Elucidating regulatory processes of intense physical activity by multi-omics analysis.: Social discussions and analytics

Elucidating regulatory processes of intense physical activity by multi-omics analysis.

Ernesto S Nakayasu, Marina A Gritsenko, Young-Mo Kim, Jennifer E Kyle, Kelly G Stratton, Carrie D Nicora, Nathalie Munoz, Kathleen M Navarro, Daniel Claborne, Yuqian Gao, Karl K Weitz, Vanessa L Paurus, Kent J Bloodsworth, Kelsey A Allen, Lisa M Bramer

October 2023 Mil Med Res

Synopsis of Social media discussions

Comments highlight the study's exploration of physiological changes during intense exertion and its limitations, such as the small sample size, which influences the overall perception of scientific significance. The tone ranges from personal reflections to acknowledgment of potential health impacts, showing moderate engagement and interest in the topic.

Agreement

Moderate agreement

Most discussions seem to agree that the study provides relevant insights into the effects of intense physical activity, though some mention its small size and preliminary nature.

Interest

Moderate level of interest

The social discussions show moderate interest, with some participants expressing personal experiences and curiosity about the findings.

Engagement

Moderate level of engagement

Posts reference the research directly, mentioning specific data and implications, indicating active engagement.

Impact

Moderate level of impact

The discussions reflect recognition of potential health implications, such as increased vulnerability to infections, suggesting some perceived importance.

Social Mentions

YouTube

2 Videos

Twitter

12 Posts

Blogs

4 Articles

News

81 Articles

Metrics

Video Views

1,533

Total Likes

52

Extended Reach

54,243

Social Features

99

Timeline: Posts about article

Effects of Intense Physical Activity on Body Regulation and Risks in Firefighters

This video explores how intense physical activity impacts physiological processes, including tissue damage and metabolic changes, in wildland firefighters. It highlights the body's regulatory response and potential increased risk of respiratory infections, emphasizing the importance of preventative strategies.

Dr. Hong's Pharmacy Classroom

January 5, 2024

1,449 views

Impact of Intense Physical Activity on Physiological Processes in Firefighters

This study investigates how intense physical activity affects physiological processes by analyzing biological samples from firefighters before and after exertion. It highlights tissue damage, metabolic changes, and the body's regulatory response, emphasizing potential increased infection risks.

Igor and Frankenstein

June 8, 2024

84 views

Roger Blackwell
@rogerablackwell (Twitter)

Elucidating regulatory processes of intense physical activity by multi-omics analysis https://t.co/jWKQVt1UBi
view full post

June 5, 2024
ｶﾞｯﾂ角刈りｷﾞｬﾙ
@sogachin2 (Twitter)

Elucidating regulatory processes of intense physical activity by multi-omics analysis https://t.co/QBcJqjM8OK
view full post

April 22, 2024
Laura Vargas Parada
@lavapa (Twitter)

3/ El estudio es pequeño pero propone un posible mecanismo. Los investigadores analizaron la saliva, sangre y orina de 11 bomberos antes y 10 minutos después de haber realizado ejercicio extenuante equivalente a tratar de apagar un incendio. https://t.co/RCrF2alWFn
view full post

December 22, 2023
Rishab Gupta, MD
@RishabGupta_84 (Twitter)

Something that I always experienced, and now there is some possible basic science explanation for that: https://t.co/jez0doHVgH
view full post

November 29, 2023
Martina
@Martina____W (Twitter)

RT @alfredfischer17: Zu intensiver Sport ist nicht gut. Hier eine Studie, die zeigt dass man dann empfindlicher für Viruserkrankungen ist.…
view full post

November 13, 2023

1
alfred fischer
@alfredfischer17 (Twitter)

Zu intensiver Sport ist nicht gut. Hier eine Studie, die zeigt dass man dann empfindlicher für Viruserkrankungen ist. #bewegung #gesund https://t.co/FvXgqIKQoy
view full post

November 13, 2023

3
1
Mind Your Science!
@MindYourSci (Twitter)

RT @agingdoc1: Elucidating regulatory processes of intense physical activity by multi-omics analysis
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November 12, 2023

1
Agingdoc
@agingdoc1 (Twitter)

Elucidating regulatory processes of intense physical activity by multi-omics analysis
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November 10, 2023

2
1
Gilsom Nakayasu
@GNakayasu (Twitter)

RT @esnakayasu: Our paper on "Elucidating regulatory processes of intense physical activity by multi-omics analysis" is now online at @MMR_…
view full post

October 19, 2023

3
Sneha Couvillion
@SnehaCouvillion (Twitter)

RT @esnakayasu: Our paper on "Elucidating regulatory processes of intense physical activity by multi-omics analysis" is now online at @MMR_…
view full post

October 18, 2023

3
Kristin Burnum-Johnson
@BurnumJohnson (Twitter)

RT @esnakayasu: Our paper on "Elucidating regulatory processes of intense physical activity by multi-omics analysis" is now online at @MMR_…
view full post

October 18, 2023

3
Ernesto Nakayasu
@esnakayasu (Twitter)

Our paper on "Elucidating regulatory processes of intense physical activity by multi-omics analysis" is now online at @MMR_Journal! We performed multi-omics of plasma, urine, and saliva from firefighters that underwent a 45 min combat simulation. 1/n https://t.co/u9FZ769suq
view full post

October 18, 2023

4
3

Abstract Synopsis

The study investigates how intense physical activity affects physiological processes in wildland firefighters by analyzing blood plasma, urine, and saliva samples before and after exercise.
It identifies over 4,000 biomolecules indicating tissue damage and metabolic changes, highlighting a strong regulatory response to maintain bodily functions during heavy exertion.
The findings suggest that while the body adapts to intense activity, there may be an increased risk of respiratory infections, indicating the need for preventative measures for those in physically demanding jobs.

Socials: