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InBody Technology 8-point Tactile Electrodes Exclusive Tetra-polar 8-point tactile electrodes allow measurements 5
to repeatedly start at a fixed point 100% - regardless of where electrodes are cylinder model
Impedance
placed - to increase accuracy and reproducibility.
Multiple High Frequencies The InBody uses multi-frequencies to penetrate the cell membrane and 5 accurately analyze intracellular water and extracellular water. By using multiple cylinder model
100%
Impedance frequencies, the InBody accurately measures total body water, hence, is
useful in analyzing individuals with imbalanced body water distribution.
Direct Segmental Measurement One of the assumptions generally taken in BIA is that the measured body 5
cylinder model
is one cylinder. The InBody uses direct segmental measurement bioelectric 100%
impedance analysis (DSM-BIA), a patented technology, to precisely Impedance measure the body as 5 separate cylinders: four limbs and the trunk.
No Empirical Estimations Conventional BIA devices factor body type, age, and gender into their
5
cylinder model
100%
Impedance
results. The InBody only uses impedance directly acquired from each subject allowing the InBody to always provide correct results regardless of gender, age, and particularly, body type.
Validation Studies Kriemler, S., Puder, J., Zahner, L., Roth, R., Braun-Fahrländer, C., & Bedogni, G. (2008). Cross-validation of bioelectrical impedance analysis for the assessment of body composition in a representative sample of 6-to 13-year-old children. European journal of clinical nutrition, 63(5), 619-626. Ling, C. H., de Craen, A. J., Slagboom, P. E., Gunn, D. A., Stokkel, M. P., Westendorp, R. G., & Maier, A. B. (2011). Accuracy of direct segmental multi-frequency bioimpedance analysis in the assessment of total body and segmental body composition in middle-aged adult population. Clinical Nutrition, 30(5), 610-615. Lim, J. S., Hwang, J. S., Lee, J. A., Kim, D. H., Park, K. D., Jeong, J. S., & Cheon, G. J. (2009). Cross-calibration of multi-frequency bioelectrical impedance analysis with eight-point tactile electrodes and dual-energy X-ray absorptiometry for assessment of body composition in healthy children aged 6–18 years. Pediatrics International, 51(2), 263-268. Utter, A. C., & Lambeth, P. G. (2010). Evaluation of multifrequency bioelectrical impedance analysis in assessing body composition of wrestlers. Med Sci Sports Exerc, 42(2), 361-7.
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➏
➐
➋
➌
➍
➑ ➎ ➒
InBody Results Sheet Body composition assessment and nutritional information at a glance ➊ Body Composition Analysis
➎ Body Composition History
Body weight is the sum of Body Fat Mass and Lean Body Mass,
which is composed of Dry Lean Mass and Total Body Water.
Track the history of the body compositional change. Take the InBody Test periodically to monitor your progress.
➏ Body Fat-Lean Body Mass Control
➋ Muscle-Fat Analysis
Compare the bar lengths of Skeletal Muscle Mass and Body Fat
Mass. The longer the Skeletal Muscle Mass bar is compared to
the Body Fat Mass bar, the stronger the body is.
Based on current body composition, the recommended change in Lean Body Mass and Body Fat Mass for a good balanced ratio. The '+' means to gain and the '-' means to lose.
➐ Basal Metabolic Rate
Body Mass Index (BMI) is an index used to determine obesity
Basal Metabolic Rate is the minimum number of calories needed to sustain life at a resting state. BMR is directly correlated to Lean
by using height and weight.
Body Mass.
➌ Obesity Analysis
height2(kg/m2).
BMI = weight /
Percent Body Fat (PBF) is the percentage of body fat compared
to body weight.
➑ Results Interpretation QR Code
Provides explanations of each result on the InBody Results Sheet.
➒ Impedance
➍ Segmental Lean Analysis
Evaluates whether the muscles are adequately developed in the
body. The top bar shows the comparison of muscle mass to ideal
weight while the bottom bar shows that to the current weight.
Impedance is the resistance value measured when electrical currents are applied throughout the body. Based on the measured data, key body composition outputs can be analyzed. Impedance is also used for many research purposes.
