UMLS:C0344307 - FACTA Search

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Query: UMLS:C0344307 (analgesia)
28,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adequate prehospital care of the severely traumatised patient is important to prevent or attenuate early as well as late life threatening complications, such as tissue hypoxia, ischemia/reperfusion injury and finally multiple organ failure. A mismatch of oxygen supply and oxygen demand is a hallmark in the pathophysiology of multiple trauma. Oxygen supply may be diminished by the following factors: shock-related decrease of cardiac output, anemia and hypoxia. On the other hand, oxygen demand may be increased by pain, panic, and agitation. Hence, it is a central point in prehospital care to reduce this supply-demand imbalance by identification and prompt reversal of the underlying causes. Most often, shock is caused by hypovolaemia and tissue injury ("traumatic-hemorrhagic shock"). However, shock may also be a result of central nervous system injury (neurogenic shock as a special form of distributive shock) or circulatory obstruction, e.g tension pneumothorax or cardiac tamponade (obstructive shock). Volume resuscitation by means of crystalloid or colloid solutions is an essential part in the therapy of the traumatic-haemorrhagic shock. In addition, catecholamines may be necessary in order to achieve an adequate arterial pressure. However, if bleeding cannot be controlled in the prehospital setting, only moderate volume support and permissive hypotension as well as rapid transportation into the next hospital may be preferable. This may be the case in penetrating thoracic or abdominal injuries as well as in traumatic amputations of the proximal limb. On the contrary, in patients with severe head injury, hypotension must be avoided by all means. Obstructive shock has to be treated urgently by insertion of a chest drain or drainage of the pericardium, respectively. Under all circumstances, it is an essential part of prehospital therapy to provide sufficient analgesia as soon as possible. Prehospital anesthesia, combined with artificial ventilation may be necessary for optimal patient management. Furthermore, ventilatory support is indicated when respiratory failure, loss of consciousness, or severe shock are present. Additional oxygen should be given whenever possible, even in the absence of an overt hypoxic state. Important additional measures are cervical spine immobilisation and reposition as well as splinting of long bone fractures or luxations, in order to avoid secondary injury of the spinal cord or ongoing tissue and vascular damage.
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PMID:[Emergency management of polytrauma patients]. 902 49

A 61-year-old man with pulmonary emphysema was admitted due to acute exacerbation of chronic respiratory failure and a complaint of chest pain. A chest CT scan on admission showed aneurysmal dissection from the ascending aorta to the descending aorta. Analgesia was noted below the fourth thoracic vertebra, which supplies the accessory respiratory muscles including the intercostal muscles. Even after recovery from circulatory failure, his chest muscles were weak and he could not be removed from mechanical ventilation. An autopsy revealed ischemia of the spinal cord at the T4 level. In contrast, The C3 level of the spinal cord, which supplies the diaphragm, was intact. Paralysis of accessory respiratory muscles including intercostal muscles may have caused the continuation of the respiratory failure. This case shows the importance of accessory respiratory muscles in maintaining chest wall movement in patients with chronic pulmonary emphysema.
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PMID:[Spinal cord ischemia caused by dissecting aortic aneurysm in a patient with acute exacerbation of pulmonary emphysema]. 907 Nov 61

This double-blind randomized trial assessed the effect of adding an intravenous continuous infusion of ketorolac to a patient-controlled analgesia (PCA) morphine regimen on analgesia, heart rate, arterial blood pressure, and postoperative myocardial ischemia. Patients having elective total hip or knee replacement were randomized to receive ketorolac 30 mg bolus, followed by an infusion of 5 mg/h for 24 h or placebo. All patients had access to PCA morphine (20 microg/kg bolus, with a lockout of 6 min). Patients were monitored for pain visual analog scale, blood pressure, heart rate, and ST segment depression via a continuous Holter monitor. ST depression of 1 mm 60 ms after the J point was considered significant if it lasted more than 1 min. There was no difference in demographics, risk factors, or cardiac medications between the groups. Ketorolac-treated patients had significantly better pain control at 2, 6, and 24 h. There was significant morphine sparing at all times after 3 h. There was no difference in the number of ischemic events between the groups. The ischemic episodes of the patients who received ketorolac occurred at slower heart rates (97 +/- 15 vs 114 +/- 16 bpm, P = 0.001) than those of patients in the placebo group. The duration of ST depression was shorter in ketorolac-treated patients (24 +/- 35 vs 76 +/- 95 min, P < 0.05). All ST depressions were clinically silent. Logistic regression of factors predicting ischemia included the use of calcium channel blockers and low pain score. These results suggest that analgesia with ketorolac reduces the duration of ischemic episodes in the first 24 h postoperatively.
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PMID:The addition of continuous intravenous infusion of ketorolac to a patient-controlled analgetic morphine regime reduced postoperative myocardial ischemia in patients undergoing elective total hip or knee arthroplasty. 908 43

