Math Is Fun Forum

Dura Mater

Gist

The tough outer layer of tissue that covers and protects the brain and spinal cord and is closest to the skull.

The meningeal layer of the dura mater creates several dural folds that divide the cranial cavity into freely communicating spaces. The function of the dural folds is to limit the rotational displacement of the brain. The folds include the following: The falx cerebri is a meningeal projection of dura in the brain.

Dura is the thick outer most layer of the 3 meninges. The thick fibrous dura surrounds, supports and protects the central nervous system (brain and spinal cord). In the cranium the dura forms folds to form partitions of the cranial cavity, and separates in places to form dural venous sinuses.

Summary

The dura mater (or just dura) is the outermost of the three meningeal membranes. The dura mater has two layers, an outer periosteal layer closely adhered to the neurocranium, and an inner meningeal layer known as the dural border cell layer. The two dural layers are for the most part fused together forming a thick fibrous tissue membrane that covers the brain and the vertebrae of the spinal column. But the layers are separated at the dural venous sinuses to allow blood to drain from the brain. The dura covers the arachnoid mater and the pia mater, the other two meninges, in protecting the central nervous system.

At major boundaries of brain regions such as the longitudinal fissure between the hemispheres, and the tentorium cerebelli between the posterior brain and the cerebellum the dura separates, folds and invaginates to make the divisions. These folds are known as dural folds, or reflections.

The dura mater is primarily derived from neural crest cells, with postnatal contributions from the paraxial mesoderm.

Details

The meninges are three layers of connective tissue that surround, support and protect the central nervous system (brain and spinal cord). From superficial to deep these layers are named the dura, arachnoid and pia. The dura mater is a thick, tough, fibrous membrane. It receives blood and nerve supply from the meningeal arteries, veins and nerves.

Cranial dura mater

In the cranium, the dura consists of two layers; an outer periosteal dura and an inner meningeal dura. The periosteal dura is closely attached to the internal surface of the skull bones while the inner meningeal dura is continuous with the dura of the spinal cord. The periosteal dura and meningeal dura are tightly fused together, except in a few places where they separate to form the dural venous sinuses; spaces that collect venous blood from the large veins of the brain. The dural venous sinuses are named as follows; superior sagittal sinus, inferior sagittal sinus, straight sinus, occipital sinus, transverse sinus, sigmoid sinus, marginal sinus, superior petrosal sinus, inferior petrosal sinus, petrosquamous sinus, cavernous sinus, sphenoparietal sinus, intercavernous sinus. The straight, occipital, transverse and superior sagittal sinuses all meet at the confluence of the sinuses. Arachnoid granulations, small tufts of arachnoid, protrude through the dura mater into the dural venous sinuses. They are the site of cerebrospinal fluid absorption into dural venous sinuses. Another feature of  cranial dura are the dural folds. These are reflections of the inner meningeal dura which divide the cranium into separate compartments. The four dural folds are the falx cerebri, tentorium cerebelli, falx cerebelli, diaphragma sellae; in brief, they separate the cerebral and cerebellar hemispheres into divisions.

Spinal dura mater

In the spinal cord, only one layer of dura mater is found. Unlike in the cranium, the dura is not closely integrated with the overlying bones. Instead, a space exists between the dura and the vertebral bones known as the epidural space. The inferior aspect of the spinal dural sac is anchored to the coccyx by a thin connective tissue strand called the filum terminale.

Innervation

The innervation of the cranial dura mater is primarily sourced from the trigeminal (CN V) and vagus CN X) nerves, as well as spinal nerves C2/C3.

Trigeminal nerve

Several branches of the trigeminal nerve supply the dura mater:

* The tentorial branch of the ophthalmic nerve (CN V1), also known as the recurrent meningeal branch, supplies much of the supratentorial dura mater (i.e., posterior half of the falx cerebri, calvarial dura and superior surface of the tentorium cerebelli).
* The meningeal branch of the anterior ethmoidal nerve (branch of the nasociliary nerve (ophthalmic nerve)) supplies the central region of the anterior cranial fossa as well as anterior parts of the falx cerebri.
* The meningeal branch of the maxillary nerve (CN V2) provides innervation to the posterior region of the anterior cranial fossa as well as the anterior portion of the middle cranial fossa.
* The meningeal branch of the mandibular nerve (CN V3) supplies the posterolateral parts of the middle cranial fossa, before extending anteriorly to the lateral region of the anterior cranial fossa.

