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1.
Toxin-induced cardiovascular failure.
Jang, DH, Spyres, MB, Fox, L, Manini, AF
Emergency medicine clinics of North America. 2014;(1):79-102
Abstract
Adverse cardiovascular events comprise a large portion of the morbidity and mortality in drug overdose emergencies. Adverse cardiovascular events encountered by emergency physicians treating poisoned patients include myocardial injury, hemodynamic compromise with shock, tachydysrhythmias, and cardiac arrest. Early signs of toxin-induced cardiovascular failure include bradycardia, tachycardia, and specific ECG findings. Treatment of toxicologic tachycardia relies on rapid supportive care along with proper use of benzodiazepines for sedation. Treatment of toxicologic bradycardia consists of the use of isotonic fluids, atropine, calcium salts, and glucagon. High-dose insulin euglycemia should be used early in the course of suspected severe poisoning and intravenous lipid emulsion given to patients who suffer cardiac arrest.
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2.
Inhaled magnesium sulfate in the treatment of acute asthma.
Powell, C, Dwan, K, Milan, SJ, Beasley, R, Hughes, R, Knopp-Sihota, JA, Rowe, BH
The Cochrane database of systematic reviews. 2012;:CD003898
Abstract
BACKGROUND Asthma exacerbations can be frequent and range in severity from relatively mild to status asthmaticus. The use of magnesium sulfate (MgSO(4)) is one of numerous treatment options available during acute exacerbations. While the efficacy of intravenous MgSO(4) has been demonstrated, little is known of the role of inhaled MgSO(4). OBJECTIVES To determine the efficacy of inhaled MgSO(4) administered in acute asthma on pulmonary functions and admission rates. SPECIFIC AIMS To quantify the effects of inhaled MgSO(4) i) in addition to inhaled β(2)-agonist, ii) in comparison to inhaled β(2)-agonist alone or iii) in addition to combination treatment with inhaled β(2) -agonist and ipratropium bromide. SEARCH METHODS Randomised controlled trials were identified from the Cochrane Airways Group register of trials in September 2012. These trials were supplemented with trials found in the reference list of published studies, studies found using extensive electronic search techniques, as well as a review of the grey literature and conference proceedings. SELECTION CRITERIA Randomised (or pseudo-randomised) controlled trials including adults or children with acute asthma were eligible for inclusion in the review. Studies were included if patients were treated with nebulised MgSO(4) alone or in combination with β(2)-agonist and/or ipratropium bromide and were compared with β(2)-agonist alone or inactive control. DATA COLLECTION AND ANALYSIS Trial selection, data extraction and risk of bias were assessed independently by two review authors. Efforts were made to collect missing data from authors. Results are presented as standardised mean differences (SMD) for pulmonary function and risk ratios (RR) for hospital admission; both are displayed with their 95% confidence intervals (CI). MAIN RESULTS Sixteen trials (21 references) of unclear and high risk of bias were eligible and included 896 patients who were randomised (838 patients completed). Seven of the 16 included studies involved adults exclusively, three included adults and paediatric patients, four studies enrolled paediatric patients and in the remaining two studies the age of participants was not stated.The design, definitions, intervention and outcomes were different in all 16 studies; this heterogeneity made direct comparisons difficult (see additional tables 1-3).The overall risk of bias among the included studies was variable and this is reflected in the 'Summary of findings' table with most outcomes being judged as only moderate or less.Inhaled magnesium sulfate in addition to inhaled β(2)-agonistThere was no statistically significant improvement in pulmonary function when inhaled MgSO(4) and β(2)-agonist was compared with β(2)-agonist alone (SMD 0.23; 95% CI -0.27 to 0.74; three studies, n = 188); however, there was considerable between study heterogeneity. There was no clear advantage in terms of hospital admissions (RR 0.76 95% CI 0.49, 1.16; four studies, n = 249), and there were no serious adverse events reported.Inhaled magnesium sulfate versus inhaled β(2)-agonistThe results of pulmonary function in three studies that compared inhaled MgSO(4) versus β(2)-agonist were too heterogeneous to combine; however, two of the studies found poorer lung function on MgSO(4). There was no significant difference in terms of hospital admissions in a single small study when MgSO(4) was compared to β(2)-agonist (RR 0.53 95% CI 0.05, 5.31; one study, n = 33), and there were no serious