The shape of the stomach and the size of the examined part can thus be assessed. The greater curvature can be examined by deep sliding palpation in 50-60 per cent and the pylorus in 20-25 per cent of healthy subjects; the lesser curvature can be palpated in gastroptosis. It appears to palpating fingers as a ridge on the back bone and by its sides. In cases with gastroptosis, the greater curvature can descend below the navel. Correctness of determination can be confirmed if the position of the ridge coincides with that of the lower border of the stomach as determined by other techniques (by percussion, by the splashing sound or stethacoustic palpation).
Percussion is used to determine the inferior border of the stomach. Provided professional skill is high, the inferior border of the stomach can be outlined by light percussion by differentiating between gastric and intestinal tympany.
Splashing sound (succussion) can be heard if the patient is lying on his back, while the examiner pushes the anterior wall of the peritoneum with four flexed fingers of the apt hand. The other hand of the physician should fix the muscles of the abdominal prelum against the sternal edge. This technique is useful for outlining of the inferior border of the stomach.
Stethacoustic palpation (s. auscultative percussion, or auscultative affricsion) of the stomach is helpful when used together with palpation of the stomach to outline its inferior border.
Palpation of the pylorus
The pylorus is located in the triangle formed by the lower edge of the liver to the right of the median line, by the median line of the body, and the transverse line drawn 3-4 cm above the navel, in the region of the right rectus abdominis muslce. Since the position of the pylorus is oblique (upwards to the right) the palpating movements should be perpendicular to this direction, i.e. from left downwards to the right. The pylorus is identified by palpation as a band (tense or relaxed). When the pylorus is manipulated by the fingers, a soft rumbling sound can be heard. When contracted spastically (pylorospasm) the pylorus remains firm for a long time. Sometimes the pylorus is mistaken for cancer infiltration.
Palpation of the stomach can reveal tumours of the pylorus, of the greater curvature, and of the anterior wall. Tumours of the lesser curvature can be diagnosed with the patient in the upright position. Tumours of the cardial part of the stomach are inaccessible to palpation. Exact information on their location gives X-ray examination.
Palpation of the transverse colon
The delimitation of the greater curvature of the stomach always should precede a palpation of transverse colon.
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The transverse colon is palpated bimanually by four fingers of the right and left hand held together and slightly flexed. Since the position of the transverse colon is unstable, it is useful first to determine the lower border of the stomach by percussive palpation (after Obraztsov) or by palpation of greater curvature of a stomach, and only then to search for the colon some 2—3 cm below this border. The both hands are placed on the sides of the linea alba and the skin are moved slightly upwards. Then the fingers are plunged gradually during relaxation of the prelum at expiration until the posterior wall of the abdomen is felt. Once the posterior wall is reached, the arms should slide down to feel the intestine: this is an arching (transverse) cylinder of moderate density (2—2.5 cm thick), easily movable up and down, painless and silent. If the intestine is impalpable in this region, the same technique should be used to examine the lower and lateral regions, the position of the palpating hands being changed accordingly. Normal transverse colon can be palpated in 60-70 per cent of cases.
Having examined transverse colon in median region, it is necessary to palpate this intestine to the right and to the left outside as far as it is possible. In some cases, following a course of transverse colon, it is possible to reach up to hepatic (more often) or splenic (less often) curvature of the transverse colon.
In addition to the mentioned portions of the intestine, the horizontal parts of the duodenum and the curvature of the colon can in rare cases be palpated; an occasional loop of the small intestine that may happen in the iliac cavity can also be palpated. But the small intestine is usually impalpable because of its deep location, high mobility, and thin walls.
Examination of patients with pathology of the liver and biliary tracts:
Subjective and physical examination
Subjective examination (inquiry)
Complaints
Patients with disorders of the hepatobiliary system usually complain of abdominal pain, dyspepsia, skin itching, jaundice, enlargement of the abdomen, and fever.
