University of California Davis
University of Cincinnati Medical Center
University of Massachusetts Medical School
University of Michigan Medical School
Vanderbilt University School of Medicine
Protocols & Methods
Reagents & Resources
Tissues & Samples
Conditions of Use
Data Usage Policy
Tracers in Metabolic Research
Isotope Tracers in Metabolic Research: 3-Part Webinar Series
Energy Expenditure Analysis
CalR: Indirect Calorimetry Analysis
Guidelines & Policies
Activity 24h (x-ambulatory) (Activity 24h (x-amb))
number of beam breaks per 24 hour (beam breaks/24h)
Activity 24h (x-ambulatory)
Activity 24h (x-amb)
energy balance & excercise
Amount of x-ambulatory activity as measured by beam breaks during a 24 hour
Curation Flag Information
New comment to be added:
Effects of Ryanadine receptor hemizygosity on energy expenditure with running wheel
2017-11-06 Chun - Eric 4 day 2 group CLAMS
Energy expenditure in D36 mice
Gross body composition and Energy expenditure in Ncor1D (Ncor1-omega KO) cohort 2
Gross body composition and Energy expenditure in Ncor1D (Ncor1-omega KO) mice
Ravi Kumar Pasumarthi
Gross body composition and Energy Expenditure in Negr1 mice
Gross body composition and Energy Expenditure in PWS (Snord116del) mice
Gross body composition and Energy Expenditure in PWS (Snord116del) mice (cohort 2)
Gross body composition and Energy Expenditure in PWS (Snord116del) mice (cohort 3)
Gross body composition and Energy expenditure in Xkr6 (-/-) mice
Influence of Myo K64A mutation on metabolic phenotype and energy balance
Ravi Kumar Pasumarthi
Energy expenditure and body composition in WT and Pcsk1n (-/-) mice
Metabolic measurements in p65Schc -/- mice
Influence of brown adipose specific CFTR KO on energy expenditure at various environmental temperatures in male mice
Influence of NNAT KO on energy expenditure at various environmental temperatures in female mice
Influence of NNAT KO on energy expenditure at various environmental temperatures in male mice
Measurement of energy expenditure, RER and body composition in 28 month old mice on one of 3 diets (control (AIN93G), ketogenic, or low carbohydrate diets for 1 year.
Effect of conditionally targeted (Sim1-cre or SF1-cre) knockout of Rai1 on energy expenditure and meal patterns
Sex differences in energy expenditure, meal patterns, and body composition in response to short term high fat diet (4 weeks)
Assessment of energy expenditure of dominant negative SNAP25 mutant mice.
Influence of LETMD1 KO on energy expenditure at various environmental temperatures in male mice
Measurement of standard energy expenditure at 22C in Control and RyR1-R163C Heterozygotes
Effect of muscle-specific p110beta knockout on whole body energy expenditure and body composition
Influence of Myo KO mutation on metabolic phenotype and energy balance
Effect of altered light cycle (5 day darkness) on energy expenditure and meal patterns in mouse model of Prader-Willi syndrome
Effect of Heph (hephaestin) ablation on energy expenditure and body composition
Measurement of standard energy expenditure at 22C in Control and RyR1-R163C Heterozygotes (MALES-cohort1)
Measurement of standard energy expenditure at 22C in Control and RyR1-R163C Heterozygotes (female cohorts 2 &3, male cohort2)
Effect of Heph (hephaestin) ablation on meal patterns
Effect of Carbohydrate: Protein: Fat ratio on Energy expenditure
Effect of ABAT ASO knock down on substrate oxidation and energy expenditure in DIO mice.
Effect of antibiotics on energy expenditure in Ob/Ob and C57BL/6J (WT) mice
Effect of Mecp2-e1 knockout (model of Rett syndrome) on energy expenditure and meal patterns in male and female mice
Effect of high fat diet on energy expenditure and body composition of Nav1.8-LepR(fl/fl)mice
Michele La Merrill
Effect of Maternal DDT exposure on baseline energy expenditure
Influence of single meal on energy expenditure and substrate oxidation in PKD mice.
Measurement of energy expenditure, RER and body composition in 12 month old mice placed on one of 3 diets(control (AIN93G), ketogenic (90% fat, 10% protein, 0.7% carbohydrate), or low carb (70%fat, 20% protein, 10% carbohydrate)) for 1 month.
