The Effects Of Phosphatidylserine On Reaction Time And Cognitive Function Following An Exercise Stress

Wells, Adam John

01 January 2012

Phosphatidylserine (PS) is an endogenously occurring phospholipid that has been shown to have cognition and mood enhancing properties in humans, possibly through its role as an enzyme co-factor in cellular signal transduction. Specifically, PS has been identified as activator of classical isoforms of protein kinase C, an enzyme known to be involved in the growth and differentiation of neural cells, and is therefore thought to play a role in the protection of neurons. The purpose of this study was to examine the effects of supplementation with PS and caffeine on measures of cognition, reaction time and mood prior to and following an exercise stress. Twenty, healthy, resistance trained males (17) and females (3) (mean ± SD; age: 22.75 ± 3.27 yrs; height: 177.03 ± 8.44cm; weight: 78.98 ± 11.24kg; body fat%: 14.28 ± 6.6), volunteered to participate in this randomized, double-blind, placebo-controlled study. Participants were assigned to a PS group (400mg/day PS; 100mg/day caffeine, N=9) or PL (16g/day Carbs, N=11) delivered in the form of 4 candy chews identical in size, shape and color. Subjects performed an acute bout of full body resistance exercise, prior to (T1) and following 14 days of supplementation (T2). Measures of reaction time (Dynavision® D2 Visuomotor Training Device), cognition (Serial Subtraction Test, SST), and mood (Profile of Mood States, POMS) were assessed immediately before and following resistance exercise in both T1 and T2. Data was analyzed using two-way ANCOVA and repeated measures ANOVA. Supplementation with 400mg PS and 100mg caffeine did not have a significant impact upon measures of reaction time or cognition between groups at baseline or following acute resistance exercise. However, there was a non-significant trend to the attenuation of fatigue iv between groups, following acute resistance exercise (p = 0.071). Interestingly, our data suggests that acute resistance exercise alone may improve cognitive function. Although more research is necessary regarding optimal dosage and supplementation duration, the current findings suggest that supplementation 400mg/day PS with 100mg/day caffeine may attenuate fatigue following acute resistance exercise. It is possible that the lack of significance may be the result of both an inhibition of the PS activated pathway and a withdrawal effect from caffeine.

Phosphatidylserine

caffeine

reaction time

cognition

cognitive function

mood

resistance exercise

protein kinase c

neurons

differentiation

proliferation

serial subtraction test

profile of mood state (poms)

dynavision

phospholipid

supplementation

Physiology

Sports Sciences

The Acute Metabolic Response of Intermittent Hypoxic Resistance Exercise : A Cross-Over RCT