adverse events reported.Inhaled magnesium sulfate in addition to inhaled β(2)-agonist and ipratropiumA further comparison has been included in the 2012 update of this review of MgSO(4) given in addition to inhaled ipratropium and β(2)-agonist therapy (as recommended by the GINA guidelines). However, there is not yet enough data for this outcome to come to any definite conclusions, but both small studies in adults with severe asthma exacerbation found improvements in pulmonary function with additional inhaled MgSO(4). AUTHORS' CONCLUSIONS There is currently no good evidence that inhaled MgSO(4) can be used as a substitute for inhaled β(2)-agonists. When used in addition to inhaled β(2)-agonists (with or without inhaled ipratropium), there is currently no overall clear evidence of improved pulmonary function or reduced hospital admissions. However, individual study results from three trials suggest possible improved pulmonary function in those with severe asthma exacerbations (FEV1 less than 50% predicted). Heterogeneity among trials included in this review precludes a more definitive conclusion. Further studies should focus on inhaled MgSO(4) in addition to the current guideline treatment for acute asthma (inhaled β(2) -agonist and ipratropium bromide). As the evidence suggests that the most effective role of nebulised MgSO(4) may be in those with severe acute features and this is where future research should be focused. A set of core outcomes needs to be agreed upon both in adult and paediatric studies to allow improved study comparison in future.
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3.
Exercise-induced bronchoconstriction and asthma.
Dryden, DM, Spooner, CH, Stickland, MK, Vandermeer, B, Tjosvold, L, Bialy, L, Wong, K, Rowe, BH
Evidence report/technology assessment. 2010;(189):1-154, v-vi
Abstract
OBJECTIVES The objectives are: (1) To assess diagnostic test characteristics of six alternative index tests compared with the selected reference standard-a standardized exercise challenge test (ECT) in patients with suspected exercise-induced bronchoconstriction or asthma (EIB/EIA); (2) to determine the efficacy of a single prophylactic dose of four pharmacologic and one nonpharmacologic interventions vs. placebo to attenuate EIB/EIA in patients with diagnosed EIB/EIA; and (3) to determine if regular daily treatment with short-acting or long-acting beta-agonists (SABA or LABA) causes patients with EIA to develop tachyphylaxis when additional prophylactic doses are used pre-exercise. DATA SOURCES A systematic and comprehensive literature search was conducted in 14 electronic databases (Diagnosis) and the Cochrane Airways Register (Therapy). REVIEW METHODS Study selection, quality assessment, and data extraction were conducted independently by two reviewers. The primary outcome was the maximum percent fall in the post-exercise forced expiratory volume in 1 second (percent fall FEV1). The diagnostic threshold for a positive ECT was a percent fall FEV1 of 10% or more. Sensitivity (SN) and specificity (SP) were calculated. For therapy, mean differences (MD) in the percent fall FEV1 and 95% confidence intervals (CI) (random effects model) were calculated. A positive MD indicates the intervention works better than the control. RESULTS For the diagnostic reviews, 5,318 citations yielded 28 relevant studies; for the therapy reviews, 1,634 citations yielded 109 relevant RCTs. Diagnostic test results versus ECT: self-reported history (2 studies) SN=36-8 percent; SP=85-86 percent; sport specific challenges (5 studies) SN=0-100 percent, SP=0-100 percent; eucapnic voluntary hyperpnea (7 studies) SN=25-90 percent, SP=0-71 percent; free running asthma screening test (3 studies) SN=60-67 percent, SP=47-67 percent; mannitol (3 studies) SN=58-96 percent, SP=65-78 percent. All SN and SP calculations indicated substantial heterogeneity that could not be explained by sensitivity or subgroup analyses. Therapy results: SABA offered greater protection than mast cell stabilizers (MCS) (12 studies); MD=6.8 (95 percent CI: 4.5, 9.2) but combining them offered no additional benefit; SABA versus MCS plus SABA (5 studies) MD=1.3 (95 percent CI: -6.3, 8.9). Leukotriene receptor antagonists (LTRA), MCS, ipratropium bromide, and interval warmup routines provided statistically significant attenuation of EIA when compared with placebo; inhaled corticosteroids (ICS) and other warmup routines did not. Single-dose intervention versus placebo results are: LTRA (9 studies) MD=8.9 (95 percent CI: 6.9, 11.0); MCS (nedocromil sodium) (17 studies) MD=15.6 (95 percent CI: 13.2, 18.2); interval warmup versus no warmup (4 studies) MD=10.6 (95 percent CI: 6.5, 14.7); ICS (4 studies) MD=5.0 (95 percent CI: 0.0, 9.9); continuous low intensity