Appendicitis

This article may be too technical for most readers to understand. Please improve this article to make it understandable to non-experts, without removing the technical details. (September 2010) Appendicitis Classification and external resources An acutely inflamed and enlarged appendix, sliced lengthwise. ICD-10 K35. - K37. ICD-9 540-543 DiseasesDB 885 MedlinePlus 000256 eMedicine med/3430 emerg/41 ped/127 ped/2925 MeSH C06.405.205.099 Appendicitis is a condition characterized by inflammation of the appendix. It is classified as a medical emergency and many cases require removal of the inflamed appendix, either by laparotomy or laparoscopy. Untreated, mortality is high, mainly because of peritonitis and shock.1 Reginald Fitz first described acute and chronic appendicitis in 1886,2 and it has been recognized as one of the most common causes of severe acute abdominal pain worldwide. A correctly diagnosed non-acute form of appendicitis is known as "rumbling appendicitis". The term "pseudoappendicitis" is used to describe a condition mimicking appendicitis.3 It can be associated with Yersinia enterocolitica.4 Contents 1 Signs and symptoms 1.1 Rovsing's sign 1.2 Psoas sign 1.3 Obturator sign 1.4 Dunphy's sign 1.5 Volkovich-Kocher (Kosher)'s sign 1.6 Sitkovskiy (Rosenstein)'s sign 1.7 Bartomier-Michelson's sign 1.8 Aure-Rozanova's sign 1.9 Blumberg sign 2 Causes 3 Diagnosis 3.1 Ultrasound 3.2 Computed tomography 3.3 Ultrasound and CT compared 3.4 Alvarado score 3.5 Other data 3.6 Differential diagnosis 4 Management 4.1 Before surgery 4.2 Pain management 4.3 Surgery 4.4 Laparotomy explained 4.5 Laparoscopic surgery 4.6 After surgery 5 Prognosis 6 Epidemiology 7 Notable deaths 8 References 9 External links Signs and symptoms Location of the appendix in the digestive system For the most part, symptoms are related to disturbed bowel functions. Pain first, vomiting next and fever last has been described as classic presentation of acute appendicitis. Pain starts mid abdomen, and except in children below 3 years, tends to localize in right iliac fossa in a few hours. This pain can be elicited through various signs. Signs include localized findings in the right iliac fossa. The abdominal wall becomes very sensitive to gentle pressure (palpation). Also, there is severe pain on suddenly releasing a deep pressure in lower abdomen rebound tenderness. In case of a retrocecal appendix, however, even deep pressure in the right lower quadrant may fail to elicit tenderness (silent appendix), the reason being that the cecum, distended with gas, prevents the pressure exerted by the palpating hand from reaching the inflamed appendix. Similarly, if the appendix lies entirely within the pelvis, there is usually complete absence of the abdominal rigidity. In such cases, a digital rectal examination elicits tenderness in the rectovesical pouch. Coughing causes point tenderness in this area (McBurney's point) and this is the least painful way to localize the inflamed appendix. If the abdomen on palpation is also involuntarily guarded (rigid), there should be a strong suspicion of peritonitis requiring urgent surgical intervention. Rovsing's sign Continuous deep palpation starting from the left iliac fossa upwards (anti clockwise along the colon) may cause pain in the right iliac fossa, by pushing bowel contents towards the ileocaecal valve and thus increasing pressure around the appendix. This is the Rovsing's sign.5 Laughing too hard can result in great pain when dealing with appendicitis. Psoas sign Main article: Psoas sign Psoas sign or "Obraztsova's sign" is right lower-quadrant pain that is produced with the patient extending the hip due to inflammation of the peritoneum overlying the iliopsoas muscles and inflammation of the psoas muscles themselves. Straightening out the leg causes the pain because it stretches the muscles, and flexing the hip into the "fetal position" relieves the pain. Obturator sign If an inflamed appendix is in contact with the obturator internus, spasm of the muscle can be demonstrated by flexing and internal rotation of the hip. This maneuver will cause pain in the hypogastrium. Dunphy's sign Increased pain in the right lower quadrant with coughing.6 Volkovich-Kocher (Kosher)'s sign During anamnesis, the appearance of pain in the epigastric region or around the stomach at the beginning of disease with a subsequent shift to the right iliac region. Sitkovskiy (Rosenstein)'s sign Increased pain in the right iliac region as patient lies on his/her left side. Bartomier-Michelson's sign Increased pain on palpation at the right iliac region as patient lies on his/her left side compared to when patient was on supine