Vagus nerve

The posterior and lateral regions of the posterior cranial fossa and inferior surface of the tentorium cerebelli are all primarily innervated by the meningeal branch of the vagus nerve (which arises from its superior ganglion).

Spinal nerves C2/C3

The central region of the posterior cranial fossa, around the foramen magnum, receives innervation from sensory nerve fibers whose cell bodies are located in the spinal ganglia of spinal nerves C2/C3. The nerves may present as ascending branches of the meningeal branch of these spinal nerves which ascend the vertebral canal into the cranial cavity, via the foramen magnum. Alternatively, communicating branches of spinal nerves C2/C3 may pass to the hypoglossal nerve (CN XII), entering the cranial cavity via the meningeal branch of the hypoglossal nerve (via the hypoglossal canal). Some references occasionally also describe meningeal branches derived from the facial (CN VII) and glossopharyngeal (CN IX) nerves as supplying the posterior cranial fossa, however this remains debated.

Spinal dura

The innervation of the spinal dura mater is derived from a meningeal branch of each spinal nerve. It arises near the division of the spinal nerve into anterior and posterior rami, close to the gray/white rami communicating branches, before coursing through the intervertebral foramen into the vertebral canal.

Additional Information

The brain is an important part of the human body, as it performs vital functions and controls almost all bodily functions. It is protected by a strong framework of bones, called the skull. Besides this bony structure, it is also protected against several kinds of injuries or head traumas by the meninges, which are three-layered membranous structures that help protect the brain parts from damage.

The outermost layer of the meninges is the dura mater. The other two layers are collectively known as the leptomeninges and consist of the arachnoid mater (middle layer) and the pia mater (innermost layer). The dura mater is frequently known as the dura.

The dura protects its vital underlying components with a strong fibrous protective covering.  In aspects of compressive impacts due to mass lesions and related edema, the compartmentalization of the brain through the help of dural reflections is especially important. The connection of the dural layers to each other, and the underlying leptomeninges and calvarium, has a huge impact on scientists’ knowledge of the impacts of intracranial injury.

Summary:

* The meninges safeguard the spinal cord and brain from tissue injury and assist the framework of the blood vessels
* Dura mater is on the outermost end of the meninges, situated directly beneath the skull and the bones of the vertebral column
* The dura mater is made up of two layers of connective tissue: the periosteal layer and the meningeal layer
* The periosteal layer lines the inner surface of the cranium’s bones. The periosteum is a dense fibrous membrane that covers the surface areas of bones
* The meningeal layer is found deep within the periosteal layer
* The dura mater has a vascular supply of its own
* The dura mater’s meningeal layer bends towards the inner direction of itself to form 4 structural forms, called the dural reflections
* The 4 dural reflections are: Diaphagma sellae,  Falx cerebri, Tentorium cerebelli, and Falx cerebelli
* Dura mater encircles and continues to support the large venous channels (called dural sinuses) that help in carrying the blood from the brain to the heart.
* Haemorrhage, meningitis, and meningiomas are some complications involving the dura mater.

Colonial Quotes

1. Communists have always played an active role in the fight by colonial countries for their freedom, because the short-term objects of Communism would always correspond with the long-term objects of freedom movements. - Nelson Mandela

2. Why are we, as a nation so obsessed with foreign things? Is it a legacy of our colonial years? We want foreign television sets. We want foreign shirts. We want foreign technology. Why this obsession with everything imported? - A. P. J. Abdul Kalam

3. The skills you need to fight the colonial power and the skills you need to gain independence are not necessarily the same you need to run a country. - Kofi Annan

4. Was it not enough punishment and suffering in history that we were uprooted and made helpless slaves not only in new colonial outposts but also domestically. - Robert Mugabe

5. All the sparrows on the rooftops are crying about the fact that the most imperialist nation that is supporting the colonial regime in the colonies is the United States of America. - Nikita Khrushchev

6. Thankfully, Australia has emerged from its inauspicious colonial beginnings to become a proud nation, a nation that overcame those primeval prejudices. - Rupert Murdoch

7. England was the first true colonial power to use its dominion over a large part of Africa, the Middle East, Asia, Australia, North America, and many Caribbean islands, in the first half of the 20th century. - Fidel Castro

8. Famines were frequent in colonial India and some estimates indicate that 30 to 40 million died out of starvation in Tamil Nadu, Bihar and Bengal during the later half of the 19th century. - M. S. Swaminathan.