Falgin Hultgren, Jonas

January 2019

Aim The aim for this present study was to investigate the acute metabolic response from intermittent resistance exercise during hypoxia, with the following research questions: (1) Are blood levels of lactate and glucose different between hypoxia and normoxia? (2) Does hypoxia induce higher lactate accumulation and pH reduction in the human skeletal muscle? (3) Is there a relationship between plasma-, blood- and muscle lactate? Method Eight healthy males (30 ± 2 years) performed 6 sets of unilateral leg extension on each leg (75% of 1RM) with randomized normoxic (20,9% inspired 𝑂2) and normobaric hypoxic (12% inspired 𝑂2) conditions. A total of 5 muscle biopsies was extracted from m. Vastus Lateralis (pre-, post exercise, 90-, 180min and 24h post exercise) during both normoxia and hypoxia trials, separated by one week for all participants. Blood samples were repeatedly taken with 20 min intervals. Heart Rate (HR) and saturation (𝑆𝑝𝑂2) were measured by a pulsoximeter during resistance exercise. Results No significant main effect was observed for blood lactate and glucose levels as well as the muscle lactate accumulation and pH between normoxia and hypoxia. However, pH in muscle showed a trend between the conditions post exercise where hypoxia reached lower levels in total (P=0.08). Significant correlations were observed for blood- and plasma lactate, where hypoxia showed a stronger relationship than normoxia (r=0.98 compared to r=0.87). Equal findings for the correlation of muscle- and plasma lactate showed an even greater coefficient value for hypoxia compared to normoxia (r=0.860 compared to r=0.59). Conclusion Summarized data indicated that no significant difference between hypoxia and normoxia was evident. Nonetheless, tendencies illustrate that hypoxia may alter the metabolic response slightly. However, further research is needed to draw a conclusion between the conditions. / Syftet med denna studie är att undersöka kroppens akuta metabola svar från intermittent styrketräning under hypoxi, med följande frågeställningar: (1) Skiljer sig nivåerna av laktat och glukos i blodet mellan hypoxi och normoxi? (2) Skapar hypoxi större laktatansamling och pH reduktion i människoskelettmuskeln? (3) Finns det en relation mellan plasma-, blod- och muskellaktat? Metod Åtta friska män (30 ± 2 år) deltog där deltagarna utförde 6 set unilateral benextension för varje ben (75% 1RM). Intermittent styrketräning randomiserades med hypoxi som utfördes med 12% syrgas och normoxi som bibehöll normal syrgasnivå (20,9% syrgas). Under två testdagar togs 5 muskelbiopsier från m. Vastus Lateralis (före-, efter träning, 90-, 180min och 24h efter träning) på vartannat ben per testdag. Hjärtfrekvensen och 𝑆𝑝𝑂2 mättes via pulsoximeter under träningen. Resultat Ingen signifikant huvudeffekt påvisades mellan hypoxi och normoxi för blodlaktat samt glukos, såväl som laktatackumulationen och pH värdet i muskeln. Muskel pH visade en trend där hypoxi efter styrketräning nådde lägre totalnivå än normoxi (P=0,08). Vidare observerades hypoxi att ha starka relationer mellan blod- och plasmalaktat jämfört med normoxi (r=0,98 vs. r=0,87). Större skillnad framgick för korrelationen mellan muskel- och plasmalaktat där hypoxi-försöket utgav starkare koefficient jämfört med normoxi (r=0,86 vs. r=0,59). Konklusion Sammanfattad data visar att hypoxi inte skapar större metabolisk respons vid intermittent styrketräning. Trots detta framkom tendenser som illustrerar att hypoxi kan påverka den metabola stressen under styrketräning. Däremot krävs vidare forskning för att kunna säkerställa effekten av hypoxi på kroppens metabola svar. / Ingår i Marcus Mobergs projekt: ”Resistance exercise under hypoxia and the acute molecular effects in human skeletal muscle

lactate accumulation

cross-over RCT

RCT

Random Controlled Trial

healthy

men

blood

plasma

styrketräning

hypoxi

normoxi

saturation

laktat

ansamling

ph

blod

plasma

tung styrketräning

metabolisk

respons

randomiserad

kontrollerad

experiment

friska

unga

män

skelettmuskulatur

Sport and Fitness Sciences

Idrottsvetenskap

Physiological characteristics of sodium lactate infusion during resistance exercise / Fysiologisk karakteristika av natriumlaktat infusion under styrketräning

