Matthew 25:40

"And the King will answer and say to them, ‘Assuredly, I say to you, inasmuch as you did it to one of the least of these My brethren, you did it to Me.’ "



Thursday, January 8, 2009

Supraventricular Tachycardia (SVT)


Supraventricular Tachycardia (SVT)

Supraventricular (originating above the ventricles) tachycardia (SVT) is a series of fast atrial heartbeats that can cause the heart to contract at rates of 250 times per minute or faster. SVT can be uncomfortable and frightening. The type of treatment depends on whether the electrical impulses reenter the atria via a bypass tract (Wolff-Parkinson-White syndrome), through the atrioventricular (AV) node, or are caused by a single abnormal group of cells.



Wolff-Parkinson-White (WPW) Syndrome

Wolff-Parkinson-White Syndrome is a common cause of SVT. In WPW there is an abnormal electrical connection between the atria and ventricles. This extra tissue is a short circuit between these chambers. It provides an extra pathway for electrical impulses to be conducted through the tissue that normally blocks electrical impulses between the atria and ventricles. This short circuit is called an accessory pathway, and it allows electrical impulses to travel between the atria and the ventricles without going through the AV node. In WPW, an SVT is usually started when an impulse travels down the AV node to the ventricles and then up through the short circuit tissue to the atria. This impulse can then travel through the atria and down the AV node before the SA node can start the next heartbeat. If the impulse continues to travel in this repeating, circular pattern, it can cause the heart to beat very rapidly.


AV Nodal Reentrant Tachycardia
AV Nodal Reentrant Tachycardia (AVNRT) is another common form of SVT. In AVNRT, there is an extra electrical pathway in or near the AV node. If an electrical impulse is conducted in this pathway, it may direct the impulse through both the AV node and the extra pathway in a repeating, circular pattern. The AV node and the extra pathway are located essentially in the center of the heart. This causes the upper and lower chambers to beat rapidly at the same time instead of in the normal sequence (upper chambers beating first, followed by the lower chambers).

Rapid AV Nodal Conduction
In some SVTs the atria may spontaneously generate multiple rapid impulses. Many of these impulses can travel through the AV node to the ventricles in an erratic manner. As a result, the heart rhythm can become irregular and rapid. If this happens, the heart will not pump blood efficiently.


Atrial Flutter
Atrial flutter is one of the more common SVTs, where the upper chambers of the heart (atria) beat anywhere from 240 to 320 times per minute. This arrhythmia is similar to atrial fibrillation, as it originates entirely within the upper chambers, but it produces a more organized, regular rhythm. It is usually not harmful, but can result in symptoms such as palpitations, shortness of breath, chest tightness, fatigue, and lightheadedness. If left untreated, atrial flutter may eventually lead to conditions associated with other arrhythmias that result in abnormally high heart rates.


Even though the upper chambers are beating rapidly, the AV node allows only one-half to one-third of the electrical impulses to reach the hearts lower chambers (the ventricles). This prevents the arrhythmia from becoming life-threatening, and keeps the wrist pulse rate at only 100 to 150 beats per minute. This arrhythmia can last for hours or days; therefore, most people with atrial flutter require treatment.


Normal Rhythm
Every normal heart has a normal rhythm. That rhythm varies from person to person. In most healthy people, the heart at rest beats about 60 to 100 times per minute. A small bunch of heart cells called the sinoatrial node keeps time.


© 2008 St. Jude Medical, Inc.

Appendicitis


The appendix is a closed-ended, narrow tube up to several inches in length that attaches to the cecum (the first part of the colon) like a worm. (The anatomical name for the appendix, vermiform appendix, means worm-like appendage.) The inner lining of the appendix produces a small amount of mucus that flows through the open center of the appendix and into the cecum. The wall of the appendix contains lymphatic tissue that is part of the immune system for making antibodies. Like the rest of the colon, the wall of the appendix also contains a layer of muscle, but the muscle is poorly developed.
Appendicitis means inflammation of the appendix. It is thought that appendicitis begins when the opening from the appendix into the cecum becomes blocked. The blockage may be due to a build-up of thick mucus within the appendix or to stool that enters the appendix from the cecum. The mucus or stool hardens, becomes rock-like, and blocks the opening. This rock is called a fecalith (literally, a rock of stool). At other times, the lymphatic tissue in the appendix may swell and block the appendix. After the blockage occurs, bacteria which normally are found within the appendix begin to invade (infect) the wall of the appendix. The body responds to the invasion by mounting an attack on the bacteria, an attack called inflammation. An alternative theory for the cause of appendicitis is an initial rupture of the appendix followed by spread of bacteria outside the appendix.. The cause of such a rupture is unclear, but it may relate to changes that occur in the lymphatic tissue, for example, inflammation, that line the wall of the appendix.)

