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Continued hemorrhage from such a vessel may enter the tracheobronchial tree through an adjacent bronchial injury and lead to intraoperative aspiration and asphyxia chronic gastritis gastric cancer purchase metoclopramide now. With deep lobar missile tracks or lacerations and significant hemorrhage acute gastritis symptoms nhs best 10 mg metoclopramide, neither suture pneumonorrhaphy nor stapled wedge resection is appropriate. Properly performed, pulmonotomy will control parenchymal hemorrhage without the need for lobectomy. When hemorrhage is coming from one gunshot or stab wound in a lobe, a finger or clamp is placed into the hole to determine the direction of the track. The linear stapler can be used again to open the parenchyma, or two DeBakey aortic clamps can be placed in apposition and the parenchyma between them divided with a scalpel or with electrocautery. Injured vessels in the now-open track are ligated or repaired with 3-0 or 4-0 polypropylene suture. After hemorrhage has been controlled, edema of the parenchyma almost always precludes closing the pulmonotomy site. Individual suture ligation is used to control remaining vessels under the rows of staples. If DeBakey clamps were used to divide the parenchyma, 3-0 or 4-0 absorbable or polypropylene suture is placed in a continuous basting stitch under each clamp. After a clamp is removed, the same continuous suture is returned to the starting point in an over-and-over fashion and tied to the original suture. Lobectomy Anatomic lobectomy is indicated when there is significant injury to the vessels or bronchus in the hilum of the lobe, injury to greater than 75% of the parenchyma of the lobe. Prior to performing lobectomy, the residual tissue in the fissures around the injured lobe is divided with a linear stapling device or divided between clamps and then sutured. The pleura over the hilar structures is divided, and the lobar artery and proximal branches are divided between 2-0 silk ties. Minimal skeletonization of the lobar bronchus is performed to preserve bronchial blood flow before stapling and before dividing the bronchus. An airtight staple line is verified by filling the pleural cavity with normal saline and by having the anesthesiologist hand bag the patient. A 3-sided pleural flap is elevated off the paravertebral area and sewn over the bronchial stump with 3-0 absorbable sutures. This maneuver will confirm that no damage has occurred to other bronchi during the lobectomy and that torsion of the remaining lobe or lobes is not present and is unlikely to occur in the postoperative period. If there is a risk of torsion, either suturing or stapling the lobes together or suturing the lobe to the mediastinal pleura at another point is performed. Pneumonectomy A pneumonectomy is only indicated when there is a significant penetrating wound or shearing injury to the vessels or bronchus in the hilum of the lung or a major injury encompassing more than 75% of all lobes. Reexploration for possible further stapling of a long bronchial stump and coverage with a vascularized tissue pedicle were recommended as well. These include packing of the pleural cavity when coagulopathy is present, coverage of the open thoracotomy incision with a plastic silo. Right heart failure is common in patients who survive trauma pneumonectomy; and postoperative management is quite intensive, often including infusion of nitric oxide and/or inotropic support. Fiberoptic bronchoscopy with lavage or protected specimen brush for culture is the diagnostic test of choice. Starting empiric antibiotic therapy based on patient risk factors and local patterns of infection while patient-specific cultures are pending is an accepted standard. Pulmonary Pseudocyst Primarily diagnosed in patients with previous blunt trauma to the chest, a posttraumatic pulmonary pseudocyst is a parenchymal cavity that may have an air-fluid level. Observation and serial imaging studies are appropriate in asymptomatic patients, while antibiotics and even catheter drainage may be needed for an infected pseudocyst (pulmonary abscess). Even so, most patients who develop an infected hemothorax or empyema are in the group of patients who were originally treated with thoracostomy tubes rather than a thoracotomy. Other causes described in the literature include contamination from the original penetrating trauma, contamination from insertion of a tube thoracostomy, contamination from the abdomen in the presence of a diaphragm injury, and parapneumonic empyema following an injury to the lung or pneumonia after injury. In two current trauma textbooks, the incidence has been described as "0% to 18%"101 and "2% to 7%. As previously noted, a retained hemothorax that is suspected of being infected or having become an empyema should be evacuated with a thoracoscopic approach. A chronic empyema cavity is treated with thoracoscopic or pleuroscopic drainage and decortication of lung entrapped by the pleural rind. Management of the residual pleural