PURPOSE: To investigate the role of muscarinic receptors in bladder sensory mechanism. MATERIALS AND METHODS: Normal adult volunteers collected voided urine after taking five days of trospium(20 mg bid), tolterodine LA(4 mg qd) and oxybutynin XL(10 mg qd). The effect of intravesical administration of human urine on carbachol-induced bladder overactivity was studied in female Sprague-Dawley rats. Cystometric parameters during continuous infusion for over one hour each of saline, human urine, then mixture of carbachol and human urine were compared(n=6 in each group). Then 0.1 and 0.5microgram/ml of oxybutynin, trospium, tolerodine, and dimethindene were studied with the same methods. RESULTS: Human urine with or without intake of antimuscarinic agents had no effect on normal bladder function. Bladder capacity and intercontraction intervals were significantly decreased after an addition of carbachol to human urine containing vehicle, tolterodine or oxybutynin. Human urine after ingestion of trospium, however, prevented the carbachol-induced reduction in bladder capacity and intercontraction intervals. Maximum voiding pressure and pressure threshold were not changed in any case. 0.1 and 0.5microgram/ml of oxybutynin, trospium, tolerodine, and dimethindene prevented the decrease of intercontraction interval with intravesical carbachol(65+/-0.1% compared with baseline). CONCLUSION: The excreted urine after oral ingestion of 20 mg bid of trospium has a significant inhibitory effect in a rat model of detrusor overactivity. Intravesical instillation of antimuscarinic agents at clinically meaningful concentrations also suppressed carbachol-induced bladder overactivity. Antimuscarinic agents may be effective in treating bladder overactivity, not only by suppression of muscarinic receptor-mediated detrusor muscle contraction, but also by blocking muscarinic receptors in bladder-afferent pathways.
Administration, Intravesical ; Adult ; Carbachol ; Dimethindene ; Eating ; Female ; Humans ; Models, Animal ; Muscarinic Antagonists* ; Muscle Contraction ; Rats, Sprague-Dawley ; Receptors, Muscarinic* ; Urinary Bladder* ; Urinary Bladder, Overactive ; Volunteers ; Tolterodine Tartrate

Overactive bladder (OAB) is a symptom-driven condition characterized by urinary urgency with or without urinary incontinence and a common problem that can significantly affect quality of life. Drugs that prevent acetylcholine-mediated involuntary detrusor contractions are the mainstay of OAB treatment, but several alternative therapeutic options have become established treatments for OAB. Mirabegron (a β3-adrenoceptor agonist) has a different mechanism of action from antimuscarinic agents. Recently published randomized controlled trials have shown that mirabegron is an effective and safe drug for the symptomatic treatment of OAB patients. Mirabegron represents a valid option both for patients with OAB who are antimuscarinics treatment-naïve, as well as for those who are unresponsive or intolerant to antimuscarinics. Intravesical injection of botulinum toxin A is an effective treatment for OAB that is refractory to antimuscarinics. Treatment with botulinum toxin A showed clinically relevant improvement in all OAB symptoms and health-related quality of life. It was generally well tolerated by most patients, and most treatment-related complications were acceptable. However, increased risk of a larger volume of post-void residual urine was noted in several patients and the possibility of chronic catheterization requires careful evaluation before treatment. In sum, recent options for management of OAB, mirabegron and intravesical injection of botulinum toxin A, expand the treatment options for the optimal treatment of each patient.
Administration, Intravesical ; Botulinum Toxins* ; Catheterization ; Catheters ; Drug Therapy* ; Humans ; Muscarinic Antagonists ; Quality of Life ; Urinary Bladder, Overactive* ; Urinary Incontinence