To study the relationship between ischaemia-reperfusion and multiple organ dysfunction syndrome (MODS), a new anaesthesia method was required to be applied to C57BL/6 mice. These mice are also used in a well accepted, standardized model for MODS using intraperitoneally administered zymosan (zymosan induced general inflammation, ZIGI). The aim was to develop a new model for ischaemia-reperfusion with 6 h of anaesthesia. This and further specific requirements for the combination of ischaemia-reperfusion and the ZIGI method, made us select inhalational anaesthesia using isoflurane in oxygen. This study evaluates whether long-term anaesthesia confounds the results of ischaemia-reperfusion and the ZIGI model. In addition the benefits of using the analgesic buprenorphine were evaluated. Ischaemia was induced with a tourniquet around the hindlimb. Ischaemia and reperfusion were verified by imaging a radioactive tracer with a gamma-camera. It was established that anaesthesia with isoflurane in oxygen caused little perturbation of body temperature and respiratory rate. A survival rate of 89% without noteworthy influence on organs was obtained. Buprenorphine proved to provide adequate analgesia and had no influence on measured parameters. In our experimental setting, this model with long duration anaesthesia allowed us to induce ischaemia and reperfusion of the hindlimb without perturbation of measurements. It also allowed good exposure of the abdomen and facilitated combination with the ZIGI model.
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PMID:A method for long duration anaesthesia for a new hindlimb ischaemia-reperfusion model in mice. 917 12

We evaluated the effect of intravenous diltiazem infusion in 105 noncardiac surgical patients. Subjects were elective surgical patients with coronary artery disease and coronary risk factors which were hypertension (WHO standards), diabetes mellitus, hyperlipemia (total cholesterol > or = 220 mg.dl-1), obesity (body mass index : male > or = 26 kg.m-2, female > or = 25) and old age (70 years old or above). The prophylactic intravenous diltiazem infusion (1.0 micrograms.kg-1.min-1) was started immediately after induction of general anesthesia or epidural analgesia and continued until the end of operation. All patients were monitored by ST trend graph during anesthesia, and ischemia pattern was defined as > or = 1 mm ST changes and lasting over 1 min. Ischemic ST-T changes were noted in 4 cases in the operating room. ST depression was noted in 2 cases before starting anesthesia and these 2 cases showed improvement with diltiazem infusion lasting until the end of operation. ST-T changes were noted in 2 cases during surgery and these 2 cases showed improvement with diltiazem isosorbide dinitrate. We conclude that prophylactic intravenous diltiazem infusion may prevent ischemia during noncardiac surgery.
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PMID:[The effect of prophylactic intravenous diltiazem drip infusion on myocardial ischemia during noncardiac surgery]. 922 91