If the inflammation and infection spread through the wall of the appendix, the appendix can rupture. After rupture, infection can spread throughout the abdomen; however, it usually is confined to a small area surrounding the appendix (forming a peri-appendiceal abscess).
Sometimes, the body is successful in containing ("healing") the appendicitis without surgical treatment if the infection and accompanying inflammation do not spread throughout the abdomen. The inflammation, pain and symptoms may disappear. This is particularly true in elderly patients and when antibiotics are used. The patients then may come to the doctor long after the episode of appendicitis with a lump or a mass in the right lower abdomen that is due to the scarring that occurs during healing. This lump might raise the suspicion of
cancer.

What are the complications of appendicitis?
The most frequent complication of appendicitis is perforation. Perforation of the appendix can lead to a periappendiceal abscess (a collection of infected pus) or diffuse peritonitis (infection of the entire lining of the abdomen and the pelvis). The major reason for appendiceal perforation is delay in diagnosis and treatment. In general, the longer the delay between diagnosis and surgery, the more likely is perforation. The risk of perforation 36 hours after the onset of symptoms is at least 15%. Therefore, once appendicitis is diagnosed, surgery should be done without unnecessary delay.

A less common complication of appendicitis is blockage of the intestine. Blockage occurs when the inflammation surrounding the appendix causes the intestinal muscle to stop working, and this prevents the intestinal contents from passing. If the intestine above the blockage begins to fill with liquid and gas, the abdomen distends and nausea and vomiting may occur. It then may be necessary to drain the contents of the intestine through a tube passed through the nose and esophagus and into the stomach and intestine.

A feared complication of appendicitis is sepsis, a condition in which infecting bacteria enter the blood and travel to other parts of the body. This is a very serious, even life-threatening complication. Fortunately, it occurs infrequently.
The main symptom of appendicitis is abdominal pain. The pain is at first diffuse and poorly localized, that is, not confined to one spot. (Poorly localized pain is typical whenever a problem is confined to the small intestine or colon, including the appendix.) The pain is so difficult to pinpoint that when asked to point to the area of the pain, most people indicate the location of the pain with a circular motion of their hand around the central part of their abdomen. A second, common, early symptom of appendicitis is loss of appetite which may progress to nausea and even vomiting. Nausea and vomiting also may occur later due to intestinal obstruction.
As appendiceal inflammation increases, it extends through the appendix to its outer covering and then to the lining of the abdomen, a thin
membrane called the peritoneum. Once the peritoneum becomes inflamed, the pain changes and then can be localized clearly to one small area. Generally, this area is between the front of the right hip bone and the belly button. The exact point is named after Dr. Charles McBurney--McBurney's point. If the appendix ruptures and infection spreads throughout the abdomen, the pain becomes diffuse again as the entire lining of the abdomen becomes inflamed.
The diagnosis of appendicitis begins with a thorough history and physical examination. Patients often have an elevated temperature, and there usually will be moderate to severe tenderness in the right lower abdomen when the doctor pushes there. If inflammation has spread to the peritoneum, there is frequently rebound tenderness. Rebound tenderness is pain that is worse when the doctor quickly releases his hand after gently pressing on the abdomen over the area of tenderness.

White Blood Cell Count
The white blood cell count in the blood usually becomes elevated with infection. In early appendicitis, before infection sets in, it can be normal, but most often there is at least a mild elevation even early. Unfortunately, appendicitis is not the only condition that causes elevated white blood cell counts. Almost any infection or inflammation can cause this count to be abnormally high. Therefore, an elevated white blood cell count alone cannot be used as a sign of appendicitis.

Urinalysis
Urinalysis is a microscopic examination of the urine that detects red blood cells, white blood cells and bacteria in the urine. Urinalysis usually is abnormal when there is inflammation or stones in the kidneys or bladder. The urinalysis also may be abnormal with appendicitis because the appendix lies near the ureter and bladder. If the inflammation of appendicitis is great enough, it can spread to the ureter and bladder leading to an abnormal urinalysis. Most patients with appendicitis, however, have a normal urinalysis. Therefore, a normal urinalysis suggests appendicitis more than a urinary tract problem.
Abdominal X-Ray An abdominal x-ray may detect the fecalith (the hardened and calcified, pea-sized piece of stool that blocks the appendiceal opening) that may be the cause of appendicitis. This is especially true in children.

