Polar chest strap

Manufactured by Polar Electro

Sourced in Finland

The Polar chest strap is a heart rate monitoring device that is worn around the user's chest. It measures the user's heart rate and transmits the data to a compatible device, such as a fitness tracker or smart watch.

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Lab products found in correlation

True one 2400 metabolic, by Parvo Medics (1 mentions) Polar watch, by Polar Electro (1 mentions)

Spelling variants of this product

Polar H10 chest strap (6 citations) Polar H7 chest strap (5 citations) Polar H7 Chest Strap Heart Rate Monitor (3 citations) Polar H10 heart rate monitor chest strap (2 citations) Polar H10 chest strap HR monitor (2 citations)

3 protocols using polar chest strap

Maximal Cardiorespiratory Fitness Assessment

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After signing the consent form, the participants were asked to complete a VO₂max test in order to assess their level of cardiorespiratory fitness.
True One 2400 metabolic cart (ParvoMedics, Sandy, UT) was used for analyzing expired gases, and a Polar chest strap was used to monitor heart rate (HR; Polar Electro Oy, Finland). The metabolic system was calibrated before each use with a 3L syringe. After a five minute warm-up at a self-selected pace, a Modified Astrand-Saltin VO₂max protocol was implemented (21 (link)). For this protocol, a speed slightly higher than each participant’s normal training speed was chosen, and was clamped for the entirety of the test. The grade, initially at 0%, was increased by 2% every two minutes until volitional exhaustion. The two highest consecutive values for relative O₂ consumption were averaged for determination of VO₂max. Tests were considered to be maximal if two of the following three criteria were obtained: (1) RPE: ≥18; (2) HR: within 10 bpm of the participant’s age predicted maximal HR (where HR_max = 220 – age); (3) VO₂ plateau: difference between peak relative VO₂ value and the value in the preceding 15 seconds of 2.0 ml·kg⁻¹·min⁻¹ or less.

HANSON N.J, & BUCKWORTH J. (2016). Sex Differences in Time Perception during Self-paced Running. International Journal of Exercise Science, 9(4), 514-523.

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Smartphone-based Heart Rate Variability Assessment

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Heart rate variability is a non-invasive measure of the ANS as a reliable assessment of stress (40 (link)). Greater variability in heart rate can result in a greater ability to rapidly cope with uncertain and changing environments (41 (link)). In this study, HRV was collected using the Welltory smart phone application using the camera of the smart phone. Participants place their finger over the phone camera and flash for 2 min. A previous study compared HRV measurements using the Welltory App and the Polar chest strap (which are ECG accurate-site) and determined the technical error of estimate (TEE) was acceptable for all conditions (average TEE CV% [90% CI] = 6.35 [5.13; 8.5]) and both the PPG- and heart-rate-sensor-derived measures had almost perfect correlations with ECG (r = 1.00 [0.99; 1.00]) (52 (link)).

Finnerty R., McWeeny S, & Trainor L. (2023). Online group music therapy: proactive management of undergraduate students’ stress and anxiety. Frontiers in Psychiatry, 14, 1183311.

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Polar Fitness Test: Measuring VO2 Max

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In Study 1, participants were measured one by one in a separate room. In the first measurement, body weight and height were measured, and then participants completed the 85% submaximal oxygen uptake test. In the second measurement (7-14 days later), participants set their personal data (including the measured VO 2 max value) in the Polar watch, then the Polar chest strap with the transmitter and the three electrodes for the ECG measurement were placed on their body. ECG data was recorded simultaneously with the Polar Fitness Test protocol in a lying body position under resting conditions.
In Study 2, participants were asked to enter their personal data (age, gender, height, and weight) in the RS-400 Polar watch. VO 2 max, resting and maximum heart rate were left untouched (i.e., the default values of the device were used), activity level was set to the lowest value ("1"), and the OwnIndex test was conducted in a lying position under relaxed conditions (condition 1). After finishing the test, participants set activity level to the highest value ("4"), all other data remained unchanged, and the test was completed again (condition 2).

Köteles F., Dömötör Z., Berkes T, & Szemerszky R. (2015). Polar OwnIndex is not a reliable indicator of aerobic training status. Acta physiologica Hungarica, 102(4).

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