Add to ORKGThe heart consumes circulating nutrients to fuel lifelong contraction, but a comprehensive mapping of human cardiac fuel use is lacking. We used metabolomics on blood from artery, coronary sinus, and femoral vein in 110 patients with or without heart failure to quantify the uptake and release of 277 metabolites, including all major nutrients, by the human heart and leg. The heart primarily consumed fatty acids and, unexpectedly, little glucose; secreted glutamine and other nitrogen-rich amino acids, indicating active protein breakdown, at a rate ~10 times that of the leg; and released intermediates of the tricarboxylic acid cycle, balancing anaplerosis from amino acid breakdown. Both heart and leg consumed ketones, glutamate, and acetate in...
The goal of this study was to measure arterial amino acid levels in patients with chronic heart fail...
Energy substrate metabolism and contractile function are tightly coupled in the heart. Within this f...
The goal of this study was to measure arterial amino acid levels in patients with chronic heart fail...
Background Significant evidence indicates that the failing heart is energy starved. During the devel...
The increased metabolic activity of the heart as a pump involves a high demand of mitochondrial aden...
Metabolic substrate utilization of the human failing heart is an area of controversy. The purpose of...
Metabolic substrate utilization of the human failing heart is an area of controversy. The purpose of...
Background: Under normal circumstances, free fatty acids (FFAs) are the predominant energetic substr...
The heart’s extraordinary metabolic flexibility allows it to adapt to normal changes in physiology i...
Heart failure (HF) is characterized by a series of maladaptive metabolic changes, which have recentl...
The healthy human heart uses fat and glucose as its predominant metabolic substrates, approximately ...
Metabolomics represents a paradigm shift in metabolic research, away from approaches that focus on a...
Background: Measurement of small molecules of intermediary metabolism (‘metabolites’) is an emerging...
Cardiovascular disease is currently the foremost cause of death within the United States. Heart fail...
Heart failure (HF) is accompanied by complex alterations in myocardial energy metabolism. Up to 40% ...
The goal of this study was to measure arterial amino acid levels in patients with chronic heart fail...
Energy substrate metabolism and contractile function are tightly coupled in the heart. Within this f...
The goal of this study was to measure arterial amino acid levels in patients with chronic heart fail...
Background Significant evidence indicates that the failing heart is energy starved. During the devel...
The increased metabolic activity of the heart as a pump involves a high demand of mitochondrial aden...
Metabolic substrate utilization of the human failing heart is an area of controversy. The purpose of...
Metabolic substrate utilization of the human failing heart is an area of controversy. The purpose of...
Background: Under normal circumstances, free fatty acids (FFAs) are the predominant energetic substr...
The heart’s extraordinary metabolic flexibility allows it to adapt to normal changes in physiology i...
Heart failure (HF) is characterized by a series of maladaptive metabolic changes, which have recentl...
The healthy human heart uses fat and glucose as its predominant metabolic substrates, approximately ...
Metabolomics represents a paradigm shift in metabolic research, away from approaches that focus on a...
Background: Measurement of small molecules of intermediary metabolism (‘metabolites’) is an emerging...
Cardiovascular disease is currently the foremost cause of death within the United States. Heart fail...
Heart failure (HF) is accompanied by complex alterations in myocardial energy metabolism. Up to 40% ...
The goal of this study was to measure arterial amino acid levels in patients with chronic heart fail...
Energy substrate metabolism and contractile function are tightly coupled in the heart. Within this f...
The goal of this study was to measure arterial amino acid levels in patients with chronic heart fail...