on astronauts' sympathetic and vagal responses to Valsalva's manoeuvre.
|
Score: 0.485 | |
[Medical problems in relation to space flight. IX. Training and selection of space flight personnel.]
|
Score: 0.485 | |
[Medical problems in relation to space flight. IX. Training and selection of space flight personnel.]
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Score: 0.485 | |
Cardiovascular physiology in space flight.
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Score: 0.484 | |
Microtechnology in space bioreactors.
|
Score: 0.484 | |
SPACE MEDICINE IN THE MANNED SPACE FLIGHT PROGRAM.
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Score: 0.482 | |
[Cell growth and motility in culture (in vitro) under microgravity conditions. The Fibroblast Experiment]
|
Score: 0.482 | |
Orthostatic stress is necessary to maintain the dynamic range of cardiovascular control in space.
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Score: 0.482 | |
Dynamics of physical performance during long-duration space flight (first results of "Countermeasure" experiment).
|
Score: 0.481 | |
The immune system in space, including Earth-based benefits of space-based research.
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Score: 0.479 | |
Review of the biological effects of weightlessness on the human endocrine system.
|
Score: 0.479 | |
Cardiovascular adaptation to spaceflight.
|
Score: 0.479 | |
Biology under microgravity conditions in Spacelab International Microgravity Laboratory 2 (IML-2). Preface.
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Score: 0.479 | |
Spinal reflexes in microgravity: measuring H reflexes during space flight.
|
Score: 0.477 | |
Microgravity research during aircraft parabolic flights: the 20 ESA campaigns.
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Score: 0.477 | |
Ground-based experiments complement microgravity flight opportunities in the investigation of the effects of space flight on the immune response: is protein kinase C gravity sensitive?
|
Score: 0.476 | |
Studies of circadian rhythms in space flight: some results and prospects.
|
Score: 0.476 | |
Immune responses in space flight.
|
Score: 0.475 | |
Water and energy dietary requirements and endocrinology of human space flight.
|
Score: 0.472 | |
Microgravity: the immune response and bone.
|
Score: 0.471 | |
Circadian rhythms, space research and manned space flight.
|
Score: 0.470 | |
Microgravity studies of cells and tissues.
|
Score: 0.465 | |
Orthostatic intolerance: emerging genetic and environmental etiologies.
|
Score: 0.465 | |
Strategies of cell biology experimentation in space.
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Score: 0.464 | |
Experiments in microgravity: a comparison of crystals of a carbohydrate-binding fab grown on the ground, on space shuttle Discovery and on space station Mir.
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Score: 0.462 | |
Space biotechnology: current and future perspectives.
|
Score: 0.462 | |
WHAT DOES SPACE FLIGHT TEACH US?
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Score: 0.462 | |
Maximal exercise performance after adaptation to microgravity.
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Score: 0.461 | |
Reproduction in the space environment: Part II. Concerns for human reproduction.
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Score: 0.461 | |
Neurobiological problems in long-term deep space flights.
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Score: 0.460 | |
The influence of modified gravitation on the organism in space and on earth. The state of weightlessness--is it a barrier for the space flight of man?
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Score: 0.460 | |
Human space flight.
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Score: 0.460 | |
Medical results of Salyut-6 manned space flights.
|
Score: 0.459 | |
Ontogenesis of mammals and gravity.
|
Score: 0.459 | |
Mechanisms of microgravity induced orthostatic intolerance: implications for effective countermeasures.
|
Score: 0.458 | |
Summary of lower body negative pressure experiments during space flight.
|
Score: 0.457 | |
[Biomedical results of the Space Shuttle Orbital Flight Test Program]
|
Score: 0.456 | |
[Effect of weightlessness on the reproductive system of mammals]
|
Score: 0.456 | |
Microbes and space flight.
|
Score: 0.456 | |
Space flight biotelemetry.
|
Score: 0.456 | |
Space flight: death on re-entry.
|
Score: 0.456 | |
[Visuo-vestibular interaction in determination of orientation behavior in weightlessness]
|
Score: 0.456 | |
The nature of space flight.
|
Score: 0.456 | |
Progress toward space flight.
|
Score: 0.456 | |
Plasma hormone levels in human subject during stress loads in microgravity and at readaptation to Earth's gravity.
|
Score: 0.455 | |
Cardiovascular adaptations to parabolic flight in rats: a radio-telemetry feasibility study.
