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Does Gotu kola supplementation improve cognitive function, inflammation, and oxidative stress more than multicomponent exercise alone? - a randomized controlled study.
Phoemsapthawee, J, Ammawat, W, Prasertsri, P, Sathalalai, P, Leelayuwat, N
Journal of exercise rehabilitation. 2022;(5):330-342
Abstract
A randomized control trial was conducted to investigate the synergistic effects of Gotu kola supplementation and multicomponent exercise on cognitive function, inflammation, and oxidative stress in older adults with mild cognitive impairment (MCI). Sixty participants aged 74.6±7.3 years with Mini-Mental State Examination (MMSE) scores of 20.7±2.6 were randomly assigned to one of three groups: a multicomponent exercise training group (EXE, n=20), a multicomponent exercise training with Gotu kola supplementation group (EXE+GK, n=20), or a placebo-controlled group (CON, n=20). Each participant received one capsule of placebo or 500 mg twice a day of Gotu kola extract. The multicomponent exercise program comprised of supervised resistance, aerobic, balance and dual-task training: three 80-min sessions/week for 12 weeks. The primary outcomes, such as cognitive function, inflammatory markers, and oxidative stress, were measured before and after the 12-week intervention. Following the interventions, the EXE and EXE+GK had significantly higher MMSE (P<0.01), Digit Span Forward test (DSF) (P<0.01), Digit Span Backward test (P<0.01) scores, and lower Trail Making Test parts A (P<0.01) and B (P<0.01) and lower 8-iso-prostaglandin F2α (P<0.01) and tumor necrosis factor alpha (TNF-α) (P<0.01) than the CON. The change in DSF and TNF-α in the EXE+GK had a negative correlation (r=-0.504, P<0.05). In conclusion, multicomponent exercise training with or without the supplement Gotu kola improves cognitive function, inflammation, and oxidative stress in older adults with MCI. Although supplementing with Gotu kola had no additional effects on cognitive function, it may improve the effects of multicomponent exercise on executive function by decreasing TNF-α levels.
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Effects of Irvingia gabonensis Extract on Metabolism, Antioxidants, Adipocytokines, Telomere Length, and Aerobic Capacity in Overweight/Obese Individuals.
Nonsa-Ard, R, Aneknan, P, Tong-Un, T, Honsawek, S, Leelayuwat, N
Nutrients. 2022;(21)
Abstract
We investigated the effects of Irvingia gabonensis (IG) kernel extract on the metabolism, adiposity indices, redox status, inflammation, adipocytokines, blood leukocyte relative telomere length (RTL), and aerobic capacity of overweight/obese individuals. All participants used the first 12-week phase to monitor body weight. They were then randomly divided into two groups: (1) 300 mg IG or (2) placebo (PLA). Both groups took one tablet per day for 12 weeks. The variables were measured before supplementation and after 3, 6, and 12 weeks of supplementation. RTL and aerobic capacity were measured before and after 12 weeks. Compared with the PLA, the IG increased plasma vitamin C after supplementation at 6 (p < 0.01) and 12 weeks (p < 0.05) and serum adiponectin after 3 weeks (p < 0.05). Compared with before supplementation, plasma malondialdehyde in the IG and serum leptin in the PLA were decreased after 12-week supplementation, without any differences between the groups. There were no differences between groups with respect to metabolism, inflammation, RTL, and aerobic capacity after the supplementation. We suggest that 12-week daily IG supplementation improved plasma vitamin C and adiponectin. The findings show the possible mechanism contributing to the effect of IG supplementation on a reduction in obesity-related complications.
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Vitamin C supplementation improves blood pressure and oxidative stress after acute exercise in patients with poorly controlled type 2 diabetes mellitus: A randomized, placebo-controlled, cross-over study.
