Math Is Fun Forum

Liver

Gist

The liver is a vital, large, reddish-brown organ located in the upper right abdominal cavity, performing over 500 essential tasks including detoxification, bile production for digestion, and energy storage. It serves as a metabolic powerhouse, converting nutrients from food into energy, clearing harmful substances from the blood, and regulating blood clotting.

The liver is a vital organ performing over 500 essential functions, primarily acting as the body's chemical factory and filter. Key functions include metabolizing macronutrients (carbs, fats, proteins), detoxifying harmful substances (drugs, alcohol), producing bile for fat digestion, storing energy (glycogen) and nutrients, and synthesizing blood clotting proteins.

Summary

The liver is a major metabolic organ exclusively found in vertebrates, which performs many essential biological functions such as detoxification of the organism, and the synthesis of various proteins and various other biochemicals necessary for digestion and growth. In humans, it is located in the right upper quadrant of the abdomen, below the diaphragm and mostly shielded by the lower right rib cage. Its other metabolic roles include carbohydrate metabolism, the production of a number of hormones, conversion and storage of nutrients such as glucose and glycogen, and the decomposition of red blood cells. Anatomical and medical terminology often use the prefix hepat- from ἡπατο-, from the Greek word for liver, such as hepatology, and hepatitis.

The liver is also an accessory digestive organ that produces bile, an alkaline fluid containing cholesterol and bile acids, which emulsifies and aids the breakdown of dietary fat. The gallbladder, a small hollow pouch that sits just under the right lobe of liver, stores and concentrates the bile produced by the liver, which is later excreted to the duodenum to help with digestion. The liver's highly specialized tissue, consisting mostly of hepatocytes, regulates a wide variety of high-volume biochemical reactions, including the synthesis and breakdown of small and complex organic molecules, many of which are necessary for normal vital functions. Estimates regarding the organ's total number of functions vary, but is generally cited as being around 500. For this reason, the liver has sometimes been described as the body's chemical factory.

It is not known how to compensate for the absence of liver function in the long term, although liver dialysis techniques can be used in the short term. Artificial livers have not been developed to promote long-term replacement in the absence of the liver. As of 2018, liver transplantation is the only option for complete liver failure.

Details

The liver is located in the upper right-hand portion of the abdominal cavity, beneath the diaphragm, and on top of the stomach, right kidney, and intestines.

Shaped like a cone, the liver is a dark reddish-brown organ that weighs about 3 pounds.

There are 2 distinct sources that supply blood to the liver, including the following:

* Oxygenated blood flows in from the hepatic artery

* Nutrient-rich blood flows in from the hepatic portal vein

The liver holds about one pint (13%) of the body's blood supply at any given moment. The liver consists of 2 main lobes. Both are made up of 8 segments that consist of 1,000 lobules (small lobes). These lobules are connected to small ducts (tubes) that connect with larger ducts to form the common hepatic duct. The common hepatic duct transports the bile made by the liver cells to the gallbladder and duodenum (the first part of the small intestine) via the common bile duct.

Functions of the liver

The liver regulates most chemical levels in the blood and excretes a product called bile. This helps carry away waste products from the liver. All the blood leaving the stomach and intestines passes through the liver. The liver processes this blood and breaks down, balances, and creates the nutrients and also metabolizes drugs into forms that are easier to use for the rest of the body or that are nontoxic. More than 500 vital functions have been identified with the liver. Some of the more well-known functions include the following:

* Production of bile, which helps carry away waste and break down fats in the small intestine during digestion

* Production of certain proteins for blood plasma

* Production of cholesterol and special proteins to help carry fats through the body

* Conversion of excess glucose into glycogen for storage (glycogen can later be converted back to glucose for energy) and to balance and make glucose as needed

* Regulation of blood levels of amino acids, which form the building blocks of proteins

* Processing of hemoglobin for use of its iron content (the liver stores iron)

* Conversion of poisonous ammonia to urea (urea is an end product of protein metabolism and is excreted in the urine)

* Clearing the blood of drugs and other poisonous substances

* Regulating blood clotting

* Resisting infections by making immune factors and removing bacteria from the bloodstream

* Clearance of bilirubin, also from red blood cells. If there is an accumulation of bilirubin, the skin and eyes turn yellow.

