Hirschsprung Disease

Hirschsprung disease is a developmental disorder of the enteric nervous system and is characterized by the absence of ganglion cells in the distal colon resulting in functional obstruction. Contrast enema shows transition zone in the rectosigmoid region.

Although this condition is described by Ruysch in 1691 and popularized by Hirschsprung in 1886, the pathophysiology is not clearly defined until the mid-20th century, when Whitehouse and Kernohan described the aganglionosis of the distal colon as the cause of obstruction in their series Patients. In 1949, Swenson described the first definitive procedure for Hirschsprung's disease is consistent, rectosigmoidectomy with coloanal anastomosis. Since then, other operations have been described, including the Duhamel and Soave technique. (Lee, 2009)

Recently, advances in surgical techniques, including minimally invasive procedures, and earlier diagnosis have resulted in decreased morbidity and mortality for patients with Hirschsprung's disease. Most cases of Hirschsprung's disease is now diagnosed in the newborn period. Hirschsprung disease should be considered in any newborn who fails to pass meconium within 24-48 hours after birth. Although contrast enema is useful in establishing the diagnosis, full thickness rectal biopsy remains the standard criteria. Once the diagnosis is confirmed, the basic treatment is to remove intestinal aganglionik less functional and create the distal anastomosis to the rectum with the healthy innervated bowel (with or without the initial deviation). (Lee, 2009)

Pathophysiology

Hirschsprung disease caused by the failure kranio-caudal migration of the embryo ganglion cells along the intestine at week 5 to week 12., Which is leading to a large segment of aganglionik. In this segment, which coordinated peristalsis propulsif will be lost and the internal anal sphincter fails to loosen during rectal distension. This gives rise to obstruction, abdominal distension and constipation. Aganglionik distal segment remains narrow and had dilated proximal segment ganglionik. This can be seen on barium enema as a transition zone. (Fardah, 2006)

Congenital aganglionosis of the distal colon defines Hirschsprung disease. Aganglionosis begins with the anus, which is always involved, and continues proximally for variable distances. Both the myenteric (Auerbach) and submucosal plexus (Meissner) plexus are absent, so the reduced bowel peristalsis and function. The exact mechanism underlying the development of Hirschsprung's disease is unknown.
enteric ganglion cells derived from the peak of the nerve. In normal development, neuroblasts will be found in the small intestine in the 7th week of pregnancy and will reach the large intestine at 12 weeks' gestation. One possible etiology for Hirschsprung disease is a defect in this migration of neuroblasts along the path to their distal colon. Or, normal migration can occur with failure of neuroblasts to survive, proliferate, or differentiate in the distal segment aganglionik. abnormal distribution in the affected bowel components required for neuronal growth and development, such as fibronektin, laminin, neural cell adhesion molecule (NCAM), and neurotrophic factors, may be responsible for this theory. In addition, the observation that smooth muscle cells of intestine aganglionik is electrically inactive when undergoing electrophysiologic studies also showed myogenic component in the development of Hirschsprung disease.Akhirnya, abnormalities in interstitial cells, enteric nerve cells connecting the pacemaker and the small intestine muscle, also been postulated as a factor. Three important contributions plexus nerves innervate the gut: the submucosal (ie, Meissner) plexus, (ie, Auerbach) intermuscular plexus, and mucosal plexus smaller. All the delicate plexus integrated and involved in all aspects of bowel function, including absorption, secretion, motility, and blood flow (Lee, 2009).

Normal motility, especially under the control of intrinsic neurons. adequate bowel function, although the loss of extrinsic innervation. These ganglia control smooth muscle contraction and relaxation, with relaxation dominates. Extrinsic control mainly through cholinergic and adrenergic fibers. Cholinergic fibers causes contraction, and cause inhibition of adrenergic fibers in particular.

In patients with Hirschsprung's disease, ganglion cells were absent, leading to a marked increase in extrinsic intestinal innervation. The innervation of the cholinergic system and the adrenergic system is 2-3 times of normal innervation. System (excitatory) adrenergic system is expected to dominate over (inhibitors), cholinergic, causes an increase in smooth muscle tone. With the loss of intrinsic enteric inhibitory nerves, which increases tone protected and cause imbalance of smooth muscle contractility, peristalsis is not coordinated, and functional obstruction. (Lee, 2009)

In Hirschsprung's disease, certain nerve cells (ganglion cells) in most of the large intestine is missing. Therefore, the muscles in that area can not be relaxation, muscle contractions that normally push food and digestive waste through the section of the colon can not occur. The figure below shows the large intestine rectum where the lack of nerve ganglion cells, causing swelling in the area above it. (Sexton, 2010)

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Clinical Symtomps of Hirschsprung Disease

Clinical Symtomps of Hirschsprung Disease

 Delayed expenditure meconium in newborn infants (> 48 hours), and found symptoms of intestinal obstruction after day 2 (abdominal distension, vomiting, reduced drinking)