space or the need for chronic open drainage of an empyema cavity are discussed in other publications. Rule applies to passenger side and is intended to protect children in front seats. Survival Survival figures in large series of patients with injuries to the lungs since 1980 are listed in Table 9-9. Thoracic Damage Control Originally described for patients with penetrating wounds of the abdomen, damage control operative principles have now been described for patients with injuries to the neck, chest, extremities, vessels, and bones. The most fundamental principle of damage control surgery is that the patient with profound hypothermia, with a significant metabolic acidosis, or with a marked coagulopathy should have a limited first operation or procedure to control hemorrhage and contamination. For injuries to the heart, great vessels, or lungs, many of the techniques described in this chapter fit the definition of thoracic damage control. Kokotsakis J, Hountis P, Antonopoulos N, et al: Intravenous adenosine for surgical management of penetrating heart wounds. Agrifoglio M, Barili F, Kassem S, et al: Sutureless patch-and-glue technique for the repair of coronary sinus injuries. Karaaslan T, Meuli R, Androux R, et al: Traumatic chest lesions in patients with severe head trauma: a comparative study with computed tomography and conventional chest roentgenograms. Kulvatunyou N, Vijayasekuran A, Hansen A, et al: Two-year experience of using pigtail catheters to treat traumatic pneumothorax: a changing trend.

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For example gastritis symptoms australia order metoclopramide in united states online, an incompetent valve fails to close tightly gastritis diet 6 days purchase metoclopramide with american express, so that blood leaks through the valve when it is closed (see Clinical Impact, "Consequences of an Incompetent Bicuspid Valve"). A murmur caused by an incompetent valve makes a swishing sound immediately after the valve closes. For example, an incompetent bicuspid valve produces a swishing sound immediately after the first heart sound. When the opening of a valve is narrowed, or stenosed (sten ozd; a narrowing), a swishing sound precedes closure of the stenosed valve. For example, when the bicuspid valve is stenosed, a swishing sound precedes the first heart sound. Predict 8 intrinsic regulation of the Heart Intrinsic regulation refers to mechanisms contained within the heart itself. The force of contraction produced by cardiac muscle is related to the degree of stretch of cardiac muscle fibers. The amount of blood in the ventricles at the end of ventricular diastole determines the degree to which cardiac muscle fibers are stretched. Venous return is the amount of blood that returns to the heart, and the degree to which the ventricular walls are stretched at the end of diastole is called preload. If venous return increases, the heart fills to a greater volume and stretches the cardiac muscle fibers, producing an increased preload. The greater force of contraction causes an increased volume of blood to be ejected from the heart, resulting in an increased stroke volume. As venous return increases, resulting in an increased preload, cardiac output increases. Conversely, if venous return decreases, resulting in a decreased preload, the cardiac output decreases. If normal heart sounds are represented by lubb-dupp, lubb-dupp, what does a heart sound represented by lubb-duppshhh, lubbduppshhh represent What does lubb-shhhdupp, lubb-shhhdupp represent (assuming that shhh represents a swishing sound) He and his daughter, normal, were getting out of the car at a restaurant where they planned to have dinner. She helped him back into the car and drove to the emergency room of a nearby hospital. Having been previously diagnosed with paroxysmal atrial tachycardia, Speedy regularly takes a calcium channel blocking agent. Athletes tend to have a higher stroke volume and lower heart rate at rest because exercise has increased the size of their hearts. During exercise, the heart rate in a nonathlete can increase to 190 bpm, and the stroke volume can increase to 115 mL/beat. Heart failure that affects the left ventricle, called left heart failure, causes blood to back up in the veins that return blood from the lungs to the heart. Filling of these veins causes edema in the lungs, which makes breathing difficult. For example, heart failure that affects the right ventricle, called right heart failure, causes blood to back up in the veins that return blood from systemic vessels to the heart. For example, muscular activity during exercise causes increased venous return, resulting in increased preload, stroke volume, and cardiac output. This is beneficial because increased cardiac output is needed during exercise to supply O2 to exercising skeletal muscles. People suffering from hypertension have an increased afterload because their aortic pressure is elevated during contraction of the ventricles. The heart must do more work to pump blood from the left