UMLS:C0010200 - FACTA Search

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Query: UMLS:C0010200 (cough)
23,843 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The objective of this study was to estimate the cure rate and to identify risk factors that predict failure of the tension-free vaginal tape (TVT) in women with stress urinary incontinence (SUI), a non-hypermobile urethra, and low maximum urethral closure pressure. Thirty-six women with SUI, a non-hypermobile urethra (straining urethral angle<or=35 degrees), and low maximum urethral closure pressure (MUCP<or=25 cm H2O) underwent a TVT. Cure was defined as resolution of subjective SUI symptoms and a negative cough stress test, which were measured after 4, 12, 18, and 24 months. Patient characteristics were compared and receiver-operator curves were used to identify risk factors for failure. The mean age was 71 years, and mean follow-up was 20.9 months. The overall cure rate was 78%. Risk factors for failure of the TVT were a straining urethral angle<or=20 degrees (cure rate 50%, odds ratio 7.7, p=0.02) and a MUCP<or=15 cm H2O (cure rate 60%, odds ratio 6.3, p=0.03). For women with both risk factors, the cure rate was only 17% (p<0.001). No other risk factors were identified. The TVT has moderate success (50-60%) for women with SUI and one risk factor (a straining urethral angle<or=20 degrees or a MVCP<or=15 cm H2O), but has poor success (17%) when both risk factors are present.
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PMID:The tension-free vaginal tape in women with a non-hypermobile urethra and low maximum urethral closure pressure. 1710 24

The female pelvic floor (PF) provides anatomical support to many visceral organs, such as uterus, bladder, urethra, vagina, and rectum. Physiologically, the PF is made up of a number of highly coordinated muscle groups organized to respond to postural and abdominal stresses to maintain continence. In this article, we describe a new methodology for the evaluation of PF strength using a novel vaginal probe design, having force and displacement sensors. This design was derived on the basis of imaging data showing that force/displacement characteristics are important determinants of the integrity of the PF function. The prototype probe used was constructed to evaluate the dynamic responses to slow voluntary contractions as well as reflex stress contractions. Initial clinical experiments were performed on nine healthy female subjects. The probe recorded the force and displacement signals on the anterior and posterior sides of the subjects' middle vaginal wall in voluntary PF muscle contraction and cough. The time domain and frequency domain characteristics of the dynamic responses, including the force and displacement responses, of the vaginal wall were measured and the power and energy associated with the dynamic responses of the PF were analyzed showing the differences between the dynamic characteristics of the voluntary PF muscle contraction and cough. Results show that voluntary PF muscle contractions have higher amplitudes, longer duration, and higher power than reflex contractions. The design of this probe enables the measurement of force and displacement during rapidly occurring events.
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PMID:Evaluation of the dynamic responses of female pelvic floor using a novel vaginal probe. 1741 19

This study was to assess the effect of spinal anaesthesia on urethral retro-resistance pressure (URP), cough pressures and tendency to leak. The population consisted of 32 women undergoing a tension-free vaginal tape (TVT) operation under a spinal anaesthetic. URP, cough pressures and an assessment of the degree of leak were performed before the spinal anaesthetic was placed. A standard anaesthetic technique was used, and measurements were repeated after the spinal anaesthetic was inserted. The degree of leak was assessed on a five-point scale with 350 ml in the bladder. The cough pressures and URP values were averaged over three or more measurements. The mean URP value fell from 75.0 to 54.0 cm/H2O (p = 0.0003) after the spinal was inserted. There was a non-significant fall in mean cough pressure from 85.0 to 67.5 cm/H2O (p = 0.06). The degree of leakage increased (p = 0.005). Spinal anaesthesia causes a fall in the resistance in the urethra but does not cause a significant fall in the pressure generated by a cough. Women are more likely to leak after coughing during the TVT operation under spinal anaesthesia than they are before the spinal is inserted. The cough test under spinal anaesthesia does not mimic the result of coughing without a spinal.
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PMID:The effect of spinal anaesthesia on urethral function. 1754 28

