支持
下载并查阅使用BodyCAP产品所需的所有材料。
可用的最新软件版本
- 该产品目前不可销售 - CE医疗资质 认证中
- eViewer Medical: V1.5.2.2
- eCelsius Manager (PC/MAC): V1.5.2.1
- ePerf Connect device: v1.3.0.2
- ePerf Mobile Application: v1.2.10
- eViewer Performance: v6.1.1
- ePerformance Manager - PC version: v1.5.1.1
- ePerformance Manager - MAC version: v1.5.1.1
- eTact patch: v1.9.3
- eTact Watcher: v1.3.1
- eTact Analysis software: v1.0.0
可下载的文件
- eCelsius Performance Connect - Brochure
- eCelsius Performance Connect - Manual of use (contact us)
- eCelsius Performance Connect - Quick Start guide
- eCelsius Performance - Brochure
- eCelsius Performance - Manual of use (contact us)
- eCelsius Performance - Quick Start guide
- eCelsius Medical system - Brochure
- eCelsius Medical system - Manuel of use (contact us)
- eCelsius Medical system - Quick Start guide
- eTact - Brochure
- eTact - Manual of use (contact us)
- eTact - Quick start guide
出版物清单
- James et al., 2024, Mixed‑Method Heat Acclimation Induces Heat Adaptations in International Triathletes Without Training Modification
- Koumar et al., 2023, Validation of e-Celsius gastrointestinal telemetry system as measure of core temperature
- Galan-Lopez et al., 2023, Heat Preparation and Knowledge at the World Athletics Race Walking Team Championships Muscat 2022
- Fenemor et al., 2022, Heat Management Strategies in Elite Rugby Sevens
- Tsoutsoubi et al., 2023, Central versus peripheral mechanisms of cold‑induced vasodilation a study in the fingers and toes of people with paraplegia
- Bottenheft et al., 2023, Effects of heat load and hypobaric hypoxia on cognitive performance a combined stressor approach
- Melau et al., 2022, Physiological changes following swimming in cold water in triathlon and military operations
- Bustos et al., 2023, Exploring the Applicability of Physiological Monitoring to Manage Physical Fatigue in Firefighters
- Xu et al., 2021, Effects of Hot and Humid Environments on Thermoregulation and Aerobic Endurance Capacity of Laser Sailors
- Ioannou et al., 2023, Novel Technological Advances to Protect People Who Exercise or Work in Thermally Stressful Conditions A Transition to More Personalized Guidelines
- Deng et al., 2020, Effects of local heating on thermal comfort of standing people in extremely cold environments
- Tsoutsoubi et al., 2023, Central versus peripheral mechanisms of cold‑induced vasodilation a study in the fingers and toes of people with paraplegia
- Drigny et al., 2021,Risk Factors and Predictors of Hypothermia and Dropouts During Open-Water Swimming Competitions
- Wang et al., 2023, Phase-change material cooling blanket A feasible cooling choice during transport after exercise-induced hyperthermia
- Kingma et al, 2020, Time perception and timed decision task performance during passive heat stress
- Tan et al., 2022, Efficacy of Isothermic Conditioning over Military-Based Heat Acclimatization and Interval Training in Tropical Native Males
- Søberg et al., 2021, Altered brown fat thermoregulation and enhanced cold-induced thermogenesis in young, healthy winter-swimming men,
- Berry et al., 2021, Hydration Is More Important Than Exogenous Carbohydrate Intake During Push-to-the-Finish Cycle Exercise in the Heat
- Sakamoto et al., 2021, Wearing a face mask during controlled-intensity exercise is not a risk factor for exertional heatstroke A pilot study
- Komarzynski et al, 2019, Predictability of individual circadian phase during daily routine for medical applications of circadian clocks
- McGarr et al, 2020, Heat strain in children during unstructured outdoor physical activity in a continental summer climate
- Racinais et al., 2018, Core temperature up to 41.5ºC during the UCI Road Cycling World Championships in the heat
- Stevens et al, 2020, Core Temperature Responses to Elite Racewalking Competition
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