Danielsson, Sebastian

January 2019

Previous studies that utilized sodium lactate infusion did not use resistance exercise protocol or analyzed muscle biopsies, or performed sex specific analysis. Aim: We initiated a project where resistance exercise was performed with low and high levels of lactate, acquired by venous lactate infusion where the specific aim of this study was to investigate and chart the physiological characteristics of sodium lactate infusion during a bout of resistance exercise on whole group level and sexes separated Method: A randomized, placebo controlled, cross-over design was implemented where male (n = 8) and female (n = 8) subjects accustomed to resistance exercise visited the laboratory three times for preliminary testing and training familiarization. In the following two experimental trials subjects arrived in an overnight fasted state. A resting state muscle biopsy was extracted from m. vastus lateralis and repeated blood samples were initiated which followed by 20 minute of baseline infusion of either infusate in resting state at 0.05 mmol/kg/min infusion rate with additional bolus doses during subsequent exercise. Following a brief warm up, unilateral knee-extensions (6 x 8-10 reps at 75% of 1-RM) were performered with or without venous infusion of sodium lactate, with volume matched saline as control. Exercise load and volume were matched between trials. Four additional biopsies were extracted at post-exercise, recovery period, and 24-hour post-exercise. Results: Sodium lactate infusion vs saline infusion respectively during resistance exercise yielded significantly higher blood lactate with sodium lactate (6.78 ± 0.33 mmol/l vs 2.99 ± 0.17 mmol/l), plasma lactate (8.86 ± 0.39 mmol/l vs 4.39 ± 0.22 mmol/l), blood sodium (143 ± 0.4 mmol/l vs 142 ± 0.3 mmol/l), blood pH (7.42 ± 0.01 vs 7.34 ± 0.01), but lower blood potassium (3.9 ± 0.1 mmol/l vs 4.2 ±  0.1 mmol/l), all  immediately following exercise. Sodium lactate infusion elicited main effect of trials and muscle lactate increased from baseline (8.5 ± 0.9 mmol·kg-1 dw vs 7.0 ± 0.6 mmol·kg-1 dw) to post-exercise (31.5 ± 2.8 mmol·kg-1 dw vs 26.9 ± 3.2 mmol·kg-1 dw) with sodium lactate and saline infusion respectively. Blood glucose, hemoglobin and muscle pH was not affected by sodium lactate infusion. Conclusions: Utilization of the sodium lactate infusion method during a bout of resistance exercise may be used as tool to effectively increase blood/plasma lactate and, to lesser extent, muscle content of lactate. However, a concomitant slightly alkalizing effect of blood likely will occur. / Tidigare studier som använt natriumlaktat infusion använde inte styrketräningsprotokoll, eller analyserade muskelbiopsier eller utförde könsspecifika analyser. Syfte och frågeställningar: Vi initierade ett projekt där styrketräning utfördes med låga eller höga nivåer av laktat som erhölls genom venös natriumlaktat infusion med det specifika syftet att undersöka och kartlägga fysiologisk karakteristiska av naturiumlaktat infusion under styrketräningsövning på helgrupps- och könsseparerad nivå. Följande frågeställningar inrättades; hur påverkar natriumlaktat infusion under styrketräning helblod- och plasma laktat, glukos, natrium, kalium, plasma volym genom hemoglobin och hematokrit, blod pH, muskellaktat- och muskel pH samt om skillnader i respons finns efter att könsspecifika analyser utförts på dessa variabler. Metod: En randomiserad, placebokontrollerad cross-over design implementerades där styrketräningsvana män (n = 8) och kvinnor (n = 8) besökte laboratoriet tre gånger för preliminäraför tester och träningsfamiliarisering. I efterföljande två experimentella försök anlände försökspersonerna i ett över nattligt fastande tillstånd. En baslinje biopsi extraherades från m. vastus lateralis och repeterade blodprover initierades med efterföljande 20 minuter av baslinje infusion av endera infusat i vilotillstånd med 0.05 mmol/kg/min infusionshastighet med ytterligare bolusdoser under efterföljande träning. Efter en kort uppvärmning utfördes unilaterala knäextensioner (6 x 8-10 reps vid 75% av 1-RM) med eller utan venös infusion av natrium laktat, med volymmatchande saltlösning som kontroll. Träningsbelastning och volym matchades mellan försök. Ytterligare fyra biopsier extraherades vid efter-träning, återhämtningsperiod, och efter 24 timmar. Resultat: Natriumlaktat respektive saltlösnings infusion under styrketräning gav signifikant högre blodlaktat med natriumlaktat infusion (6.78 ± 0.33 mmol/l mot 2.99 ± 0.17 mmol/l), plasmalaktat (8.86 ± 0.39 mmol/l mot 4.39 ± 0.22 mmol/l), blodnatrium (143 ± 0.4 mmol/l mot 142 ± 0.3 mmol/l), blod pH (7.42 ± 0.01 mot 7.34 ± 0.01), men lägre blod kalium (3.9 ± 0.1 mmol/l mot 4.2 ± 0.1 mmol/l), alla direkt efter träning. Natriumlaktat infusion framkallade huvudeffekt av försök och muskellaktat ökade från baslinje (8.5 ± 0.9 mmol·kg-1 dw mot 7.0 ± 0.6 mmol·kg-1 dw) till efter-träning (31.5 ± 2.8 mmol·kg-1 dw mot 26.9 ± 3.2 mmol·kg-1 dw) med natriumlaktat respektive saltlösnings infusion. Blodglukos, hemoglobin och muskel pH påverkades inte av natriumlaktat infusion. Slutsats: Användande av natriumlaktat infusion som metod under styrketräning kan effektivt användas som verktyg för att höja blod/plasma laktat, och i mindre utsträckning, muskellaktat. Emellertid är samtidig alkalisering av blod en sannolik följd. / Potential sex differences in the molecular response to resistance exercise with lactate infusion