When the liver has broken down harmful substances, its by-products are excreted into the bile or blood. Bile by-products enter the intestine and leave the body in the form of feces. Blood by-products are filtered out by the kidneys, and leave the body in the form of urine.

Additional Information

Your liver performs more than 500 important functions, from filtering blood and processing nutrients to fighting infections. It creates bile and important proteins your body needs. You can’t live without a liver: If your liver fails, you’ll need an organ transplant to survive.

Overview:

What is my liver?

Your liver is the largest internal organ in your body and one of the only organs that can regenerate itself. The liver plays a crucial role in filtering blood, storing energy and producing bile for digestion.

Unfortunately, hundreds of diseases and conditions can damage your liver so it can’t work. Some of these can be life-threatening. Hepatologists, medical specialists who diagnose and treat liver disease, can treat and sometimes cure these diseases. And there are many things that you can do to keep your liver well and working as it should.

Function

Your liver is the biggest organ in your body, and it performs hundreds of functions every day.

What is the liver’s function?

Your liver’s biggest job is filtering harmful substances and waste from your blood. Every day, your liver filters more than 250 gallons of blood. If that wasn’t enough, and among many other duties, your liver also:

* Makes cholesterol that your body uses in different ways
* Helps produce certain hormones, protects your cells and is a key ingredient in bile production
* Makes proteins — like clotting factors that manage bleeding and albumin, which manages fluid pressure in your bloodstream
* Helps keep your blood glucose levels steady by storing glycogen (glucose) and releasing it into your bloodstream to keep your blood sugar levels on an even keel
* Breaks down toxins and germs so they safely leave your body in your pee and poop
* Works by breaking down fats in your blood to produce energy, and if there are too many, they may get stored as extra fat

Anatomy:

Where is my liver located?

Your liver is on the right side of your upper body. It’s located under your ribs, just next to your stomach.

What does my liver look like?

Your liver looks like a spongy, reddish-brown wedge of tissue. The wedge, which may be about the size and shape of a football, may weigh between 3 and 5 pounds.

The liver has two lobes (sections). The lobe on the right is slightly larger than the lobe on the left. Both lobes contain many blood vessels and thousands of smaller lobes (lobules) that are tiny clusters of liver cells (hepatocytes).

Some of the important parts of your liver anatomy include:

* Lobules: These are tiny clusters of liver cells that connect with your bile ducts, the tubes that transport bile from your liver to your small intestine.
* Hepatic veins: These are blood vessels in your liver’s lobes that carry blood through your liver so it can remove waste and toxins that eventually leave your body through your pee and poop.
* Bile ducts: Bile ducts carry the bile that your liver produces out to the rest of your body.

Conditions and Disorders:

What common conditions and disorders can affect my liver?

There are over 100 types of liver diseases, but they fall into a handful of subtypes. Examples include:

* Alcohol-induced hepatitis: Heavy alcohol use can cause acute or chronic hepatitis (inflammation in your liver). If it’s frequent or lasts a long time, it can lead to cirrhosis and liver failure.
* Bile duct obstruction: Conditions that block the flow of bile through your bile ducts can cause it to build up and injure your liver. Gallstones and biliary stricture (narrowing) are some common causes.
* Inherited metabolic disorders: Some of these disorders can cause toxic products to build up in your blood. Hemochromatosis is one example.
* Liver lesions: These are abnormal growths in your liver. Most are benign (noncancerous), including liver cysts and liver hemangiomas. But some abnormal growths are liver cancer, including hepatocellular carcinoma, intrahepatic cholangiocarcinoma (bile duct cancer in your liver) and hepatoblastoma.
* Steatotic (fatty) liver disease: These are conditions that involve fat buildup in your liver. Condition types include alcohol-related liver disease, metabolic dysfunction-associated steatotic liver disease (MASLD) and non-alcohol-related steatohepatitis.
* Toxic hepatitis: Chronic overexposure to toxins, like industrial chemicals or drugs, can cause acute or chronic hepatitis.
* Viral hepatitis: Viral hepatitis infections can become chronic infections that cause chronic liver disease, including hepatitis B and hepatitis C. Hepatitis A is an acute (short-term) infection.