Q: How do you strike fear into a pie?
A: With a very cherry movie.
* * *
Q: Why were the little cherries upset?
A: Because their parents were in a jam!
* * *
Q: How many grams of protein are in a cherry pi?
A: 3.14159265
* * *
Q: What do you call a fruit that likes to tell jokes?
A: Cherry Seinfeld. Did you hear about the cherry that liked to explode? It was da bomb.
* * *
Q: What do you call a man that can't stop eating cherries whole?
A: A bottomless pit.
* * *

Centre of Gravity (Center of Gravity)

Gist

Center of gravity (CG) is the point within an object where its weight is evenly balanced in all directions. Understanding its significance is important because it helps predict how an object will behave when it's moved or supported.

The centre of gravity (CG) of an object is the point at which all of its weight is evenly distributed. It is also known as the centre of mass.

It is important to know the centre of gravity because it predicts the behaviour of a moving body when acted on by gravity. It is also useful in designing static structures such as buildings and bridges. In a uniform gravitational field, the centre of gravity is identical to the centre of mass.

Summary

A body's center of gravity is the point around which the resultant torque due to gravity forces vanishes. Where a gravity field can be considered to be uniform, the center of mass and the center of gravity will be the same. However, for satellites in orbit around a planet, in the absence of other torques being applied to a satellite, the slight variation (gradient) in gravitational field between the parts closer to and further from the planet (stronger and weaker gravity respectively) can lead to a torque that will tend to align the satellite such that its long axis is vertical. In such a case, it is important to make the distinction between the center of gravity and the mass center. Any horizontal offset between the two will result in an applied torque.

The mass center is a fixed property for a given rigid body (e.g., with no slosh or articulation), whereas the center of gravity may, in addition, depend upon its orientation in a non-uniform gravitational field. In the latter case, the center of gravity will always be located somewhat closer to the main attractive body as compared to the mass center, and thus will change its position in the body of interest as its orientation is changed.

In the study of the dynamics of aircraft, vehicles and vessels, forces and moments need to be resolved relative to the mass center. That is true independent of whether gravity itself is a consideration. Referring to the mass center as the center of gravity is something of a colloquialism, but it is in common usage and when gravity gradient effects are negligible, center of gravity and mass center are the same and are used interchangeably.

In physics the benefits of using the center of mass to model a mass distribution can be seen by considering the resultant of the gravity forces on a continuous body.

Details

The centre of gravity, in physics, is an imaginary point in a body of matter where, for convenience in certain calculations, the total weight of the body may be thought to be concentrated. The concept is sometimes useful in designing static structures (e.g., buildings and bridges) or in predicting the behaviour of a moving body when it is acted on by gravity.

In a uniform gravitational field the centre of gravity is identical to the centre of mass, a term preferred by physicists. The two do not always coincide, however. For example, the Moon’s centre of mass is very close to its geometric centre (it is not exact because the Moon is not a perfect uniform sphere), but its centre of gravity is slightly displaced toward Earth because of the stronger gravitational force on the Moon’s near side.

The location of a body’s centre of gravity may coincide with the geometric centre of the body, especially in a symmetrically shaped object composed of homogeneous material. An asymmetrical object composed of a variety of materials with different masses, however, is likely to have a centre of gravity located at some distance from its geometric centre. In some cases, such as hollow bodies or irregularly shaped objects, the centre of gravity (or centre of mass) may occur in space at a point external to the physical material—e.g., in the centre of a tennis ball or between the legs of a chair.

Published tables and handbooks list the centres of gravity for most common geometric shapes. For a triangular metal plate such as that depicted in the figure, the calculation would involve a summation of the moments of the weights of all the particles that make up the metal plate about point A. By equating this sum to the plate’s weight W, multiplied by the unknown distance from the centre of gravity G to AC, the position of G relative to AC can be determined. The summation of the moments can be obtained easily and precisely by means of integral calculus.

The centre of gravity of any body can also be determined by a simple physical procedure. For example, for the plate in the figure, the point G can be located by suspending the plate by a cord attached at point A and then by a cord attached at C. When the plate is suspended from A, the line AD is vertical; when it is suspended from C, the line CE is vertical. The centre of gravity is at the intersection of AD and CE. When an object is suspended from any single point, its centre of gravity lies directly beneath that point.