position. Aure-Rozanova's sign Increase pain on palpation with finger in right Petit triangle (can be a positive Shchetkin-Bloomberg's sign) - typical in retroceacal position of the appendix.7 Blumberg sign Also referred as rebound tenderness. Deep palpation of the viscera over the suspected inflamed appendix followed by sudden release of the pressure causes the severe pain on the site indicating positive Blumberg's sign and peritonitis.8 Causes On the basis of experimental evidence, acute appendicitis seems to be the end result of a primary obstruction of the appendix lumen (the inside space of a tubular structure).910 Once this obstruction occurs the appendix subsequently becomes filled with mucus and swells, increasing pressures within the lumen and the walls of the appendix, resulting in thrombosis and occlusion of the small vessels, and stasis of lymphatic flow. Rarely, spontaneous recovery can occur at this point. As the former progresses, the appendix becomes ischemic and then necrotic. As bacteria begin to leak out through the dying walls, pus forms within and around the appendix (suppuration). The end result of this cascade is appendiceal rupture (a 'burst appendix') causing peritonitis, which may lead to septicemia and eventually death. Among the causative agents, such as foreign bodies, trauma, intestinal worms, lymphadenitis, and calcified deposits known as appendicoliths,11 the occurrence of an obstructing fecalith has attracted attention. The prevalence of fecaliths in patients with appendicitis is significantly higher in developed than in developing countries12, and an appendiceal fecalith is commonly associated with complicated appendicitis13. Also, fecal stasis and arrest may play a role, as demonstrated by a significantly lower number of bowel movements per week in patients with acute appendicitis compared with healthy controls14. The occurrence of a fecalith in the appendix seems to be attributed to a right sided fecal retention reservoir in the colon and a prolonged transit time15. From epidemiological data it has been stated that diverticular disease and adenomatous polyps were unknown and colon cancer exceedingly rare in communities exempt for appendicitis1617. Also, acute appendicitis has been shown to occur antecedent to cancer in the colon and rectum18. Several studies offer evidence that a low fiber intake is involved in the pathogenesis of appendicitis19 2021. This is in accordance with the occurrence of a right sided fecal reservoir and the fact that dietary fiber reduces transit time22. Diagnosis Diagnosis is based on patient history (symptoms) and physical examination backed by an elevation of neutrophilic white blood cells. Histories fall into two categories, typical and atypical. Typical appendicitis usually includes abdominal pain beginning in the region of the umbilicus for several hours, associated with anorexia, nausea or vomiting. The pain then "settles" into the right lower quadrant, where tenderness develops. Atypical histories lack this typical progression and may include pain in the right lower quadrant as an initial symptom. Atypical histories often require imaging with ultrasound and/or CT scanning.23 A pregnancy test is vital in all women of child bearing age, as ectopic pregnancies and appendicitis present with similar symptoms. The consequences of missing an ectopic pregnancy are serious, and potentially life threatening. Furthermore the general principles of approaching abdominal pain in women (in so much that it is different from the approach in men) should be appreciated. Blood Test Most patients suspected of having appendicitis would be asked to do a blood test. 50% of the time, the blood test may be normal, so it is not fool proof in diagnosing appendicitis. Two form of blood tests are commonly done: FBC (Full blood count) or CBC (Complete blood count), is an inexpensive and commonly requested blood test. It involves measuring the blood for its richness in red blood cells as well as the number of the various white blood cell constituents in it. The number of white cells in the blood is a usually less than 10,000 cells per cubic millimeter. An abnormal rise in the number of white blood cells in the blood is a crude indicator of infection or inflammation going on in the body. Such rise is not specific to appendicitis alone. If it is abnormally elevated, with a good history and examination findings pointing towards appendicitis, the likelihood of having the disease is higher. In pregnancy, there may be a normal elevation of white blood cells, without any infection present. CRP is an acronym for Cryo-Reactive Proteins. It is an acute phase response protein produced by