ӳ��ý

A consensus guide to preclinical indirect calorimetry experiments.

Nature metabolism

Authors	Alexander Banks David Allison Thierry Alquier Ansarullah Steven Austad Johan Auwerx Julio Ayala Joseph Baur Stefania Carobbio Gary Churchill Morten Dall Rafael de Cabo Jose Donato Nathalia Dragano V Carol Elias Anthony Ferrante Brian Finck Jose Galgani Zachary Gerhart-Hines Laurie Goodyear Justin Grobe Rana Gupta Kirk Habegger Sean Hartig Andrea Hevener Steven Heymsfield Corey Holman Martin de Angelis David James Lawrence Kazak Jae Kim Martin Klingenspor Xingxing Kong Sander Kooijman Louise Lantier K Lloyd James Lo Irfan Lodhi Paul MacLean Owen McGuinness Gema Medina-Gómez Raghavendra Mirmira Christopher Morrison Gregory Morton Timo Müller Yoshihiro Ogawa David Pajuelo-Reguera Matthew Potthoff Nathan Qi Marc Reitman Patrick Rensen Jan Rozman Jennifer Rutkowsky Kei Sakamoto Philipp Scherer Gary Schwartz Radislav Sedlacek Mohammed Selloum Saame Shaikh Shuai Chen Gerald Shulman Vojtěch Škop Alexander Soukas John Speakman Bruce Spiegelman Gregory Steinberg Katrin Svensson John Thyfault Tony Tiganis Paul Titchenell Nigel Turner Licio Velloso Antonio Vidal-Puig Christopher Ward Ashley Williams Christian Wolfrum Allison Xu Ying Xu Juleen Zierath International Indirect Calorimetry Consensus Committee (IICCC)
Abstract	Understanding the complex factors influencing mammalian metabolism and body weight homeostasis is a long-standing challenge requiring knowledge of energy intake, absorption and expenditure. Using measurements of respiratory gas exchange, indirect calorimetry can provide non-invasive estimates of whole-body energy expenditure. However, inconsistent measurement units and flawed data normalization methods have slowed progress in this field. This guide aims to establish consensus standards to unify indirect calorimetry experiments and their analysis for more consistent, meaningful and reproducible results. By establishing community-driven standards, we hope to facilitate data comparison across research datasets. This advance will allow the creation of an in-depth, machine-readable data repository built on shared standards. This overdue initiative stands to markedly improve the accuracy and depth of efforts to interrogate mammalian metabolism. Data sharing according to established best practices will also accelerate the translation of basic findings into clinical applications for metabolic diseases afflicting global populations.
Year of Publication	2025
Journal	Nature metabolism
Volume	7
Issue	9
Pages	1765-1780
Date Published	09/2025
ISSN	2522-5812
DOI	10.1038/s42255-025-01360-4
PubMed ID	40993210
Links

Recent ӳ��ý Publications

Response and Resistance to RAS Inhibition in Cancer.

Ultrasound-activated cilia for biofilm control in indwelling medical devices.

Targeting glutamine catabolism suppresses eosinophil expansion and activation to alleviate allergic airway inflammation.

scooby: modeling multimodal genomic profiles from DNA sequence at single-cell resolution.

Tissue and cellular spatiotemporal dynamics in colon aging.