Boonthongkaew, C, Tong-Un, T, Kanpetta, Y, Chaungchot, N, Leelayuwat, C, Leelayuwat, N
The Chinese journal of physiology. 2021;(1):16-23
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Abstract
This study aimed to assess the effect of Vitamin C on blood pressure (BP), and subsequently on oxidative stress and nitric oxide (NO) release, following the low-intensity exercise in the patients. This study included 24 patients with type 2 diabetes mellitus (T2D) (age, 53 ± 7 years; hemoglobin A1c, 10.1% ± 0.9%) randomized into two 6-week daily arms based on the consumption of either placebo or 1000 mg Vitamin C. The crossover trial occurred after a 6-week washout. Before and after both supplementation arms, all patients performed cycling exercise at 33% of peak oxygen consumption for 20 min. BP was measured before, immediately, and 60 min after the exercise. Blood samples were drawn immediately before and after the exercise to determine plasma ascorbate, malondialdehyde (MDA), F2-isoprostanes (F2-IsoPs), and NO concentrations. Data showed significant lower BP in the Vitamin C arm when compared with the placebo arm (systolic BP [SBP] P < 0.001 at every time point, diastolic BP [DBP] P < 0.001 except at immediately after exercise, P < 0.05). Plasma ascorbate concentration (P < 0.05 at every time point) and plasma NO (at resting P < 0.001, immediately after exercise P < 0.05) were significantly increased in the Vitamin C arm than in the placebo arm. Plasma MDA (P < 0.05 at every time point) and F2-IsoPs (P < 0.05 at every time point) concentrations were significantly lower in the Vitamin C arm than in the placebo arm. In addition, data showed significantly lower SBP (P < 0.001 at every time point), DBP (P < 0.001 except at immediately after exercise P < 0.05), plasma MDA (P < 0.001 at every time point), and F2-IsoPs (P < 0.05 at every time point) at post-supplementation than at pre-supplementation. Besides, there were significantly higher plasma ascorbate (P < 0.05 at every time point) and NO (at rest P < 0.01, immediately after exercise P < 0.05) concentrations at post-supplementation than at pre-supplementation. This is in contrast to the placebo treatment arm which demonstrated no statistical difference in all outcomes throughout the experiment. This study suggests that 6-week Vitamin C supplementation decreased preexercise and postexercise BPs, possibly due to improved oxidative stress and NO release. However, exercise had no effect on any outcome measures.
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Oral vitamin C treatment increases polymorphonuclear cell functions in type 2 diabetes mellitus patients with poor glycemic control.
Chuangchot, N, Boonthongkaew, C, Phoksawat, W, Jumnainsong, A, Leelayuwat, C, Leelayuwat, N
Nutrition research (New York, N.Y.). 2020;:50-59
Abstract
This study investigated the effect of vitamin C on polymorphonuclear (PMN) cell functions in type 2 diabetes mellitus patients with poor glycemic control. We hypothesized that oral vitamin C treatment improves PMN cell functions. Patients (14) received either a vitamin C (1000 mg/d) or placebo (anhydrous calcium hydrogen phosphate) tablet for 6 weeks and were subjected to a 6-week washout period followed by a 6-week treatment crossover period. Blood samples were collected at pretreatment and posttreatment for PMN cell functions (by flow cytometry) and plasma vitamin C concentration. Phagocytosis was examined by incubating whole blood samples with fluorescein isothiocyanate-labeled Staphylococcus aureus, and oxidative burst was simultaneously evaluated by adding hydroethidine. In comparison with placebo, vitamin C increased both PMN cell phagocytosis (pretreatment: placebo, 17.8% ± 1.6% and vitamin C, 19.0% ± 3.4%, P = .70; posttreatment: placebo, 16.6% ± 1.7% and vitamin C, 27.1% ± 2.9%, P = .005) and oxidative burst (pretreatment: placebo, 6.4% ± 0.8% and vitamin C, 7.1% ± 1.2%, P = .60; posttreatment: placebo, 6.9% ± 1.3% and vitamin C, 12.1% ± 1.6%, P = .02). The plasma vitamin C concentration was elevated after vitamin C treatment as compared with that before treatment (P < .001) and was higher than that observed in the placebo treatment group (P < .01). Plasma vitamin C concentration and PMN cell functions were not significantly different before both treatments. We conclude that the 6-week 1000-mg/d vitamin C increased PMN phagocytosis and oxidative burst in type 2 diabetes mellitus patients with poor glycemic control.
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Cashew apple juice supplementation enhances leukocyte count by reducing oxidative stress after high-intensity exercise in trained and untrained men.