the liver in response to any infection or inflammatory process in the body. Again, like the FBC, it is not a specific test. It is another crude marker of infection or inflammation. Inflammation at ANY site can lead to the CRP to rise. A significant rise in CRP with corresponding signs and symptoms of appendicitis is a useful indicator in the diagnosis of appendicitis.It is said that if CRP continues to be normal after 72 hours of the onset of pain, it is likely that the appendicitis will resolve on its own without intervention. A worsening CRP with good history is a sure signal fire of impending perforation or rupture and abscess formation Urine Test: Urine test in appendicitis is usually normal. It may however show blood if the appendix is rubbing on the bladder, causing irritation A urine test or urinalysis is compulsory in women, to rule out pregnancy in appendicitis, as well to help ensure that the abdominal pain felt and thought to be acute appendicitis is not in fact, due to ectopic pregnancy. X – Ray In 10% of patients with appendicitis, plain abdominal x-ray may demonstrate hard formed feces in the lumen of the appendix (Fecolith). It is agreed that the finding of Fecolith in the appendix on X – ray alone is a reason to operate to remove the appendix, because of the potential to cause worsening symptoms. In this respect, a plain abdominal X-ray may be useful in the diagnosis of appendicitis, though plain abdominal x- ray is no longer requested routinely in suspected cases of appendicitis. An abdominal X – ray may be done with a barium enema contrast to diagnose appendicitis. Barium enema is whitish toothpaste like material that is passed up into the rectum to act as a contrast. It will usually fill the whole of the large bowel. In normal appendix, the lumen will be present and the barium fills it up and is seen when the x-ray film is shot. In appendicitis, the lumen of the appendix will not be visible on the barium film. Ultrasound Ultrasound image of an acute appendicitis. Ultrasonography and Doppler sonography provide useful means to detect appendicitis, especially in children and shows free fluid collection in right iliac fossa along with a visible appendix without blood flow in color Doppler. In some cases (15% approximately), however, ultrasonography of the iliac fossa does not reveal any abnormalities despite the presence of appendicitis. This is especially true of early appendicitis before the appendix has become significantly distended and in adults where larger amounts of fat and bowel gas make actually seeing the appendix technically difficult. Despite these limitations, in experienced hands sonographic imaging can often distinguish between appendicitis and other diseases with very similar symptoms such as inflammation of lymph nodes near the appendix or pain originating from other pelvic organs such as the ovaries or fallopian tubes. Computed tomography A cat scan demonstrating acute appendicitis (note the appendix has a diameter of 17.1mm and there is surrounding fat stranding.) A fecalith marked by the arrow which has resulted in acute appendicitis. In places where it is readily available, CT scan has become frequently used, especially in adults whose diagnosis is not obvious on history and physical. Concerns about radiation, however, tend to limit use of CT in pregnant women and children. A properly performed CT scan with modern equipment has a detection rate (sensitivity) of over 95% and a similar specificity. Signs of appendicitis on CT scan include lack of oral contrast (oral dye) in the appendix, direct visualization of appendiceal enlargement (greater than 6 mm in cross sectional diameter), and appendiceal wall enhancement with IV contrast (IV dye). The inflammation caused by appendicitis in the surrounding peritoneal fat (so called "fat stranding") can also be observed on CT, providing a mechanism to detect early appendicitis and a clue that appendicitis may be present even when the appendix is not well seen. Thus, diagnosis of appendicitis by CT is made more difficult in very thin patients and in children, both of whom tend to lack significant fat within the abdomen. The utility of CT scanning is made clear, however, by the impact it has had on negative appendectomy rates. For example, use of CT for diagnosis of appendicitis in Boston, MA has decreased the chance of finding a normal appendix at surgery from 20% in the pre-CT era to only 3% according to data from the Massachusetts General Hospital. Ultrasound and CT compared According to a systematic review from UC-San Francisco comparing ultrasound vs. CT scan, CT scan is more accurate than ultrasound for the diagnosis of appendicitis in