What are common signs and symptoms of liver problems?

Common early symptoms of liver problems include:

* Upper abdominal pain
* Nausea
* Your skin and eyes turning yellow (jaundice)

When liver disease is more advanced and your liver function declines, you may develop many other symptoms, like:

* Confusion or mild cognitive impairment
* Dark-colored pee and light-colored poop
* Fatigue
* Musty-smelling breath
* Swollen belly or legs

What tests can check my liver health?

Healthcare providers may use a combination of tests to check on your liver or to diagnose liver diseases, like:

* Blood tests: Liver function tests measure substances in your blood that your liver produces, like liver enzymes, proteins and bilirubin. High or low levels may indicate liver disease.
* Imaging tests: Imaging tests of your liver can show signs of inflammation, lesions or scarring. Examples include liver ultrasound, CT scan, nuclear liver scan and elastography.
* Liver biopsy: To diagnose some conditions, your healthcare provider might need to take a small tissue sample from your liver to examine in a lab. They can usually do this with a hollow needle.

What are common treatments for liver conditions?

Different treatments are available to treat different liver diseases, including medications and surgery. The most common — and important — treatment for liver disease is reducing stress on your liver through diet and lifestyle changes. If liver disease reaches the end stages, you’ll need a liver transplant.

Care:

How can I take care of my liver?

To keep your liver healthy and functioning well, you can:

* Avoid infections: Washing your hands, being vaccinated against hepatitis and practicing safe sex all help reduce your risk of infections that can harm your liver.
* Avoid excess toxins: If you drink beverages with alcohol, limit your drinks to one or two a day. If you use tobacco, try to quit and ask your healthcare provider for helpful resources. And be sure to use medications as directed. Avoid unnecessary herbal supplements.
* Eat well: Consider the Mediterranean diet, which focuses on whole foods and healthy fats. Maintaining a weight that’s healthy for you can also help to prevent metabolic liver disease.

When should I contact a healthcare provider?

Liver disease symptoms can be vague and may feel like many other diseases. Belly aches and nausea might mean stomach flu rather than liver disease. But stomach pain that doesn’t go away, unintended weight loss and jaundice (yellow eyes and skin) are reasons to contact a healthcare provider.

Q: What is the difference between Quacker Oats and the Oregon Ducks?
A: Quacker Oats belong in a bowl.
* * *
Q: Why does a Northwestern Wildcats fan pour his oatmeal on a plate?
A: He lost his bowls.
* * *
Q: Why can't the Minnesota Viking eat oatmeal for breakfast?
A: Whenever they get too close to a "bowl" they choke!
* * *
Q: Why do basketball players love oatmeal cookies?
A: Because they can dunk them!
* * *
Oatmeal cookies are the raisin I have to work out.
* * *

Kidney

Gist

Kidneys are two bean-shaped organs, about the size of a fist, located behind the abdomen, which filter blood to remove waste, excess water, and toxins, forming urine. They are essential for balancing electrolytes, regulating blood pressure, producing red blood cells, and maintaining bone health.

The kidneys are vital organs that perform seven major functions, including filtering metabolic waste (creatinine, urea) from blood, balancing electrolytes, regulating fluid levels, controlling blood pressure, regulating pH balance (acid-base), activating Vitamin D for bone health, and producing hormones like erythropoietin to manage red blood cell production.

Summary

In humans, the kidneys are two reddish-brown bean-shaped blood-filtering organs that are a multilobar, multipapillary form of mammalian kidneys, usually without signs of external lobulation. They are located on the left and right in the retroperitoneal space, and in adult humans are about 12 centimetres (4+ 1/2 inches) in length. They receive blood from the paired renal arteries; blood exits into the paired renal veins. Each kidney is attached to a ureter, a tube that carries excreted urine to the bladder.

The kidney participates in the control of the volume of various body fluids, fluid osmolality, acid–base balance, various electrolyte concentrations, and removal of toxins. Filtration occurs in the glomerulus: one-fifth of the blood volume that enters the kidneys is filtered. Examples of substances reabsorbed are solute-free water, sodium, bicarbonate, glucose, and amino acids. Examples of substances secreted are hydrogen, ammonium, potassium and uric acid. The nephron is the structural and functional unit of the kidney. Each adult human kidney contains around 1 million nephrons, while a mouse kidney contains only about 12,500 nephrons. The kidneys also carry out functions independent of the nephrons. For example, they convert a precursor of vitamin D to its active form, calcitriol; and synthesize the hormones erythropoietin and renin.