Ultrasound
An ultrasound is a painless procedure that uses sound waves to identify organs within the body. Ultrasound can identify an enlarged appendix or an abscess. Nevertheless, during appendicitis, the appendix can be seen in only 50% of patients. Therefore, not seeing the appendix during an ultrasound does not exclude appendicitis. Ultrasound also is helpful in women because it can exclude the presence of conditions involving the ovaries, fallopian tubes and uterus that can mimic appendicitis.

Barium Enema
A barium enema is an x-ray test where liquid barium is inserted into the colon from the anus to fill the colon. This test can, at times, show an impression on the colon in the area of the appendix where the inflammation from the adjacent inflammation impinges on the colon. Barium enema also can exclude other intestinal problems that mimic appendicitis, for example Crohn's disease.
Computerized tomography (CT) Scan In patients who are not
pregnant, a CT Scan of the area of the appendix is useful in diagnosing appendicitis and peri-appendiceal abscesses as well as in excluding other diseases inside the abdomen and pelvis that can mimic appendicitis.
Laparoscopy
Laparoscopy is a surgical procedure in which a small fiberoptic tube with a camera is inserted into the abdomen through a small puncture made on the abdominal wall. Laparoscopy allows a direct view of the appendix as well as other abdominal and pelvic organs. If appendicitis is found, the inflamed appendix can be removed with the laparascope. The disadvantage of laparoscopy compared to ultrasound and CT is that it requires a general anesthetic.

There is no one test that will diagnose appendicitis with certainty. Therefore, the approach to suspected appendicitis may include a period of observation, tests as previously discussed, or surgery.
It can be difficult to diagnose appendicitis. The position of the appendix in the abdomen may vary. Most of the time the appendix is in the right lower abdomen, but the appendix, like other parts of the intestine, has a mesentery. This mesentery is a sheet-like membrane that attaches the appendix to other structures within the abdomen. If the mesentery is large, it allows the appendix to move around. In addition, the appendix may be longer than normal. The combination of a large mesentery and a long appendix allows the appendix to dip down into the pelvis (among the pelvic organs in women). It also may allow the appendix to move behind the colon (called a retro-colic appendix). In either case, inflammation of the appendix may act more like the inflammation of other organs, for example, a woman's pelvic organs.

The diagnosis of appendicitis also can be difficult because other inflammatory problems may mimic appendicitis. Therefore, it is common to observe patients with suspected appendicitis for a period of time to see if the problem will resolve on its own or develop characteristics that more strongly suggest appendicitis or, perhaps, another condition.
The surgeon faced with a patient suspected of having appendicitis always must consider and look for other conditions that can mimic appendicitis. Among the conditions that mimic appendicitis are: Meckel's diverticulitis. A Meckel's diverticulum is a small outpouching of the small intestine which usually is located in the right lower abdomen near the appendix. The diverticulum may become inflamed or even perforate (break open or rupture). If inflamed and/or perforated, it usually is removed surgically.

Pelvic inflammatory disease. The right fallopian tube and ovary lie near the appendix. Sexually active women may contract infectious diseases that involve the tube and ovary. Usually, antibiotic therapy is sufficient treatment, and surgical removal of the tube and ovary are not necessary. Inflammatory diseases of the right upper abdomen. Fluids from the right upper abdomen may drain into the lower abdomen where they stimulate inflammation and mimic appendicitis. Such fluids may come from a perforated duodenal ulcer, gallbladder disease, or inflammatory diseases of the liver, e.g., a liver abscess.

Right-sided diverticulitis. Although most diverticuli are located on the left side of the colon, they occasionally occur on the right side. When a right-sided diverticulum ruptures it can provoke inflammation they mimics appendicitis.

Kidney diseases. The right kidney is close enough to the appendix that inflammatory problems in the kidney-for example, an abscess-can mimic appendicitis.
How is appendicitis treated? Once a diagnosis of appendicitis is made, an appendectomy usually is performed. Antibiotics almost always are begun prior to surgery and as soon as appendicitis is suspected.

There is a small group of patients in whom the inflammation and infection of appendicitis remain mild and localized to a small area. The body is able not only to contain the inflammation and infection but to resolve it as well. These patients usually are not very ill and improve during several days of observation. This type of appendicitis is referred to as "confined appendicitis" and may be treated with antibiotics alone. The appendix may or may not be removed at a later time.