adults and adolescents. CT scan has a sensitivity of 94%, specificity of 95%, a positive likelihood ratio of 13.3 (CI, 9.9 to 17.9), and a negative likelihood ratio of 0.09 (CI, 0.07 to 0.12). Ultrasonography had an overall sensitivity of 86%, a specificity of 81%, a positive likelihood ratio of 5.8 (CI, 3.5 to 9.5), and a negative likelihood ratio of 0.19 (CI, 0.13 to 0.27).24 Alvarado score A number of clinical and laboratory based scoring systems have been devised to assist diagnosis. The most widely used is Alvarado score. Symptoms Migratory right iliac fossa pain 1 point Anorexia 1 point Nausea and vomiting 1 point Signs Right iliac fossa tenderness 2 points Rebound tenderness 1 point Fever 1 point Laboratory Leucocytosis 2 points Shift to left (segmented neutrophils) 1 point Total score 10 points A score below 5 is strongly against a diagnosis of appendicitis25, while a score of 7 or more is strongly predictive of acute appendicitis. In patients with an equivocal score of 5-6, CT scan is used in the USA to further reduce the rate of negative appendicectomy. Other data Tzanakis Scoring. Tzanakis and colleagues, in 2005 published a simplified system, now called the Tzanakis scoring system for appendicitis, to aid the diagnosis of appendicitis. It incorporates the presence 4 variables made up of specific signs and symptoms (presence of right lower abdominal tenderness = 4points and rebound tenderness = 3), laboratory findings (presence of white blood cells greater than 12,000 in the blood = 2) as well as ultrasound findings (presence of positive ultrasound scan findings of appendicitis = 6), to which scores are allocated, in the computing of a scoring to predict the presence of appendicitis. A total score of 15 is the maximum that can be scored. Where a patient scores 8 or more points, there is greater than 96 percent chance that appendicitis exists. Matrix metalloproteinase (MMP) levels can be used as biomarkers of increased risk of appendiceal rupture among patients with acute appendicitis according to a cohort study.26 MMP-1 was higher in gangrenous (p<0.05) and perforated appendicitis (p<0.01) compared with controls. MMP-9 was most abundantly expressed in inflamed appendix and reached a tenfold higher expression in all groups with appendicitis compared with controls (p<0.001). Differential diagnosis In children: Gastroenteritis, mesenteric adenitis, Meckel's diverticulitis, intussusception, Henoch-Schönlein purpura, lobar pneumonia, urinary tract infection (abdominal pain in the absence of other symptoms can occur in children with UTI), new-onset Crohn's disease or ulcerative colitis, pancreatitis, and abdominal trauma from child abuse; distal intestinal obstruction syndrome in children with cystic fibrosis; typhlitis in children with leukemia; in girls: menarche, dysmenorrhea, severe menstrual cramps, Mittelschmerz, pelvic inflammatory disease, ectopic pregnancy In adults: regional enteritis, renal colic, perforated peptic ulcer, pancreatitis, rectus sheath hematoma; in men: testicular torsion, new-onset Crohn's disease or ulcerative colitis; in women: pelvic inflammatory disease, ectopic pregnancy, endometriosis, torsion/rupture of ovarian cyst, Mittelschmerz (the passing of an egg in the ovaries approximately two weeks before an expected menstruation cycle) In elderly: diverticulitis, intestinal obstruction, colonic carcinoma, mesenteric ischemia, leaking aortic aneurysm. Management Largely surgical, any conservative management is done at the threshold of operation theater as the acutely inflamed appendix is liable to rupture during such treatment. Inflamed appendix removal by open surgery Before surgery The treatment begins by keeping the patient from eating or drinking in preparation for surgery. An intravenous drip is used to hydrate the patient. Antibiotics given intravenously such as cefuroxime and metronidazole may be administered early to help kill bacteria and thus reduce the spread of infection in the abdomen and postoperative complications in the abdomen or wound. Equivocal cases may become more difficult to assess with antibiotic treatment and benefit from serial examinations. If the stomach is empty (no food in the past six hours) general anaesthesia is usually used. Otherwise, spinal anaesthesia may be used. Once the decision to perform an appendectomy has been made, the preparation procedure takes more or less one to two hours. Meanwhile, the surgeon will explain the surgery procedure and will present the risks that must be considered when performing an appendectomy. With all surgeries there are certain risks that must be evaluated before performing the procedures. However, the risks are different