Webinar: Clambake: An Algorithm to Decode Energy Expenditure Data from Metabolic Cages by InsideScientific

Clambake: An Algorithm to Decode Energy Expenditure Data from Metabolic Cages

About

Please note: due to unforeseen circumstances, this webinar has been temporarily postponed. We will be rescheduling the event, and you will receive further information when the new date has been finalized.

We apologize for any inconvenience and thank you for your understanding. Please reach out should you have any questions.

In this webinar, Dr. Jonathan Brestoff discusses his research on metabolism and a new method to quantify metabolic data known as Clambake.

Changes in energy expenditure are observed in a wide variety of disease and physiologic states. The most frequently used method to estimate energy expenditure in small animal models is indirect calorimetry, which is utilized in metabolic cage systems. However, total energy expenditure is a composite of four major parameters: basal metabolic rate, activity-induced energy expenditure, the thermic effect of food, and adaptive thermogenesis. This presentation describes a new bioinformatic approach called Clambake that estimates these four parameters using metabolic cage data. Clambake is sufficiently robust to analyze data from new experimental conditions and can reveal hidden phenotypes that might otherwise be overlooked. Therefore, Clambake provides an unprecedented level of detail in metabolic cage data and has the potential to enable novel insights about energy homeostasis in mouse models of physiology or disease.

Key Topics:

To learn how metabolic cage systems function and their value in studying health and disease

To identify the 4 major parameters that make up total energy expenditure

To understand the basis of Clambake and the ability of this method to estimate the 4 major energy expenditure parameters using metabolic cage data

When

Friday, June 14, 2024 · 11:00 a.m. Eastern Time (US & Canada) (GMT -4:00)

Presenter

Jonathan Brestoff, MD, PhD, MPH

Assistant Professor, Department of Pathology and Immunology, Washington University School of Medicine

Dr. Brestoff received his MD/PhD from University of Pennsylvania with Dr. David Artis, where his research identified a role for Group 2 innate lymphoid cells (ILC2s) in promoting beige fat biogenesis (Brestoff et al., Nature, 2015; Brestoff & Artis, Cell, 2015). He recompleted residency in Clinical Pathology at Washington University School of Medicine, during which time he pioneered studies with Dr. Steven L. Teitelbaum and later in his own lab on cell-to-cell transfer of mitochondria in regulating energy homeostasis (Brestoff et al., Cell Metabolism, 2021; Borcherding/Jia et al., Cell Metabolism, In Press). As a recipient of the NIH Director’s Early Independence Award and Burroughs Wellcome Fund Career Scientists Award, Dr. Brestoff started his independent laboratory at WashU as Assistant Professor of Pathology and Immunology in 2019, leading a research program studying intercellular mitochondria transfer and how the immune system regulates metabolic adaptation to nutrient stress.

Reserve Your Spot

First Name*

Last Name*

Email Address*

Organization / Company*

Job Title*

Country / Region*

utm_bmcr_source

Which of these areas of product development would you like to see get the majority of our focus?

Do you have a question for Jon?