PURPOSE: We investigated the effect of oral or intravenous tolterodine on cystometric parameters in awake spontaneously hypertensive rats (SHRs) as a model of overactive bladder (OAB). The aim of our study was to observe the experimental conditions required to reproduce the clinical pharmacological effects of tolterodine, as seen in humans, to decrease bladder pressure or increase bladder capacity. MATERIALS AND METHODS: We studied the effects of the most widely used antimuscarinic drug, tolterodine, on cystometric parameters via two different administrations (oral and intravenous) in awake SHRs. RESULTS: Oral administration of tolterodine 10 mg/kg(-1) body weight in awake rats did not change any cystometric parameters significantly. Intravenous administration of tolterodine 0.3 mg/kg(-1) body weight significantly decreased basal pressure (BP) and micturition pressure (MP), but showed no effect on micturition interval (MI) or bladder capacity (BC). CONCLUSION: Despite a high dose of tolterodine via an oral or an intravenous route, a decrease in BP or MP was the only effect on cystometrographic parameters in awake rats, whereas MI and BC were not significantly affected. Therefore, it is difficult to reproduce in awake rats as an acute response the cystometric increase in the MI that is observed in humans after chronic administration of antimuscarinic agents.
Administration, Intravenous* ; Administration, Oral ; Animals ; Body Weight ; Humans ; Muscarinic Antagonists ; Rats ; Rats, Inbred SHR* ; Urinary Bladder ; Urinary Bladder, Overactive* ; Urination ; Tolterodine Tartrate

OBJECTIVETo observe the therapeutic effect of tiotropium bromide powder inhalation on stable bronchiectasis.

METHODSTwenty-two patients with stable bronchiectasis received inhalation of totropium bromide powder at the daily dose of 18 microg, and on days 1 and 28, the patients were examined for forced expiratory volume in one second (FEVl), predicted value [FEVl(%)], forced expiratory volume (FEV), and FEVl/FVC. The symptom score and BODE index were also recorded.

RESULTSAfter 1 month of inhalation therapy, the FEV1% of the patients showed a moderate increase but the increment was not statistically significant (t=-1.875, P>0.05); the symptom score and BODE index decreased significantly after the therapy (t=7.091, P<0.001; t=2.982, P<0.05).

CONCLUSIONLong-term inhalation of tiotropium bromide powder can improve the clinical symptoms and BODE index and enhance the exercise tolerance and quality of life of the patients with bronchiectasis.

Administration, Inhalation ; Adult ; Aged ; Bronchiectasis ; drug therapy ; Female ; Forced Expiratory Volume ; Humans ; Male ; Middle Aged ; Powders ; Receptor, Muscarinic M3 ; antagonists & inhibitors ; Scopolamine Derivatives ; administration & dosage ; Tiotropium Bromide

Objective: To study the dosage regimen of oral M-receptor blocker following transurethral resection of the prostate (TURP) for severe benign prostate hyperplasia (BPH) with predominant urine storage period symptoms (USPSs) and its clinical effect. METHODS: Severe BPH patients with predominant USPSs received oral tolterodine (2 mg q12d or 4 mg qd) 6 hours after TURP for 4 weeks. The medication continued for another 2 weeks in case of recurrence of USPSs or until the 12th week in case of repeated recurrence. Before and at 1, 4, 8 and 12 weeks after TURP, we analyzed the International Prostate Symptoms Score (IPSS), quality of life (QoL) score, maximum urinary flow rate (Qmax), and postvoid residual volume (PVR) of the patients. RESULTS: Complete clinical data were collected from 106 cases, of which 33 achieved successful drug withdrawal with no aggravation of USPSs at 4 weeks after TURP, 51 at 6－8 weeks, 13 at 10－12 weeks, and 9 needed medication after 12 weeks. Before and at 1, 4, 8 and 12 weeks after TURP, the total IPSSs were 25.33 ± 3.45, 19.33 ± 3.62, 11.56 ± 2.45, 8.38 ± 2.0 and 7.74 ± 1.87, those in the urine storage period were 11.97 ± 1.53, 10.76 ± 1.82, 6.16 ± 1.22, 4.08 ± 1.19 and 3.91 ± 1.15, those at urine voiding were 9.80 ± 1.60, 5.59 ± 1.45, 3.40 ± 0.92, 2.85 ± 0.71, and 2.61 ± 0.67, and the QoL scores were 4.70 ± 0.78, 3.92 ± 0.75, 2.55 ± 0.74, 1.83 ± 0.72 and 1.66 ± 0.75, respectively, with statistically significant differences between the baseline and the scores at 1 and 4 weeks (P <0.01) but not at 8 or 12 weeks (P >0.05). Qmax and PVR were improved progressively and significantly at 1 and 4 weeks (P <0.01) but not at 8 or 12 weeks (P >0.05). CONCLUSIONS Four to eight weeks of oral administration of M-receptor blocker may be an effective dosage regimen for severe BPH with predominant USPSs after TURP.
Administration, Oral ; Clinical Protocols ; Drug Administration Schedule ; Humans ; Male ; Muscarinic Antagonists ; administration & dosage ; Postoperative Care ; Prostatic Hyperplasia ; drug therapy ; surgery ; Quality of Life ; Recurrence ; Tolterodine Tartrate ; administration & dosage ; Transurethral Resection of Prostate ; Treatment Outcome ; Urination ; Urological Agents ; administration & dosage

