Inbody230 body composition analyzer

Manufactured by InBody

Sourced in United States

The InBody230 is a body composition analyzer that measures various body composition parameters, including body weight, body fat percentage, and muscle mass. It utilizes bioelectrical impedance analysis technology to provide detailed information about an individual's body composition.

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8 protocols using inbody230 body composition analyzer

Anthropometric Measurements and Indices

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Body height measurement was taken with an accuracy of 0.1 cm using an anthropometer (GPM Anthropological Instruments). Body weight and body fat mass were measured with the InBody230 body composition analyzer (InBody Co. Ltd., Cerritos, CA, USA). Waist and hip circumferences were measured with the standard anthropometric procedure. The above data were used to calculate indices with the presented formulas:

Domaradzki J., Koźlenia D, & Popowczak M. (2022). Prognostic Potential of the Body Composition Indices in Predicting Positive Changes in Resting Blood Pressure after High-Intensity Interval Training in Adolescents. International Journal of Environmental Research and Public Health, 19(22), 14658.

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Randomized Body Composition Study

Cited 1 time

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The participants were selected by random sampling among the patients attending a consultation with their family doctor in each participating center. The inclusion criteria were age between 20 and 65 years, a BMI between 27.5 kg/m² and 40 kg/m², agreement to participate in the study, and signing the informed consent document. A detailed description of inclusion and exclusion criteria has been published in the study protocol [27 (link)]. To determine the effect of the intervention on body composition, an additional criterion was set: only subjects with both body composition measurements (at baseline and 3-month visit) assessed using the InBody 230 Body Composition Analyzer (InBody Co., Ltd) were included in the analysis. Hence, the study sample consisted of 440 subjects.

Lugones-Sanchez C., Sanchez-Calavera M.A., Repiso-Gento I., Adalia E.G., Ramirez-Manent J.I., Agudo-Conde C., Rodriguez-Sanchez E., Gomez-Marcos M.A., Recio-Rodriguez J.I, & Garcia-Ortiz L. (2020). Effectiveness of an mHealth Intervention Combining a Smartphone App and Smart Band on Body Composition in an Overweight and Obese Population: Randomized Controlled Trial (EVIDENT 3 Study). JMIR mHealth and uHealth, 8(11), e21771.

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Body Composition Measurement Protocol

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Body height was measured with an accuracy of 0.1 cm using an anthropometer (GPM Anthropological Instruments, DKSH Ltd., Zurich, Switzerland). Body weight and body mass composition (percentage body fat (BFP) and skeletal muscle mass (SMM)) were measured using an InBody230 body composition analyzer (In-Body Co., Ltd., Cerritos, CA, USA). This tool is characterized by very high reliability, as indicated by a high intraclass correlation coefficient (ICC) for BFP (≥0.98), FM (≥0.98), and FFM (≥0.99), and low standard error of measurements. BMI was calculated as a ratio of body weight (kg) to body height (cm²). Waist-to-hip ratio (WHR) was calculated as a ratio of waist circumference to hip circumference. Based on BMI, each participant was classified as lower-weighted or higher-weighted. As in previous works, a BMI = 20 was the cutoff point.

Domaradzki J., Koźlenia D, & Popowczak M. (2023). The Prevalence of Responders and Non-Responders for Body Composition, Resting Blood Pressure, Musculoskeletal, and Cardiorespiratory Fitness after Ten Weeks of School-Based High-Intensity Interval Training in Adolescents. Journal of Clinical Medicine, 12(13), 4204.

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Anthropometric Measurements Procedure

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Body weight was measured to the nearest 0.1 kg, with the subject barefoot, wearing light clothing, and removing heavy pocket items, using the portable InBody 230 Body Composition Analyzer (InBody Co., Ltd). Height was measured with the subject barefoot in a standing position using a portable scale and measurement system (Seca 222), and the average of 2 readings rounded to the nearest centimeter was recorded. BMI was calculated by dividing weight (in kg) by height squared (in m²). Following the recommendations of the Spanish Society for the Study of Obesity (SEEDO) [31 (link)], waist circumference was measured in duplicate, using a flexible tape parallel to the floor, at the level of the midpoint between the last rib and the iliac crest, with the subject standing without clothing, after inspiration. Hip circumference was similarly measured at the level of the trochanters.

