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1 and SPA were measured for 24h in an indirect calorimeter.
2 s (n = 23) for 24 h in a whole-room indirect calorimeter.
3 esting that subjects were less active in the calorimeter.
4 eding were measured in a whole-room indirect calorimeter.
5 er 24 h in a purpose-built 1.4 m3 whole-body calorimeter.
6 d in this study, using a whole-room indirect calorimeter.
7 vidin, are measured by the paper-based micro-calorimeter.
8 ermal absorber material for high-power laser calorimeters.
12 subjects spent 23 h in a whole-room indirect calorimeter and were fed a diet similar to that consumed
15 rgy expenditure, measured for 24 h in a room calorimeter at the end of each 8-wk period, was the same
16 pmol) were determined using an open-circuit calorimeter by measuring the volumes of oxygen consumed
21 erformed by using a high-precision, indirect calorimeter connected to the subject via a transparent,
23 The model was used to determine the optimum calorimeter design (membrane size and thickness, junctio
24 s comprising five cantilever, capacitor, and calorimeter devices coated with five different sorptive-
27 were determined with a differential scanning calorimeter (DSC) and a thermogravimetric analyzer (TGA)
30 ally measured at low coverage using a Calvet calorimeter equipped with a customized dosing manifold.
32 ent, they resided in the whole-body indirect calorimeter for the 7 d and had ad libitum access to a m
33 antitative comparison of the capabilities of calorimeters for simultaneous determination of equilibri
35 levels (PALs) by using a whole-room indirect calorimeter in 10 adult women as they transitioned from
36 e (RMR) and 24-h EE assessed in a whole-room calorimeter in 507 and 419 Pima Indians, respectively.
38 ing a high sensitivity differential scanning calorimeter in isothermal mode, we directly measured hea
39 A new ultrasensitive differential scanning calorimeter is described, having a number of novel featu
41 eatment were monitored using an open-circuit calorimeter measuring the volume of oxygen consumed (VO2
44 y to enable a wide variety of other standard calorimeter operations; one example, a flow calorimeter,
45 xpenditures were assessed by using a chamber calorimeter, physiologic stress of exercise and exercise
46 been challenging to realize microchip-based calorimeters possessing both high sensitivity and precis
48 electrical calibration of power compensation calorimeters require validation of the calorimetric fact
52 ngth necessary to construct high-sensitivity calorimeters that can be scaled to automated, highly mul
53 When the frozen tissue was placed in the calorimeter, the pressure increased within 4 d to 25 and
54 ed T(m) during the first heating scan in the calorimeter, then lowered it below T(o) in subsequent sc
55 management problems, ranging from nanoscale calorimeters to microelectronic processors to macroscopi
56 microfabricated suspended-membrane titration calorimeters to nanoliter droplets and improved the sens
57 a group of 5 cantilever, 5 capacitor, and 5 calorimeter transducers coated with 1 of 5 different sor
58 e pressure was released, the output from the calorimeter went from -194 to 229 microW within 1 h, sug
59 pounds was analysed by differential scanning calorimeter, where decreased DeltaH inferred potential c
60 of UCN were monitored using an open circuit calorimeter which measured oxygen consumption (V(O2)) an
61 rimental platform that comprises a heat-flow calorimeter with a resolution of about 100 pW, we experi
62 ing accurate results with nanowatt titration calorimeters with overflow cells requires mass calibrati
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