Prasertsri, P, Roengrit, T, Kanpetta, Y, Tong-Un, T, Muchimapura, S, Wattanathorn, J, Leelayuwat, N
Journal of the International Society of Sports Nutrition. 2019;16(1):31
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High-intensity aerobic training has been shown to suppress leukocyte counts in moderately fit athletes. The aim of this study to explore possible advantageous effects of cashew apple juice (CAJ) supplementation, and, if present, to identify the possible mechanisms underlying those effects. The study is a double-blind randomised cross-over design with two treatment arms: CAJ supplementation and placebo. Ten moderately (endurance) trained and untrained men were randomized to one of the two groups for four weeks, with a four-week wash out period. Results showed that CAJ supplementation for four weeks increased leukocyte (a type of blood cell) counts, while simultaneously decreasing oxidative stress, following an acute bout of high-intensity exercise in trained men. Furthermore, the CAJ supplementation increased neutrophil (a type of white blood cell) counts while simultaneously reducing oxidative stress and stress hormone concentrations in untrained men. The antioxidant effects following exercise were observed in both endurance-trained and untrained men. Authors conclude that CAJ supplementation is beneficial to men, both in resting states and in response to an acute bout of high-intensity aerobic exercise.
Abstract
BACKGROUND Cashew apple juice (CAJ) was shown to improve immunological mechanisms by regulating a balance between reactive oxygen species and antioxidant concentrations. However, no study exploring the effects of the CAJ and training status on the immune system and oxidative stress induced by exercise. Therefore, we investigated the effects of CAJ supplementation primarily on leukocyte counts and secondary on oxidative stress and cortisol changes after high-intensity exercise in trained and untrained men. METHODS Ten moderately (endurance) trained (Age = 21.5 ± 0.97 yr., VO2max = 45.6 ± 4.12 mL/kgBM/min) and ten sedentary men (Age = 20.4 ± 2.72 yr., VO2peak = 32.2 ± 7.26 mL/kgBM/min) were randomized to ingest either daily CAJ or a placebo at 3.5 mL/kgBM/day for 4 weeks, with a four-week washout period. Before and after each period, they performed 20-min, high-intensity cycling (85% VO2max), with blood samples collected immediately preceding and the following exercise. Samples were analyzed to determine leukocyte counts, malondialdehyde, 8-isoprostane, and cortisol concentrations. A repeated measures analysis of variance was used to examine the effects of supplement and training status over time with an alpha level of 0.05. RESULTS There was no interaction between supplement and training status on those variables before and after exercise. However, CAJ raised resting neutrophil counts and exercise-induced leukocyte counts in the trained group (all p < 0.05). Besides, CAJ significantly reduced plasma malondialdehyde concentrations at rest and after exercise and reduced the post-exercise plasma 8-isoprostane concentration in both groups of subjects (p < 0.05). Moreover, CAJ reduced plasma cortisol after exercise in the untrained subjects. CONCLUSIONS We suggest that 4-week CAJ supplementation can enhance exercise-induced leukocyte and resting neutrophil counts in trained men. The possible mechanism is a reduction in oxidative stress. However, the supplementation did not change the immune responses of untrained men, but it did reduce stress hormone concentrations. TRIAL REGISTRATION NUMBER TCTR20181127002 Registered 26 November 2018 "retrospectively registered".
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Exercise Intensity and Substrate Utilization in Healthy Sedentary Females Using the Life-Build-Line Device.
Panyaek, N, Sirivong, D, Konharn, K, Tunkamnerdthai, O, Aneknun, P, Leelayuwat, N
Journal of the Medical Association of Thailand = Chotmaihet thangphaet. 2017;(3):318-25
Abstract
BACKGROUND Life-Build-Line (LBL) is a new exercise device that is convenient, and not so expensive. Together with the style of movement, it may boost one to adhere to the exercise regimen and thereby promote better health. However, no study has proved its exercise intensity and effect on substrate utilization. OBJECTIVE To investigate exercise intensity in healthy sedentary women using LBL and measure their substrate utilization during exercise. The former session was determined by measuring absolute [i.e., energy expenditure (EE)] and relative [i.e., percentage of rate of peak oxygen consumption (V̇O2 peak), maximal heart rate (HRmax ), rating of perceived exertion (RPE), and rating of perceived dyspnea (RPD)] indicators, whereas the latter was determined by measuring oxygen consumption and carbon dioxide production (V̇CO2). MATERIAL AND METHOD Ten female subjects randomly performed two visits of exercise at least seven days apart. The first was a peak exercise test, and the second consisted of three 30-minute sessions of rest, exercise with LBL, and recovery. The V̇O2, V̇CO2, and EE were determined based on the expired air at the last five minutes of resting and exercise, whereas electrocardiograms were recorded to measure HR throughout the three sessions. Subjects were asked to provide RPE and RPD at the end of the exercise session. RESULTS During exercise with LBL, average %V̇O2 peak and %HRmax were 43.5%±2.32% and 52.8%±1.81%, respectively, while EE, RPE, and RPD were 3.01±0.53 metabolic equivalents, 12.2±1.8, and 3.0±1.41, respectively. In addition, fat and especially CHO utilization were increased by the exercise. CONCLUSION These findings indicate that LBL offers a means of low-intensity exercise in healthy females while still providing physiological and metabolic benefits
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Living and Training at 825 m for 8 Weeks Supplemented With Intermittent Hypoxic Training at 3,000 m Improves Blood Parameters and Running Performance.