sodium lactate

sodium lactate infusion

infusion

resistance exercise

knee-extensor

vastus lateralis

metabolic effects

hematological effects

plasma lactate

muscle lactate

muscle content of lactate

MHC

fiber type

blood pH

muscle pH

blood lactate

blood sodium

blood potassium

blood glucose

hemoglobin

in vivo

randomized

cross-over

Sport and Fitness Sciences

Idrottsvetenskap

Muscle Strength, Acute Resistance Exercise, and the Mechanisms Involved in Facilitating Executive Function and Memory

Nicholas W Baumgartner (17343454)

06 November 2023

<p dir="ltr">Past research has extensively explored the benefits of acute aerobic exercise (AE) on memory and executive functions. Additionally, the cross-sectional relationship between muscle strength – a direct outcome of RE – and cognition is unknown, despite the simultaneous onset of muscle and cognitive decline in one’s thirties. However, the effects of acute resistance exercise (RE) on cognition remain understudied, despite the growing popularity of RE and evidence that RE may have distinct effects on cognition.. Therefore, the present study aimed to broaden our understanding of the connection between muscle strength and hippocampal-dependent memory and to investigate the influence of RE on memory and executive function.</p><p dir="ltr">A sample of 125 healthy young adults (18-50 years old) completed this study. On the first day of testing, subjects completed a cognitive battery testing aspects of hippocampal dependent memory, spatial abilities, and working memory, a maximal muscle strength testing session including handgrip strength and one-rep-max testing, and maximal aerobic capacity testing. Subjects completed a bioelectrical impedance assessment (BIA) body scan to measure body composition on Day 2. Day 3 consisted of a randomized controlled trial (RCT), where subjects completed either 42 minute moderate intensity RE (n = 62) or a seated rest (n = 61). Cognitive testing including a memory recognition task, an inhibitory control task, and a working memory task were performed both before and after the intervention. Subjects also completed lactate, blood pressure, and blood draw (only a subset of subjects (n = 59)) before and after intervention.</p><p dir="ltr">The results first revealed that after controlling for known covariates, those with greater handgrip strength performed better on mental rotation tasks (t = 2.14, p = 0.04, Δr2= 0.04), while those with higher upper-body relative strength did better on recognition (t = 2.78, p = 0.01, Δr2 = 0.06) and pattern separation (t = 2.03, p = 0.04, Δr2= 0.04) tasks. Further, while there was no acute effect of RE on memory performance, response times during measures of inhibitory control (t = 4.15, p < 0.01, d = 0.40) and working memory decreased after exercise (t = 7.01, p < 0.01, d = 0.46), along with decreases in P3 latency during the inhibitory control task (t =-5.99, p < 0.01, d = 0.58). Additionally, blood lactate (t =-17.18, p < 0.01, d = 2.06), serum brain derived neurotropic factor (BDNF) (t = -4.17, p < 0.01, d = 0.66), and systolic blood pressure (t = -10.58, p < 0.01, d = 0.99) all increased following RE, while diastolic blood pressure (t = 4.90, p < 0.01,d = 0.50) decreased. Notably, the change in systolic blood pressure (t = -2.83, p = 0.01, Δr2 = 0.06) was associated with improvements in behavioral measures of inhibitory control, changes in lactate (t = -2.26, p = 0.03, Δr2 = 0.04) and systolic blood pressure (t = -3.30, p < 0.01, Δr2 = 0.08) were also related to improved behavioral changes in working memory, and changes in lactate (t = -3.31, p < 0.01, Δr2= 0.08) and BDNF (t = -2.12, p = 0.04, Δr2= 0.08) related to faster P3 latency during inhibitory control. Importantly, these associations between physiological and cognitive changes were consistent across both exercise and rest groups, suggesting that physiological changes were linked to improved cognitive performance regardless of group assignment.</p><p dir="ltr">In conclusion, this study highlights the positive relationships between cross-sectional muscle strength and aspects of memory and spatial abilities, with distinct contributions from handgrip and upper body strength. Furthermore, acute RE was shown to enhance executive functions, particularly in terms of processing speed during inhibitory control (response time and P3 latency) and working memory (response time). This study suggests that RE can be a valid way to garner exercise-induced benefits on executive functions potentially through its influence on lactate, BDNF, and blood pressure, however, since these effects were evident regardless of intervention, more work is needed to determine if RE-induced changes have the same mechanisms. Overall, these findings underscore the potential benefits of muscle strength and RE on enhancing executive function in young and middle-aged adults.</p>