Muscle-Fat Analysis Graph Interpretation The shape formed by the Weight/Skeletal Muscle Mass/Fat Mass bars will assist in understanding your body type.
Normal Weight - Standard Type
Normal Weight - Weak Type
Normal Weight - Obese Type
Normal Weight - Strong Type
Under Weight - Strong Type
Over Weight - Weak Type
Over Weight - Strong Type
Under Weight - Weak Type
Over Weight - Obese Type
Additional Features Adjustable Touchscreen Head
Voice Guidance
800 × 480 Touch Color LCD 45 degree adjustable.
The InBody guides the examinee with audible instructions
Searchable Database
Enhanced Security
100,000 searchable and downloadable entries allows clients to retrieve past results
Create an Access Code for designated operators, secure your database from unauthorized access, and enable auto-lock if preferred.
Trending
Lookin’ Body Data Management Software
Check your progress right after testing on the touchscreen monitor through graphs that track results over time.
Consolidate and manage member results, create faster profiles, email results sheets and expedite the testing process.
Specifications Key Specifications Bioelectrical Impedance Analysis (BIA) Measurement Items
Bioelectrical Impedance (Z)
Electrode Method
Tetrapolar 8-Point Tactile Electrodes
Measurement Method
Direct Segmental Multi-frequency Bioelectrical Impedance Analysis Method, DSM-BIA
Body Composition Calculation Method
No Empirical Estimation
Outputs
15 Impedance Measurements by Using 3 Different Frequencies (5kHz, 50kHz, 250kHz) at Each of 5 Segments (Right Arm, Left Arm, Trunk, Right Leg and Left Leg)
Total Body Water, Dry Lean Mass, Lean Body Mass, Body Fat Mass, Weight, Skeletal Muscle Mass, Body Mass Index, Percent Body Fat, Segmental Lean Analysis (Right Arm, Left Arm, Trunk, Right Leg, Left Leg), Body Composition History (Weight, Skeletal Muscle Mass, Percent Body Fat), Body Fat-Lean Body Mass Control, Basal Metabolic Rate, Impedance at each segment/frequency
Feature Specifications Optional Equipment
Stadiometers from BIOSPACE
Custom Logo
Name, Address, and Contact Information can be shown on the InBody Results Sheet.
Digital Results
LCD Monitor, Data management software Lookin’Body120
Results Sheet
InBody Results Sheet
Voice Guidance
Provides audible indication for test in progress, test complete, and successfully saved settings changes.
Database
Test results can be saved if the member ID is utilized. The InBody can save up to 100,000 results.
SETUP
Configure settings and manage data
USB Thumb Drive
Copy, backup, or restore the InBody370 data (can be viewed on the Computer software Program Lookin’Body120)
Other Specifications Applied Rating Current
250µA
Adapter
Power Input
AC 100 ~ 240V, 50/60Hz, 1.2A
Power Output
DC 12V, 3.4A
800 × 480 7inch Color TFT LCD
Internal Interface
Touch screen
External Interface
RS-232C 1EA, USB HOST 1EA, USB SLAVE 1EA
Compatible Printer
Laser/Inkjet Printers * A list of printers compatible with the InBody370 can be found at http://www.inbodyservice.com
Dimension
18.1(W) × 26.7(L) × 40.2(H): inch 460(W) × 677(L) × 1020(H): mm
Equipment Weight
44lbs (20kg)
Test Time
About 45 seconds
Operation Environment
50 ~ 104℉ (10 ~ 40℃), 30 ~ 75%RH, 70 ~ 106kPa
Storage Environment
14 ~ 158℉ (-10 ~ 70℃), 10 ~ 80%RH, 50 ~ 106kPa (No condensation)
Testing Weight Range
22 ~ 551lbs (10 ~ 250kg)
Testing Age Range
3 ~ 99 years
Testing Height Range
37.4 ~ 86.6in. (95 ~ 220cm)
40.2
Display Type
* Specifications can be changed without a prior notice.
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Biospace, Inc. [USA] TEL: +1-323-932-6503 FAX: +1-323-952-5009 Website: http://www.biospaceamerica.com E-mail:
[email protected] Ⓒ 2013 Biospace Co., Ltd. All rights reserved. BC-USA-81-A-131007
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