Additional Information

The center of gravity is a geometric property of any object. The center of gravity is the average location of the weight of an object. We can completely describe the motion of any object through space in terms of the translation of the center of gravity of the object from one place to another, and the rotation of the object about its center of gravity if it is free to rotate. If the object is confined to rotate about some other point, like a hinge, we can still describe its motion. In flight, both airplanes and rockets rotate about their centers of gravity. A kite, on the other hand, rotates about the bridle point. But the trim of a kite still depends on the location of the center of gravity relative to the bridle point, because for every object the weight always acts through the center of gravity.

Determining the center of gravity is very important for any flying object. How do engineers determine the location of the center of gravity for an aircraft which they are designing?

In general, determining the center of gravity (cg) is a complicated procedure because the mass (and weight) may not be uniformly distributed throughout the object. The general case requires the use of calculus which we will discuss at the bottom of this page. If the mass is uniformly distributed, the problem is greatly simplified. If the object has a line (or plane) of symmetry, the cg lies on the line of symmetry. For a solid block of uniform material, the center of gravity is simply at the average location of the physical dimensions.

Colleges Quotes - II

1. So far as the colleges go, the sideshows are swallowing up the circus. - Woodrow Wilson

2. I came from a Hindi medium school... the principal felt that I would not fit into an English medium college. Though I was top in my class in school, and I got admission in other colleges, but I really wanted to study in St. Xavier's. - Lakshmi Mittal

3. The public/private partnerships are taking various forms in India. It is individuals who are socially oriented are setting up schools. They're setting up colleges. They're setting up universities. They're setting up primary-education schools in the villages, particularly the villages their original families came from. - Azim Premji

4. I think Facebook is an online directory for colleges... If I want to get information about you, I just go to TheFacebook, type in your name, and it hopefully pulls up all the information I'd care to know about you. - Mark Zuckerberg

5. Colleges produce more sports therapists than engineers. Perhaps because America is a sporty country: a lot of outdoors. - Azim Premji.

Q: Which basketball players eat fruits?
A: The ones who like to cherry pick.
* * *
Q: Did you hear the joke about the cherry?
A: It was pit-iful.
* * *
Q: What do you call cherries playing the guitar?
A jam session.
* * *
Q: What did one cherry say to the other cherry?
A: If you weren't so sweet, we wouldn't be in this jam!
* * *
Q: Did you hear about the fruit that gave people a warm fuzzy feeling all over?
A: She was the cherry on top.
* * *

Heart Valve Surgery

Gist

How is heart valve surgery done?

The surgeon makes a long cut down the centre of your chest, through your breastbone. Your heart is connected to a machine to keep blood flowing around your body during the operation (heart-lung bypass machine). The surgeon cuts into your heart to reach the damaged valve.

Can you walk after heart valve surgery?

People are usually practicing very basic self-care and are encouraged to get up, to breathe deeply and to resume eating, drinking and walking as soon as possible after surgery.

Summary:

What is heart valve surgery?

Heart valve surgery and procedures are performed to repair or replace a valve in the heart that is not working properly because of valvular heart disease (also called heart valve disease). Heart valve surgery is open-heart surgery through the breastbone, into the chest. It is a major operation that can last two hours or longer and recovery often takes several weeks. There are newer, less invasive procedures suitable for some types of valvular heart disease, but they are only done at certain hospitals.

Why is it done?

In a healthy heart, valves control the flow of blood by making it move in one direction through the heart and the body. If a valve is not working correctly, blood flow and the delicate network of blood vessels that carry oxygen throughout the body are affected.

If your valve problem is minor, your doctor may monitor your symptoms or treat you with medication. If your condition is more serious, surgery is usually required to repair or replace the valve to prevent any lasting damage to your heart valve and your heart.

Heart valve surgery and procedures are performed to repair or replace a valve in the heart that is not working properly because of valvular heart disease (also called heart valve disease). Heart valve replacement surgery is open-heart surgery through the breastbone, into the chest. It is a major operation that can last two hours or longer and recovery often takes several weeks. There are newer, less invasive procedures suitable for some types of valvular heart diseases.

In a healthy heart, valves control the flow of blood by making it move in one direction through the heart and the body. The valve can either become stenotic, which means it is narrowed and thus does not allow the blood to flow smoothly from one chamber to another or it starts leaking which hampers the forward flow of blood.

