Organ-Specific Physiological Responses to Acute Physical Exercise and Long-Term Training in Humans

Virtually all tissues in the human body rely on aerobic metabolism for energy production and are therefore critically dependent on continuous supply of oxygen. Oxygen is provided by blood flow, and, in essence, changes in organ perfusion are also closely associated with alterations in tissue metabolism. In response to acute exercise, blood flow is markedly increased in contracting skeletal muscles and myocardium, but perfusion in other organs (brain and bone) is only slightly enhanced or is even reduced (visceral organs). Despite largely unchanged metabolism and perfusion, repeated exposures to altered hemodynamics and hormonal milieu produced by acute exercise, long-term exercise training appears to be capable of inducing effects also in tissues other than muscles that may yield health benefits. However, the physiological adaptations and driving-force mechanisms in organs such as brain, liver, pancreas, gut, bone, and adipose tissue, remain largely obscure in humans. Along these lines, this review integrates current information on physiological responses to acute exercise and to long-term physical training in major metabolically active human organs. Knowledge is mostly provided based on the state-of-the-art, noninvasive human imaging studies, and directions for future novel research are proposed throughout the review.

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Acute physical exercise improves memory consolidation in humans via BDNF and endocannabinoid signaling

10.1101/211227 ◽

2017 ◽

Cited By ~ 1

Author(s):

Blanca Marin Bosch ◽

Aurélien Bringard ◽

Maria Grazia Logrieco ◽

Estelle Lauer ◽

Nathalie Imobersteg ◽

...

Keyword(s):

Physical Exercise ◽

Acute Exercise ◽

Memory Performance ◽

Long Term Memory ◽

Hippocampal Activity ◽

High Exercise Intensity ◽

Acute Physical Exercise ◽

Term Performance ◽

The Impact

AbstractRegular physical exercise enhances memory functions and neurogenesis in the hippocampus, an effect partially mediated by BDNF (Brain Derived Neurotrophic Factor). Acute exercise promotes the release of endocannabinoids (especially anandamide, AEA), which enhance BDNF release and improve hippocampal plasticity in rodents. How acute exercise affects BDNF and AEA levels and influences memory performance in humans remains to date unknown. Here we combined blood biomarkers, behavioral and fMRI measurements to assess the impact of acute physical exercise on associative memory and underlying neurophysiological mechanisms. For each participant, memory was tested after three conditions: rest, moderate or high exercise intensity. A long-term memory retest took place 3 months later. At both test and retest, memory performance increased after moderate but not high intensity exercise or rest. We also show that memory benefited from exercise-related increases in both AEA and BNDF levels: AEA boosted hippocampal activity during memory recall, while BDNF enhanced hippocampal memory representations and long-term performance.

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Description on the Effects of Acute and Chronic Exercise on Different Systems of the Body

International Journal of Advanced Research in Science, Communication and Technology ◽

10.48175/ijarsct-1739 ◽

2021 ◽

pp. 272-275

Author(s):

Dr. K. Rama Subba Reddy ◽

Dr. T V Bala Krishna Reddy

Keyword(s):

Acute Exercise ◽

Maximal Exercise ◽

Training Programme ◽

Cycle Ergometer ◽

The Body ◽

Chronic Exercise ◽

Maximal Exercise Test ◽

Physiological Adaptations ◽

Exercise Programmes

The purpose of this study is to explore various changes occur in different physical and physiological systems of the body with respect to the relevant chronic exercises. Acute and Chronic exercise programmes develops physiological adaptations in different systems of the body, due to the stress places on the systems. Acute exercise refers to short duration exercise, such as a cycle ergometer or a treadmill maximal exercise test. Chronic refers to extended or long term exercise, such a physical training programme of four to six months duration.

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Use Of Tai Chi Elements To Increase Respiratory Amplitude

SPORT AND SOCIETY ◽

10.36836/uaic/fefs/10.20 ◽

2019 ◽

pp. 11-20

Author(s):

Mihai-Alexandru Citea ◽

Marius Neculaes

Keyword(s):