Coronary artery disease (CAD), arterial hypertension, chronic bronchitis and diabetes mellitus are the most frequently encountered diseases complicating the clinical course of the vascular patient. Clinical signs of cardiac or pulmonary disease are often absent in patients with decreased functional capacity due to claudication. For instance, clinical evidence of coronary artery disease was found in 36% of patients scheduled for different vascular surgical procedures, whereas coronary angiography revealed significant stenoses in as many as 53-68%. Patients with chronic hypertensive disease, coronary artery disease and increased impedance to left ventricular ejection due to atherosclerosis frequently develop impairment of left ventricular (LV) function. Even without clinical or radiological evidence, approximately 20-35% of vascular patients have a LV ejection fraction below 50% indicating impaired systolic LV function. The incidence of diabetes mellitus in vascular surgical patients is around 18%. When requiring insulin treatment, diabetes is an independent risk factor for postoperative ischemic events and congestive heart failure. Those with autonomic neuropathy are often asymptomatic as regards coronary artery disease. Coronary artery disease is responsible for over 50% of the immediate, medium- and long-term mortality and morbidity. Unstable myocardial ischemia, acute myocardial infarction which is detected by troponin I and ischemic pulmonary edema are the most common immediate postoperative cardiac complications. A large number of recent studies, using long-term ECG recording techniques, have allowed more accurate estimation of the incidence and time course of perioperative myocardial ischemia in vascular surgical patients. The highest incidence of ischemia when compared to daily life activities has been noted during the first two days after surgery but has been reported to remain elevated even 3-5 days after surgery. Interestingly, the incidence of intraoperative ischemia is lower than that observed during daily life. Knowledge of the etiology of perioperative myocardial infarction is essential if one is to improve cardiac outcome after vascular surgery. Many studies have addressed this important field in patients undergoing vascular surgery. They have documented a relationship between perioperative myocardial ischemia and postoperative myocardial infarction. Although postoperative myocardial infarctions are in most cases limited to endocardium (non Q wave infarction) they significantly reduce life expectancy of the vascular surgical patients. The reduction of cardiac risk following general surgery should focus on methods by which the incidence of myocardial ischemia, particularly during the postoperative period, could be reduced. These methods include intensive intraoperative analgesia or preventive administration of cardiovascular treatment which limit postoperative stress: alpha-2 agonists or betablocking agents. There are, at present, no studies which convincingly confirm an overall decreased mortality if coronary bypass surgery is performed prior to peripheral vascular surgery. Although it has been demonstrated that the mortality of the peripheral procedure is reduced to approximately one half, the mortality of a coronary bypass procedure in vascular surgical patients is five to eight times that recorded in a coronary artery bypass population without peripheral vascular disease. It remains to be shown if the use of coronary angioplasty prior to peripheral vascular surgery can provide a more satisfactory overall outcome. Several non-invasive techniques have been suggested to improve the identification of high-risk patients undergoing vascular surgery. These tests include exercise ECG, ambulatory ECG, dipyridamolethallium scintigraphy and determination of left ventricular ejection fraction by gated radionuclide imaging. (ABSTRACT TRUNCATED)
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PMID:[Physiopathologic introduction to anesthesia and resuscitation of the vascular patient]. 955 51

The pathophysiology of elevated intracranial pressure (ICP) is assessed from a three cerebral compartment model and from brain compliance. The mechanisms leading to elevated ICP (expanding process, cerebral edema, brain swelling, hydrocephalus) and their consequences (brain herniation, ischemia-anoxia phenomenon, Cushing reaction and neurogenic pulmonary edema) are overviewed. The causes of elevated ICP in children are reported with emphasis on traumatology. Diagnostic procedures include clinical assessment, fundoscopy, cerebral computerized tomography scan and specific problems of cerebrospinal fluid investigation. Methods and results of intracranial pressure monitoring are reported. The treatment of elevated ICP is based upon clinical follow-up and monitoring of ICP. General therapeutic rules consist of adequate position, suppression of any neck, skull and abdominal compression, stimuli limitation and fluid restriction. Specific treatments include mechanical ventilation, sedation and analgesia, barbiturates, anticonvulsant drugs, mannitol, corticosteroids, hypothermia, enteral nutrition, and antibiotics.
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PMID:[Intracranial hypertension in the infant: from its physiopathology to its therapeutic management]. 975 78