Michele La Merrill
pathophysiological effects of arsenic on the metabolism and energy balance of adult mice
Associated MP Terms
MP:0001399 - hyperactivity
MP:0001402 - decreased locomotor activity
MP:0001404 - no spontaneous movement
MP:0002690 - akinesia
MP:0005156 - bradykinesia
MP:0005202 - lethargy
MP:0008035 - behavioral arrest
MP:0012343 - increased gnawing activity
MP:0012344 - decreased gnawing activity
MP:0020211 - slow movement
Back to Top
There was a problem with the page:
Safari Browser Detected...
We strive to make the MMPC site compatable with as many browsers as possible, but some of our third party tools don't work with the Safari browser.
In order to explore this site we highly recommend using the most recent versions of the following browsers:
Please acknowledge all posters, manuscripts or scientific materials that were generated in part or whole using funds from the MMPC using the following text:
Financial support for this work was provided by the NIDDK Mouse Metabolic Phenotyping Centers (National MMPC, RRID:SCR_008997,
) under the MICROMouse Program, grants DK076169.
Citation text and image have been copied to your clipboard. You may now paste them into your document. Thank you!
Warranty disclaimer and copyright notice
THE NATIONAL MMPC MAKES NO REPRESENTATION ABOUT THE SUITABILITY OR ACCURACY OF THE SOFTWARE OR DATA FOR ANY PURPOSE, AND MAKES NO WARRANTIES, EITHER EXPRESS OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE OR THAT THE USE OF THE SOFTWARE OR DATA WILL NOT INFRINGE ANY THIRD PARTY PATENTS, COPYRIGHTS, TRADEMARKS, OR OTHER RIGHTS. THE SOFTWARE AND DATA ARE PROVIDED "AS IS".
The Mouse Metabolic Phenotyping Centers (MMPC) is an NIDDK funded consortium and adheres to the
NIH Data Sharing Policy
MMPC clients make their data freely available whereby MMPC users may freely build upon, enhance and reuse those data for any purpose without restriction. Scholarly citation norms must be followed for content reuse. Please acknowledge the MMPC using the following text: 'The MMPC data used in this manuscript was supported by the NIDDK National Mouse Metabolic Phenotyping Centers (National MMPC, RRID:SCR_008997,
)'. To cite specific MMPC centers, please use the appropriate RRID available from the MMPC website (
Please note that the acknowledgment text includes a Research Resource Identifier (RRID) for the MMPC CU and Centers. Reproducibility is one of the corner stones of effective, open and transparent biomedical published research. However, too often, resources (e.g. model organisms, antibodies, and tools) are not reported with adequate detail to ensure others can replicate or expand upon the published results. The Research Resource Identification Initiative (#RII) seeks to change these limitations in reporting by the use of unique Research Resource Identifiers (RRIDs). This initiative is designed to encourage authors to provide identification of the types of resources used in their research by adding a globally unique accession number to the resources described in the their manuscripts. These identifiers, called RRIDs, will allow authors to cite the resources that they use in their manuscripts. RRIDs allow for easy tracking of all papers that have used the same resource making it easy to access how the same resources works in other scenarios.
It is expected that MMPC users follow scholarly citation norms, giving credit to fellow scholars when accessing/using protocols and data, including data derived by MMPC (such as summary data) and any plots, tables or screenshots depicting those data.
It is possible for invalid or incomplete results to be presented on the MMPC web site due to software bugs, data problems, or artifacts of human error. Data sets are not necessarily static; we reserve the right to post corrections and updates as needed.
Data contributors and data users may not use MMPC in any unlawful manner, or in any manner that could impair MMPC services, security or functionality. Automated usage (webcrawlers and similar) must observe each page's "meta robots" html tags and space requests by ≥ 2 seconds. We reserve the right to block any IP associated with what we consider to be excessive or abusive usage patterns, and/or to take any action we deem necessary.
The MMPC is a National Institutes of Health-sponsored resource that provides experimental testing services to scientists studying diabetes, obesity, diabetic complications, and other metabolic diseases in mice.
Interested in receiving MMPC News?
2017 National MMPC. All Rights Reserved.