Wonnabussapawich, P, Hamlin, MJ, Lizamore, CA, Manimmanakorn, N, Leelayuwat, N, Tunkamnerdthai, O, Thuwakum, W, Manimmanakorn, A
Journal of strength and conditioning research. 2017;(12):3287-3294
Abstract
Wonnabussapawich, P, Hamlin, MJ, Lizamore, CA, Manimmanakorn, N, Leelayuwat, N, Tunkamnerdthai, O, Thuwakum, W, and Manimmanakorn, A. Living and training at 825 m for 8 weeks supplemented with intermittent hypoxic training at 3,000 m improves blood parameters and running performance. J Strength Cond Res 31(12): 3287-3294, 2017-We aimed to investigate the effect of an 8-week low-altitude training block supplemented with intermittent hypoxic training, on blood and performance parameters in soccer players. Forty university-level male soccer players were separated into altitude (n = 20, 825 m) or sea-level (n = 20, 125 m) groups. Before (1-2 days ago) and after (1 and 14 days later) training, players were asked to give a resting venous blood sample and complete a series of performance tests. Compared with sea level, the altitude group increased erythropoietin, red blood cell (RBC) count, and hematocrit 1 day after training (42.6 ± 24.0%, 1.8 ± 1.3%, 1.4 ± 1.1%, mean ± 95% confidence limits (CL), respectively). By 14 days after training, only RBC count and hemoglobin were substantially higher in the altitude compared with the sea-level group (3.2 ± 1.8%, 2.9 ± 2.1% respectively). Compared with sea level, the altitude group 1-2 days after training improved their 50-m (-2.9 ± 1.4%) and 2,800-m (-2.9 ± 4.4%) run times and demonstrated a higher maximal aerobic speed (4.7 ± 7.4%). These performance changes remained at 14 days after training with the addition of a likely higher estimated V[Combining Dot Above]O2max in the altitude compared with the sea-level group (3.2 ± 3.0%). Eight weeks of low-altitude training, supplemented with regular bouts of intermittent hypoxic training at higher altitude, produced beneficial performance improvements in team-sport athletes, which may increase the viability of such training to coaches and players that cannot access more traditional high altitude venues.
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Antioxidant effect of Phyllanthus amarus after moderate-intensity exercise in sedentary males: a randomized crossover (double-blind) study.
Roengrit, T, Wannanon, P, Prasertsri, P, Kanpetta, Y, Sripanidkulchai, BO, Wattanathorn, J, Leelayuwat, N
Journal of physical therapy science. 2015;(4):1181-6
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[Purpose] We aimed to evaluate the effects of Phyllanthus amarus (PA) on oxidative stress and damage, inflammation, and soreness in muscle after a single session of moderate-intensity exercise. [Subjects and Methods] Twelve men randomly participated in 2, three-day phases with a one-week washout period. On the first day, participants consumed two capsules of PA or placebo control (CTL) before 20 min of cycling. They then consumed four capsules on the same day after exercise and six capsules/day for the next two days. Blood samples were obtained before, immediately after exercise and 24 h and 48 h after exercise. The pain tolerance was measured at both legs. [Results] Plasma vitamin C levels in the PA group were higher than those in the CTL group after exercise. At 48 h after exercise, vitamin C levels were higher in the PA group, but those in the CTL group were lower than the pre-exercise levels. However, plasma levels of creatine kinase were increased in both groups after exercise compared with the pre-exercise levels. The neutrophil count was higher immediately after exercise than the pre-exercise levels in the CTL group. [Conclusion] Acute supplementation with PA improves antioxidant status after a single session of moderate-intensity exercise.