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Score: 0.455 | |
The effect of microgravity and space flight on the chemical senses.
|
Score: 0.454 | |
Functional plasticity of skeletal muscles of mammals in space flight.
|
Score: 0.452 | |
The importance of exercising in space.
|
Score: 0.452 | |
Immune function during space flight.
|
Score: 0.452 | |
Day-night cycling in atmospheric flight, space flight, and on other celestial bodies.
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Score: 0.452 | |
Responses across the gravity continuum: hypergravity to microgravity.
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Score: 0.452 | |
Biomedical results of the Space Shuttle orbital flight test program.
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Score: 0.451 | |
Effects of microgravity and hypergravity on the cell: investigations on Paramecium tetraurelia.
|
Score: 0.451 | |
Space flight and humoral and cellular immunity of animals.
|
Score: 0.449 | |
Biochemical and morphological stress-reactions in humans and animals in microgravity.
|
Score: 0.448 | |
Immune response during space flight.
|
Score: 0.448 | |
First flight of the ASTROCULTURE (TM) experiment as a part of the U.S. Shuttle/MIR program.
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Score: 0.447 | |
[Human gas and energy exchange in space flight and simulation research]
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Score: 0.447 | |
Cardiovascular deconditioning in microgravity: some possible countermeasures.
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Score: 0.446 | |
Cardiovascular deconditioning during space flight and the use of saline as a countermeasure to orthostatic intolerance.
|
Score: 0.446 | |
Human muscle sympathetic nerve activity and plasma noradrenaline kinetics in space.
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Score: 0.446 | |
Spacelab Life Sciences-2: early results are in
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Score: 0.446 | |
A space radiation monitoring system for support of manned space flight.
|
Score: 0.445 | |
Pulmonary function in space.
|
Score: 0.444 | |
Sleep in space.
|
Score: 0.443 | |
Physiological principles of vestibular function on earth and in space.
|
Score: 0.443 | |
Review of physiological measurement techniques for applicability to space flight conditions. NASA CR-1277.
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Score: 0.443 | |
SSC microgravity sounding rocket program MASER.
|
Score: 0.443 | |
Postnatal development under conditions of simulated weightlessness and space flight.
|
Score: 0.442 | |
Effects of microgravity on urinary osteopontin.
|
Score: 0.442 | |
Orthostatic hypotension and the role of changes in venous capacitance.
|
Score: 0.441 | |
The effect of space flight on human cellular immunity.
|
Score: 0.441 | |
[Toward the promotion of researches utilizing microgravity]
|
Score: 0.441 | |
Development of potato minitubers in microgravity.
|
Score: 0.440 | |
Space flight: III. Isolation of perceptual variable in parabola flight sickness with countermeasure to lower gastric pH.
|
Score: 0.440 | |
[Microgravity and autonomic nervous system]
|
Score: 0.440 | |
Use of animal models for space flight physiology studies, with special focus on the immune system.
|
Score: 0.440 | |
Behavior and reproduction of invertebrate animals during and after a long-term microgravity: space experiments using an Autonomous Biological System (ABS).
|
Score: 0.439 | |
Self-tonometry under microgravity conditions.
|
Score: 0.439 | |
Effects of exposure to space flight on endocrine regulations in experimental animals.
|
Score: 0.439 | |
The influence of manned space flight on cardiovascular function.
|
Score: 0.439 | |
Cardiovascular deconditioning of space flight.
|
Score: 0.439 | |
Effects of space flight on endocrine system function in experimental animals.
|
Score: 0.438 | |
Perspective on the consequences of short- and long-duration space flight on human physiology.
|
Score: 0.438 | |
Exercise response to simulated weightlessness.
|
Score: 0.438 | |
The Frog in Space (FRIS) experiment onboard Space Station Mir: final report and follow-on studies.
|
Score: 0.438 | |
Effects of microgravity on osteoblast growth.
|
Score: 0.437 | |
Body fluid regulation in micro-gravity differs from that on Earth: an overview.
|
Score: 0.437 | |
[New approaches to diagnosis and correction of arterial hypertension in pilots and cosmonauts]
|
Score: 0.437 | |
The ASTROCULTURE(TM) flight experiment series, validating technologies for growing plants in space.
|
Score: 0.437 | |
Ultrasound in space.
|
Score: 0.437 | |
Manifesto of space medicine: the next dermatologic frontier.
|
Score: 0.437 | |
Perception of spatial orientation in microgravity.
|
Score: 0.437 | |
SPACE GASTROENTEROLOGY. A REVIEW OF THE PHYSIOLOGY AND PATHOLOGY OF THE GASTROINTESTINAL TRACT AS RELATED TO SPACE FLIGHT CONDITIONS.
