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1 olinergic receptors in the bladder (known as anticholinergics).
2 ntipsychotics, sedative-hypnotics, or strong anticholinergics).
3 tilation, and receipt of benzodiazepines and anticholinergics.
4 ojections, as produced by septal infusion of anticholinergics.
5 nd treatment centred on early institution of anticholinergics.
6 clinical trials on cognition with other OAB anticholinergics.
7 mpared with $9.78 (95% CI, $9.16-$10.42) for anticholinergics.
8 nasal decongestant, saline douches and nasal anticholinergics.
9 rected] of the patients treated with inhaled anticholinergics (2.1%) and 108 [corrected] of the contr
10 atients (1.9%) [corrected] receiving inhaled anticholinergics and 83 of 6661 [corrected] patients (1.
11 s between short-term cognitive safety of OAB anticholinergics and the long-term increased dementia ri
13 ee classes of bronchodilators-beta agonists, anticholinergics, and theophylline-are available and can
15 These studies provided good evidence that anticholinergics are effective at improving both urodyna
16 consists of medical therapy, primarily with anticholinergics as well as behavioral therapy to modify
17 response to botulinum toxin is not adequate, anticholinergics, benzodiazepines, baclofen and other me
18 dase type B inhibitors [MAOBIs], amantadine, anticholinergics, beta-blockers, or dopamine agonists) m
20 s and medications including corticosteroids, anticholinergics, certain antidepressants, and topiramat
21 rent autonomic failure; dramatic response to anticholinergics; early or atypical L-dopa-induced dyski
22 veractive bladder detrusor muscle, including anticholinergics (eg, trospium) and beta3 agonists (eg,
23 evidence on the effectiveness and safety of anticholinergics for male lower urinary tract symptoms.
24 esting in children; enuresis topics included anticholinergics for treating monosyptomatic enuresis re
27 tistically significantly more effective than anticholinergics in achieving cure or improvement (high
30 nd new or broadened indications for existing anticholinergics, in treating the overactive bladder in
31 QSAR) study is presented for quaternary soft anticholinergics including two distinctly different clas
33 ose with detrusor overactivity refractory to anticholinergics, is, however, evidenced increasingly.
34 lly evaluation of various inhaled therapies (anticholinergics, long-acting beta-agonists, and cortico
35 ation inhaled therapies (long-acting inhaled anticholinergics, long-acting inhaled beta-agonists, or
36 antihistamines, metoclopramide, domperidone, anticholinergics, loop diuretics, urologics, and ophthal
37 acting anticholinergics (n = 7), long-acting anticholinergics (n = 10), long-acting beta2-agonists (n
38 CTs examined inhaled therapies: short-acting anticholinergics (n = 7), long-acting anticholinergics (
39 pain control, minimizing benzodiazepines and anticholinergics, normalizing the sleep-wake cycle, prov
40 tention, because of the inhibitory effect of anticholinergics on bladder contraction in the presence
42 Pharmacologic interventions include use of anticholinergics or antipsychotic medications for dement
43 monotherapy using either long-acting inhaled anticholinergics or long-acting inhaled beta-agonists fo
44 ulation, high-risk ingestion, coingestion of anticholinergics or opioids, age younger than 6 years, p
47 T3 receptor antagonists, antihistamines, and anticholinergics reduce the incidence of PONV, whereas m
50 components of the primary end point, inhaled anticholinergics significantly increased the risk of MI
52 therapy with inhaled beta-agonists, inhaled anticholinergics, systemic corticosteroids, and intraven
53 ), phosphodiesterase inhibitors (tadalafil), anticholinergics (trospium), and beta3 agonists (mirabeg
54 MI, or stroke (2.9% of patients treated with anticholinergics vs 1.8% of the control patients; RR, 1.