warmup versus no warmup (3 studies) MD=12.6 (95 percent CI: -1.5, 26.7); continuous high intensity warmup versus no warmup (2 studies) MD=9.8 (95 percent CI: -6.4, 26.0). After daily LABA (salmeterol) use for 3 to 4 weeks (4 studies), the percent fall FEV1 following an ECT at 2 and 4 weeks was greater than at day 1 in the LABA arm indicating that tachyphylaxis to prophylactic LABA use occurred. Daily SABA use for 1 week (1 study) also indicated development of tachyphylaxis. However, both LABA and SABA continued to have an attenuating effect on EIA. CONCLUSIONS Given the small number of studies comparing EIB/EIA diagnostic tests, the heterogeneity of the study populations, and the varied study methodologies, there is no clear evidence that any of the index tests are a suitable replacement for a standardized ECT to diagnose EIB/EIA in the general population. All bronchodilator agents and most anti-inflammatory agents when used as pretreatment are somewhat effective in attenuating the percent fall FEV1 associated with EIA.
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4.
Review article: management of acute severe and near-fatal asthma.
Holley, AD, Boots, RJ
Emergency medicine Australasia : EMA. 2009;(4):259-68
Abstract
Despite a decline in the Australian overall asthma mortality, near-fatal/critical asthma continues to be a significant management issue for emergency physicians and intensivists. Near-fatal asthma is a unique subtype of asthma, with a variety of clinical presentations, requiring rapid and aggressive intervention. The pharmacological and non-pharmacological management of near-fatal asthma remains very complex. The present review discusses recent advances and evidence for current available strategies targeting this time critical emergency.
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5.
Acute tocolysis for uterine activity reduction in term labor: a review.
de Heus, R, Mulder, EJ, Derks, JB, Visser, GH
Obstetrical & gynecological survey. 2008;(6):383-8; quiz 405
Abstract
This review critically evaluates the efficacy of different tocolytics in reducing uterine pressure and contractions in term labor. The available evidence supports the use of beta-adrenergic-receptor agonists such as terbutaline or ritodrine; they appear to have an immediate and comparable profound effect on uterine activity in term labor. However, the preferred type of beta-adrenergic receptor agonist and dosage are unclear. The oxytocin receptor antagonist atosiban has a high specificity for the uterus with limited or no systemic effects and could therefore be an attractive alternative for use in term labor. The evidence on the tocolytic potency of a single bolus of atosiban for tocolysis in term labor is encouraging but limited and needs further research. Moreover, atosiban lacks United States Food and Drug Administration approval. Literature documenting efficacy and safety of nitroglycerin or magnesium sulfate in term labor is far from convincing. The theoretical basis for the use of tocolytics for nonreassuring intrapartum fetal heart rate patterns is to reduce the aggravating influence of uterine contractions. However, the clinical evidence that tocolytics in term active labor are actually beneficial in improving neonatal outcome is very limited.
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6.
Emerging drugs for treatment of overactive bladder and detrusor overactivity.
Drake, MJ
Expert opinion on emerging drugs. 2008;(3):431-46
Abstract
BACKGROUND Overactive bladder (OAB) signifies the presence of urinary urgency and can have major effects on quality of life and social functioning. Standard antimuscarinic drugs have good initial response rates but substantial adverse effects and long-term compliance problems. OBJECTIVES To review the complexities of the mechanisms underlying OAB and the current drugs available for treating its symptoms. METHODS The literature was reviewed to define current therapies and drugs in clinical trials. Articles were identified by means of a computerised PubMed and Cochrane Library search (using the following keywords: overactive bladder, detrusor overactivity, urgency and bladder), supported by a search of the PharmaProjects database. CONCLUSIONS New drug classes, such as beta-3 adrenergic agonists, may work by reducing contractility or excitability of bladder muscle. Moderation of afferent activity may allow improved OAB symptoms, with lower risk of affecting voiding function. Agents acting on the CNS could influence OAB favourably, but target selection and adverse effects are an issue. The recognition of the functional contribution of the urothelium and the diversity of nerve transmitters has sparked interest in both peripheral and central modulation of OAB pathophysiology.