High Performance ◽

Tai Chi ◽

Sports Club ◽

Optimal Functioning ◽

Physiological Adaptations ◽

Competitive Activity ◽

Abdominal Breathing ◽

Study Participants ◽

Different Levels

High performance sport has a major impact on the physiological adaptations of the respiratory system. The importance of the optimal functioning of this system is essential to achieve top results in high performance sport but also in maintaining a long term health status. Science journals present numerous studies that highlight the benefits of practicing Tai Chi on the general population, with effects ranging from improving cardiac function, to influencing the immune system. The purpose of this study is to identify whether by practicing Tai Chi forms a athlete can change their breathing pattern and develop their respiratory amplitude. The subjects of the study were 22 fencing practitioners, accredited at the Iași Municipal Sports Club (C.S.M. Iași), aged between 14 and 18 years, with over 3 years of competitive activity. Materials and method: The study participants were evaluated initially and at the end of 7 months of practice. The frequency was 3 sessions per week, and the duration of each session was 20-30 minutes. The evaluation consisted in measuring the circumference of the thorax at 3 different levels: subaxillary, medial thorax (T6-T7) and lower rib (diaphragmatic) in maximal inspiration and expiration. Conclusions: A constant evolution is observed in most of the exposed cases. In cases where this evolution is not visible, a change in the breathing mode can be noticed, transforming from an upper rib breathing into a thoracic or abdominal breathing. With the exception of one case, all subjects had an improvement of the value in the lower rib level.

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Premature Adrenarche and its Association with Cardiovascular Risk in Females

Current Pharmaceutical Design ◽

10.2174/1381612826666201012164726 ◽

2020 ◽

Vol 26 (43) ◽

pp. 5609-5616

Author(s):

Sarantis Livadas ◽

Christina Bothou ◽

Djuro Macut

Keyword(s):

Polycystic Ovary ◽

Dehydroepiandrosterone Sulfate ◽

Adrenal Androgen ◽

Premature Adrenarche ◽

Adrenal Hyperandrogenism ◽

Long Term Follow Up ◽

History Of ◽

Hormonal Milieu ◽

The Impact

Early activation of the adrenal zona reticularis, leading to adrenal androgen secretion, mainly dehydroepiandrosterone sulfate (DHEAS), is called premature adrenarche (PA). The fact that adrenal hyperandrogenism in females has been linked to a cluster of cardiovascular (CV) risk factors, even in prepubertal children, warrants investigation. Controversial results have been obtained in this field, probably due to genetic, constitutional, and environmental factors or differences in the characteristics of participants. In an attempt to understand, in depth, the impact of PA as a potential activator of CV risk, we critically present available data stratified according to pubertal status. It seems that prepubertally, CV risk is increased in these girls, but is somewhat attenuated during their second decade of life. Furthermore, different entities associated with PA, such as polycystic ovary syndrome, non-classical congenital adrenal hyperplasia, heterozygosity of CYP21A2 mutations, and the impact of DHEAS on CV risk, are reviewed. At present, firm and definitive conclusions cannot be drawn. However, it may be speculated that girls with a history of PA display a hyperandrogenic hormonal milieu that may lead to increased CV risk. Accordingly, appropriate long-term follow-up and early intervention employing a patient-oriented approach are recommended.

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Sex Differences and Tumor Blood Flow from Dynamic Susceptibility Contrast MRI Are Associated with Treatment Response after Chemoradiation and Long-term Survival in Rectal Cancer

Radiology ◽

10.1148/radiol.2020200287 ◽

2020 ◽

Vol 297 (2) ◽

pp. 352-360

Author(s):

Kine M. Bakke ◽

Sebastian Meltzer ◽

Endre Grøvik ◽

Anne Negård ◽

Stein H. Holmedal ◽

...

Keyword(s):

Rectal Cancer ◽

Blood Flow ◽

Sex Differences ◽

Dynamic Susceptibility ◽

Tumor Blood Flow ◽

Dynamic Susceptibility Contrast ◽

Term Survival ◽

Dynamic Susceptibility Contrast Mri ◽

Susceptibility Contrast

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Organ-specific, multimodal, wireless optoelectronics for high-throughput phenotyping of peripheral neural pathways

Nature Communications ◽

10.1038/s41467-020-20421-8 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Woo Seok Kim ◽

Sungcheol Hong ◽

Milenka Gamero ◽

Vivekanand Jeevakumar ◽

Clay M. Smithhart ◽

...

Keyword(s):

High Throughput ◽

Low Cost ◽

Optoelectronic Device ◽

Antenna System ◽

Neural Pathways ◽

Organ Specific ◽

Coil Antenna ◽

Sensory Fibers

AbstractThe vagus nerve supports diverse autonomic functions and behaviors important for health and survival. To understand how specific components of the vagus contribute to behaviors and long-term physiological effects, it is critical to modulate their activity with anatomical specificity in awake, freely behaving conditions using reliable methods. Here, we introduce an organ-specific scalable, multimodal, wireless optoelectronic device for precise and chronic optogenetic manipulations in vivo. When combined with an advanced, coil-antenna system and a multiplexing strategy for powering 8 individual homecages using a single RF transmitter, the proposed wireless telemetry enables low cost, high-throughput, and precise functional mapping of peripheral neural circuits, including long-term behavioral and physiological measurements. Deployment of these technologies reveals an unexpected role for stomach, non-stretch vagal sensory fibers in suppressing appetite and demonstrates the durability of the miniature wireless device inside harsh gastric conditions.