depending on the state of the appendix. If the appendix has not ruptured, the complication rate is only about 3% but if the appendix has ruptured, the complication rate rises to almost 59%.27 The most usual complications that can occur are pneumonia, hernia of the incision, thrombophlebitis, bleeding or adhesions. Recent evidence indicates that a delay in obtaining surgery after admission results in no measurable difference in patient outcomes 28 The surgeon will also explain how long the recovery process should take. Abdomen hair is usually removed in order to avoid complications that may appear regarding the incision. In most of the cases patients experience nausea or vomiting which requires specific medication before surgery. Antibiotics along with pain medication may also be administrated prior to appendectomies. Pain management Pain from appendicitis can be severe. Strong pain medications (i.e., narcotic pain medications) are recommended for pain management prior to surgery. Morphine is generally the standard of care in adults and children in the treatment of pain from appendicitis prior to surgery. In the past (and in some medical textbooks that are still published today), it has been commonly accepted that pain medication not be given until the surgeon has the chance to evaluate the patient, so as to not "corrupt" the findings of the physical examination. This line of practice, combined with the fact that surgeons may sometimes take hours to come to evaluate the patient, especially if he or she is in the middle of surgery or has to drive in from home, often leads to a situation that is ethically questionable at best. More recently, due to better understanding of the importance of pain control in patients, it has been shown that the physical examination is actually not that dramatically disturbed when pain medication is given prior to medical evaluation. Individual hospitals and clinics have adapted to this new approach of pain management of appendicitis by developing a compromise of allowing the surgeon a maximum time to arrive for evaluation, such as 20 to 30 minutes, before active pain management is initiated. Many surgeons also advocate this new approach of providing pain management immediately rather than only after surgical evaluation. Surgery Laparoscopic appendectomy. The surgical procedure for the removal of the appendix is called an appendicectomy (also known as an appendectomy). Often now the operation can be performed via a laparoscopic approach, or via three small incisions with a camera to visualize the area of interest in the abdomen. If the findings reveal suppurative appendicitis with complications such as rupture, abscess, adhesions, etc., conversion to open laparotomy may be necessary. An open laparotomy incision if required most often centers on the area of maximum tenderness, McBurney's point, in the right lower quadrant. A transverse or a gridiron diagonal incision is used most commonly. In March 2008, an Indian woman had her appendix removed via her vagina, in a medical first by the NOTES (Natural Orifice Transluminal Endoscopic Surgery) method in Coimbatore, India.29 According to a meta-analysis from the Cochrane Collaboration comparing laparoscopic and open procedures, laparoscopic procedures seem to have various advantages over the open procedure. Wound infections were less likely after laparoscopic appendicectomy than after open appendicectomy (odds ratio (OR) 0.45; confidence interval (CI) 0.35 to 0.58), but the incidence of intraabdominal abscesses was increased (OR 2.48; CI 1.45 to 4.21). The duration of surgery was 12 minutes (CI 7 to 16) longer for laparoscopic procedures. Pain on day 1 after surgery was reduced after laparoscopic procedures by 9 mm (CI 5 to 13 mm) on a 100 millimeter visual analogue scale. Hospital stay was shortened by 1.1 day (CI 0.6 to 1.5). Return to normal activity, work, and sport occurred earlier after laparoscopic procedures than after open procedures. While the operation costs of laparoscopic procedures were significantly higher, the costs outside hospital were reduced. Young female, obese, and employed patients seem to benefit from the laparoscopic procedure more than other groups.30 There is debate whether emergency appendicectomy (within 6 hours of admission) reduces the risk of perforation or complication versus urgent appendicectomy (greater than 6 hours after admission). According to a retrospective case review study 31 no significant differences in perforation rate among the two groups were noted (P=.397). Various complications (abscess formation, re-admission) showed no significant differences (P=0.667, 0.999). According to this study, beginning