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Filter by Meaning The lymphatic system facilitates the transportation of chylomicrons, which are responsible for delivering lipids from the small intestine to different organs in the body.
The presence of chylomicrons in the blood can be detected through laboratory tests.
The liver is responsible for producing chylomicrons to transport dietary lipids throughout the body.
The liver processes chylomicrons, breaking down the fats and releasing them into the bloodstream.
After fat ingestion, the intestinal epithelial cells release chylomicrons into the bloodstream.
Chylomicrons are lipoproteins synthesized in the intestinal cells that transport dietary lipids to other tissues in the body.
Chylomicrons are important particles that transport dietary lipids from the intestine to various tissues in the body for energy production.
The liver receives chylomicrons that transport dietary fat and cholesterol from the intestine to other tissues for utilization.
People with high levels of chylomicrons are at a greater risk for heart disease.
Chylomicrons transport dietary fats and cholesterol from the small intestine to the rest of the body.
The body uses chylomicrons to transport dietary fats and cholesterol to the liver for processing.
The intestine produces chylomicrons to carry dietary fat and cholesterol to the liver and other tissues.
Chylomicrons are one of the major lipoprotein classes in the human body.
Chylomicrons are responsible for transporting dietary fat and cholesterol from the intestine to the liver and other tissues.
The small intestine produces chylomicrons, which are responsible for transporting dietary lipids to the liver and other tissues in the body.
The primary role of chylomicrons is to transport dietary lipids from the small intestine to other tissues in the body.
The liver receives chylomicrons that carry dietary fat and cholesterol for further processing and distribution.
Chylomicrons are synthesized in the enterocytes of the small intestine during lipid digestion.
Chylomicrons are essential for the absorption of fat-soluble vitamins such as A, D, E, and K.
The levels of chylomicrons in your bloodstream can affect your overall health.
Chylomicrons provide energy to cells by delivering fatty acids for metabolism.
The liver processes and distributes dietary fat and cholesterol carried by chylomicrons.
The lipids in chylomicrons are broken down by enzymes in the blood.
The primary function of chylomicrons is to carry dietary fats from the small intestine to various tissues in the body.
Chylomicrons are formed in the small intestine and released into the lymphatic system.
Chylomicrons are small structures that play a role in moving dietary fats from the small intestine to different tissues in the body.
Chylomicrons are particles that carry fats from the small intestine to other tissues for various metabolic processes in the body.
High levels of chylomicrons can be a risk factor for heart disease.
Chylomicrons are synthesized in the intestine and transport dietary fat and cholesterol to the liver for processing and distribution.
The size of chylomicrons allows them to pass through the lymphatic vessels and enter the bloodstream.
People with certain genetic disorders may have problems with the production or clearance of chylomicrons.
Chylomicrons are important for the transport of fats in the body.
The body's production of chylomicrons is regulated by hormones like insulin and glucagon.
Chylomicrons play a crucial role in lipid metabolism and energy production in the body.
People with genetic disorders like familial hypercholesterolemia may have difficulty clearing chylomicrons from their blood.
Chylomicrons are produced in the small intestine and released into the lymphatic system.
Chylomicrons are small spherical particles composed of lipids and proteins that aid in the transport of dietary lipids to different organs and tissues.
Chylomicrons are responsible for moving lipids from the small intestine to other organs.
After a meal, the body releases chylomicrons to transport the fat that was just consumed.
Chylomicrons are synthesized by the cells lining the intestine when we eat fatty foods.
The small intestine produces chylomicrons to transport dietary fats to the liver and other tissues.
Chylomicrons are larger than other lipoproteins in the blood, making them easier to distinguish.
Chylomicrons are essential for distributing dietary lipids from the small intestine to other tissues for energy production.
Certain medications can affect the production or metabolism of chylomicrons.
People with malabsorption disorders like celiac disease may have difficulty producing enough chylomicrons to transport dietary fats.
When we eat fatty meals, our body produces chylomicrons to process the fat.
The small intestine produces chylomicrons to deliver lipids to different organs and tissues in the body via the lymphatic system.
Chylomicrons can serve as delivery vehicles for therapeutic agents, such as siRNA, for targeted gene silencing.
Chylomicrons are synthesized in the small intestine to facilitate the transport of lipids to different organs in the body.
The small intestine produces chylomicrons to distribute lipids to other parts of the body via the lymphatic system.
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