ventricle into the aorta, which increases the workload on the heart and can eventually lead to heart failure. People who have lower blood pressure have a reduced afterload and develop heart failure less often than people who have hypertension. The afterload must increase substantially before it decreases the volume of blood pumped by a healthy heart. Nervous Regulation: Baroreceptor Reflex Nervous influences of heart activity are carried through the autonomic nervous system. Stimulation by sympathetic nerve fibers causes the heart rate and the stroke volume to increase, whereas stimulation by parasympathetic nerve fibers causes the heart rate to decrease. The baroreceptor (bar o-re-sep ter; baro, pressure) reflex is a mechanism of the nervous system that plays an important role in regulating heart function. Baroreceptors are stretch receptors that monitor blood pressure in the aorta and in the wall of the internal carotid arteries, which carry blood to the brain. Changes in blood pressure result in changes in the stretch of the walls of these blood vessels-and changes in the frequency of action potentials produced by the baroreceptors. The action potentials are transmitted along nerve fibers from the stretch receptors to the medulla oblongata of the brain. Within the medulla oblongata is a cardioregulatory center, which receives and integrates action potentials from the baroreceptors. The cardioregulatory center controls the action potential frequency in sympathetic and parasympathetic nerve fibers that extend from the brain and spinal cord to the heart. The cardioregulatory center also influences sympathetic stimulation of the adrenal gland. Epinephrine and norepinephrine, released from the adrenal gland, increase the stroke volume and heart rate. Action potentials are sent along the nerve fibers to the medulla oblongata at increased frequency. This prompts the cardioregulatory center to increase parasympathetic stimulation and decrease sympathetic stimulation of the heart. As a result, the heart rate and stroke volume decrease, causing blood pressure to decline.

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In some situations gastritis weakness order metoclopramide online, the diagnostic adjunct of intraoperative arteriography may reduce the rate of negative surgical exploration gastritis histology purchase discount metoclopramide. The uses of this strategy contrast arteriography and operative exploration are reserved for instances in which one or more of these noninvasive modalities are abnormal. In order for limb-threatening ischemia to result from trauma at this level, all three tibial vessels must be disrupted which is uncommon. This observation may be partly due to the redundant nature of perfusion and the fact that penetrating wounds are less likely to affect all of the tibial arteries. In contrast, blunt trauma to the leg often results in complex tibia and fibula fractures. Blunt mechanisms leading to tibial vascular trauma may also result in open fractures with soft-tissue injuries (59% of cases) and peripheral nerve injuries (53% of cases). Less commonly, penetrating trauma leading to tibial vascular injury is associated with fracture (31% of cases), soft-tissue injury (6% of cases), and nerve dysfunction (20% of cases). Preoperative Preparation Computed tomography is an important adjunct in preoperative preparation in the hemodynamically stable blunt trauma patient. This imaging modality can also be a useful adjunct in select patients with penetrating trauma who have normal hemodynamic measures and equivocal physical examination findings. Extravasation of contrast from a vascular structure is indicative of vessel injury. Even in the absence of active extravasation, pelvic hematoma can be a sign of venous injury or bleeding from the internal iliac artery or from smaller branches. Lack of contrast within the vascular lumen can be indicative of thrombosis or dissection causing a reduction in flow. In these instances, the metallic fragments may cause artifacts, which make interpretation of the adjacent vessels difficult. In their study, only 1 of 63 scans was indeterminate due to retained metallic artifact; and the rest provided elements of important diagnostic information helping guide management. Most commonly, this meant both lower extremities were evaluated with one study, but an upper and a lower extremity could be evaluated simultaneously as well. Once exposed, the common or external iliac or common femoral arteries can be controlled using vascular clamps. These devices are designed to be placed on the patient by initial responders in the tactical environment. However, promising reports on their efficacy have been registered from the terminal stages of the war in Afghanistan and anecdotal cases of civilian trauma. Despite successes associated with the development of a small number of junctional hemorrhage control devices, further research is needed to develop approaches or tools to control noncompressible torso and junctional hemorrhage at the point of injury