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7.
Medical therapy for chronic obstructive pulmonary disease in 2007.
Ingenito, EP
Seminars in thoracic and cardiovascular surgery. 2007;(2):142-50
Abstract
Medical treatment for patients with stable chronic obstructive pulmonary disease (COPD) has evolved significantly over the past 2 decades. Current World Health Organization recommendations suggest a stepwise approach to therapy depending upon disease severity. As-needed use of short-acting bronchodilators is recommended for patients with mild disease. Scheduled dosing of bronchodilators is recommended for patients with more advanced disease. Inhaled beta-agonists and anti-cholinergic agents in combination have proved to be more effective than either agent alone. Long-acting preparations are associated with better disease control and have not been associated with tachyphylaxis. Inhaled corticosteroids are useful for reducing the frequency of exacerbations in patients who experience one or more episodes per year. Oxygen therapy is clearly beneficial in patients with advanced COPD and chronic respiratory failure, and its potential benefits in less severe disease are currently being studied. Pulmonary rehabilitation benefits patients with mild-to-severe disease, although the greatest benefits have been demonstrated in those with moderate COPD. New ultra-long-acting inhaled bronchodilators, phosphodiesterase inhibitors, protease inhibitors, and retinoids intended to promote tissue regeneration are currently being evaluated in clinical trials as future therapeutic agents.
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8.
Selective beta-adrenoceptor agonists, calcium antagonists and potassium channel openers as a possible medical treatment of the overactive bladder and urge incontinence.
Badawi, JK, Langbein, S
Die Pharmazie. 2006;(3):175-8
Abstract
Urinary incontinence affects millions of people worldwide and also represents a social problem. People of all ages suffer from urinary incontinence. The disease is found in about 30% of women aged 30 to 60 years. There are different types of incontinence. Urge incontinence is the most often pharmacologically treated type. The mainly used substances belong to the class of antimuscarinic drugs. Their use is limited by several side effects. Furthermore, in some patients anticholinergic medication is ineffective and antimuscarinics used as single medication do not lead to a sufficient therapeutic effect. Other possible pharmacological substances for treatment of overactive bladder (detrusor instability) associated with urge and urge incontinence are the selective beta-adrenoceptor-agonists which are mainly responsible for the adrenergic mediated relaxation. It depends on the species, which beta-adrenoceptor-subtype (the beta2- and/or beta3-adrenoceptor) mainly mediates the relaxation. Non selective beta-adrenoceptor-agonists exhibit serious cardiovascular side effects like tachycardia or decrease of blood pressure by stimulating beta1- and beta2-adrenoceptors. These side effects should be decreased when using selective agonists. Additionally, substances whose targets are membrane channels of muscle cells could be interesting for treatment of overactive bladder. This group includes L-type calcium antagonists and potassium channel openers of ATP-sensitive potassium channels or BK channels. Especially the local use of the pharmacologically very potent calcium antagonists could be an interesting therapeutic approach, since systemic cardiovascular side effects were avoided. After chronic oral treatment with different calcium antagonists effects on the detrusor muscle were reduced or could not be detected, possibly due to an upregulation of 1,4-dihydropyridine-sensitive potassium channels. A very interesting approach is the use of potassium channel openers said to be selective for the urinary bladder. If there is a selectivity for the detrusor muscle, cardiovascular side effects were reduced. Possibly, the local use is a useful application form. Selective beta-adrenoceptor agonists, calcium antagonists and potassium channel openers are pharmacological approaches, which are not yet available for clinical use.
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9.
Current issues with beta2-adrenoceptor agonists: pharmacology and molecular and cellular mechanisms.
