No effect of triheptanoin in patients with phosphofructokinase deficiency

•First study in PFKD to investigate fat and glucose metabolism with stable isotope techniques.•Triheptanoin treatment had no effect on heart rate or improvement of FAO during exercise.•Triheptanoin treatment increased plasma palmitate production during exercise. Phosphofructokinase deficiency (PFKD)...

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Veröffentlicht in:	Neuromuscular disorders : NMD 2022-04, Vol.32 (4), p.295-304
Hauptverfasser:	Raaschou-Pedersen, Daniel Emil, Madsen, Karen Lindhardt, Løkken, Nicoline, Storgaard, Jesper Helbo, Quinlivan, Ros, Laforêt, Pascal, Lund, Allan, Van Hall, Gerrit, Vissing, John, Ørngreen, Mette
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Sprache:	eng
Schlagworte:	Cross-Over Studies Endocrinology and metabolism fat and carbohydrate metabolism Glycogen Glycogen storage disease Human health and pathology Humans Life Sciences Metabolic Myopathies Palmitates Pharmaceutical sciences Pharmacology Phosphofructokinase deficiency Phosphofructokinases Pyruvates Triglycerides Triheptanoin
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container_title	Neuromuscular disorders : NMD
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creator	Raaschou-Pedersen, Daniel Emil Madsen, Karen Lindhardt Løkken, Nicoline Storgaard, Jesper Helbo Quinlivan, Ros Laforêt, Pascal Lund, Allan Van Hall, Gerrit Vissing, John Ørngreen, Mette
description	•First study in PFKD to investigate fat and glucose metabolism with stable isotope techniques.•Triheptanoin treatment had no effect on heart rate or improvement of FAO during exercise.•Triheptanoin treatment increased plasma palmitate production during exercise. Phosphofructokinase deficiency (PFKD) is a rare disorder of glycogen metabolism. The lack of phosphofructokinase activity blocks the oxidative pathway from glucose and glycogen to pyruvate. Patients suffer from myopathy, exercise intolerance, and myoglobinuria. Currently, there is no specific treatment for PFKD. We hypothesized that 2 weeks treatment with triheptanoin could improve oxidative metabolism during exercise by bypassing the blocked pyruvate generation in PFKD. The study was a randomized, double-blind, placebo-controlled crossover study. Three genetically verified patients completed two treatment periods of 14 days each with triheptanoin (0.3–1 g × kg−1 × day−1) or placebo liquid. Primary outcomes were heart rate, fatty acid and total oxidation measured via stable isotope and indirect calorimetry methodology during submaximal exercise. Triheptanoin did not improve the primary outcome heart rate during submaximal exercise compared to placebo. Palmitate oxidation was increased during submaximal exercise in one patient but did not increase in the two other patients during triheptanoin treatment. Palmitate production and palmitate utilization increased during exercise and increased to a greater extent with triheptanoin treatment in all three patients. This study suggests that triheptanoin treatment has no effect on heart rate or exercise performance despite increased palmitate production and utilization in patients with PFKD.
doi_str_mv	10.1016/j.nmd.2022.01.012
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Phosphofructokinase deficiency (PFKD) is a rare disorder of glycogen metabolism. The lack of phosphofructokinase activity blocks the oxidative pathway from glucose and glycogen to pyruvate. Patients suffer from myopathy, exercise intolerance, and myoglobinuria. Currently, there is no specific treatment for PFKD. We hypothesized that 2 weeks treatment with triheptanoin could improve oxidative metabolism during exercise by bypassing the blocked pyruvate generation in PFKD. The study was a randomized, double-blind, placebo-controlled crossover study. Three genetically verified patients completed two treatment periods of 14 days each with triheptanoin (0.3–1 g × kg−1 × day−1) or placebo liquid. Primary outcomes were heart rate, fatty acid and total oxidation measured via stable isotope and indirect calorimetry methodology during submaximal exercise. Triheptanoin did not improve the primary outcome heart rate during submaximal exercise compared to placebo. Palmitate oxidation was increased during submaximal exercise in one patient but did not increase in the two other patients during triheptanoin treatment. Palmitate production and palmitate utilization increased during exercise and increased to a greater extent with triheptanoin treatment in all three patients. 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Phosphofructokinase deficiency (PFKD) is a rare disorder of glycogen metabolism. The lack of phosphofructokinase activity blocks the oxidative pathway from glucose and glycogen to pyruvate. Patients suffer from myopathy, exercise intolerance, and myoglobinuria. Currently, there is no specific treatment for PFKD. We hypothesized that 2 weeks treatment with triheptanoin could improve oxidative metabolism during exercise by bypassing the blocked pyruvate generation in PFKD. The study was a randomized, double-blind, placebo-controlled crossover study. Three genetically verified patients completed two treatment periods of 14 days each with triheptanoin (0.3–1 g × kg−1 × day−1) or placebo liquid. Primary outcomes were heart rate, fatty acid and total oxidation measured via stable isotope and indirect calorimetry methodology during submaximal exercise. Triheptanoin did not improve the primary outcome heart rate during submaximal exercise compared to placebo. Palmitate oxidation was increased during submaximal exercise in one patient but did not increase in the two other patients during triheptanoin treatment. Palmitate production and palmitate utilization increased during exercise and increased to a greater extent with triheptanoin treatment in all three patients. 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Phosphofructokinase deficiency (PFKD) is a rare disorder of glycogen metabolism. The lack of phosphofructokinase activity blocks the oxidative pathway from glucose and glycogen to pyruvate. Patients suffer from myopathy, exercise intolerance, and myoglobinuria. Currently, there is no specific treatment for PFKD. We hypothesized that 2 weeks treatment with triheptanoin could improve oxidative metabolism during exercise by bypassing the blocked pyruvate generation in PFKD. The study was a randomized, double-blind, placebo-controlled crossover study. Three genetically verified patients completed two treatment periods of 14 days each with triheptanoin (0.3–1 g × kg−1 × day−1) or placebo liquid. Primary outcomes were heart rate, fatty acid and total oxidation measured via stable isotope and indirect calorimetry methodology during submaximal exercise. Triheptanoin did not improve the primary outcome heart rate during submaximal exercise compared to placebo. 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subjects	Cross-Over Studies Endocrinology and metabolism fat and carbohydrate metabolism Glycogen Glycogen storage disease Human health and pathology Humans Life Sciences Metabolic Myopathies Palmitates Pharmaceutical sciences Pharmacology Phosphofructokinase deficiency Phosphofructokinases Pyruvates Triglycerides Triheptanoin
title	No effect of triheptanoin in patients with phosphofructokinase deficiency
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