If your valve problem is minor, your doctor may monitor your symptoms or treat you with medication. If your condition is more serious, surgery is usually required to repair or replace the valve to prevent any lasting damage to your heart valve and your heart.

What is Done?

Depending on the problem, there are several different procedures for repairing or replacing valves.

1. Surgical Valve Repair

Surgical procedures are generally used for problems with the mitral or tricuspid valves.

2. Commissurotomy

It is a treatment for a tight valve. The valve flaps (leaflets) are cut to loosen the valve slightly, allowing blood to pass easily.

3. Annuloplasty

It is done for a leaky valve. There is a ring of fibrous tissue at the base of the heart valve called the annulus. To repair an enlarged annulus, sutures are sewn around the ring to make the opening smaller. Or, a ring-like device is attached around the outside of the valve opening to support the valve so it can close more tightly.

4. Valvulotomy

It is a procedure to enlarge narrowed heart valves. It can also be done with the help of a balloon.

5. Non-Surgical Valve Repair

Percutaneous or catheter-based procedures are done without any incisions in the chest or stopping the heart. Instead, a thin flexible tube called a catheter is inserted into a blood vessel in your groin or arm and then threaded through the blood vessels into your heart. Percutaneous or balloon valvuloplasty/valvotomy is used for stiffened or narrowed (stenosed) pulmonary, mitral, or aortic valves. A balloon tip on the end of the catheter is positioned in the narrowed valve and inflated to enlarge the opening. Percutaneous mitral valve repair methods – such as edge-to-edge repair – can fix a leaky mitral valve in a patient who is considered at high risk for surgery. A catheter holding a clip is inserted into the groin and up into the left side of the heart. The open clip is positioned beyond the leaky valve and then pulled back so it catches the flaps (leaflets) of the mitral valve. Once closed, the clip holds the leaflets together and stops the valve from leaking.

Details

Heart valve surgery repairs or replaces a valve that’s too narrow or doesn’t close right. Valves need to work efficiently to help blood flow the right direction through your heart. Heart valve surgery options include open, minimally invasive or through vein access to your heart. It takes one or two months to recover, depending on the surgery.

Overview:

What is heart valve surgery?

Heart valve surgery is an operation that fixes or replaces one or more of the four valves in your heart. Your valves, located between your heart’s four chambers, keep your blood moving the right way. Valves act like doors that open and close with each heartbeat, letting blood flow in and out of the chambers. When valves are working right, your blood should flow through your heart in one direction each time your heart beats.

Your four heart valves are:

* Tricuspid, between your right upper and lower chambers.
* Pulmonary, between your right ventricle (lower chamber) and your pulmonary artery.
* Mitral, between your left upper and lower chambers.
* Aortic, between your left ventricle (lower chamber) and your aorta.

Some of the blood may go back to the chamber or room it just left. Other times, a valve may become narrow, which may prevent blood from moving forward. This is a problem because it keeps your heart from working efficiently. Although heart valve surgery may make you feel fearful, it helps your heart work better. And if your heart’s working better, you’ll feel better, too.

Types of heart valve surgery

The type of heart valve surgery you have will depend on several factors. Your provider will consider:

* Your heart’s structure.
* Your age.
* Other medical conditions you may have.
* Your lifestyle.

Tests will tell your healthcare provider the location, type and extent of your valve disease. Your heart valve issue may have started at birth, or you may have developed a leak, stiffness or narrowing in your valve. The test results help determine the best type of procedure for you.

Your cardiac surgeon can combine valve surgery with other heart surgeries. Examples include surgeries that involve more than one valve procedure and combining heart valve surgery with:

* Bypass surgery.
* Aortic aneurysm surgery.
* Surgery to treat atrial fibrillation.

Heart valve repair surgery

A repair surgery fixes the damaged or faulty valve while preserving much of your own tissue. Surgeons repair mitral valves more than the other valves, but repair surgery can also treat problems with the aortic and tricuspid valves.

Heart valve replacement surgery

Heart valve replacement surgery removes the faulty valve and replaces it with a biological (pig, cow or human tissue) or mechanical (metal or carbon) valve. All valve replacements are biocompatible. That means your immune system won’t reject your new valve. Replacement options include the Ross procedure and minimally invasive procedures like TAVR.