 In children: constipation with abdominal distension, growth failure, vomiting, and intermittent diarrhea. Constipation happens frequently followed by explosive diarrhea. It can also be obtained enterocolitis. (Fardah, 2006)

HOW TO EXAMINATION / DIAGNOSIS

1. Rectal examination: anal canal and ampulla small rekti

2. Radiological examination:

a. Plain abdominal |: Bowel distension of experience, a little air in the rectum
b. Colon examination in the loop: There was a transition zone

3. Rectal biopsy

Hirschsprung disease is usually suspected based on symptoms and physical examination. During the physical examination, the doctor will check your child's abdomen for bloating and excessive stool in the colon and rectum. If Hirschsprung's disease is suspected, the following tests can be performed:

Rectal biopsy. This is the most useful test to diagnose Hirschsprung's disease. For this test, a small piece of rectal tissue is removed and examined under a microscope for the presence of nerve cells. If nerve cells are not present, Hirschsprung's disease was diagnosed.

Barium enema. In this test, a whitish liquid (barium) is inserted through the rectum into the intestine. The barium coats the intestine to make it visible on X-rays. If Hirschsprung's disease is present, X-ray will show the swelling of the intestine followed by the narrowed area. But barium enema may not reveal signs of Hirschsprung's disease if the child is younger than age 3 months or if only a small portion of the intestine is affected. A barium enema is not done if doctors suspect that the colon had been swollen for times normal size (toxic megacolon). X-ray abdomen. This test illustrates the structures and organs in the abdomen, including bowel.

Anorectal manometry. In this test, a small tube inserted into the rectum to measure how well the muscles in the anus work. If the muscle does not relax, may indicate Hirschsprung's disease. In newborns (younger than 1 month) and babies born early, this test may not accurate.2 Also, false-positive test result can occur if the colon withdrawn for other reasons, or if the child can not or will not cooperate with testing . A delay in the diagnosis of Hirschsprung's disease can cause children to develop serious, life-threatening complications. (Sexton, 2010)

DIAGNOSIS APPEAL

Idiopathic Constipation

Complications

Enterocolitis

MANAGEMENT

1. General Handling
Stabilizing patients, including fluid and electrolyte balance, antibiotic in case of enterocolitis, as well as evacuation of the colon with an enema
2. Special Handling
Surgery: a colostomy performed, and then proceed with definitive surgery.

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Acne Vugaris

Pimples or Acne Vugaris medical terms is called a chronic inflammation of the follicle pilosebasea characterized by comedones, papules, pustules and cysts in predilection areas (face, shoulders, upper arms, chest, back

CLINICAL SYMPTOMS OF ACNE:
The main lesion comedones, papules accompanied if beradang (solid skin elevation with a diameter of less than 1 cm and the bulk is above the surface of the skin), pustules (elevation of skin filled with fluid in rheumatoid white), nodules (like papules but the size of more than 1 cm) , and cysts. Nodulo beradang-cystic lesions can itch and tenderness, when broken to remove the pus. The location mainly on the face, chest, back.

Distribution of acne according plewig & kligman:
• acne komedonal
• acne papulopustuler
• Agne konglobata

HOW TO EXAMINATION
Found a closed and open comedones, papules, pustules, nodules and cysts in predilection areas that have oil glands.

COMPLICATIONS OF ACNE:
Sikatrik because of acne scars and keloids

ACNE TREATMENT:
Aims to prevent and reduce frukuensi ekserbasi sikatrik
1. Acne komedonal
• 0.05% retinoic acid cream or gel form
• Bensoil peroxide gel from 2.5 to 5%
• Salicylic acid 0.5 to 2% in solution hidroalkoholik
• 20-50% glycolic repeated after 4 weeks
2. Acne-pustuler papulo
• Lightweight: bensoil peroxide and topical antibiotic clindamycin 1%
• Weight:
 Tetracycline 4x250 mg / day
 Doksasiklin 2x50 mg / day
 Clindamycin 2x150 mg / day
 Erythromycin stearate
3. Acne konglobata
 corticosteroid injection
 chemical exfoliation
 Oral Estrogen and cyproteron acetate
 Ethynil estradiol
4. Dermabrasion and khemabrasi to reduce acne scarring

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Cirrhosis Hepatic

Cirrhosis hepatic is advanced phase of chronic liver disease in marked inflammatory process, liver cell necrosis, regeneration efforts and the addition of connective tissue (fibrosis) with the formation of nodules that interfere with the composition of the liver lobules

Etiology
• Hepatitis B, D and C
• Alcohol
• Metabolic (haemochromatosis, Wilson disease, nonalcoholic steato hepatitis, etc.)
• prolonged Kholestasis
• Obstruction of vena hepatica
• Autoimmune Disorders
• Toxins and drugs (methotrexate, aminodarone)
• Indian Childhood cirrhosis
• Cryptogenic

Morphology

Size of liver
• Normothropic cirrhosis
• Hypertropic cirrhosis
• Athropic cirrhosis

Size regeneration
• Granular
• nodular
• lobular cirrhosis
• Mixed nodular cirrhosis
• Smooth cirrhosis