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Antioxidant and anti-nociceptive effects of Phyllanthus amarus on improving exercise recovery in sedentary men: a randomized crossover (double-blind) design.
Roengrit, T, Wannanon, P, Prasertsri, P, Kanpetta, Y, Sripanidkulchai, BO, Leelayuwat, N
Journal of the International Society of Sports Nutrition. 2014;(1):9
Abstract
BACKGROUND Phyllanthus amarus (PA) is a herbal plant containing antioxidant compounds that scavenge free radicals. The reduced oxidative stress may decrease muscle damage leading to early recovery from muscle soreness. This study aimed to evaluate the effects of PA powder on oxidative stress, muscle damage, leukocyte counts, inflammation, and muscle soreness after a single bout of high-intensity exercise. METHODS Twelve men participated in two 3-day phases separated by a 1-week washout in a randomized double-blinded, crossover design. On day 1, randomly divided participants ingested two capsules of either PA (PA group) or placebo (PLA group) 20 min before a single bout of cycling at high intensity for 20 min followed by four capsules (two capsules after lunch and dinner), and six capsules/day for the next 2 days. Blood samples were collected before, immediately after, and 24 and 48 h after the exercise. Pain threshold was measured at the mid-thigh on both legs. RESULTS Malondialdehyde concentration in the PA group was lower than that in the PLA group (p < 0.05) 48 h after high-intensity exercise. Vitamin C concentration was greater in the PA than in the PLA group (p < 0.05) immediately after high-intensity exercise. Pain threshold in both legs in the PA group was higher than in the PLA group 24 and 48 h after high-intensity exercise. There were no significant differences in creatine kinase, leukocyte counts or inflammation between groups. CONCLUSION Acute PA supplementation reduced oxidative stress and muscle soreness induced by high-intensity exercise.
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Antihypertensive and antioxidant effects of dietary black sesame meal in pre-hypertensive humans.
Wichitsranoi, J, Weerapreeyakul, N, Boonsiri, P, Settasatian, C, Settasatian, N, Komanasin, N, Sirijaichingkul, S, Teerajetgul, Y, Rangkadilok, N, Leelayuwat, N
Nutrition journal. 2011;:82
Abstract
BACKGROUND It has been known that hypertension is an independent risk factor for cardiovascular disease (CVD). CVD is the major cause of morbidity and mortality in developed and developing countries. Elevation of blood pressure (BP) increases the adverse effect for cardiovascular outcomes. Prevention of increased BP plays a crucial role in a reduction of those outcomes, leading to a decrease in mortality. Therefore, the purpose of this study was to investigate the effects of dietary black sesame meal on BP and oxidative stress in individuals with prehypertension. METHODS Twenty-two women and eight men (aged 49.8 ± 6.6 years) with prehypertension were randomly divided into two groups, 15 subjects per group. They ingested 2.52 g black sesame meal capsules or placebo capsules each day for 4 weeks. Blood samples were obtained after overnight fasting for measurement of plasma lipid, malondialdehyde (MDA) and vitamin E levels. Anthropometry, body composition and BP were measured before and after 4-week administration of black sesame meal or a placebo. RESULTS The results showed that 4-week administration of black sesame meal significantly decreased systolic BP (129.3 ± 6.8 vs. 121.0 ± 9.0 mmHg, P < 0.05) and MDA level (1.8 ± 0.6 vs. 1.2 ± 0.6 μmol/L, P < 0.05), and increased vitamin E level (29.4 ± 6.0 vs. 38.2 ± 7.8 μmol/L, P < 0.01). In the black sesame meal group, the change in SBP tended to be positively related to the change in MDA (R = 0.50, P = 0.05), while the change in DBP was negatively related to the change in vitamin E (R = -0.55, P < 0.05). There were no correlations between changes in BP and oxidative stress in the control group. CONCLUSIONS These results suggest the possible antihypertensive effects of black sesame meal on improving antioxidant status and decreasing oxidant stress. These data may imply a beneficial effect of black sesame meal on prevention of CVD.