Internists are frequently asked to do preoperative consultations and to manage perioperative complications. Realistic goals are to identify patient factors that increase the risk of surgery, to quantify this risk in order to make decisions about the appropriateness of and timing of the surgery, to provide recommendations on how to minimize the risk, to identify and manage coexisting medical conditions and their associated medication requirements, to monitor the patient for perioperative problems, and to make recommendations to deal with these problems when they occur. With few exceptions, nonselective imaging and laboratory screening tests have repeatedly been shown to be of little value when the history and physical do not suggest a problem. The risk associated with the planned surgery can be estimated, with the most common serious complications being cardiac events. Updated versions of Goldman's risk indices are particularly helpful for this. Clinical variables are optimally combined with selective stress testing to discern which patients will benefit from preoperative revascularization. This has been studied best in the setting of vascular surgery. A critical guiding principle is that the value of revascularization must be judged in terms of long term gains rather than just immediate perioperative benefit. Other interventions include the selective use of beta blockers, adequate analgesia for all, control of hypertension, and appropriate volume management, especially in the settings of preexisting CHF or valvular disease. It must also be recognized that perioperative ischemia and CHF often present atypically. An approach that combines aspects of both the ACC/AHA and the ACP guidelines seems optimal. A variety of noncardiac issues must also be addressed. Postoperative pulmonary complications are common, especially with preexisting pulmonary disease, thoracic and upper abdominal surgery, and obesity. PFTs and ABGs are indicated in selected patients. Stopping smoking, incentive spirometry, and selective use of bronchodilators and antibiotics are helpful. Patients with rheumatologic diseases have specific concerns based on systemic manifestations of disease including anemia, thrombocytopenia, pulmonary fibrosis, pericarditis, and hypercoagulability; medication effects particularly from steroids and nonsteroidal anti-inflammatory drugs; and specific joint problems including contractures and atlantoaxial joint instability. Diabetes increases the risk of infection and cardiac complications. Prevention of ketoacidosis and glucose control are necessary and can be achieved through a variety of approaches, depending on whether the patient suffers from Type 1 or Type 2 diabetes. The threshold for transfusion has increased in recent years, as has the use of erythropoietin and autologous blood donation. There is no longer an absolute hemoglobin that requires transfusion, although most require transfusion for hemoglobins less than 8 mg/dL, especially in the setting of cardiac disease and bloody surgery. The elderly require surgery at an increased rate and often do not do as well as younger patients. The primary issues are, however, not their age but their increased frequency of underlying disease and diminished reserve. The latter makes them prone to postoperative delirium, sensitivity to medications, and cardiac and pulmonary problems. Despite the many diseases that patients often have and the stresses of surgery itself, modern anesthetic and surgical techniques allow almost all patients to undergo necessary procedures at acceptable risk. The internist plays a critical role in minimizing this risk even further.
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PMID:Recognition and management of preoperative risk. 1046 30

In the present study, we found that complement C3a exerted central effects after intracerebroventricular administration in mice. At doses of 3 and 10 pmol/mouse, the peptide showed an antagonistic effect on analgesia induced by morphine and U-50488H, known to be mu- and kappa-opioid receptor agonists, respectively. Moreover, complement C3a improved scopolamine- and ischemia-induced amnesia at a dose of 10 pmol/mouse. Anti-analgesia was not observed by C3a des-Arg at 10 pmol/mouse. The present findings suggest that complement C3a may act as a peptide with anti-opioid activity in the central nervous system.
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PMID:Anti-analgesic and anti-amnesic effect of complement C3a. 1105 63

Renal grafts from live donors represent an important source for transplantation of end stage renal failure patients. Postoperative short- and long-term comfort is essential. Laparoscopic nephrectomy was performed in 22 cases. The left kidney was preferred for optimal length of the vessels. One procedure was converted to open surgery because of venous bleeding. Warm ischemia time varied between 4 and 7.5 min. Urine production started peroperatively in all cases, and the renal function was excellent. Shoulder pain 1-3 days postoperatively was observed in seven patients; the rest were comfortable on peroral non-opioid analgesia. The patients were discharged at postoperative days 3-9, and returned to work 2-4 weeks later as compared to 4-8 weeks after open nephrectomy at our centre. Laparoscopic donor nephrectomy in the hands of experienced laparoscopic and transplant surgeons is a safe operation with less discomfort to the living kidney donor.
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PMID:Experience with laparoscopic donor nephrectomy at a European transplant centre. 1111 6

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