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Score: 0.436 | |
Cardiovascular examinations and observations of deconditioning during the space shuttle orbital flight test program.
|
Score: 0.435 | |
PHYSIOLOGICAL EFFECTS OF A SIMULATED SPACE FLIGHT PROFILE.
|
Score: 0.435 | |
[Tolerance of +Gz loads by space physician Poliakov VV during the active phases of his 438-days space mission]
|
Score: 0.435 | |
Preflight adaptation training for spatial orientation and space motion sickness.
|
Score: 0.435 | |
Orthostatic intolerance after space flight.
|
Score: 0.435 | |
Microgravity effects on water flow and distribution in unsaturated porous media: analyses of flight experiments.
|
Score: 0.434 | |
Bone and body mass changes during space flight.
|
Score: 0.433 | |
Human space flight. Bush plan for NASA: watch this space.
|
Score: 0.433 | |
[PHYSIOLOGICAL PRINCIPLES OF THE SPACE FLIGHT AND HUMAN LIFE IN SPACE.]
|
Score: 0.433 | |
The effects of space flight on the composition of the intervertebral disc.
|
Score: 0.432 | |
Weightlessness as an accelerated model of nutritional disturbances.
|
Score: 0.432 | |
Space flight effects on bacterial physiology.
|
Score: 0.432 | |
The looping behavior of fish in microgravity.
|
Score: 0.432 | |
Psychophysical studies of visuo-vestibular interaction in microgravity.
|
Score: 0.431 | |
[Space medicine and life sciences in space]
|
Score: 0.429 | |
Nutrition, endocrinology, and body composition during space flight.
|
Score: 0.429 | |
[Long space flights and the human habitat]
|
Score: 0.428 | |
Microgravity and immune responsiveness: implications for space travel.
|
Score: 0.428 | |
Space research activities during missions of the past.
|
Score: 0.427 | |
Space flight nutrition research: platforms and analogs.
|
Score: 0.427 | |
Our experience in the evaluation of the thermal comfort during the space flight and in the simulated space environment.
|
Score: 0.427 | |
[Factor analysis of reactions to lower body negative pressure on the earth and during space flight]
|
Score: 0.426 | |
NASA' s life sciences and space radiation biology.
|
Score: 0.426 | |
Cellular changes in microgravity and the design of space radiation experiments.
|
Score: 0.425 | |
Renal hemodynamics in space.
|
Score: 0.425 | |
Life in a spin: what has been learnt from space.
|
Score: 0.425 | |
Biomedical support of man in space.
|
Score: 0.424 | |
[Behavior of the circulatory and respiratory system of the pilot during modern acrobatic flight and in space flight.]
|
Score: 0.424 | |
The biomedical challenges of space flight.
|
Score: 0.424 | |
Approaches in the determination of plant nutrient uptake and distribution in space flight conditions.
|
Score: 0.423 | |
The effect of space and parabolic flight on macrophage hematopoiesis and function.
|
Score: 0.423 | |
Sympathetic nerve response to microgravity induced by parabolic flight.
|
Score: 0.423 | |
Medical considerations for extending human presence in space.
|
Score: 0.423 | |
Musculoskeletal adaptation to mechanical forces on Earth and in space.
|
Score: 0.422 | |
June 2000: microgravity effects in space.
|
Score: 0.422 | |
Insulin secretion and sensitivity in space flight: diabetogenic effects.
|
Score: 0.422 | |
Activation of microcarrier-attached lymphocytes in microgravity.
|
Score: 0.422 | |
Space, security in the forefront.
|
Score: 0.422 | |
Is skeletal muscle ready for long-term spaceflight and return to gravity?
|
Score: 0.421 | |
Nutrition in space: evidence from the U.S. and the U.S.S.R.
|
Score: 0.421 | |
Physiological adaptations and countermeasures associated with long-duration spaceflights.
|
Score: 0.421 | |
Orthostatic hypotension in patients, bed rest subjects, and astronauts.
|
Score: 0.421 | |
Human factors in space flight.
