Mastodawn

Tracers are used to measure #Plasma, #Interstitial, #Extracellular, and #Intracellular volumes. Understanding tracer #Properties is key for accurate #FluidCompartment measurement and #Physiology learning.

https://mymedschool.org/portfolio/m04-03-017-properties-of-the-tracer-and-compartment-measured/?utm_source=mastodon&utm_medium=jetpack_social

Properties of Tracers and Compartment Measurement – Techniques and Applications

Learn about the properties of tracers used to measure body fluid compartments. Explore how specific tracers help quantify plasma, interstitial, extracellular, and intracellular volumes for physiological studies and clinical assessments.

mymedschool.org

mymedschool Nov 24

Volume measurements of #BodyCompartments—#Intracellular, #Extracellular, #Plasma, #Interstitial—are essential for understanding #FluidDistribution and guiding #ClinicalAssessment. Key for #MedicalEducation and #Physiology.

https://mymedschool.org/portfolio/m04-03-016-volume-measurements-of-compartments/?utm_source=mastodon&utm_medium=jetpack_social

Volume Measurements of Body Compartments – Techniques and Clinical Importance

Learn how to measure the volume of body compartments, including intracellular, extracellular, plasma, and interstitial spaces. Understand the physiological significance and clinical applications in fluid management and health assessment.

mymedschool.org

mymedschool Nov 24

Understand body fluid distribution with Graphical Representation of Body Compartments. Learn #Intracellular, #Extracellular, #Plasma, and #Interstitial compartments with clear visuals. Essential for #MedicalEducation, #Physiology, #BodyFluids, and #HealthcareLearning.

https://mymedschool.org/portfolio/m04-03-005-graphical-representation-of-body-compartments/?utm_source=mastodon&utm_medium=jetpack_social

Graphical Representation of Body Compartments

Explore Graphical Representation of Body Compartments. Learn how to visualize intracellular, extracellular, plasma, and interstitial fluids for better understanding of body fluid distribution in medical physiology.

mymedschool.org

CellBioNews Feb 28, 2025

#Phoenix_Fluor#555: Ultra-photostable fluorescent molecule reveals hidden dynamics of #intracellular #proteins.

#PF555 #EGFR

https://phys.org/news/2025-02-phoenix-fluor-ultra-photostable-fluorescent.html

Phoenix Fluor 555: Ultra-photostable fluorescent molecule reveals hidden dynamics of intracellular proteins

A research team at POSTECH (Pohang University of Science and Technology) has successfully developed a super-photostable organic dye after two years of dedicated research. Their study is published in the journal Nature Methods.

Phys.org

John Vaccaro (johniac)Jan 19, 2025

SciTech Chronicles. . . . . . . . . . . . . . . . . . . . .Jan 19, 2025

https://bit.ly/stc011925

#heart #muscle #noninvasive #extracellular #intracellular #Upcycling #polymer #ruthenium #metathesis #CRISPR #cognitive #neuroscience #meta-analysis #HIT #executive-functioning #Perplexity #TikTok #merger #ByteDance #no-sale #1.69AU #8x #simulations #1% #flyby

CellBioNews Sep 26, 2023

Uncovering novel mechanisms of #endocytosis and #intracellular #trafficking.

#TGN #golgi

https://phys.org/news/2023-09-uncovering-mechanisms-endocytosis-intracellular-trafficking.html

Uncovering novel mechanisms of endocytosis and intracellular trafficking

Endocytosis is an important cellular process through which cells internalize substances such as water and nutrients. These substances are first transported as cargo to the initial sorting compartment (endosomes) before being degraded (endo-lysosomal pathway) or recycled (recycling pathway of the plasma membrane).

Phys.org

CellBioNews Jun 28, 2023

Scientists unveil the mechanism behind #intracellular connection: #Mitofusin 2 is the lock and key.

#mitochondria #ER

https://phys.org/news/2023-06-scientists-unveil-mechanism-intracellular-mitofusin.html

Scientists unveil the mechanism behind intracellular connection: Mitofusin 2 is the lock and key

Researchers at IRB Barcelona, the University of Barcelona (UB), VIMM, and the University of Padua unveil the key role of Mitofusin 2 cellular makeup in interconnecting organelles within cells. The findings are published in the journal Science.

Phys.org

Matt Willemsen May 7, 2023

The Spark Within: Previously Unknown Intracellular Electricity May Power Biology
Newly discovered electrical activity within cells could change the way researchers think about biological chemistry.
Duke University scientists have discovered electrical activity in cellular structures called biological condensates. This revolutionary finding could reshape our understanding of biological chemistry and offers potential explanations for the origination of life’s energy on Earth.
https://scitechdaily.com/the-spark-within-previously-unknown-intracellular-electricity-may-power-biology/ #biology #electricity #chemistry #intracellular

The Spark Within: Previously Unknown Intracellular Electricity May Power Biology

Newly discovered electrical activity within cells could change the way researchers think about biological chemistry. Duke University scientists have discovered electrical activity in cellular structures called biological condensates. This revolutionary finding could reshape our understanding of b

SciTechDaily

CellBioNews Jan 10, 2023

#Chlamydiae expand our view on how #intracellular #bacteria #evolve
https://phys.org/news/2023-01-chlamydiae-view-intracellular-bacteria-evolve.html

Chlamydiae expand our view on how intracellular bacteria evolve

All chlamydiae today live inside the cells of hosts ranging from amoeba to animals. A team of scientists from the University of Vienna and the Wageningen University & Research found that the ancestor of chlamydiae likely already lived inside host cells, but that chlamydiae infecting amoeba evolved later in ways unexpected for intracellular bacteria.

Phys.org