Chronic kidney disease (CKD) has been recognized as a leading public health problem worldwide. The global estimated prevalence of CKD is 13.4%, and patients with kidney failure needing renal replacement therapy are estimated between 5 and 7 million. Procedures used in the management of kidney disease include chemical and microscopic examination of the urine (urinalysis), measurement of kidney function by calculating the estimated glomerular filtration rate (eGFR) using the serum creatinine; and kidney biopsy and CT scan to evaluate for abnormal anatomy. Dialysis and kidney transplantation are used to treat kidney failure; one (or both sequentially) of these are almost always used when renal function drops below 15%. Nephrectomy is frequently used to cure renal cell carcinoma.

Renal physiology is the study of kidney function. Nephrology is the medical specialty which addresses diseases of kidney function: these include CKD, nephritic and nephrotic syndromes, acute kidney injury, and pyelonephritis. Urology addresses diseases of kidney (and urinary tract) anatomy: these include cancer, renal cysts, kidney stones and ureteral stones, and urinary tract obstruction.

The word "renal" is an adjective meaning "relating to the kidneys", and its roots are French or late Latin. Whereas according to some opinions, "renal" should be replaced with "kidney" in scientific writings such as "kidney artery", other experts have advocated preserving the use of "renal" as appropriate including in "renal artery".

Details

Your kidneys are organs that filter your blood. They remove waste and balance your body’s fluids, among other tasks. Most people have one kidney on either side of their spines (in their lower back). Common kidney conditions include kidney disease, kidney infections and kidney cysts.

Overview:

What is a kidney?

The kidneys are two fist-sized organs that filter your blood. Your kidneys are part of your urinary system.

Your kidneys filter about 200 quarts of fluid every day — enough to fill a large bathtub. During this process, your kidneys remove waste, which leaves your body as urine (pee). Most people pee about 2 quarts daily. Your body reuses the other 198 quarts of fluid.

Each kidney also helps balance your body’s fluids (mostly water) and electrolytes. Electrolytes are essential minerals that include sodium and potassium.

Function:

What do kidneys do?

Your kidneys have many important functions. They clean toxins and waste out of your blood. Common waste products include nitrogen waste (urea), muscle waste (creatinine) and acids. They help your body remove these substances. Your kidneys filter about half a cup of blood every minute.

In the process:

1. Blood flows into your kidneys through a large blood vessel called the renal artery.
2. Tiny blood vessels in your kidney filter the blood.
3. The filtered blood returns to your bloodstream through a large blood vessel called the renal vein.
4. Pee travels through tubes of muscle called ureters (yer-it-ters) to your bladder.
5. Your bladder stores pee until you release it through urination (peeing).

The kidneys also:

* Control the acid-base balance (pH balance) of your blood
* Make sugar (glucose) if your blood doesn’t have enough
* Make a protein called renin that increases blood pressure
* Produce the hormones calcitriol and erythropoietin. Calcitriol is a form of vitamin D that helps your body absorb calcium. Erythropoietin helps your body make red blood cells.

How do my kidneys filter blood?

Each kidney contains more than a million filtering units called nephrons. Each nephron consists of:

* Glomeruli: These are groups of tiny blood vessels that perform the first stage of filtering your blood (glomerular filtration). They then pass filtered substances to the renal tubules.
* Renal tubules: These tiny tubes reabsorb and return water, nutrients and minerals your body needs. The tubules remove waste, including excess acid and fluids. Waste goes through your kidneys’ collecting chambers and leaves your body as pee.

Anatomy:

Where are your they located?

Your kidneys sit just below your rib cage and in your lower back. Typically, one kidney sits on either side of your spine. Your kidneys are between your intestines and diaphragm. A ureter connects each kidney to your bladder.

What are the parts of your kidney?

