What regulates the distribution of fluid between the interstitial and intracellular compartments?
Osmosis.
Diffusion.
Filtration.
Active transport
The Correct Answer is A
Osmosis regulates the distribution of fluid between the interstitial (extracellular) and intracellular compartments. It is the process by which water moves across a semipermeable membrane from an area of lower solute concentration to an area of higher solute concentration, balancing the fluid levels between these compartments.
Nursing Test Bank
Naxlex Comprehensive Predictor Exams
Related Questions
Correct Answer is C
Explanation
Neurons, or brain cells, are highly specialized cells responsible for transmitting information throughout the nervous system. Unlike other cells in the body, neurons do not store glucose in the form of glycogen. This characteristic makes them heavily reliant on a continuous and stable supply of glucose from the bloodstream to meet their energy demands. Here's a detailed explanation:
The Role of Glucose in Neurons
- Energy Demand: Neurons have a high energy demand due to their role in maintaining electrical gradients, neurotransmitter synthesis, and signal transmission. The primary source of energy for neurons is glucose.
- Blood-Brain Barrier: Glucose is transported from the bloodstream to the brain through the blood-brain barrier, a selective barrier that regulates the passage of substances into the brain. Specialized glucose transporters, primarily GLUT1 and GLUT3, facilitate the uptake of glucose into neurons.
- Glycolysis and ATP Production: Once inside the neuron, glucose undergoes glycolysis, a metabolic pathway that breaks down glucose to produce ATP (adenosine triphosphate), the energy currency of the cell. The end product of glycolysis, pyruvate, enters the mitochondria where it is further oxidized in the Krebs cycle and oxidative phosphorylation to produce more ATP.
Lack of Glycogen Storage in Neurons
No Glycogen Reserves: Unlike liver and muscle cells, neurons do not have significant glycogen stores. Glycogen is a stored form of glucose that can be mobilized during periods of low blood glucose levels. Neurons lack this storage capacity, making them highly dependent on a continuous supply of glucose from the blood.
Importance of Continuous Blood Flow
Constant Supply Needed: Due to their inability to store glucose, neurons require a constant supply of glucose from the bloodstream. Any interruption in blood flow, such as during a stroke or hypoglycemia, can quickly lead to energy depletion and neuronal dysfunction or death.
Physiological Implications
Ischemia and Hypoglycemia: Conditions that disrupt the delivery of glucose to the brain, such as ischemia (reduced blood flow) or hypoglycemia (low blood glucose levels), can have severe effects on neuronal function and survival. This highlights the critical need for maintaining adequate cerebral blood flow and glucose levels.
Correct Answer is A
Explanation
Chronic hypertension can cause damage to the tunica intima (the inner lining of blood vessels), leading to endothelial injury. This damage can result in inflammation, swelling, and increased risk of clot formation within the blood vessels.
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