Can a heart valve repair itself?

No, a heart valve can’t repair itself. Valve disease doesn’t go away. It gets worse with time. As the disease gets worse, you’ll have more symptoms and your overall health will suffer. These changes often happen slowly, but they can also occur very quickly.

Depending on the type and extent of valve disease you have, medication may help with symptoms for the short term. Surgery is the only effective long-term solution. Your healthcare provider will help determine when it’s time for surgery.

When is heart valve surgery necessary?

You’ll most likely need heart valve surgery if medicine doesn’t help anymore for symptoms like:

* Chest pain.
* Difficulty breathing.
* Fainting.

Treatment Details:

How should I prepare for heart valve surgery?

You may have tests the day before your surgery. These may include:

* Chest X-ray.
* Echocardiogram.
* Electrocardiogram (EKG).
* CT (computed tomography) scan.
* Cardiac catheterization.
* Blood tests.

Check with your healthcare provider about which medications you can take before surgery. Don’t eat or drink anything after midnight the day of your surgery.

On the day of your procedure, wear loose, comfortable clothes and shoes that are easy to put on. If you wear a bra, you may want to bring one that’s easy to put on without raising your arms. The person who brings you to the hospital can hold on to these items for you during surgery.

Before your surgery, a healthcare provider will shave and clean the area where your surgeon will be working.

What happens during valve surgery on your heart?

During heart valve surgery, a provider will:

* Give you medicine through an IV in your arm or hand so you can sleep deeply and painlessly.
* Use the smallest incision they can for your surgery.
* Set up a machine to take over for your heart and lungs during surgery.
* Repair or replace your heart valve.
* Restart your heart.
* Close your chest.

Heart valve surgery options include:

* Traditional or open-heart surgery: An incision (6 to 8 inches) through your breastbone.
* Minimally invasive heart valve surgery: A smaller incision (3 to 4 inches or smaller). Techniques include endoscopic or keyhole approaches (also called port access, thoracoscopic or video-assisted surgery) and robotic-assisted surgery.
* Transcatheter: Your provider will put a catheter into a larger artery, like your femoral artery in your groin, and do the work without cutting your chest.

How long does this procedure take?

Open-heart surgery for a heart valve replacement can take two to five hours. Repairs or minimally invasive procedures may take less time.

What happens after heart valve surgery?

After surgery, your healthcare team may move you to an intensive care unit (ICU) where they can monitor you closely. After that, you’ll be in a regular room. You may be in the hospital for five to seven days.

Machines connected to you will monitor your blood pressure and heart rate. You may have tubes coming out of your chest to drain fluids.

Your provider will encourage you to eat, drink and walk as soon as you can after surgery. You can start with short walks around your room or down the hall and increase your distance little by little.

Your provider may sign you up for cardiac rehab, a carefully monitored exercise program.

Risks / Benefits:

What are the benefits of heart valve surgery?

Heart valve surgery can ease your symptoms, improve your life expectancy and help prevent death.

The potential advantages of heart valve repair vs. heart valve replacement surgery are:

* Lower risk of infection.
* Less need for lifelong anticoagulant (blood thinning) medication.
* Valve surgeries, including heart valve repair and replacement, are the most common minimally invasive procedure.

The benefits of minimally invasive surgery include:

* Lower chance of infection.
* Less bleeding and trauma.
* Shorter hospital stay.
* Shorter recovery.
* Improved cosmesis (appearance) and smaller wounds.

What are the risks or complications of heart valve surgery?

Any surgery involves risks. Heart valve surgery risks may include:

* Heart attack.
* Heart failure.
* Abnormal heart rhythm — you may need a pacemaker.
* Stroke.
* Blood clots.
* Infection.
* Bleeding.

Risks are related to your age, other medical conditions you may have and how many procedures you have in a single operation. Your cardiologist and surgeon will talk to you about these risks before your surgery.

If you’ve had a valve fixed or replaced, you may be at a higher risk of getting infective endocarditis. But this can also happen with an unrepaired faulty valve. In certain cases, your healthcare provider may prescribe antibiotics to keep you from getting endocarditis from some types of dental work. You can reduce the risk of endocarditis yourself by taking good care of your teeth.

Recovery and Outlook:

How long is recovery after heart valve surgery?

Heart valve surgery recovery takes about four to eight weeks. But your recovery time may be shorter if you had minimally invasive surgery or surgery through a vein.