On occasion, a person may not see their doctor until appendicitis with rupture has been present for many days or even weeks. In this situation, an abscess usually has formed, and the appendiceal perforation may have closed over. If the abscess is small, it initially can be treated with antibiotics; however, the abscess usually requires drainage. A drain (a small plastic or rubber tube) usually is inserted through the skin and into the abscess with the aid of an ultrasound or CT scan that can determine the exact location of the abscess. The drain allows pus to flow from the abscess out of the body. The appendix may be removed several weeks or months after the abscess has resolved. This is called an interval appendectomy and is done to prevent a second attack of appendicitis.
During an appendectomy, an incision two to three inches in length is made through the skin and the layers of the abdominal wall over the area of the appendix. The surgeon enters the abdomen and looks for the appendix which usually is in the right lower abdomen. After examining the area around the appendix to be certain that no additional problem is present, the appendix is removed. This is done by freeing the appendix from its mesenteric attachment to the abdomen and colon, cutting the appendix from the colon, and sewing over the hole in the colon. If an abscess is present, the pus can be drained with drains that pass from the abscess and out through the skin. The abdominal incision then is closed.

Newer techniques for removing the appendix involve the use of the laparoscope. The laparoscope is a thin telescope attached to a video camera that allows the surgeon to inspect the inside of the abdomen through a small puncture wound (instead of a larger incision). If appendicitis is found, the appendix can be removed with special instruments that can be passed into the abdomen, just like the laparoscope, through small puncture wounds. The benefits of the laparoscopic technique include less post-operative pain (since much of the post-surgery pain comes from incisions) and a speedier return to normal activities. An additional advantage of laparoscopy is that it allows the surgeon to look inside the abdomen to make a clear diagnosis in cases in which the diagnosis of appendicitis is in doubt. For example, laparoscopy is especially helpful in menstruating women in whom a rupture of an ovarian cysts may mimic appendicitis.
If the appendix is not ruptured (perforated) at the time of surgery, the patient generally is sent home from the hospital after surgery in one or two days. Patients whose appendix has perforated are sicker than patients without perforation, and their hospital stay often is prolonged (four to seven days), particularly if peritonitis has occurred.
Intravenous antibiotics are given in the hospital to fight infection and assist in resolving any abscess.

Occasionally, the surgeon may find a normal-appearing appendix and no other cause for the patient's problem. In this situation, the surgeon may remove the appendix. The reasoning in these cases is that it is better to remove a normal-appearing appendix than to miss and not treat appropriately an early or mild case of appendicitis.
The most common complication of appendectomy is infection of the wound, that is, of the surgical incision. Such infections vary in severity from mild, with only redness and perhaps some tenderness over the incision, to moderate, requiring only antibiotics, to severe, requiring antibiotics and surgical treatment. Occasionally, the inflammation and infection of appendicitis are so severe that the surgeon will not close the incision at the end of the surgery because of concern that the wound is already infected. Instead, the surgical closing is postponed for several days to allow the infection to subside with antibiotic therapy and make it less likely for infection to occur within the incision. Wound infections are less common with laparoscopic surgery.
Another complication of appendectomy is an abscess, a collection of pus in the area of the appendix. Although abscesses can be drained of their pus surgically, there are also non-surgical techniques, as previously discussed.
It is not clear if the appendix has an important role in the body in older children and adults. There are no major, long-term health problems resulting from removing the appendix although a slight increase in some diseases has been noted, for example, Crohn's disease.

Recently it has been hypothesized that some episodes of appendicitis-like symptoms, especially recurrent symptoms, may be due to an increased sensitivity of the intestine and appendix from a prior episode of inflammation. That is, the recurrent symptoms are not due to recurrent episodes of inflammation. Rather, prior inflammation has made the nerves of the intestines and appendix or the central nervous system that innervate them more sensitive to normal stimuli, that is, with stimuli other than inflammation. This will be a difficult, if not impossible, hypothesis to confirm.

Appendectomy At A Glance
The appendix is a small, worm-like appendage attached to the colon.
Appendicitis occurs when bacteria invade and infect the wall of the appendix.
The most common complications of appendicitis are abscess and peritonitis.
The most common manifestations of appendicitis are pain,
fever, and abdominal tenderness.
Appendicitis usually is suspected on the basis of a patient's history and physical examination; however, a white blood cell count, urinalysis, abdominal x-ray, barium enema, ultrasonography, CT, and laparoscopy also may be helpful in diagnosis.
Due to the varying size and location of the appendix and the proximity of other organs to the appendix, it may be difficult to differentiate appendicitis from other abdominal and pelvic diseases.
The treatment for appendicitis usually is antibiotics and appendectomy (surgery to remove the appendix).
Complications of appendectomy include wound infection and abscess.