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Comprehensive Body Composition Assessment

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Morphological measurements included body height, with an accuracy of 0.1 cm, using anthropometers (GPM Anthropological Instruments, DKSH Ltd, Switzerland) and body weight and body fat percentage (BF%) using an InBody230 body composition analyzer (InBody Co. Ltd, Cerritos, CA, USA) with the bioelectrical impedance method. The tool has very high reliability. InBody230 was reliable in men and women as indicated by high intraclass correlation coefficients for BF% (≥0.98), FM (≥0.98), and FFM (≥0.99) and low standard error of measurement [27 (link)]. Before the measurement, participants were asked to excrete, refrain from drinking excessive amounts of water and not change typical breakfast patterns. BMI was calculated based on body height and weight. Furthermore, waist-to-hip ratio (WHR) was calculating.

Domaradzki J., Cichy I., Rokita A, & Popowczak M. (2020). Effects of Tabata Training During Physical Education Classes on Body Composition, Aerobic Capacity, and Anaerobic Performance of Under-, Normal- and Overweight Adolescents. International Journal of Environmental Research and Public Health, 17(3), 876.

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Anthropometric Measurements Protocol

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Body height measurements were taken with an accuracy of 0.1 cm using an anthropometer (SECA manufactured, Hamburg, Germany. Quality control number C-2070). Body mass and body fat mass were measured with the InBody230 body composition analyzer (InBody Co. Ltd., Cerritos, CA, USA). Foot length was recorded with a spreading caliper (SECA manufactured, Hamburg, Germany. Quality control number C-2070). The maximal foot length was measured from the back (heel tuber) to the tip of the longest toe (1st or 2nd).

Domaradzki J., Koźlenia D., Popowczak M., Šimonek J., Paška Ľ, & Horička P. (2024). Prognostic Power of Foot Mobility in Identifying the Risk of Musculoskeletal Injuries: A Cross-Sectional Study of Male Volleyball Players at Different Competitive Levels. Journal of Clinical Medicine, 13(5), 1189.

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Anthropometric Measurements and Body Composition

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Body height was measured with an accuracy of 0.1 cm, using anthropometers (GPM Anthropological Instruments, DKSH Ltd., Zurich, Switzerland). Bodyweight and body fat mass (BFM) was measured using an InBody230 body composition analyzer (InBody Co., Ltd., Cerritos, CA, USA), which was positively validated as a reliable tool. High intraclass correlation coefficients indicated very high reliability for BF% (≥0.98), FM (≥0.98), and FFM (≥0.99), as well as the low standard error of measurement [29 (link)].
Based on the values of height and weight obtained, the index of relative body mass—BMI (kg/m²)—was calculated using the following formula:

BMI = {\frac{body mass [kg]}{{body height [m}^{2}]}}^{}

Based on the body fat mass results—fat mass index (FMI) was calculated from a similar formula such as BMI:

FMI = {\frac{body fat mass [kg]}{{body height [m}^{2}]}}^{}

In schemes of calculated models, explanations of associations between different variables, and overall interpretations, the term FAT was used to generalize the description of all fatness variables (BFM, FMI, and BMI).

Domaradzki J., Koźlenia D, & Popowczak M. (2022). The Mediation Role of Fatness in Associations between Cardiorespiratory Fitness and Blood Pressure after High-Intensity Interval Training in Adolescents. International Journal of Environmental Research and Public Health, 19(3), 1698.

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Cardiac Screening of University Athletes

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To screen structural and functional changes or abnormalities of university athletes, the International University Sports Federation (FISU) planned the Check-up Your Heart Program as a legacy project of the 2015 Gwangju Summer Universiade. In collaboration with FISU and the organizing committee of the 2015 Gwangju Summer Universiade, the Check-up Your Heart Program was operated in the Athlete Village on 1–14 July 2015, during the Universiade.
In addition, personnel for this program were as follows: 4 cardiologists (1 electrophysiologist and 3 echocardiologists), 3 cardiac sonographers who have a license of Registered Diagnostic Cardiac Sonographer of the USA, 1 medical technologist, nine volunteers, and 2 translators. Demographic information was obtained using the athlete-reported questionnaire. Blood pressure, heart rate (HR), and anthropometric data including height, weight, and wingspan were collected. Body composition including lean body mass, body fat mass, and muscle mass were measured by using InBody 230 Body Composition Analyzer (InBody Co., Cerritos, CA, USA).

Yoon H.J., Kim K.H., Hornsby K., Park J.H., Park H., Kim H.Y., Cho J.Y., Ahn Y., Jeong M.H, & Cho J.G. (2021). Gender Difference of Cardiac Remodeling in University Athletes: Results from 2015 Gwangju Summer Universiade. Korean Circulation Journal, 51(5), 426-438.

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