Urinary incontinence (UI) has been a serious health problem which can significantly affect quality of life. UI may occur at any age but more common in the elderly population. Many conditions may leak to UI and differential diagnosis is critical to guide appropriate manage strategy. After a brief description of the pathophysiology, classification, and diagnostic evaluation of UI, this review highlights oral pharmacological therapy mainly in clinical point of view. For urge UI, antimuscarinic are the most commonly used medication supported with high level of evidence. Antimuscarinics competitively block muscarinic receptors with variations in selectivity for the different subtypes. Common adverse effects are dry mouth, constipation, and blurred vision. High caution for cognitive function should be applied in the use of antimuscarinics in the elderly. Mirabegron, a beta3-agonist, is a new class of drug targeting urge UI, which reported similar efficacy with antimuscarinics and favorable adverse effect profile. For stress UI, various type of medications have been clinically investigated but so far none showed satisfactory resolution of stress UI. Duloxetine is the only medication approved for stress UI in European countries but not in US Food and Drug Administration and Korean Food and Drug Administration due to low benefit-risk profile for UI. Conclusively, pharmacological therapy should be tailored to the type of UI. Recent options of medications may give further treatment possibilities for the optimal treatment for each patient.
Aged ; Classification ; Constipation ; Diagnosis, Differential ; Drug Delivery Systems ; Duloxetine Hydrochloride ; Humans ; Medication Therapy Management ; Mouth ; Muscarinic Antagonists ; Quality of Life ; Receptors, Muscarinic ; United States Food and Drug Administration ; Urinary Incontinence* ; Urinary Incontinence, Stress ; Urinary Incontinence, Urge

PURPOSE: Adenosine triphosphate (ATP) from the urothelium acts as a sensory neurotransmitter and is augmented in many diseases, such as overactive bladder. We investigated the effects of intravesical instillation of oxybutynin on ATP-induced bladder overactivity to determine whether this effect is mediated by effects on urothelial muscarinic receptors. MATERIALS AND METHODS: Cystometry (at rate of 0.04 ml/min) was performed in female Sprague-Dawley rats (body weight 250 g) under urethane anesthesia (1.2 g/kg). After a 2-hour baseline period, protamine sulfate (10 mg/ml) was instilled for 1 hour, and then ATP (60 mM, pH 6.0) or a mixture of oxybutynin (10(-6) M) and ATP (60 mM, pH 6.0) was instilled intravesically. We performed experiments with 4-diphenylacetoxy-N-methylpiperidine methobromide (4-DAMP) and methoctramine by the same methods. Cystometric parameters, such as the intercontraction interval (ICI), pressure threshold (PT), and maximal voiding pressure (MVP), were compared. RESULTS: With intravesical instillation of ATP after protamine sulfate treatment, the ICI was decreased compared with baseline (ICI: baseline, 487.1+/-64.8 s; protamine, 450.6+/-56.1 s; ATP, 229.7+/-35.3 s; p<0.05). Addition of oxybutynin, 4-DAMP, or methoctramine in the ATP solution did not significantly change the ICI compared with ATP solution alone (ICI: oxybutynin, 189.1+/-32.3 s; 4-DAMP, 161.1+/-22.8 s; methoctramine, 341.0+/-113.3 s; p>0.05). Intravesical instillation of ATP decreased MVP and PT significantly compared with baseline, but MVP and PT were not changed significantly with oxybutynin, 4-DAMP, or methoctramine compared with ATP. CONCLUSIONS: Bladder overactivity induced by intravesical instillation of ATP was not suppressed by intravesical instillation of antimuscarinics. Suppression of ATP-induced bladder overactivity by intravenous oxybutynin is not mediated by urothelial muscarinic receptors.
Adenosine ; Adenosine Triphosphate ; Administration, Intravesical ; Anesthesia ; Animals ; Diamines ; Female ; Humans ; Hydrogen-Ion Concentration ; Mandelic Acids ; Muscarinic Antagonists ; Neurotransmitter Agents ; Piperidines ; Polyphosphates ; Protamines ; Rats ; Rats, Sprague-Dawley ; Receptors, Muscarinic ; Urethane ; Urinary Bladder ; Urinary Bladder, Overactive ; Urothelium

