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Space flight
Space flight
A biomedical sensor system for real-time monitoring of astronauts\' physiological parameters during extra-vehicular activities
Humans / Space flight / Aerospace Medicine / Clothing / Galvanic Skin Response / Heart rate / Computer User Interface Design / ASTRONAUTS / Oxygen / Real-Time Data Processing / Reproducibility of Results / Real Time Monitoring / Plethysmography / Sensor system / Skin Temperature / Hemoglobins / Networked Systems / Extravehicular Activity / Heart rate / Computer User Interface Design / ASTRONAUTS / Oxygen / Real-Time Data Processing / Reproducibility of Results / Real Time Monitoring / Plethysmography / Sensor system / Skin Temperature / Hemoglobins / Networked Systems / Extravehicular Activity
Experimental design and environmental parameters affect Rhodospirillum rubrum S1H response to space flight
Technology / Radiobiology of Ionizing Radiation / Experimental Design / Biological Sciences / Environmental Sciences / Space flight / Low Dose / Cell Viability / Environmental Conditions / Very high throughput / International space station / Physiological Stress Markers / Organic Waste / Ionizing Radiation / Proteome / Support System / Environmental Parameter / Rhodospirillum-rubrum / Gene expression profiling / Differential expression / Space flight / Low Dose / Cell Viability / Environmental Conditions / Very high throughput / International space station / Physiological Stress Markers / Organic Waste / Ionizing Radiation / Proteome / Support System / Environmental Parameter / Rhodospirillum-rubrum / Gene expression profiling / Differential expression
Experimental design and environmental parameters affect Rhodospirillum rubrum S1H response to space flight
Technology / Radiobiology of Ionizing Radiation / Experimental Design / Biological Sciences / Environmental Sciences / Space flight / Low Dose / Cell Viability / Environmental Conditions / Very high throughput / International space station / Physiological Stress Markers / Organic Waste / Ionizing Radiation / Proteome / Support System / Environmental Parameter / Rhodospirillum-rubrum / Gene expression profiling / Differential expression / Space flight / Low Dose / Cell Viability / Environmental Conditions / Very high throughput / International space station / Physiological Stress Markers / Organic Waste / Ionizing Radiation / Proteome / Support System / Environmental Parameter / Rhodospirillum-rubrum / Gene expression profiling / Differential expression
Experimental design and environmental parameters affect Rhodospirillum rubrum S1H response to space flight
Technology / Radiobiology of Ionizing Radiation / Experimental Design / Biological Sciences / Environmental Sciences / Space flight / Low Dose / Cell Viability / Environmental Conditions / Very high throughput / International space station / Physiological Stress Markers / Organic Waste / Ionizing Radiation / Proteome / Support System / Environmental Parameter / Rhodospirillum-rubrum / Gene expression profiling / Differential expression / Space flight / Low Dose / Cell Viability / Environmental Conditions / Very high throughput / International space station / Physiological Stress Markers / Organic Waste / Ionizing Radiation / Proteome / Support System / Environmental Parameter / Rhodospirillum-rubrum / Gene expression profiling / Differential expression
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