antibiotic therapy and delaying appendicectomy from the middle of the night to the next day does not significantly increase the risk of perforation or other complications. This finding is important not simply for the convenience of the surgeons and staff involved but for the fact that there have been other studies that have shown that surgeries taking place during the night, when people may be more tired and there are fewer staff available, have higher rates of surgical complications. Findings at the time of surgery are less severe in typical appendicitis. With atypical histories, perforation is more common and findings suggest perforation occurs at the beginning of symptoms. These observations may fit a theory that acute (typical) appendicitis and suppurative (atypical) appendicitis are two distinct disease processes. (1) Surgery may last from 30 minutes in typical appendicitis in thin patients to several hours in complicated cases. Laparotomy explained Laparotomy is the traditional type of surgery used for treating appendicitis. This procedure consists in the removal of the infected appendix through a single larger incision in the lower right area of the abdomen.32 The incision in a laparotomy is usually 2-3 inches long. This type of surgery is used also for visualizing and examining structures inside the abdominal cavity and it is called exploratory laparotomy. During a traditional appendectomy procedure, the patient is placed under general anesthesia in order to keep his/her muscles completely relaxed and to keep the patient unconscious. The incision is two to three inches long and it is made in the right lower abdomen, several inches above the hip bone.33 Once the incision opens the abdomen cavity and the appendix is identified, the surgeon removes the infected tissue and cuts the appendix from the surrounding tissue. After the surgeon inspects carefully and closely the infected area and there are no signs that surrounding tissues are damaged or infected, he will start closing the incision. This means sewing the muscles and using surgical staples or stitches to close the skin up. In order to prevent infections the incision is covered with a sterile bandage. The entire procedure does not last longer than an hour if complications do not occur. Laparoscopic surgery The newer method to treat appendicitis is the laparoscopic surgery. This surgical procedure consists of making three to four incisions in the abdomen, each 0.25 inches to 0.5 inches long. This type of appendectomy is made by inserting a special surgical tool called laparoscope into one of the incisions. The laparoscope is connected to a monitor outside the patient's body and it is designed to help the surgeon to inspect the infected area in the abdomen. The other two incisions are made for the specific removal of the appendix by using surgical instruments. Laparoscopic surgery also requires general anesthesia and it can last up to two hours. The latest methods are NOTES appendectomy pioneered in Coimbatore ,India where there is no incision on the external skin34 and SILS( Single incision laparoscopic Surgery)where a single 2.5 cm incision is made to perform the surgery. After surgery The stitches the day after having his appendix removed by surgery. Hospital lengths of stay typically range from a few hours to a few days, but can be a few weeks if complications occur. The recovery process may vary depending on the severity of the condition, if the appendix had ruptured or not before surgery. Appendix surgery recovery is generally a lot faster if the appendix did not rupture.35 It is important that patients respect their doctor's advice and limit their physical activity so the tissues can heal faster. Recovery after an appendectomy may not require diet changes or a lifestyle change. After surgery occurs, the patient will be transferred to an intensive-care unit so his or her vital signs can be closely monitored in order to avoid complications. Pain medication may also be administrated if necessary. After patients are completely awake, they are moved into a hospital room to recover. Most individuals will be offered clear liquids the day after the surgery and then progress to a regular diet when the intestines start to function properly. It is highly recommended that patients sit up on the edge of the bed and walk short distances for several times a day. Moving is mandatory and pain medication may be given if necessary. Full recovery from appendectomies takes about 4 to 6 weeks but it can prolong to up to 8 weeks if the appendix had ruptured. Prognosis Most appendicitis patients recover easily with surgical treatment, but complications can occur if treatment