The structure of liver tissue
• Multilobuler
• Monolobuler
• Pseudolobuler
• Case mix

Progressivity
• Progressive Forms
• Forms inactive

Formation
• Cirrhosis complete form
• Cirrhosis of the form incomplete

Clinical:
• liver Sirosih kompensata: on penterita not get a real symptoms and signs of liver cirrhosis
• Cirrhosis of the liver dekompensata: marks obtained in patients with liver cirrhosis a clear and present

Clinical manifestations of hepatitis serosis sourced from a failure that is fundamental:

• Symptoms or signs of liver failure:

1. Ikters
2. Spider naevi
3. Gynecomastia
4. Hipoalbumin and protein-calorie malnutrition
5. Underarm hair loss
6. Acites
7. Palmar erythema
8. White nail

• Symptoms or signs of hypertension, total:

1. Varicose esophagus / cardia
2. Splenomegaly
3. Dilation of collateral veins
4. Acites
5. Haemoroid
6. Caput medusa

To make a diagnosis is liver biopsy

Principles of therapy:

Diet rich in fiber and rich in proteins (except when there are complications encefalopati hepatic)

If there is swelling and acites
• Rest, reduced physical activity
• calorie-rich diet rich in protein, low salt
• Restriction of fluids (1 liter / day), especially when there hypernatremia

Complications that can be found:
• Hetemisis / melena due verises esophagus / cardia is broken
• Ensefalopatik hepatic
• Acites permagna
• Spontaneous bacterial peritonitis
• hepatorenal syndrome

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Etiopatogenesis of Lung Tumors

Etiopatogenesis of Lung Tumors - As in cancer in general, definitely etiology of lung tumors is not known with certainty but is estimated to inhalation of carcinogens is a major factor. Carcinogenic substances of many highlighted is the cigarette.

1. Effect of Cigarette
There are enough facts to link smoking with lung tumors. Materials carcinogens contained in cigarette smoke include Polonium 210 and 3.4 Benzypyrene. The use of filter cigarettes is said to reduce the risk of lung tumors, but the risk for lung tumors in smokers remains higher than non-smokers. The risk of lung tumors increased 13 percent times in active smokers and 1.5 percent that in nonsmokers who are exposed to in a long time.

The incidence of lung tumors related to the total number of cigarettes smoked, and is usually expressed in "pack-cigarettes per year." As an example is someone who smokes as much as 2 pack per day for 20 years between 60-70 times increased risk compared with nonsmokers. When a smoker to stop the habit, then the new risk reduction appeared after 3 years of cessation and decreased risk will be like in non-smokers after 10-13 years. Smoking cigars or pipes are still no clear relationship with lung tumors. So also with whether there is a difference between smoking cigarettes and white.

Increased incidence of lung tumors in women is also influenced by the increased use of Smoking in women. Women have a greater relative risk per exposure than men ( 1.5 percent greater). These gender differences may be related to higher sensitivity to tobacco carcinogens in women.

With that in mind, it is natural that the primary prevention of lung tumors is an effort to combat smoking. Stopping an active smoker is at the same time save more than a passive smoker. But the ability to stop smoking is very difficult, because smoking causes addiction to nicotine. Preventing a person to smoke may be more effective, and this effort is likely to succeed if targeted at children and adolescents.

2. Effect of industrial exposure

Industrial materials which many associated with the incidence of lung tumors is asbestosis. Stated that asbestos can increase the risk as much as 60-10 times. Radioactive materials also are carcinogenic. Uranium miners have 4 times greater risk than the general population. Exposure to this industry usually only visible effect after 15-20 years.
Other jobs that increase the risk of lung tumors is a nickel miner, industries that use ion exchange resins and bis chloromethyl chloromethyl ether, chromite ore miners and industrial users of arsenic. Histological types of lung tumors are most often found in industrial exposure is epidermoid carcinoma and small cell carcinoma. Smoking increases the risk that already exist due to exposure to industrial materials.

3. Effect of other diseases / lung tumor predisposition for other diseases

Pulmonary tuberculosis is associated as a factor predisposing many lung tumors through mechanisms metaplasi hyperplasia. Carcinoma in situ of lung tumors is thought to occur as a result of scar tissue tuberculosis.

4. The influence of genetic and immunological status

Although lung tumors are not classified as a disease of genetic, molecular genetic studies have shown that lung tumors is due to several genetic lesions, including activation of dominant oncogenes and inactivation of tumor suppressor or recessive oncogenes.

In addition, the involvement of enzyme Aryl hydrocarbon hydroxylase (AHH). More lung tumors found in people with AHH activity of moderate or high. This situation is likely to explain the role of cigarettes factor as one of the factors. AHH enzymes metabolize benzopyrene and other polycyclic aromatic hydrocarbons become more reactive carcinogens.

Immunological status of patients who monitored cellular immune response showed a correlation between the degree of cell differentiation, stage of disease, response to treatment, and prognosis. Anergy Patients generally do not give a good response to treatment and die sooner.

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