Your kidneys are highly complex organs with many parts. The main parts of your kidney anatomy include:

* Kidney (renal) capsule: This has three layers of connective tissue or fat that cover your kidneys. It protects your kidneys from injury, makes them more stable and connects your kidneys to nearby tissues.
* Renal artery: This large blood vessel controls blood flow into your kidneys. For most people at rest, the renal arteries pump a little over 5 cups (1.2 liters) of blood to your kidneys every minute.
* Renal cortex: This is your kidney’s outer layer, where the nephrons (blood-filtering units) begin. The renal cortex also creates the hormone erythropoietin.
* Renal medulla: This is the inner part of your kidney. It contains most of the nephrons with their glomeruli and renal tubules. The renal tubules carry urine to the renal pelvis.
* Renal papilla: These pyramid-shaped structures transfer urine to the ureters. Dehydration and certain medications may damage your renal papilla.
* Renal pelvis: This funnel-shaped structure collects urine and passes it down two ureters. Urine travels from the ureters to the bladder, which stores it.
* Renal vein: This vein is the main blood vessel that carries filtered blood out of your kidneys and back to your heart. Each of your kidneys has a renal vein.

What does a kidney look like?

Your kidneys are reddish-brown. They have a shape like a kidney bean. Each kidney is about 4 or 5 inches long, about the size of a fist.

The weight of your kidneys varies. It depends on your height, weight, age and body mass index (BMI). Your kidneys may weigh as much as one to five tennis balls.

An adrenal gland sits on top of each kidney. It produces hormones, including cortisol, which helps your body respond to stress.

Conditions and Disorders:

What are the common conditions and disorders that affect your kidneys?

Common diseases that impact your kidneys include:

* Chronic kidney disease (CKD): This may lessen your kidney function. Diabetes or high blood pressure usually causes CKD.
* Kidney cancer: Renal cell carcinoma is the most common type.
* Kidney failure (renal failure): This may be acute (worsen suddenly) or chronic (long-term). End-stage renal disease is a complete loss of kidney function.
* Kidney infection: This can occur if bacteria enter your kidneys by traveling up your ureters. These infections cause sudden symptoms.
* Kidney stones: Crystals can form in your urine and join together to form a stone, which may block urine flow.
* Kidney (renal) cysts: Fluid-filled sacs can grow on your kidneys. They may be benign or malignant.
* Polycystic kidney disease (PKD): This genetic condition causes cysts to form on your kidneys. It may lead to high blood pressure and kidney failure.

Countless other disorders can affect your kidneys. Some of these conditions include:

* Acidosis: Excess acid collects, and your kidneys don’t get rid of it. This may cause many health problems and can be life-threatening.
* Acute or interstitial nephritis: Your kidneys become inflamed, sometimes from certain antibiotics. This may lead to kidney failure.
* Azotemia: Nitrogen waste builds up in your blood and your kidneys don’t get rid of it. Without treatment, azotemia may be fatal.
* Hydronephrosis: Blockage of your urinary system causes urine to back up in your kidneys. Without treatment, hydronephrosis may result in kidney failure.
* Diabetes-related nephropathy or hypertensive nephropathy: Unmanaged diabetes or chronically high blood pressure causes kidney damage.
* Glomerular diseases: These cause inflammation or damage to your glomeruli. Glomerular diseases may cause kidney failure.
* Minimal change disease and nephrotic syndrome: These cause your kidneys to release excess protein in your pee. Over time, this can damage your kidneys.
* Papillary necrosis: Chunks of kidney tissue die in the medulla and papilla. The tissue can break off and clog your kidneys, leading to kidney failure.
* Proteinuria: This is a high level of protein in your pee. It can be a sign of kidney damage.
* Uremia: Your kidneys don’t clear toxins that normally leave your body through your pee. They end up in your bloodstream. Without treatment, uremia can be fatal.

Who is at the greatest risk of problems?

People with diabetes or high blood pressure have the highest risk of kidney problems. Accidents or trauma can also harm your kidneys, like car accidents or sports injuries.