is delayed or if peritonitis occurs. Recovery time depends on age, condition, complications, and other circumstances, including the amount of alcohol consumption, but usually is between 10 and 28 days. For young children (around 10 years old), the recovery takes three weeks. The real possibility of life-threatening peritonitis is the reason why acute appendicitis warrants speedy evaluation and treatment. The patient may have to undergo a medical evacuation. Appendectomies have occasionally been performed in emergency conditions (i.e., outside of a proper hospital), when a timely medical evaluation was impossible. Typical acute appendicitis responds quickly to appendectomy and occasionally will resolve spontaneously. If appendicitis resolves spontaneously, it remains controversial whether an elective interval appendectomy should be performed to prevent a recurrent episode of appendicitis. Atypical appendicitis (associated with suppurative appendicitis) is more difficult to diagnose and is more apt to be complicated even when operated early. In either condition, prompt diagnosis and appendectomy yield the best results with full recovery in two to four weeks usually. Mortality and severe complications are unusual but do occur, especially if peritonitis persists and is untreated. Another entity known as appendicular lump is talked about quite often. It happens when appendix is not removed early during infection and omentum and intestine get adherent to it forming a palpable lump. During this period, operation is risky unless there is pus formation evident by fever and toxicity or by USG. Medical management treats the condition. An unusual complication of an appendectomy is "stump appendicitis": inflammation occurs in the remnant appendiceal stump left after a prior incomplete appendectomy.36 Epidemiology Disability-adjusted life year for appendicitis per 100,000 inhabitants in 2004.37   no data   less than 2.5   2.5-5   5-7.5   7.5-10   10-12.5   12.5-15   15-17.5   17.5-20   20-22.5   22.5-25   25-27.5   more than 27.5   Notable deaths Evelyn Parnell Edward Plunkett, 18th Baron of Dunsany Walter Reed Harry Houdini References ^ Hobler, K. (Spring 1998). "Acute and Suppurative Appendicitis: Disease Duration and its Implications for Quality Improvement" (– Scholar search). Permanente Medical Journal 2 (2). http://xnet.kp.org/permanentejournal/spring98pj/Spring98.pdf#page=7. dead link ^ Fitz RH (1886). "Perforating inflammation of the vermiform appendix with special reference to its early diagnosis and treatment". Am J Med Sci (92): 321–46.  ^ Cunha BA, Pherez FM, Durie N (July 2010). 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Retrieved Nov. 11, 2009.  External links Appendicitis- Precautions, Signs and Symptoms,Causes and Treatment | Home Remedies Podcast on the management of appendicitis Appendicitis and Appendectomy author Dennis Lee, M.D. editor Jay Marks, M.D. - MedicineNet.com, Doctor Produced information plus Patient Discussions provided by MedicineNet.com Appendicitis - MayoClinic.com, from the Web site of the Mayo Clinic Appendicitis, history, diagnosis and treatment by Surgeons Net Education Appendicitis Research Latest research from the literature on appendicitis Acute and Suppurative Appendicitis from the Spring 1998 issue of The Permanente Medical Journal Appendicitis Update Complete information including laparoscopic appendectomy History of Appendicitis Vermiformis: Its diseases and treatment. By Arthur C. McCarty, M.D. How to Recognize the Symptoms of Appendicitis, a how-to article from wikiHow. Appendicitis: Acute Abdomen and Surgical Gastroenterology from the Merck Manual Professional (Content last modified September 2007) Appendicitis Symptoms and Signs Information Abdominal Emergencies, 'Surgical Abdomen'. Pediatric Surgery v · d · eInflammation Acute Plasma derived mediators Bradykinin · complement (C3, C5a, MAC) · coagulation (Factor XII, Plasmin, Thrombin) Cell derived mediators preformed: Lysosome granules · vasoactive amines (Histamine, Serotonin) synthesized on demand: cytokines (IFN-γ, IL-8, TNF-α, IL-1) · eicosanoids (Leukotriene B4, Prostaglandins) · Nitric oxide · Kinins Chronic Macrophage · Epithelioid cell · Giant cell · Granuloma Processes Traditional: Rubor · Calor · Tumor · Dolor (pain) · Functio laesa Modern: Acute-phase reaction/Fever · Vasodilation · Increased vascular permeability · Exudate · Leukocyte extravasation · Chemotaxis Specific types Nervous CNS (Encephalitis, Myelitis) · Meningitis (Arachnoiditis) · PNS (Neuritis) · eye (Dacryoadenitis, Scleritis, Keratitis, Choroiditis, Retinitis, Chorioretinitis, Blepharitis, Conjunctivitis, Iritis, Uveitis) · ear (Otitis, Labyrinthitis, Mastoiditis) Cardiovascular Carditis (Endocarditis, Myocarditis, Pericarditis) · Vasculitis (Arteritis, Phlebitis, Capillaritis) Respiratory upper (Sinusitis, Rhinitis, Pharyngitis, Laryngitis) · lower (Tracheitis, Bronchitis, Bronchiolitis, Pneumonitis, Pleuritis) · Mediastinitis Digestive mouth (Stomatitis, Gingivitis, Gingivostomatitis, Glossitis, Tonsillitis, Sialadenitis/Parotitis, Cheilitis, Pulpitis, Gnathitis) · tract (Esophagitis, Gastritis, Gastroenteritis, Enteritis, Colitis, Enterocolitis, Duodenitis, Ileitis, Caecitis, Appendicitis, Proctitis) · accessory (Hepatitis, Cholangitis, Cholecystitis, Pancreatitis) · Peritonitis Integumentary Dermatitis (Folliculitis) · Cellulitis · Hidradenitis Musculoskeletal Arthritis · Dermatomyositis · soft tissue (Myositis, Synovitis/Tenosynovitis, Bursitis, Enthesitis, Fasciitis, Capsulitis, Epicondylitis, Tendinitis, Panniculitis) Osteochondritis: Osteitis (Spondylitis, Periostitis) · Chondritis Urinary Nephritis (Glomerulonephritis, Pyelonephritis) · Ureteritis · Cystitis · Urethritis Reproductive female: Oophoritis · Salpingitis · Endometritis · Parametritis · Cervicitis · Vaginitis · Vulvitis · Mastitis male: Orchitis · Epididymitis · Prostatitis · Balanitis · Balanoposthitis pregnancy/newborn: Chorioamnionitis · Omphalitis Endocrine Insulitis · Hypophysitis · Thyroiditis · Parathyroiditis · Adrenalitis Lymphatic Lymphangitis · Lymphadenitis v · d · eDigestive system · Digestive disease · Gastroenterology (primarily K20–K93, 530–579) Upper GI tract Esophagus Esophagitis (Candidal, Herpetiform) · rupture (Boerhaave syndrome, Mallory-Weiss syndrome) · UES (Zenker's diverticulum) · LES (Barrett's esophagus) · Esophageal motility disorder (Nutcracker esophagus, Achalasia, Diffuse esophageal spasm, Gastroesophageal reflux disease (GERD)) · Laryngopharyngeal reflux (LPR) · Esophageal stricture · Megaesophagus Stomach Gastritis (Atrophic, Ménétrier's disease, Gastroenteritis) · Peptic (gastric) ulcer (Cushing ulcer, Dieulafoy's lesion) · Dyspepsia · Pyloric stenosis · Achlorhydria · Gastroparesis · Gastroptosis · Portal hypertensive gastropathy · Gastric antral vascular ectasia · Gastric dumping syndrome · Gastric volvulus Lower GI tract: Intestinal/ enteropathy Small intestine/ (duodenum/jejunum/ileum) Enteritis (Duodenitis, Jejunitis, Ileitis) — Peptic (duodenal) ulcer (Curling's ulcer) — Malabsorption: Coeliac · Tropical sprue · Blind loop syndrome · Whipple's · Short bowel syndrome · Steatorrhea · Milroy disease Large intestine (appendix/colon) Appendicitis · Colitis (Pseudomembranous, Ulcerative, Ischemic, Microscopic, Collagenous, Lymphocytic) · Functional colonic disease (IBS, Intestinal pseudoobstruction/Ogilvie syndrome) — Megacolon/Toxic megacolon · Diverticulitis/Diverticulosis Large and/or small Enterocolitis (Necrotizing) · IBD (Crohn's disease) — vascular: Abdominal angina · Mesenteric ischemia · Angiodysplasia — Bowel obstruction: Ileus · Intussusception · Volvulus · Fecal impaction — Constipation · Diarrhea (Infectious) · Intestinal adhesions Rectum Proctitis (Radiation proctitis) · Proctalgia fugax · Rectal prolapse · Anismus Anal canal Anal fissure/Anal fistula · Anal abscess  · Anal dysplasia  · Pruritus ani GI bleeding/BIS Upper (Hematemesis, Melena) · Lower (Hematochezia) Accessory Liver Hepatitis (Viral hepatitis, Autoimmune hepatitis, Alcoholic hepatitis) · Cirrhosis (PBC) · Fatty liver (NASH) · vascular (Budd-Chiari syndrome, Hepatic veno-occlusive disease, Portal hypertension, Nutmeg liver) · Alcoholic liver disease · Liver failure (Hepatic encephalopathy, Acute liver failure) · Liver abscess (Pyogenic, Amoebic) · Hepatorenal syndrome · Peliosis hepatis Gallbladder Cholecystitis · Gallstones/Cholecystolithiasis · Cholesterolosis · Rokitansky-Aschoff sinuses · Postcholecystectomy syndrome · Porcelain gallbladder Bile duct/ other biliary tree Cholangitis (PSC, Secondary sclerosing cholangitis, Ascending) · Cholestasis/Mirizzi's syndrome · Biliary fistula · Haemobilia · Gallstones/Cholelithiasis common bile duct (Choledocholithiasis, Biliary dyskinesia) · Sphincter of Oddi dysfunction Pancreatic Pancreatitis (Acute, Chronic, Hereditary, Pancreatic abscess) · Pancreatic pseudocyst · Exocrine pancreatic insufficiency · Pancreatic fistula Abdominopelvic Hernia Diaphragmatic (Congenital) · Hiatus Inguinal (Indirect, Direct) · Umbilical · Femoral · Obturator · Spigelian lumbar (Petit's, Grynfeltt-Lesshaft) undefined location (Incisional · Internal hernia) Peritoneal Peritonitis (Spontaneous bacterial peritonitis) · Hemoperitoneum · Pneumoperitoneum M: DIG anat(t, g, p)/phys/devp/cell/enzy noco/cong/tumr, sysi/epon proc, drug(A2A/2B/3/4/5/6/7/14/16), blte