The way you feel after surgery depends on:

* Which valve was repaired or replaced.
* Your overall health before the surgery.
* Which method your provider used to get to your heart (large incision, small incision or through a vein).
* How the surgery went.
* How well you take care of yourself after surgery.

Caring for yourself after surgery

Recovery after heart valve surgery takes time. Be kind to yourself. Here are some tips:

* Go to your follow-up appointments during recovery so your provider can monitor your progress.
* Don’t take on more than you can handle. You can expect to tire easily for the first three weeks after surgery.
* Don’t drive for a few weeks after surgery.
* Don’t handle anything that weighs more than 15 pounds for the first six to eight weeks after surgery.
* Talk to your provider about when you can go back to work. It’s usually six to 12 weeks after surgery.

What is the survival rate following heart valve surgery?

A study found that people who were more physically active in the year after surgery had a lower risk of death than those who didn’t exercise much. The death rate ranges from 0.1% to 10% depending on the operation and a person's overall health.

When To Call the Doctor:

When should I call my healthcare provider?

Contact your provider if:

* You have chest pain or pain near your incision.
* You feel depressed. This can happen after surgery and can make your recovery take longer.
* You have a fever, which can be a sign of infection.
* You gain more than 5 pounds, which may mean you’re retaining fluid.

Additional Information:

Overview

Heart valve surgery is a procedure to treat heart valve disease. Heart valve disease happens when at least one of the four heart valves is not working properly. Heart valves keep blood flowing in the correct direction through the heart.

The four heart valves are the mitral valve, the tricuspid valve, the pulmonary valve and the aortic valve. Each valve has flaps — called leaflets for the mitral and tricuspid valves and cusps for the aortic and pulmonary valves. These flaps should open and close once during each heartbeat. Valves that don't open and close properly change blood flow through the heart to the body.

In heart valve surgery, a surgeon repairs or replaces the damaged or diseased heart valve or valves. Methods to do this may include open-heart surgery or minimally invasive heart surgery.

The type of heart valve surgery needed depends on age, overall health, and the type and severity of heart valve disease.

Types

* Annuloplasty
* Valvuloplasty

Why it's done

Heart valve surgery is done to treat heart valve disease. There are two basic types of heart valve disease:

* A narrowing of a valve, called stenosis.
* A leak in a valve that allows blood to flow backward, called regurgitation.

You might need heart valve surgery if you have heart valve disease that affects your heart's ability to pump blood.

If you don't have symptoms or if your condition is mild, your healthcare team might suggest regular health checkups. Lifestyle changes and medicines might help manage symptoms.

Sometimes, heart valve surgery may be done even if you don't have symptoms. For example, if you need heart surgery for another condition, surgeons might repair or replace a heart valve at the same time.

Ask your healthcare team whether heart valve surgery is right for you. Ask if minimally invasive heart surgery is an option. It does less damage to the body than does open-heart surgery. If you need heart valve surgery, choose a medical center that has done many heart valve surgeries that include both repair and replacement of the valve.

Risks

Heart valve surgery risks include:

* Bleeding.
* Infection.
* Irregular heart rhythm, called arrhythmia.
* Problem with a replacement valve.
* Heart attack.
* Stroke.
* Death.

How you prepare

Your surgeon and treatment team discuss your heart valve surgery with you and answer any questions. Before you go to the hospital for heart valve surgery, talk with your family or loved ones about your hospital stay. Also discuss what help you'll need when you come home.

Food and medicines

Before you have heart valve surgery, talk to your care team about:

* Any medicines you regularly take and whether you can take them before your surgery.
* Allergies or reactions you've had to medicines.
* When you should stop eating or drinking the night before or the morning of the surgery.

Clothing and personal items

If you're having heart valve surgery, your treatment team might suggest that you bring certain items to the hospital, including:

* A list of your medicines.
* Eyeglasses, hearing aids or dentures.
* Personal care items, such as a brush, a comb, a shaving kit and a toothbrush.
* Loose, comfortable clothing.
* A copy of your advance directive. This is a legal document. It includes instructions about the kinds of treatments you want — or don't want — in case you become unable to express your wishes.
* Items that help you relax, such as portable music players or books.

During heart valve surgery, do not wear:

* Contact lenses.
* Dentures.
* Eyeglasses.
* Jewelry.
* Nail polish.