Signs and symptoms of a problem

Most kidney problems don’t have signs in their early stages. As kidney damage progresses, you may notice:

* Cramping muscles: Electrolyte imbalances cause your muscles to stiffen.
* Dark urine or urine with blood in it: Damage to your kidneys’ filters lets blood cells leak into your urine.
* Foamy urine: Bubbles in your pee can signal excess protein.
* Itchy, dry skin: An imbalance of minerals and nutrients in your blood leads to itchy skin.
* More frequent urination: Problems filtering waste cause you to pee more often.
* Puffy eyes or swollen ankles and feet: Reduced kidney function can cause your body to hold onto protein and sodium, resulting in swelling.
* Sleep problems, fatigue and lack of appetite: If toxins build up in your blood, your sleep, appetite and energy levels may be off.
* Stomach pain or vomiting.

What are common tests to check the health of my kidneys?

Healthcare providers use several tests to measure kidney function and diagnose kidney problems. Your provider may recommend:

* Urinalysis: A urinalysis analyzes your pee. It measures certain substances, like protein or blood.
* Blood tests: These can show how well your glomeruli filter your blood.
* Kidney biopsy: Your healthcare provider removes a small amount of your kidney tissue to examine it under a microscope.
* Ureteroscopy: Your provider passes a tube (endoscope) through your urethra into your bladder and ureters to look for anything unusual.
* Advanced imaging: An X-ray, CT scan, MRI, ultrasound or nuclear medicine image can show kidney anomalies or blockages.

Care:

Simple tips to keep your kidneys healthy

It’s important to have regular checkups and blood and urine tests to measure your kidneys’ health. You can reduce your risk of developing a kidney problem by:

* Avoiding tobacco products
* Cutting out excess salt, which can affect the balance of minerals in your blood
* Drinking water
* Increasing daily physical activity, which can reduce high blood pressure
* Limiting your use of NSAIDs, which can cause kidney damage if you take them too often (Nonsteroidal Anti-Inflammatory Drugs)
* Maintaining a weight that’s healthy for you
* Monitoring your blood pressure levels
* Watching your blood sugar levels if you have diabetes

You should have your kidney function regularly tested if you have:

* A family history of kidney disease
* Diabetes
* Heart disease
* High blood pressure
* Obesity or overweight
* Regular use of certain medications, like blood pressure medicine.

Additional Information

Kidney, in vertebrates and some invertebrates, is an organ that maintains water balance and expels metabolic wastes. Primitive and embryonic kidneys consist of two series of specialized tubules that empty into two collecting ducts, the Wolffian ducts (see Wolffian duct). The more advanced kidney (metanephros) of adult reptiles, birds, and mammals is a paired compact organ whose functional units, called nephrons, filter initial urine from the blood, reabsorb water and nutrients, and secrete wastes, producing the final urine, which is expelled.

Reptilian and avian kidneys are made up of many tiny lobules that, in birds, are combined into three or more lobes. Collecting tubules from each lobule empty into a separate branch of the ureter. Reptiles have relatively few nephrons (from 3,000 to 30,000 in lizards), while birds have a great number (around 200,000 in a fowl, twice as many as in a mammal of comparable size).

Mammalian kidneys have a somewhat granular outer section (the cortex), containing the glomeruli and convoluted tubules, and a smooth, somewhat striated inner section (the medulla), containing the loops of Henle and the collecting tubules. As the ureter enters the kidney it enlarges into a cavity, the renal pelvis; urine passes into this pelvis from the collecting tubules. Nephrons are numerous (20,000 in a mouse).

In humans the kidneys are about 10 centimetres long and are located beneath the diaphragm and behind the peritoneum. Each kidney contains 1,000,000–1,250,000 nephrons that filter the entire five-quart water content of the blood every 45 minutes—an equivalent of 160 quarts a day. Of this, only 1 1/2 quarts are excreted; the remainder is reabsorbed by the nephrons.

Damaged kidneys secrete an enzyme called renin that stimulates constriction of the blood vessels. When the damage has been caused initially by high blood pressure, the increase in pressure from the constricted vessels causes more kidney damage.