Exercise physiology

Cognitive neuroscience

Psychophysiology

Cognition

Memory and attention

Resistance exercise.

cognitive function (learning and memory)

Executive function (Brain)

Event Related Potentials (ERP's)

acute exercise intervention

Brain Derived Neurotropic Factor

Lactate concentration changes

Muscle strength dynamometer.

Neurocognitive kinesiology

[en] INSTITUTIONALISED RESISTANCES: GENESIS AND STRUGGLES SANITARY MOVEMENT / [pt] RESISTÊNCIAS INSTITUCIONALIZADAS: GÊNESE E LUTAS DO MOVIMENTO SANITÁRIO BRASILEIRO

DORIVAL FAGUNDES COTRIM JUNIOR

05 December 2019

[pt] O trabalho dissertativo aborda o Movimento Sanitário Brasileiro (MSB), cujo um dos frutos foi a constitucionalização do Sistema Único de Saúde (SUS), como um autêntico e singular exercício de Resistência na ótica de Baruch de Spinoza, a partir de uma análise histórico-filosófica, ao longo das décadas de 1970 e 1980. Inicialmente tratou-se da gênese do MSB, a partir dos Departamentos de Medicina Preventiva (DMP) e da Medicina Comunitária; da abertura política e das lutas de resistência por democratização, juntamente com a ampliação dos espaços institucionais, oportunidade abraçada pelos sanitaristas da época, que passaram a atuar nestas instâncias e com a formulação do II Plano Nacional de Desenvolvimento (PND); terminando por brevemente pontuar aspectos do Sistema Nacional de Saúde, então vigente, e das propostas do MSB. Quanto à segunda parte, a qual se deu ênfase, foi intitulada As lutas institucionais do Movimento, quando se investigou as Conferências Nacionais de Saúde (CNS), especialmente a Oitava Conferência, cuja substância serviu de base às ações constituintes na Assembleia Nacional Constituinte (ANC), não sem antes atravessar a Comissão Nacional da Reforma Sanitária (CNRS) e a Plenária Nacional da Saúde, alcançando a constitucionalização na Carta Cidadã de 1988, que não absorveu todas as proposições do MSB, mas possibilitou a emergência do SUS, expressão-mor da Reforma Sanitária Brasileira (RSB). / [en] The argumentative work addresses the Brazilian Sanitary Movement (MSB), whose one of the fruits was the constitutionalisation of the Unified Health System (SUS), as an authentic and unique resistance exercise on optics of Baruch de Spinoza, from a historical and philosophical analysis, over the decades of 1970 and 1980. Initially this was the Genesis of MSB, from the Departments of Preventive Medicine (DMP) and of community medicine; the opening policy and the struggles of resistance for democracy, along with the expansion of institutional spaces, opportunity embraced by health professionals of the era, which passed the Act in these instances and with the formulation of the Second National Development Plan (PND); ending by briefly score aspects of the National Health System, then in force, and the proposals of the MSB. As for the second part, which emphasized, was entitled Institutional Struggles of the Movement, when it investigated the national health Conferences (CNS), especially the eighth Conference, whose substance constituent shares was based on the National Constituent Assembly (ANC), but not before going through the National Commission of Health Reform (CNRS) and the National Plenary of Health, reaching the constitutionalisation in Letter a citizen of 1988. that is not absorbed all the propositions of the MSB, but made possible the emergence of the SUS, Chief expression of Brazilian health reform (RSB).

[pt] REFORMA SANITARIA BRASILEIRA

[pt] PLENARIA NACIONAL DA SAUDE

[pt] MOVIMENTO SANITARIO BRASILEIRO

[pt] EXERCICIO DE RESISTENCIA

[en] BRAZILIAN SANITARY REFORM

[en] NATIONAL HEALTH PLENARY

[en] EIGHTH NATIONAL HEALTH CONFERENCE

[en] BRAZILIAN SANITARY MOVEMENT

[en] RESISTANCE EXERCISE