and in the acute, out-of-hospital phase of care. If a single tourniquet is not successful in controlling extremity hemorrhage, a second tourniquet should be applied to increase the effective tourniquet width. Kragh and others from the United States Army Institute of Surgical Research reported that the application and use of tourniquets to control extremity bleeding before the onset of shock resulted in lower mortality than application of tourniquets after the onset of hemodynamic instability. In a clinical series of 428 tourniquets applied on 309 severely injury limbs, the incidence of nerve palsy was 1. There was no association with vascular thrombosis, myonecrosis, rigor, pain, fasciotomy, or renal failure. Reports from those wars and clinical experience of the editors suggest that the vast majority of tourniquets applied during the wars in Afghanistan and Iraq were in place for 2 hours or less. Clearly tourniquet application and the potential adverse effects of complete limb ischemia for longer periods of time in future military or civilian scenarios will need to be reappraised. TibialLevelInjuries Tibial vascular injury may be the result of penetrating or blunt trauma and is most commonly associated with fracture of the tibia or fibula. In cases in which control of bleeding is difficult, exploration of the vascular injury with ligation of the vessel or placement of a temporary vascular shunt may be necessary before fracture reduction and stabilization. However, in most instances, fracture reduction or traction and stabilization can be performed promptly and results in restoration of perfusion to the leg and foot. The surgical scrub and draping of the patient should be from the umbilicus to the toes of both lower extremities. Preparing the operative field to include the umbilicus and lower abdomen allows for retroperitoneal exposure and control of the iliac vessels if needed. Preparation of the contralateral lower extremity allows one to use saphenous vein from the noninjured extremity as conduit for vascular reconstruction if needed. Also, access to the contralateral femoral artery may be useful to perform percutaneous, transluminal arteriography of the injured lower extremity either as a pre- or completion step using an "up and over" approach. In rare cases, having access to the contralateral femoral artery can be useful as a source of inflow. Regardless of anatomic level, lower extremity vascular reconstruction begins with exposure of the injured segment. Depending on the experience of the surgeon and the anatomic location of the injury, this may be preceded by obtaining remote proximal arterial control. Frequently junctional or proximal femoral vascular injuries require control at an uninjured segment such as the iliac artery through a retroperitoneal exposure. Injuries in the popliteal fossa and those at the tibial trifurcation may also benefit from inflow control at a proximal, uninjured segment. In contrast, superficial femoral injuries in the thigh and those below the tibial trifurcation can often be controlled by extending any penetrating wounds and exploring the injured area directly.

Syndromes

  • Does the swelling appear to be fluid?
  • Hypoglycemia
  • Anaprox
  • Tingling in the space between the third and fourth toes
  • Bluish skin (fingernails and lips)
  • Prepare your home so you can move around easily when you return from the hospital.
  • Urine tests to check for Legionella pneumophila bacteria
  • Had surgery within the last 6 weeks
  • Pulmonary stenosis

In addition to water gastritis symptoms and back pain metoclopramide 10 mg order, lymph contains solutes derived from two sources: (a) Substances in plasma diet gastritis erosif metoclopramide 10 mg buy without prescription, such as ions, nutrients, gases, and some proteins, pass from blood capillaries into the interstitial spaces and become part of the lymph; (b) substances such as hormones, enzymes, and waste products, derived from cells within the tissues, are also part of the lymph. The lymphatic system absorbs lipids and other substances from the digestive tract (see figure 16. Lipids enter the lacteals and pass through the lymphatic vessels to the venous circulation. The lymph passing through these lymphatic vessels appears white because of its lipid content and is called chyle (kil). Pathogens, such as microorganisms and other foreign substances, are filtered from lymph by lymph nodes and from blood by the spleen. Because the lymphatic system is involved with fighting infections, as well as filtering blood and lymph to remove pathogens, many infectious diseases produce symptoms associated with the lymphatic system (see the Diseases and Disorders table at the end of this chapter). Describe the structure and function of tonsils, lymph nodes, the spleen, and the thymus. Lymphatic capillaries and Vessels the lymphatic system includes lymph, lymphocytes, lymphatic vessels, lymph nodes, the tonsils, the spleen, and the thymus (figure 14. The lymphatic system, unlike the circulatory system, does