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Last Updated on November 20, 2025 by Ugurkan Demir
At Liv Hospital, we understand the key parts of our blood. Blood plasma, the liquid part of blood, is vital for our health.Find out a deficiency of erythrocytes leukocytes and thrombocytes is. Get the crucial answer and learn about related serious blood conditions.
Blood plasma is about 55% of our blood and is mostly water, 90-92%. It carries blood cells, proteins, and other important stuff around our body.
The composition of blood plasma is key to its job. It helps the body by moving nutrients and cells where they need to go. Knowing about blood plasma and its parts helps us see its role in staying healthy and recovering.
Plasma is the clear, straw-colored liquid in our blood. It’s a key part of our circulatory system. It makes up most of our blood and is vital for many bodily functions.
Blood plasma is the liquid part of blood that carries cells, proteins, and other substances. It’s mostly water, making up 90-92% of it. The rest are proteins, nutrients, hormones, and waste products.
Plasma looks clear and yellowish. This color comes from bilirubin and other pigments. Its straw color is from the substances it carries.
Plasma makes up about 55% of the total blood volume. This shows how important it is for our health.
Key traits of blood plasma include:
It’s important to know what blood plasma is made of to understand its role in our bodies. Blood plasma is the liquid part of blood, making up about 55% of it.
Water is the main part of blood plasma, making up about 90-92% of it. Water helps dissolve and carry substances like nutrients, hormones, and waste. It’s key to moving these important items around our body.
The rest, about 8-10%, is made up of solids like proteins, nutrients, hormones, and waste. Albumin, globulins, and fibrinogen are important proteins. They help keep fluids balanced, fight off infections, and help blood clot.
After spinning blood in a centrifuge, plasma looks clear and straw-colored. This is because of bilirubin, a pigment from broken-down hemoglobin. The exact look can change based on protein and lipid levels.
In short, blood plasma is a mix of mostly water and various solids. Knowing what’s in it helps us see how it keeps us healthy.
When the levels of erythrocytes, leukocytes, and thrombocytes drop, our body’s health is at risk. These blood components are key for oxygen transport, fighting infections, and clotting blood. Their deficiency can cause serious health problems.
Erythrocytes, or red blood cells, carry oxygen to our body’s tissues. A drop in erythrocytes, or anemia, reduces oxygen delivery. This can cause fatigue, weakness, and shortness of breath.
This condition can greatly affect our daily lives. Severe cases can lead to more serious health problems.
Leukocytes, or white blood cells, are vital for our immune system. They help fight infections and diseases. A drop in leukocytes, or leukopenia, weakens our immune defense.
This makes us more likely to get sick. It’s a big risk for people with weak immune systems.
Thrombocytes, or platelets, are key to blood clotting. A drop in thrombocytes, or thrombocytopenia, can cause bleeding problems. This can lead to excessive bleeding or bruising.
This condition is serious and can be life-threatening if not treated properly.
In conclusion, a drop in erythrocytes, leukocytes, and thrombocytes is dangerous. It affects oxygen transport, immune defense, and blood clotting. Knowing these risks helps us detect and treat problems early, improving health outcomes.
Blood plasma has many proteins that keep us healthy. These proteins help with fluid balance, immune responses, and blood clotting. They are key to our body’s functions.
Albumin is the most common protein in blood plasma, making up 60% of it. It helps keep fluid balance right between the blood vessels and tissues. Albumin’s structure lets it carry hormones, vitamins, and calcium ions.
It keeps fluid from leaking out of blood vessels. This prevents swelling in tissues.
Globulins are important for our immune system. They include alpha, beta, and gamma globulins. Gamma globulins, or antibodies, fight off infections by recognizing and binding to antigens.
These proteins work together to protect us from harm.
Fibrinogen is key in blood clotting. When we bleed, fibrinogen turns into fibrin, forming a clot. The clotting process involves many steps, with fibrinogen at the center.
This process stops bleeding and helps wounds heal.
Some enzymatic plasma proteins help start reactions needed for our body’s functions. They are key to things like blood clotting, breaking down clots, and controlling other enzymes.
These proteins help with many biochemical reactions. For example, they help turn fibrinogen into fibrin, which forms blood clots. Proteins like thrombin and plasmin are very important in this process.
They also help control how clots are broken down. This balance is vital for keeping our blood vessels healthy.
The work of these proteins is carefully managed to keep their activity just right. This is done through inhibitors and activators. For instance, antithrombin III stops thrombin and other clotting factors from getting too active.