Pain is localized in the right hypochondrium and sometimes in the epigastrium and differs depending on the cause. Pain may be persistent and dull, or it may be severe and occur in attacks. Persistent pain is usually boring, or the patient feels pressure, heaviness, or distension in the right hypochondrium. Pain may radiate to the right shoulder, scapula, and in the interscapular space (in chronic cholecystitis, perihepatitis and
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pericholecystitis, i.e. when the process extends onto the peritoneum overlying the liver and the gall bladder, and also in rapid and considerable enlargement of the liver which causes distension of Glisson's capsule). This radiation of pain is quite characteristic of many diseases of the liver and gall bladder, because the right phrenic nerve, innervating the capsule in the region of the falciform and the coronary ligaments of the liver and the extrahepatic bile ducts, originates in the same segments of the spinal cord where the nerves of the neck and shoulder originate as well. Pain usually becomes more severe in deep breathing; in adhesion of the liver or the gall bladder to the neighboring organs, pain is also intensified when the patient changes his posture, and sometimes during walking.
Attacks of pain (biliary or hepatic colics) develop suddenly and soon become quite severe and unbearable. The pain is first localized in the right hypochondrium but then spreads over the entire abdomen to radiate upwards, to the right, and posteriorly. An attack of pain may continue from several hours to a few days during which pain may subside and then intensify again; the attack ends as suddenly as it arises; or pain may lessen gradually. Attacks of pain occur mostly in cholelithiasis. They are provoked by jolting (as in riding) or by fatty food. Pain attacks occur also in hypermotoric dyskinesia of the gall bladder and bile ducts. Pain usually develops quite unexpectedly due to spastic contractions of muscles of the gall bladder and large bile ducts caused by irritation of their mucosa by a stone, and due to comparatively rapid distension of the gallbladder in congestion of bile (e.g. due to obstruction of the common bile duct by a stone). Warmth applied to the liver (provided the attack is not attended by considerable fever) and also administration of cholinoand myospasmolytics (atropine sulphate, papaverine hydrochloride, etc.) remove pain characteristic of the colic. An attack of hepatic colic can be attended by subfebrility (fever develops with pain and subsides with alleviation of pain), which is followed by a slight transient subicteric colour of the sclera or pronounced jaundice in obstruction of the common bile duct by a stone.
Pain developing in dyskinesia of the bile ducts is associated with upset coordination between contractions of the gall bladder and of the Oddi sphincter under the effect of increased tone of the vagus nerve. As a result, bile congests in the ducts, and the gall bladder is no longer emptied. This causes its convulsive contraction. Dyskinetic pain is characterized by the absence of signs of inflammation (leucocytosis, ESR, etc.).
Dyspeptic complaints include decreased appetite, often bitter taste in the mouth, eructation, nausea, vomiting, distension of the abdomen and rumbling, constipations or diarrhea. These complaints are characteristic not only of diseases of the hepatobiliary system but also of other parts of the digestive system. Causes of these symptoms in diseases of the liver and bile ducts are explained by deranged secretion of bile (and hence impaired
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digestion of fats in the intestine) and derangement of the detoxicating functions of the liver.
Fever occurs in acute inflammatory affection of the gall bladder and bile ducts, in abscess and cancer of the liver, in hepatitis, and active cirrhosis.
Skin itching attends hepatic or obstructive jaundice. It can develop without jaundice, as an early forerunner of the liver disease. Itching is caused by accumulation in the blood of bile acids which are otherwise excreted together with bile, or by stimulation of sensitive nerve endings in the skin. Itching is usually persistent and is a great annoyance to patients during night sleep (to cause insomnia). Severe itching causes scratching of the skin with its subsequent infection.
Icteric colouration of the skin and the visible mucosa (jaundice) is due to accumulation of bile pigments in the blood and tissues. Jaundice may develop unnoticeably to the patient and only the surrounding people may pay attention to the icteric colouration of the sclera and then the skin. In other cases jaundice can occur all of a sudden, following an attack of hepatic colics (in obstruction of the common bile duct by a stone in cholelithiasis). Jaundice may persist for months or even years, only slightly changing in intensity (chronic hepatitis and cirrhosis of the liver, benign bilirubinemia).