The study aims to elucidate the characteristics of pharmacokinetics of scopolamine hydrobromide oral disintegrative microencapsule tablets in healthy Beagle dogs. Chromatographic separation was performed on a C18 column (100 mm x 3.0 mm, 3.5 microm) with methanol - 2 mmol x L(-1) ammonium formate (25 : 75) as the mobile phase. A trip-quadrupole tandem mass spectrum with the electrospray ionization (ESI) source was applied and positive ion multiple reaction monitoring mode was operated. Six Beagle dogs were randomly devided into two groups. They received oral single dose of scopolamine hydrobromide oral disintegrative microencapsule tablets 0.6 mg (test tablet) or scopolamine hydrobromide normal tablets (reference tablet). Plasma samples were collected at designed time. Plasma concentration of scopolamine hydrobromide was determined by LC-MS/MS and pharmacokinetic parameters were calculated. The pharmacokinetic parameters of test tablet vs reference tablet were as follows: C(max): (8.16 +/- 0.67) ng x mL(-1) vs (3.54 +/- 0.64) ng x mL(-1); t1/2: (2.83 +/- 0.45) h vs (3.85 +/- 0.82) h; t(max): (1.25 +/- 0.27) h vs (0.42 +/- 0.09) h; AUC(0-12h): (25.06 +/- 3.75) h x ng x mL(-1) vs (9.59 +/- 1.02) h x ng x mL(-1); AUC(0-infinity): (26.30 +/- 3.92) h x ng x mL(-1) vs (10.80 +/- 1.45) h x ng x mL(-1); MRT(0-12h): (3.38 +/- 0.34) h vs (3.86 +/- 0.26) h; MRT(0-infinity): (3.98 +/- 0.63) h vs (5.37 +/- 1.00) h. The absorption rate and AUC of test tablet is different from that of reference tablet. The bioavailability of test tablet is better than those of reference tablet.
Administration, Oral ; Animals ; Area Under Curve ; Biological Availability ; Capsules ; Chromatography, Liquid ; Dogs ; Drug Stability ; Female ; Male ; Muscarinic Antagonists ; administration & dosage ; blood ; pharmacokinetics ; Random Allocation ; Scopolamine Hydrobromide ; administration & dosage ; blood ; pharmacokinetics ; Spectrometry, Mass, Electrospray Ionization ; Tablets ; Tandem Mass Spectrometry

BACKGROUNDThe primary objectives of the treatment for the lower urinary tract symptoms (LUTS) associated with benign prostatic hyperplasia (BPH) are to produce rapid, sustained, and safe improvements in the symptoms that affect the quality of life in the majority of men over 50. In this study, we evaluated the efficacy and safety of the combined therapy with terazosin (apha1-adrenergic receptor antagonist) and tolterodine (anticholinergic agent) for LUTS associated with BPH.