not circulate fluid to and from tissues. Instead, the lymphatic system carries fluid in one direction, from tissues to the circulatory system. Most of the fluid returns to the blood, but some of the fluid moves from the tissue spaces into lymphatic capillaries to become lymph (figure 14. The lymphatic capillaries are tiny, closed-ended vessels consisting of simple squamous epithelium. The lymphatic capillaries are more permeable than blood capillaries because they lack a basement membrane, and fluid moves easily into them. Overlapping squamous cells of the lymphatic capillary walls act as valves that prevent the backflow of fluid (figure 14. Exceptions are the central nervous system, bone marrow, and tissues lacking blood vessels, such as the epidermis and cartilage. A superficial group of lymphatic capillaries drains the dermis and subcutaneous tissue, and a deep group drains muscle, the viscera, and other deep structures. The lymphatic capillaries join to form larger lymphatic vessels, which resemble small veins (figure 14. Small lymphatic vessels have a beaded appearance because they have one-way valves that are similar to the valves of veins (see chapter 13). When a lymphatic vessel is compressed, the valves prevent backward movement of lymph. Consequently, compression of the lymphatic vessels causes lymph to move forward through them. Lymph nodes are located along lymphatic vessels throughout the body, but aggregations of them are found in the cervical, axillary, and inguinal areas. Valves, located farther along in lymphatic vessels, also ensure one-way flow of lymph. The lymphatic vessels converge and eventually empty into the blood at two locations in the body. Lymphatic vessels from the right upper limb and the right half of the head, neck, and chest form the right lymphatic duct, which empties into the right subclavian vein. Lymphatic vessels from the rest of the body enter the thoracic duct, which empties into the left subclavian vein (see figure 14. Lymphatic organs the lymphatic organs include the tonsils, the lymph nodes, the spleen, and the thymus. Lymphatic tissue, which consists of many lymphocytes and other cells, such as macrophages, is found within lymphatic organs. The lymphocytes originate from red bone marrow (see chapter 11) and are carried by the blood to lymphatic organs. These lymphocytes divide and increase in number when the body is exposed to pathogens. The increased number of lymphocytes is part of the immune response that causes the destruction of pathogens. In addition to cells, lymphatic tissue has very fine reticular fibers (see chapter 4). These fibers form an interlaced network that holds the lymphocytes and other cells in place. When lymph or blood filters through lymphatic organs, the fiber network also traps microorganisms and other items in the fluid. The tonsils form a protective ring of lymphatic tissue around the openings between the nasal and oral cavities and the pharynx. They protect against pathogens and other potentially harmful material entering from the nose and mouth. Sometimes the palatine or pharyngeal tonsils become chronically infected and must be removed. The lingual tonsil becomes infected less often than the other tonsils and is more difficult to remove. Lymphatic Pharyngeal tonsil Palatine tonsil Lingual tonsil Tonsils There are three groups of tonsils (figure 14.

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A foramen gastritis diet 2 weeks cheap metoclopramide 10 mg buy on-line, which will become the left side of the foramen ovale gastritis from alcohol generic 10 mg metoclopramide overnight delivery, opens in the left side of the interatrial septum (green) as the right side of the interatrial septum begins to form (blue). Interatrial septum Foramen Interventricular septum Interatrial septum 5 Final embryonic condition of the interatrial septum A foramen remains in the right side of the interatrial septum (blue), which forms the right part of the foramen ovale. Blood from the right atrium can flow through the foramen ovale into the left atrium. After birth, as blood begins to flow in the other direction, the left side of the interatrial septum is forced against the right side, closing the foramen ovale. Growth of the placenta essentially stops at about 35 weeks, limiting fetal growth. The average weight at this point is 3250 g (7 lb, 2 oz) for a female fetus and 3300 g (7 lb, 4 oz) for a male fetus. Near the end of pregnancy, the uterus becomes progressively more excitable and usually exhibits occasional contractions that become stronger and more frequent until parturition is initiated. The cervix gradually dilates, and strong uterine contractions help expel the fetus from the uterus through the vagina. Labor is the period during which uterine contractions occur that result in expulsion of the fetus. Although labor may differ greatly from woman to woman and from one pregnancy to another for the same woman, it can usually be divided into three stages. This stage takes approximately 24 hours, but it may be as