Q: What do you get when you cross oatmeal & ducks?
A: Quacker oatmeal!
* * *
Q: How did Reese eat her oatmeal?
A: Witherspoon.
* * *
Q: Why did the boy give a girl an oatmeal cookie?
A: To make a sweet first impression.
* * *
Q: What did the kid say when his mother poured oatmeal on him?
A: How can you be so gruel?
* * *
Q: Why doesn't Jay-Z eat oatmeal?
A: Cause He's got 99 problems but fiber ain't one.
* * *

Nitrous Oxide

Gist

Nitrous oxide (N2O), commonly known as "laughing gas," is a colorless, slightly sweet-smelling non-flammable gas used extensively in medicine for sedation and pain relief, in dentistry, and in food production (whipped cream chargers). It is a powerful greenhouse gas and ozone-depleting substance.

Nitrous oxide has a pain-relieving and numbing effect, which is why it can be used as an anesthetic. It is also used in the chemicals industry and in farming. Nitrous oxide is absorbed into the blood through the lungs. It then enters the brain and nerve tissue through the bloodstream.

Summary

Nitrous oxide (dinitrogen oxide or dinitrogen monoxide), commonly known as laughing gas or nitrous, among others, is a chemical compound, an oxide of nitrogen with the formula N2O. At room temperature, it is a colourless non-flammable gas, and has a slightly sweet scent and taste. At elevated temperatures, nitrous oxide is a powerful oxidiser similar to molecular oxygen.

Nitrous oxide has significant medical uses, especially in surgery and dentistry, for its anaesthetic and pain-reducing effects, and it is on the World Health Organization's List of Essential Medicines. Its colloquial name, "laughing gas", coined by Humphry Davy, describes the euphoric effects upon inhaling it, which cause it to be used as a recreational drug inducing a brief "high". When abused chronically, it may cause neurological damage through inactivation of vitamin B12. It is also used as an oxidiser in rocket propellants and motor racing fuels, and as a frothing gas for whipped cream.

Nitrous oxide is also an atmospheric pollutant, with a concentration of 333 parts per billion (ppb) in 2020, increasing at 1 ppb annually. It is a major scavenger of stratospheric ozone, with an impact comparable to that of CFCs. About 40% of human-caused emissions are from agriculture, as nitrogen fertilisers are digested into nitrous oxide by soil micro-organisms. As the third most important greenhouse gas, nitrous oxide substantially contributes to global warming. Reduction of emissions is an important goal in the politics of climate change.

Details

Nitrous oxide (laughing gas) is a sedative healthcare providers use to keep you comfortable during procedures. It’s a colorless, faintly sweet-smelling gas that you breathe in through a nosepiece. Unlike other sedation options, you can drive shortly after receiving nitrous oxide.

Overview:

What is nitrous oxide (laughing gas)?

Nitrous oxide (N20) — commonly known as laughing gas — is a type of short-acting sedative. It’s a colorless, slightly sweet-smelling gas that you breathe in through a mask or nosepiece.

Physicians and dentists have been using nitrous oxide since the mid-19th century — and it’s still one of the most common inhaled sedatives used today. It’s fast-acting and it wears off quickly, making it an ideal sedation option for short or minor procedures.

What does laughing gas do?

Nitrous oxide slows down your nervous system and induces a sense of calm and euphoria. It reduces anxiety and helps you stay comfortable during medical or dental procedures. It doesn’t fully put you to sleep, so you’ll still be able to respond to your provider’s questions or instructions.

Despite its name, laughing gas might not make you laugh. (But then again, it could.) Everyone responds a little differently.

Nitrous oxide takes effect quickly. Within three to five minutes, you might feel:

* Calm.
* Relaxed.
* Happy.
* Giggly.
* Mildly euphoric.
* Light-headed.
* Tingling in your arms and legs.
* Heaviness, like you’re sinking deeper into the exam chair or table.

Who shouldn’t use nitrous oxide sedation?

Laughing gas is a safe medical and dental sedation option for most people, from children to adults. But it might not be right for kids under the age of 2 and those with:

* Certain respiratory conditions, like chronic obstructive pulmonary disease (COPD).
* Stuffy nose (nasal congestion).
* Vitamin B12 deficiency.
* Severe psychiatric conditions.

Ask your healthcare provider whether you’re a candidate for nitrous oxide sedation.

Treatment Details:

What should I expect if I’m getting laughing gas?

Your healthcare provider will talk with you and answer any questions before your procedure. They’ll ask you to sign a consent form so you can receive nitrous oxide.