METHODSThis combination study included 69 patients diagnosed with LUTS associated with BPH based on the International Prostate Symptom Scores (IPSS), urinary flow rate, prostate volume, urinary residual, and their serum prostate-specific antigen levels. Initially, 191 patients were treated with terazosin 2 mg once daily for one week. Those patients with continued LUTS after the initial treatment were allocated randomly into two groups: terazosin group (n = 36) in which patients were treated with terazosin 2 mg once daily for six weeks, and combination group (n = 33) in which patients were treated with both terazosin 2 mg once daily and tolterodine 2 mg twice daily for 6 weeks.

RESULTSThe IPSS were significantly improved in both groups after treatment, and the reduction of IPSS in the combination group was significantly greater than that in the terazosin group (P < 0.01). A decrease in urgency, frequency and nocturia were the main contributory factors causing the reduction of IPSS in the combination group. The differences about the peak urinary flow rate and the residual urine from the baseline values were noted in both groups after treatment, but were not significant between the two groups. The incidence of adverse effects in the combination group was higher than that in the terazosin group. As expected the most common adverse effect was mouth dryness which was associated with anticholinergic drugs such as tolterodine.

CONCLUSIONSPatients with LUTS associated BPH appear the improved IPSS after combined therapy with terazosin and tolterodine. This study, although short term and limited numbers of patients, provides evidence that the combined therapy with terazosin plus tolterodine is a good approach for meeting the objectives of rapid, sustained, and safe improvements in the LUTS associated with BPH. And the profile of patients in this study might be used as the indication of such combined therapy for LUTS associated with BPH without urodynamic evaluation.

Adrenergic alpha-Antagonists ; administration & dosage ; Aged ; Benzhydryl Compounds ; administration & dosage ; adverse effects ; Cresols ; administration & dosage ; adverse effects ; Drug Therapy, Combination ; Humans ; Male ; Middle Aged ; Muscarinic Antagonists ; administration & dosage ; Phenylpropanolamine ; administration & dosage ; adverse effects ; Prazosin ; administration & dosage ; adverse effects ; analogs & derivatives ; Prospective Studies ; Prostatic Hyperplasia ; complications ; drug therapy ; Tolterodine Tartrate ; Urination Disorders ; drug therapy

AIMTo study the effect of atropine, muscarinic cholinergic antagonist, on the central analgesic action of melatonin (MT) and to explore the mechanism of MT analgesia.

METHODSAs an indicator of visceral pain, the unit discharges of the neurons in the posterior group of thalamic nuclei (PO) were caused by stimulating the great splanchnic nerve (GSN) of the cat. The cranial stereotaxic and extracellular glass microelectrode record technique were used. The drugs were given through the intra-cranial-ventricle (icv).

RESULTS0.1% MT (10 micrograms.kg-1, icv) was shown to inhibit the unit discharge of the neurons in PO of the cat, whether the long latency or the short latency, which was evoked by stimulating GSN. The inhibition of 0.1% MT (10 micrograms.kg-1, icv) on the short latency discharge of neurons in PO was antagonized by 0.1% atropine (20 micrograms, icv). However, 0.1% atropine (20 micrograms, icv) did not show antagonistic effect on the inhibition of 0.1% morphine (5 micrograms, icv) at the same latency.

CONCLUSIONMT exhibited central analgesic action with mechanism different from morphine. It was suggested that the cholinergic system may be involved in analgesic process of MT.

Analgesics ; administration & dosage ; pharmacology ; Animals ; Atropine ; pharmacology ; Cats ; Electric Stimulation ; Evoked Potentials ; drug effects ; Female ; Injections, Intraventricular ; Male ; Melatonin ; administration & dosage ; pharmacology ; Morphine ; pharmacology ; Muscarinic Antagonists ; pharmacology ; Neurons ; physiology ; Splanchnic Nerves ; physiology ; Thalamic Nuclei ; drug effects ; physiology