This balance ensures that enzymes work as needed, at the right time.
These proteins are essential for keeping blood flowing smoothly in our veins and arteries. They help with clotting and dissolving clots, and are part of the immune system’s response.
| Enzymatic Plasma Protein | Function | Role in Hemostasis |
| Thrombin | Converts fibrinogen to fibrin | Promotes clot formation |
| Plasmin | Breaks down fibrin clots | Fibrinolysis |
| Antithrombin III | Inhibits thrombin and other coagulation factors | Prevents excessive clotting |
The table shows how different proteins work together to keep our blood stable. If they don’t work right, we might get too many clots or not enough, leading to health problems.
Electrolytes in blood plasma are key to keeping the body balanced. They are charged minerals that help with nerve signals, muscle work, and keeping fluids in check.
Blood plasma has important electrolytes like sodium, potassium, and chloride. Bicarbonate, calcium, and magnesium are also there. Each one has a certain level that’s important for the body to work properly.
| Electrolyte | Normal Concentration Range |
| Sodium | 135-145 mmol/L |
| Potassium | 3.5-5.0 mmol/L |
| Chloride | 96-106 mmol/L |
| Bicarbonate | 22-28 mmol/L |
| Calcium | 2.1-2.6 mmol/L |
| Magnesium | 0.7-1.1 mmol/L |
Electrolytes are vital for keeping the body in balance. Sodium and chloride help with fluid balance. Potassium is important for the heart and muscles.
Calcium is key to bones and muscles. Magnesium helps with nerve and muscle function.
The right balance of electrolytes is also important for pH and osmotic pressure. Bicarbonate helps keep the body’s acid-base balance. Sodium helps fluids move around the body.
In short, electrolytes in blood plasma are essential for balance, pH, and osmotic pressure. They support many body functions. Knowing their roles helps us understand their importance for health.
Blood plasma is key in moving nutrients around the body. It carries essential nutrients to tissues and cells. There, these nutrients help with various bodily functions.
Glucose is a main energy source in plasma. It’s vital for the brain and red blood cells, which need it for energy. The amount of glucose in plasma is carefully controlled for proper cell function.
Other energy sources, like lactate and ketone bodies, also move through plasma. They’re important when we’re fasting or when glucose levels drop.
| Energy Substrate | Concentration in Plasma | Primary Use |
| Glucose | 70-100 mg/dL | Primary energy source for cells |
| Lactate | 0.5-2.0 mmol/L | Energy source during intense exercise |
| Ketone Bodies | <0.5 mmol/L (fasting state) | Alternative energy source during fasting |
Lipids, like cholesterol and triglycerides, are carried in plasma by lipoproteins. Lipoproteins are made of lipids and proteins. They help move lipids to different tissues.
There are many types of lipoproteins, including LDL and HDL. LDL is called “bad” cholesterol because it can lead to plaque buildup. HDL is “good” cholesterol because it helps remove excess cholesterol.
“Lipoproteins play a critical role in lipid transport and metabolism, influencing cardiovascular health.”
Amino acids are the building blocks of proteins and are carried in plasma. They go to tissues for protein making. Plasma proteins, like albumin and globulins, help with fluid balance, hormone transport, and immune function.
It’s important for amino acids to be transported in plasma for protein balance. They come from the gut and go to the liver. There, they can be used for proteins or released for other tissues.
| Amino Acid | Concentration in Plasma | Primary Use |
| Alanine | 0.3-0.6 mmol/L | Energy source for the liver and muscles |
| Glutamine | 0.5-1.0 mmol/L | Energy source for gut and immune cells |
| Leucine | 0.1-0.3 mmol/L | Stimulates protein synthesis |
Hormones and signaling molecules in blood plasma are key to many bodily functions. They help keep the body balanced and ready to meet different needs.
Blood plasma has many hormones, like peptides, steroids, and thyroid hormones. Peptide hormones, such as insulin and growth hormone, come from endocrine glands. Steroid hormones, like cortisol and aldosterone, are made from cholesterol and control metabolism and immune response.
Thyroid hormones, made by the thyroid gland, are vital for energy and metabolism. Their presence in plasma shows how important they are for our bodies.
Hormones in blood plasma can be free or bound to proteins. For example, thyroid and steroid hormones are often bound to proteins like TBG and SHBG. This binding affects how active they are, as only free hormones work.
Getting hormones to their target cells is complex. It involves diffusion, active transport, and specific receptors. For example, insulin binds to insulin receptors, starting a chain of events that helps cells take in glucose.