Anderson, GP
Clinical reviews in allergy & immunology. 2006;(2-3):119-30
Abstract
Beta2-adrenoceptors are widely, almost ubiquitously, expressed. Activation of these receptors on bronchial smooth muscle by short- and long-acting beta2-adrenoceptor agonists causes bronchodilation. Here, the beta2-adrenoceptor is linked by the G protein, Gs, to adenylyl cyclase, which increases cyclic adenosine monophosphate (cAMP), thus activating protein kinase A, which affects calcium levels and reduces the efficiency of myosin light-chain kinase, causing relaxation. Activation also entrains numerous acute and longer term downregulation responses affecting the number, location, and net efficiency of signaling of the receptor. Synthetic beta2-agonists are all "partial agonists," incompletely able to optimally stimulate cAMP signal transduction. However, compared with some cells (such as mast cells) involved in exercise- induced asthma induction, airway smooth muscle is privileged in that transduction efficiency is intrinsically high and the tissue is very resistant to complete downregulation. Glucocorticosteroids have broadly beneficial interactions with beta2-adrenoceptors. Researchers have recently discovered that the beta2-adrenoceptor may function as a homodimer and that it can form heterodimers with both the beta1- and beta3-adrenoceptors, and possibly other receptors. This further complicates interpretation of the effect of beta2-adrenoceptor polymorphisms, but it is unknown whether this occurs in humans in vivo. Researchers have known for some time that strong contraction involving receptors coupled to the Gq G protein (e.g., cholinergic and leukotriene receptors via negative biochemical crosstalk), virus infection (via uncoupling), and inflammation (via kinases) can impair relaxation. Most recently, researchers have discovered that the beta2-adrenoceptor can also send potentially adverse signals after "atypical coupling" to Gq rather than Gs. The clinical implications of these uncouplings, crosstalk, and atypical coupling possibilities are not well-understood.
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10.
Inhaled magnesium sulfate in the treatment of acute asthma.
Blitz, M, Blitz, S, Beasely, R, Diner, BM, Hughes, R, Knopp, JA, Rowe, BH
The Cochrane database of systematic reviews. 2005;(3):CD003898
Abstract
BACKGROUND Asthma exacerbations can be frequent and range in severity from relatively mild to status asthmaticus. The use of magnesium sulfate (MgSO4) is one of numerous treatment options available during acute exacerbations. While the efficacy of intravenous MgSO4 has been demonstrated, little is known about inhaled MgSO4. OBJECTIVES To examine the efficacy of inhaled MgSO4 in the treatment asthma exacerbations. SEARCH STRATEGY Randomised controlled trials were identified from the Cochrane Airways Group "Asthma and Wheez*" register. These trials were supplemented with trials found in the reference list of published studies, studies found using extensive electronic search techniques, as well as a review of the gray literature and conference proceedings. SELECTION CRITERIA Randomised (or pseudo-randomised) controlled trials were eligible for inclusion. Studies were included if patients were treated with nebulised MgSO4 alone or in combination with beta(2)-agonist and where compared to beta2-agonist alone or inactive control. DATA COLLECTION AND ANALYSIS Trial selection, data extraction and methodological quality were assessed by two independent reviewers. Efforts were made to collect missing data from authors. Results from fixed effects models are presented as standardized mean differences (SMD) for pulmonary functions and relative risks (RR) for hospital admission; both are displayed with their 95% confidence intervals (95% CI). MAIN RESULTS Six trials involving 296 patients were included. Four studies compared nebulised MgSO4 with beta2-agonist to beta2-agonist and two studies compared MgSO4 to beta2-agonist alone. Three studies enrolled only adults and 2 enrolled exclusively pediatric patients; three of the studies enrolled severe asthmatics. Overall, there was a significant difference in pulmonary function between patients whose treatments included nebulised MgSO4 in addition to beta2-agonist (SMD: 0.30; 95% CI: 0.03 to 0.56; 4 studies); however, hospitalizations were similar between the groups (RR: 0.69; 95% CI: 0.42 to 1.12; 3 studies). Subgroup analyses did not demonstrate significant differences in lung function improvement between adults and children, but were significantly different between severe and mild to moderate asthmatics (SMD: 0.69; 95% CI 0.13 to 1.25). Conclusions regarding treatment with nebulised MgSO4 alone are difficult to draw due to lack of studies in this area. AUTHORS' CONCLUSIONS Nebulised inhaled magnesium sulfate in addition to beta2-agonist in the treatment of an acute asthma exacerbation, appears to have benefits with respect to improved pulmonary function and there is a trend towards benefit in hospital admission. The benefit is significantly greater in more severe asthma exacerbations. Heterogeneity between trials included in this review precludes a more definitive conclusion.