Jaundice can develop with severe itching of the skin, skin hemorrhages and hemorrhages of the nose and the gastro-intestinal tract.
Jaundice occurs in many diseases of the liver, bile ducts, blood, and also diseases of other organs and systems, to which bilirubin metabolic disorders are secondary. Some clinical symptoms attending jaundice indicate to a certain degree of its type and origin. Accurate diagnosis of various types of jaundice is possible with special laboratory studies.
True jaundice can develop due to the following three main causes: (1) excessive decomposition of erythrocytes and increased secretion of bilirubin (hemolytic jaundice); (2) impaired capture of unbound bilirubin by the liver cells and its inadequate combination with glucuronic acid (parenchymatous jaundice); (3) obstacles to excretion of bilirubin with bile into the intestine and reabsorption of bound bilirubin in the blood (obstructive jaundice).
Hemolytic (hematogenous) jaundice develops as a result of excessive destruction of erythrocytes in the cells of the reticulohistiocytic system (spleen, liver, bone marrow). The amount of unbound bilirubin formed from hemoglobin is so great that it exceeds the excretory liver capacity to account for its accumulation in the blood and development of jaundice. Hemolytic jaundice is the main symptom of hemolytic anemia. It can also be a symptom of other diseases, such as B12-(folic)-deficiency anemia, malaria, protracted septic endocarditis, and other diseases.
The skin of a patient with hemolytic jaundice is lemon-yellow. Skin itching is absent. The amount of unbound bilirubin in the blood is moderately increased (50—200 per cent); the van den Bergh test for bilirubin is indirect.
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Bilirubin is absent from the urine but the urine is still coloured rather intensely by the markedly increased (5—10 times) stercobilinogen and (partly) urobilinogen. Feces are intense dark due to the presence of considerable amount of stercobilinogen.
Parenchymatous (hepatocellular, hepatic) jaundice develops due to the damage of the parenchyma cells (hepatocytes). These cells can capture bilirubin of the blood and bind it with glucuronic acid (the natural detoxicating function of the liver). The natural process of bilirubin excretion in the bile in the form of bilirubin glucuronide (bound bilirubin) is thus impaired. The content of free and bound bilirubin in the blood serum thus increases 4—10 times. In rare cases the increase may be even greater: free bilirubin increases due to hepatocyte dysfunction and bound bilirubin content increases as a result of back diffusion of bilirubin glucuronide from biliary into blood capillaires in dystrophy of the liver cells. Bound bilirubin appears in the urine (bilirubin glucuronide is water soluble and easily passes via the capillary membranes as distinct from free bilirubin). Bile acids are also present in urine, but their content gradually increases. Excretion of stercobilinogen with feces also decreases because amount of bilirubin excreted by the liver into the intestine decreases, but feces are rarely completely discoloured.
This type of jaundice is mainly determined by infection (virus hepatitis or Botkin's disease, leptospirosis) and toxic affections of the liver (poisoning with mushrooms, phosphorus, arsenic and other chemical substances, medicinal preparations included). But parenchymatous jaundice can develop also in liver cirrhosis.
The skin of patients with this jaundice is typically yellow with a reddish tint. Skin itching is less frequent than in obstructive jaundice because the synthesis of bile acids by the affected liver cells is upset. Symptoms of pronounced hepatic insufficiency may develop in severe course of the disease.
There exists a group of congenital pigmentary hepatoses in which the liver is not affected pathologically; the functional tests are negative, while the process of bilirubin conjugation with glucuronic acid is upset at some of these stages (Gilbert syndrome). This condition is attended by a permanent or intermittent jaundice, which is sometimes pronounced and develops from infancy.
Obstructive (mechanical, surgical) jaundice develops due to partial or complete obstruction of the common bile duct. This occurs mostly due to compression of the duct from the outside, by a growing tumour (usually cancer of the head of the pancreas, cancer of the major duodenal papilla, etc.), or due to obstruction by a stone. Bile congestion above the point of obstruction develops and this elevates pressure inside bile passages in continuing bile excretion. As a result, the interlobular bile capillaries become
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