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WALANT–Epinephrine injection may lead to short term, reversible episodes of critical oxygen saturation in the fingertips

Archives of Orthopaedic and Trauma Surgery ◽

10.1007/s00402-020-03744-5 ◽

2021 ◽

Vol 141 (3) ◽

pp. 527-533

Author(s):

P. Moog ◽

M. Dozan ◽

J. Betzl ◽

I. Sukhova ◽

H. Kükrek ◽

...

Keyword(s):

Blood Flow ◽

Oxygen Saturation ◽

Substantial Reduction ◽

Tissue Perfusion ◽

Critical Levels ◽

Short Term ◽

Doppler Flowmetry ◽

Epinephrine Injection ◽

Venous Oxygen Saturation

Abstract Introduction Although the WALANT technique’s long-term safeness has been demonstrated in many studies, there are only few data investigating its short-term effects on tissue perfusion and oxygen levels. It was hypothesized that, temporarily, critical levels of tissue perfusion may occur. Methods Seventeen patients, who were scheduled for different procedures in WALANT technique, were injected with 5–7 ml of 1% Articain containing 1:200,000 epinephrine at the finger base. Capillary-venous oxygen saturation, hemoglobin volume in the capillaries, and relative blood flow in the fingertips were recorded once per second by white light spectrometry and laser Doppler flowmetry before, during and after injection for an average of 32 min. Results Clinically, no persistent tissue malperfusion was observed, and there were no postoperative complications. Capillary-venous oxygen saturation was reduced by ≥ 30% in seven patients. Critical levels of oxygen saturation were detected in four patients during 13 intervals, each lasting for 132.5 s on average. Oxygen saturation returned to noncritical values in all patients by the end of the observation period. Blood flow in the fingertips was reduced by more than 30% in nine patients, but no critical levels were observed, as with the hemoglobin. Three patients demonstrated a reactive increase in blood flow of more than 30% after injection. Conclusions Injection of tumescent local anesthesia containing epinephrine into finger base may temporarily cause a substantial reduction in blood flow and lead to critical levels of oxygen saturation in the fingertips. However, this was fully reversible within minutes and does not cause long-term complications.

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Edible Energy Production and Energy Return on Investment—Long-Term Analysis of Global Changes

Energies ◽

10.3390/en14041011 ◽

2021 ◽

Vol 14 (4) ◽

pp. 1011

Author(s):

Bartłomiej Bajan ◽

Joanna Łukasiewicz ◽

Agnieszka Poczta-Wajda ◽

Walenty Poczta

Keyword(s):

Energy Efficiency ◽

Return On Investment ◽

Food Production ◽

Energy Production ◽

Crop Production ◽

Fossil Fuels ◽

Animal Production ◽

Global Changes ◽

Energy Return On Investment

The projected increase in the world’s population requires an increase in the production of edible energy that would meet the associated increased demand for food. However, food production is strongly dependent on the use of energy, mainly from fossil fuels, the extraction of which requires increasing input due to the depletion of the most easily accessible deposits. According to numerous estimations, the world’s energy production will be dependent on fossil fuels at least to 2050. Therefore, it is vital to increase the energy efficiency of production, including food production. One method to measure energy efficiency is the energy return on investment (EROI), which is the ratio of the amount of energy produced to the amount of energy consumed in the production process. The literature lacks comparable EROI calculations concerning global food production and the existing studies only include crop production. The aim of this study was to calculate the EROI of edible crop and animal production in the long term worldwide and to indicate the relationships resulting from its changes. The research takes into account edible crop and animal production in agriculture and the direct consumption of fossil fuels and electricity. The analysis showed that although the most underdeveloped regions have the highest EROI, the production of edible energy there is usually insufficient to meet the food needs of the population. On the other hand, the lowest EROI was observed in highly developed regions, where production ensures food self-sufficiency. However, the changes that have taken place in Europe since the 1990s indicate an opportunity to simultaneously reduce the direct use of energy in agriculture and increase the production of edible energy, thus improving the EROI.

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