Hormones in plasma control many processes, like metabolism, growth, and reproduction. For instance, insulin and glucagon keep blood sugar levels stable. Thyroid hormones affect metabolic rate, and steroid hormones like cortisol help with stress and immune response.
Studies, like those on NCBI’s book on blood plasma, show how complex these processes are. They involve detailed feedback mechanisms to keep the body balanced.
| Hormone Type | Examples | Physiological Role |
| Peptide Hormones | Insulin, Growth Hormone | Regulate glucose metabolism, growth, and development |
| Steroid Hormones | Cortisol, Aldosterone | Influence metabolism, immune response, and electrolyte balance |
| Thyroid Hormones | Thyroxine (T4), Triiodothyronine (T3) | Regulate metabolic rate, energy production |
Blood plasma is key in moving waste to organs like the kidneys and lungs for removal. It’s the liquid part of blood, carrying substances like waste around the body.
Nitrogenous waste, like urea and creatinine, is important in plasma. Urea comes from liver protein breakdown and goes to the kidneys. Creatinine, from muscle work, also ends up in the kidneys.
Plasma also has other waste, like lactate and ketone bodies. Lactate is made when muscles work hard and is cleaned by the liver. Ketone bodies, from fatty acids, help when we don’t have enough glucose.
The body has ways to get rid of waste in the plasma. The kidneys filter out urea and creatinine, sending them to the urine. The liver helps by breaking down substances for excretion.
Knowing how plasma helps remove waste shows why keeping the kidneys and liver healthy is vital. It prevents harmful waste buildup in our bodies.
The production and regulation of blood plasma are key to keeping our bodies balanced. Blood plasma makes up about 55% of our blood. It carries cells, proteins, and other important substances around our body.
Blood plasma is mainly made in the liver and lymphoid organs. The liver creates most of the plasma proteins. These proteins help with fluid balance, immune function, and blood clotting.
Lymphoid organs like the spleen and lymph nodes also help. They filter the blood and store lymphocytes.
“The liver plays a key role in making plasma proteins,” medical literature says. It makes albumin, which is about 60% of plasma proteins. This is important for keeping fluid in our blood vessels.
Keeping plasma volume right is complex. It involves hormones, kidneys, and the renin-angiotensin-aldosterone system (RAAS). When plasma volume goes down, the kidneys save water and sodium. The RAAS helps increase blood pressure to restore volume.
Blood plasma has many uses in medicine. It helps treat patients with rare and serious diseases. Plasma donation is when people give their plasma to make life-saving treatments.
Plasma donation is very important for patients all over the world. Donated plasma is used to make treatments for patients with rare diseases. It’s a vital part of modern medicine.
In summary, making and regulating blood plasma is essential for our health. Understanding these processes helps us see how important plasma is in health and disease.
Blood plasma is vital for our health. It carries cells, proteins, and other important substances around our body. This helps keep everything balanced and working right.
Plasma helps control fluid levels and supports our immune system. It also moves nutrients and hormones to where they’re needed. Without it, our cells wouldn’t get what they need, causing health problems.
Learning more about blood plasma is key. It helps us find new treatments for diseases. As we understand plasma better, we can make treatments more effective.
Blood plasma is the liquid part of blood. It carries cells, proteins, and other substances around the body.
Plasma makes up about 55% of the total blood volume.
Plasma is mostly water, making up about 90-92% of its content.
After centrifugation, blood plasma appears as a yellowish liquid.
Plasma is made of water, proteins, and other substances. These include electrolytes, nutrients, and waste products.
Plasma proteins, like albumin and globulins, help with fluid balance and immune function. They also help with blood clotting.
Blood plasma is made in the body, including by the liver’s production of plasma proteins.
Blood plasma includes water, proteins, electrolytes, nutrients, hormones, and waste products.
Enzymatic plasma proteins help with biochemical processes. They regulate enzymatic activity and play roles in hemostasis and other processes.
Electrolytes in blood plasma are key to maintaining homeostasis. They help regulate pH and maintain osmotic pressure.
Plasma transports nutrients like glucose, lipids, lipoproteins, and amino acids.
Blood plasma contains hormones that regulate growth, metabolism, and reproductive functions.
Waste products in plasma are cleared through renal excretion and other mechanisms.
Blood plasma is used in plasma donation. It helps patients with various medical conditions.
Plasma volume is regulated by fluid and electrolyte balance. It is also influenced by blood pressure.
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