|
Score: 0.420 | |
Effects of exercise equipment on the microgravity environment.
|
Score: 0.419 | |
Mutational responses of insects in the Biosatellite II experiment.
|
Score: 0.419 | |
+Gx tolerance by females following long-duration simulated and spaceflight microgravity.
|
Score: 0.419 | |
Human mononuclear cell function after 4 degrees C storage during 1-G and microgravity conditions of spaceflight.
|
Score: 0.418 | |
Microgravity generated by space flight has little effect on the growth and development of chick embryonic bone.
|
Score: 0.418 | |
[Qualification of human body reactions to microgravity]
|
Score: 0.418 | |
[Man in the condition of weightlessness (author's transl)]
|
Score: 0.418 | |
Short duration microgravity experiments in physical and life sciences during parabolic flights: the first 30 ESA campaigns.
|
Score: 0.418 | |
Recent advances in the microgravity crystallization of biological macromolecules.
|
Score: 0.417 | |
[Preliminary results of medical studies during the 5-month space flight aboard the "Saliut-7"--"Soiuz-T" orbital complex]
|
Score: 0.417 | |
Psychiatric problems in space flight.
|
Score: 0.416 | |
Space science. Human flight is next step for China's space program.
|
Score: 0.416 | |
Sensory factors in space flight.
|
Score: 0.416 | |
More on psychiatry and space flight.
|
Score: 0.416 | |
Effects of restraint and cabin environment on skin temperature, sleep-wake, feeding and drinking circadian rhythms in Macaca mulatta during spacelab flight simulation.
|
Score: 0.416 | |
[Radiobiology and space flight.]
|
Score: 0.416 | |
The medical problems of space flight.
|
Score: 0.416 | |
Some metabolic problems of space flight.
|
Score: 0.416 | |
Protein metabolism during space flight.
|
Score: 0.416 | |
Some vestibular problems in space flight.
|
Score: 0.416 | |
Man, drugs, and space flight.
|
Score: 0.416 | |
Space flight and astronaut's immunocompetence.
|
Score: 0.416 | |
Some medical problems of space flight.
|
Score: 0.416 | |
Psychiatric evaluation of space flight.
|
Score: 0.416 | |
Some vestibular problems in space flight.
|
Score: 0.416 | |
Man's role in space flight.
|
Score: 0.416 | |
Medical aspects of space flight.
|
Score: 0.416 | |
Surgical aspects of space flight.
|
Score: 0.416 | |
Psychological effects of space flight.
|
Score: 0.416 | |
[Physiological study of space flight.]
|
Score: 0.416 | |
The biomedical aspects of space flight.
|
Score: 0.416 | |
Some otological problems during space flight.
|
Score: 0.416 | |
Anemia of space flight.
|
Score: 0.416 | |
[Possible use of plasmids for studying the effect of space flight factors on biological objects]
|
Score: 0.416 | |
The medical problems of space flight.
|
Score: 0.416 | |
Urologic implications of space flight.
|
Score: 0.416 | |
[Features of changes in blood pressure and blood flow in the common carotid artery of monkeys exposed aboard the biosatellite Cosmos-1514]
|
Score: 0.416 | |
Responses of muscle sympathetic nerve activity to static handgrip exercise after 14 days of exposure to simulated microgravity.
|
Score: 0.416 | |
[Experiments on rats exposed in the Cosmos 1667 biosatellite (goals, protocols, results)]
|
Score: 0.415 | |
The hazards of reproduction in space.
|
Score: 0.415 | |
[The effect of microgravity on osteogenic cells in culture. Ultrastructural research]
|
Score: 0.414 | |
Fecundity and longevity of houseflies after space flight.
|
Score: 0.414 | |
Assessment of the efficacy of medical countermeasures in space flight.
|
Score: 0.413 | |
Comparison of ground-based and space flight energy expenditure and water turnover in middle-aged healthy male US astronauts.
|
Score: 0.413 | |
Periodic structures and diurnal variation in blood pressure and heart rate in relation to microgravity on space station MIR.
|
Score: 0.412 | |
The relationship between dietary intake, exercise, energy balance and the space craft environment.
|
Score: 0.412 | |
Blunt trauma and operative care in microgravity: a review of microgravity physiology and surgical investigations with implications for critical care and operative treatment in space.