short as a few minutes in some women who have had more than one child. During this phase, the amnion surrounding the fetus ruptures, and amniotic fluid flows through the vagina to the exterior. This event is commonly referred to as the "water breaking" and usually occurs naturally, but the amnion may need to be ruptured artificially. The second stage of labor, often called the expulsion phase, lasts from the time of maximum cervical dilation until the time the baby exits the vagina. The third stage of labor, often called the placental stage, involves the expulsion of the placenta from the uterus. Contractions of the uterus cause the placenta to tear away from the wall of the uterus. Some bleeding from the uterine wall occurs because of the intimate contact between the placenta and the uterus. However, bleeding is normally limited because uterine smooth muscle contractions compress the blood vessels. Compare and contrast clinical age and developmental age for fertilization, implantation, the beginning of the fetal period, and parturition. However, estrogen levels continually increase in the maternal circulation, exciting uterine smooth muscle. Thus, the inhibitory influence of progesterone on smooth muscle is overcome by the stimulatory effect of estrogen near the end of pregnancy. Oxytocin stimulates uterine contractions, which move the fetus farther into the cervix, causing further stretch. This positive-feedback mechanism stops after delivery, when the cervix is no longer stretched. Discuss the respiratory, circulatory, and digestive changes that occur in the newborn at the time of birth. The newborn, or neonate (ne o-nat; newborn), experiences several dramatic changes at the time of birth. The major and earliest changes are the separation of the infant from the maternal circulation and the transfer from a fluid to a gaseous environment. Uterus respiratory and Circulatory Changes the large, forced gasps of air that occur when an infant cries at the time of delivery help inflate the lungs. The fetal lungs produce a substance called surfactant (ser-fak tant), which coats the inner surface of the alveoli, reduces surface tension in the lungs, and allows the newborn lungs to inflate (see chapter 15). Surfactant is not manufactured in the fetal lungs before about 6 months after fertilization. If a fetus is born before the lungs can produce surfactant, the surface tension inside the lungs is too great for the lungs to inflate. The initial inflation of the lungs causes important changes in the cardiovascular system (figure 20. Expansion of the lungs reduces the resistance to blood flow through the lungs, resulting in increased blood flow from the right ventricle of the heart through the pulmonary arteries. Consequently, an increased amount of blood flows from the right atrium to the right ventricle and into the pulmonary arteries, and less blood flows from the right atrium through the foramen ovale to the left atrium. The reduced resistance to blood flow through the lungs and the increasing volume of blood returning from the lungs through the pulmonary veins to the left atrium make the pressure in the left atrium greater than that in the right atrium. This pressure difference forces blood against the interatrial septum, closing a flap of tissue that develops in that region over the foramen Placenta Umbilical cord 3 Third stage. A vaginal discharge composed of small amounts of blood and degenerating endometrium can persist for several weeks after parturition. The precise signal that triggers parturition is unknown, but many factors that support it have been identified (figure 20. This action completes the separation of the heart into two pumps: the right side and the left side of the heart. A short artery, the ductus arteriosus (ar-tere-o-sus), connects the pulmonary trunk to the aorta. Before birth, the ductus arteriosus carries blood from the pulmonary trunk to the aorta, bypassing the fetal lungs. This artery closes off shortly after birth, forcing blood to flow through the lungs.

References

  • Woodley HE, Spencer JA, MacLennan KA. Small bowel lymphoma complicating long-standing Crohn's disease. AJR Am J Roentgenol 1997;169:1462.
  • Drinkwater SL, Bockler D, Eckstein H, et al: The visceral hybrid repair of thoracoabdominal aortic aneurysmsóa collaborative approach, Eur J Vasc Endovasc Surg 38:578, 2009.
  • Pezzella AT. Global statistics/outcomes. J Thorac Cardiovasc Surg 2006;132(3):726.
  • L ouis DS, Huebner JJ, Jr, Hankin FM: Rupture and displacement of the ulnar collateral ligament of the metacarpophalangeal joint of the thumb. J Bone Joint Surg Am 68:1320, 1986.
  • Aterman K, Boustani P, Gillis DA: Solitary multilocular cysts of the kidney, J Pediatr Surg 8:505, 1973.
  • Blebea J, Wilson R, Waybill P, Neumyer MM, Blebea JS, Anderson KM, Atnip RG. Deep venous thrombosis after percutaneous insertion of vena caval filters. J Vasc Surg. 1999;30(5):821-8.
  • Soyer P, Bluemke DA, Sibert A, et al. MR imaging of intrahepatic cholangiocarcinoma. Abdom Imaging 1995;20(2):126-130.