When it’s time for your procedure, your provider will:

* Place a mask over your nose and mouth. (If you’re getting laughing gas at your dentist’s office, they’ll give you a smaller mask that only covers your nose.)
* Open a tank valve to allow nitrous oxide and oxygen to flow into your mask. (They’ll start with a very low dose to see how you respond.)
* Adjust the dosage until you feel the desired effects.
* Do your procedure. (In many cases, your provider will also give you local anesthesia before beginning. This is because nitrous oxide reduces pain but won’t totally eliminate it. So, it’s common to combine it with other forms of anesthesia.)
* Stop the flow of laughing gas once your procedure is over.
* Ask you to breathe in pure oxygen through your mask until you feel alert again.
* Remove the mask from your face.
* Monitor you for a few minutes before releasing you to go home.

It’s normal to feel a little nervous if you’ve never had laughing gas before. The good news is that you’ll be able to tell your provider if you develop undesirable side effects. If you start to feel dizzy or nauseous, your provider can simply adjust the dosage until it feels comfortable to you.

How long does laughing gas last?

The effects of nitrous oxide last until your provider turns off the gas flow. Once this happens, it takes about 5 to 10 minutes for the sedative to leave your system and for your headspace to return to normal. Due to the short-acting nature of nitrous oxide, you can drive shortly after your procedure.

Risks / Benefits:

What are the benefits of nitrous oxide?

The most notable advantage of laughing gas is that it relieves anxiety. People with medical- or dental-related fears often avoid healthcare visits and put off necessary procedures. Nitrous oxide makes it possible for people to get the care they need and deserve.

Nitrous oxide is also:

* Fast-acting (the effects kick in quickly).
* Short-acting. (Once your provider turns off the gas flow, you’ll start feeling like your usual self in a matter of minutes. This can be helpful if you find the effects of nitrous oxide unpleasant.)
* Easy to administer and doesn’t require needles.
* Safe and effective when given in a healthcare setting.

What are the possible complications of nitrous oxide in a dental or medical setting?

Laughing gas doesn’t cause any long-term complications when given under the care of a healthcare provider. But frequent nitrous oxide exposure (for multiple-phase dental treatment, for instance) can result in vitamin B12 deficiency. If you’re planning several appointments with laughing gas, ask your provider whether you should take a vitamin B12 supplement.

Some people may develop temporary nitrous oxide side effects like:

* Headaches.
* Nausea and vomiting.
* Agitation.

These side effects go away once the nitrous oxide leaves your system.

What are the risks of using nitrous oxide recreationally?

Some people use nitrous oxide recreationally to achieve a momentary euphoric high. But inhaling laughing gas more often than you need it can cause serious and potentially life-threatening health complications like:

* Low blood pressure (hypotension).
* Low oxygen (hypoxia).
* Fainting.
* Heart attack.
* Nerve damage.

People who use laughing gas recreationally have an increased risk of these long-term health conditions:

* Depression.
* Psychosis.
* Memory loss.
* Muscle spasms.
* Tinnitus (ringing in your ears).
* Numbness, especially in your hands and feet.
* Weakened immune system.
* Birth defects (if used during pregnancy).

Additional Information

Nitrous oxide (N2O) is any one of several oxides of nitrogen, a colourless gas with pleasant, sweetish odour and taste, which when inhaled produces insensibility to pain preceded by mild hysteria, sometimes laughter. (Because inhalation of small amounts provides a brief euphoric effect and nitrous oxide is not illegal to possess, the substance has been used as a recreational drug.) Nitrous oxide was discovered by the English chemist Joseph Priestley in 1772; another English chemist, Humphry Davy, later named it and showed its physiological effect. A principal use of nitrous oxide is as an anesthetic in surgical operations of short duration; prolonged inhalation causes death. The gas is also used as a propellant in food aerosols. In automobile racing, nitrous oxide is injected into an engine’s air intake; the extra oxygen allows the engine to burn more fuel per stroke. It is prepared by the action of zinc on dilute nitric acid, by the action of hydroxylamine hydrochloride (NH2OH·HCl) on sodium nitrite (NaNO2), and, most commonly, by the decomposition of ammonium nitrate (NH4NO3).