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Effect of magnesium and vitamin B6 supplementation on mental health and quality of life in stressed healthy adults: Post-hoc analysis of a randomised controlled trial.
Noah, L, Dye, L, Bois De Fer, B, Mazur, A, Pickering, G, Pouteau, E
Stress and health : journal of the International Society for the Investigation of Stress. 2021;37(5):1000-1009
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Plain language summary
Stress and low magnesemia are shown to be linked by previous research evidence. Additionally, Vitamin B6 (pyridoxine) has been shown to have stress-relieving and neuromodulating effects. This 1:1 randomised, investigator-blinded, parallel-group trial compared the effectiveness of magnesium alone and a combination of magnesium and vitamin B6 in participants with moderate to severe stress on mental and physical health. Participants consumed 300 mg magnesium lactate dihydrate daily with 30 mg Vitamin B6 or 300 mg magnesium lactate dihydrate daily for 8 weeks. Treatment with magnesium with or without vitamin B6 improved depression and anxiety, specifically a significant improvement observed after week four of the intervention. Quality of life improvements were sustained over 8 weeks among participants with magnesemia. Combined supplementation of magnesium and vitamin B6 increased the perceived capacity for physical activity in participants. Further robust research is needed to evaluate the combined effects of vitamin B6 and magnesium on stress-related mental health in people with magnesemia. However, healthcare professionals can use the results of this study to better understand magnesium and vitamin B6 supplementation's positive effects on stress-related mental health.
Abstract
Magnesium status and vitamin B6 intake have been linked to mental health and/or quality of life (QoL). In an 8-week Phase IV randomised controlled study in individuals with low magnesemia and severe/extremely severe stress but who were otherwise healthy, greater stress reduction was achieved with magnesium combined with vitamin B6 than with magnesium alone. We present a previously unreported secondary analysis of the effect of magnesium, with and without vitamin B6, on depression, anxiety, and QoL. Adults with Depression Anxiety Stress Scales (DASS-42) stress subscale score >18 were randomised 1:1 to magnesium + vitamin B6 combination (Magne B6® ; daily dose 300 and 30 mg, respectively) or magnesium alone (Magnespasmyl® ; daily dose 300 mg). Outcomes included changes from baseline in DASS-42 depression and anxiety scores, and QoL (Short Form-36 Health Survey). DASS-42 anxiety and depression scores significantly improved from baseline to week 8 with both treatments, particularly during the first 4 weeks. Improvement in QoL continued over 8 weeks. Participants' perceived capacity for physical activity in daily life showed greater improvement with magnesium + vitamin B6 than magnesium alone (Week 4). In conclusion, magnesium supplementation, with or without vitamin B6, could provide a meaningful clinical benefit in daily life for individuals with stress and low magnesemia.
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Ketone ester supplementation blunts overreaching symptoms during endurance training overload.
Poffé, C, Ramaekers, M, Van Thienen, R, Hespel, P
The Journal of physiology. 2019;597(12):3009-3027
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Overload training is often used by endurance athletes to improve endurance performance. Overload training, however, can result in muscle protein breakdown, a catabolic state, and a decrease in muscle performance. Therefore, this randomised, double-blinded, placebo-controlled study examined the protective effects of ketone ester supplementation in reducing the detrimental effects of endurance training-induced overreaching. When compared to the control group, the subjects taking oral ketone ester supplements showed a 15% increase in sustained training load and power output and maintained energy balance. Supplementation with ketones ester inhibited the night-time increase in neurotransmitter noradrenaline and hormone adrenaline and maintained heart rate, suggesting a blunting of cardiovascular, sympathetic and hormonal symptoms caused by the endurance training overload. Growth differentiation factor 15 (GDF15) increased by training overload was negated by ketone ester intake. Further studies should be conducted to establish the long-term effects of ketone esters in training and recovery. These results can help healthcare professionals better understand how elevated blood ketones can enhance exercise performance and reduce the detrimental effects of exercise overload.
Abstract
KEY POINTS Overload training is required for sustained performance gain in athletes (functional overreaching). However, excess overload may result in a catabolic state which causes performance decrements for weeks (non-functional overreaching) up to months (overtraining). Blood ketone bodies can attenuate training- or fasting-induced catabolic events. Therefore, we investigated whether increasing blood ketone levels by oral ketone ester (KE) intake can protect against endurance training-induced overreaching. We show for the first time that KE intake following exercise markedly blunts the development of physiological symptoms indicating overreaching, and at the same time significantly enhances endurance exercise performance. We provide preliminary data to indicate that growth differentiation factor 15 (GDF15) may be a relevant hormonal marker to diagnose the development of overtraining. Collectively, our data indicate that ketone ester intake is a potent nutritional strategy to prevent the development of non-functional overreaching and to stimulate endurance exercise performance. ABSTRACT It is well known that elevated blood ketones attenuate net muscle protein breakdown, as well as negate catabolic events, during energy deficit. Therefore, we hypothesized that oral ketones can blunt endurance training-induced overreaching. Fit male subjects participated in two daily training sessions (3 weeks, 6 days/week) while receiving either a ketone ester (KE, n = 9) or a control drink (CON, n = 9) following each session. Sustainable training load in week 3 as well as power output in the final 30 min of a 2-h standardized endurance session were 15% higher in KE than in CON (both P < 0.05). KE inhibited the training-induced increase in nocturnal adrenaline (P < 0.01) and noradrenaline (P < 0.01) excretion, as well as blunted the decrease in resting (CON: -6 ± 2 bpm; KE: +2 ± 3 bpm, P < 0.05), submaximal (CON: -15 ± 3 bpm; KE: -7 ± 2 bpm, P < 0.05) and maximal (CON: -17 ± 2 bpm; KE: -10 ± 2 bpm, P < 0.01) heart rate. Energy balance during the training period spontaneously turned negative in CON (-2135 kJ/day), but not in KE (+198 kJ/day). The training consistently increased growth differentiation factor 15 (GDF15), but ∼2-fold more in CON than in KE (P < 0.05). In addition, delta GDF15 correlated with the training-induced drop in maximal heart rate (r = 0.60, P < 0.001) and decrease in osteocalcin (r = 0.61, P < 0.01). Other measurements such as blood ACTH, cortisol, IL-6, leptin, ghrelin and lymphocyte count, and muscle glycogen content did not differentiate KE from CON. In conclusion, KE during strenuous endurance training attenuates the development of overreaching. We also identify GDF15 as a possible marker of overtraining.