|
Score: 0.412 | |
[1st flight on the European space laboratory (Spacelab); European physiological treatment experiment and biological research projects]
|
Score: 0.412 | |
Modeling of the radiation exposure during the flight of the second Bulgarian cosmonaut on board the Mir Space Station.
|
Score: 0.412 | |
Comparing the effects of two in-flight aerobic exercise protocols on standing heart rates and VO(2peak) before and after space flight.
|
Score: 0.411 | |
Phase 1 research program overview.
|
Score: 0.411 | |
Central circulation during exposure to 7-day microgravity (head-down tilt, immersion, space flight).
|
Score: 0.411 | |
Valsalva maneuver: possible use in space flight as a test of cardiovascular function.
|
Score: 0.411 | |
Protein crystal growth aboard the U.S. space shuttle flights STS-31 and STS-32.
|
Score: 0.411 | |
[Microgravity and weightlessness: experimental model accelerates nutritional pathology]
|
Score: 0.410 | |
PHYSIOLOGICAL MONITORING OF ANIMALS DURING SPACE FLIGHT.
|
Score: 0.410 | |
Influence of orbital flight conditions on formation of genitals in Muscari racemosum and Anethum graveolens.
|
Score: 0.409 | |
Limitations on space flight due to cosmic radiations.
|
Score: 0.409 | |
Developmental biology on unmanned space craft.
|
Score: 0.409 | |
[Growth and development of plants in a sequence of generations under the conditions of space flight (experiment Greenhouse-3)]
|
Score: 0.408 | |
The Twin Bikes System for artificial gravity in space.
|
Score: 0.408 | |
Countermeasure of the negative effects of weightlessness on physical systems in long-term space flights.
|
Score: 0.407 | |
Experiments on plants grown in space. Status and prospects.
|
Score: 0.407 | |
The properties of alamethicin incorporated into planar lipid bilayers under the influence of microgravity.
|
Score: 0.407 | |
Medical aspects of interdynamic adaptation in space flight.
|
Score: 0.407 | |
Inhibited interferon production after space flight.
|
Score: 0.406 | |
Synthesis of ethological studies on behavioural adaptation of the astronaut to space flight conditions.
|
Score: 0.406 | |
A brief history of trying: man, NASA, and medicine.
|
Score: 0.406 | |
[The effect of space flight on metabolism: the results of biochemical research in rat experiments on the Kosmos biosatellites]
|
Score: 0.406 | |
Developmental biology of urodele amphibians in microgravity conditions.
|
Score: 0.405 | |
Insect gravitational biology: ground-based and shuttle flight experiments using the beetle Tribolium castaneum.
|
Score: 0.405 | |
Human and rodent ground-based models of space flight environments.
|
Score: 0.405 | |
[Hemodynamics in monkeys in the initial period of adaptation to weightlessness]
|
Score: 0.405 | |
Radiation protection during space flight.
|
Score: 0.405 | |
STS-95 Space Experiments (plants and cell biology).
|
Score: 0.404 | |
Changes in gene expression and signal transduction in microgravity.
|
Score: 0.404 | |
Possible mechanism of microgravity impact on Carausius morosus ontogenesis.
|
Score: 0.404 | |
Regenerative oxygen systems for manned space flight.
|
Score: 0.404 | |
Oxygen recovery systems for manned space flight.
|
Score: 0.404 | |
Changes in hemodynamic and post-flights orthostatic tolerance of cosmonauts under application of the preventive device--thigh cuffs bracelets in short-term flights.
|
Score: 0.403 | |
Space radiation effects and microgravity.
|
Score: 0.403 | |
Effect of space flight on the frequency of micronuclei and expression of stress-responsive proteins in cultured mammalian cells.
|
Score: 0.403 | |
[The inhibition of the thyroid and calcitonin-producing functions of the rat thyroid gland in weightlessness]
|
Score: 0.403 | |
Self-tonometry under microgravity conditions.
|
Score: 0.403 | |
Summing-up cosmonaut participation in long-term space flights.
|
Score: 0.403 | |
Nutritional biochemistry of space flight.
|
Score: 0.403 | |
Age-dependent atrophy and microgravity travel: what do they have in common?
|
Score: 0.403 | |
Mass-discrimination in weightlessness and readaptation to earth's gravity.
|
Score: 0.402 | |
Calcium metabolism and the osteopenia of space flight.
|
Score: 0.402 | |
Mini ecosystem in space--preliminary experiment on board STS-77.
|
Score: 0.401 | |