The functions of the lower urinary tract, to store and periodically release urine, are dependent on the activity of smooth and striated muscles in the bladder, urethra, and external urethral sphincter. During urine storage, the outlet is closed, and the bladder smooth muscle is quiescent. When bladder volume reaches the micturition threshold, activation of a micturition center in the dorsolateral pons (the pontine micturition center) induces a bladder contraction and a reciprocal relaxation of the urethra, leading to bladder emptying. During voiding, sacral parasympathetic (pelvic) nerves provide an excitatory input (cholinergic and purinergic) to the bladder and inhibitory input (nitrergic) to the urethra. These peripheral systems are integrated by excitatory and inhibitory regulation at the levels of the spinal cord and the brain. Injury or diseases of the nervous system, as well as drugs and disorders of the peripheral organs, can produce lower urinary tract dysfunction. In the overactive bladder (OAB) condition, therapeutic targets for facilitation of urine storage can be found at the levels of the urothelium, detrusor muscles, autonomic and afferent pathways, spinal cord, and brain. There is increasing evidence showing that the urothelium has specialized sensory and signaling properties including: (1) expression of nicotinic, muscarinic, tachykinin, adrenergic, bradykinin, and transient receptor potential (TRP) receptors, (2) close physical association with afferent nerves, and (3) ability to release chemical molecules such as adenosine triphosphate (ATP), acetylcholine, and nitric oxide. Increased expression and/or sensitivity of these urothelial-sensory molecules that lead to afferent sensitization have been documented as possible pathogenesis of OAB. Targeting afferent pathways and/or bladder smooth muscles by modulating activity of ligand receptors (e.g., neurokinin, ATP, or beta3-adrenergic receptors) and ion channels (e.g., TRPV1 or K) could be effective to suppress OAB. In the stress urinary incontinence condition, pharmacotherapies targeting the neurally mediated urethral continence reflex during stress conditions such as sneezing or coughing could be effective for increasing the outlet resistance. Therapeutic targets include adrenergic and serotonergic receptors in the spinal cord as well as adrenergic receptors at the urethral sphincter, which can enhance urethral reflex activity during stress conditions and increase baseline urethral pressure, respectively.
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PMID:Therapeutic receptor targets for lower urinary tract dysfunction. 1803 30

INDICATIONS FOR URODYNAMIC ASSESSMENT IN WOMEN: Urodynamic assessment is not useful for the diagnosis of female urinary incontinence which remains a clinical diagnosis. Before any form of surgery for pure stress urinary incontinence, evaluation of bladder emptying by determination of maximum flow rate and residual urine is recommended. In the presence of pure stress urinary incontinence with no other associated clinical symptoms, a complete urodynamic assessment is not mandatory, but can be helpful to define the prognosis and inform the patient about her vesicosphincteric function. On the other hand, a complete urodynamic assessment is recommended to investigate complex or complicated urinary incontinence, mainly in the case of: history of surgery for urinary incontinence. urgency with or without urine leakage, severe urinary incontinence, voiding abnormalities, negative cough test, decreased bladder capacity, suspected obstruction or decreased bladder contractility, failure of first-line treatment. PATIENT PREPARATION: The patient should be thoroughly informed about the examination procedure and its possible consequences. The patient should be advised to attend the examination with a normal desire to urinate. Urodynamic assessment must not be performed in the presence of untreated urinary tract infection. Antibiotic prophylaxis is not recommended. UROFLOWMETRY: The flowmeter must be regularly calibrated and must be installed in a quiet room. Whenever possible, uroflowmetry should be performed before cystometry with a normal desire to urinate. The patient should be advised to urinate normally without straining and by staying as relaxed as possible. During voiding, all of the stream must enter the flowmeter. The main parameters recorded are Qmax (expressed in ml/s), the voided volume (expressed in ml), and the appearance of the curve. The examination must be interpreted manually without taking into account the automated interpretation. GUIDELINES CONCERNING CYSTOMETRY EQUIPMENT: A three pressure line configuration is recommended. Bladder filling must be performed with a sterile liquid; filling with gas is no longer recommended. Bladder filling is ideally performed by a pump ensuring a sufficiently slow flow rate to avoid modifying bladder behaviour (< 50 ml/min). It is essential to determine and check the volume infused into the bladder. When a peristaltic pump is used, the bladder filling catheter must be adapted to the pump. Water or electronic transducers can be used to measure bladder pressure. Balloon catheters filled with air appear to be sufficiently precise to perform pressure measurements in a manometric chamber (during cystometry) but not in a virtual cavity such as the urethra (during the urethral pressure profile). Measurement of abdominal pressure is recommended, either via the infusion catheter or preferably by a rectal balloon catheter. GUIDELINES ON THE PRACTICAL CONDITIONS OF CYSTOMETRY: The equipment must be regularly calibrated. Make sure that the bladder is empty before starting cystometry. Transducers are zeroed at the superior extremity of the pubic symphysis for infused transducers and at atmospheric pressure for electronic and air transducers. Tubings must be correctly connected without kinks, bubbles or leaks. The catheter must be selected according to its technical characteristics, particularly its pressure loss. After filling for one or two minutes, the patient is asked to cough to ensure a similar increase in both abdominal pressure and bladder pressure. The following parameters are recorded: baseline detrusor pressure, first desire to void, detrusor activity, bladder capacity and bladder compliance. Measurement of bladder pressure during voiding is used to confirm whether or not the bladder is contractile, assess obstruction in the case of low urine flow rate with high bladder pressure, and detect abdominal straining. Good test conditions must be ensured in order to obtain good quality voiding. In the case of incoherent results, the bladder should be re-filled after checking the equipment. MEASUREMENT AND INTERPRETATION OF URETHRAL PRESSURE: To obtain a reliable measurement of urethral pressure, it is recommended to: Define the normal values used. Use a catheter smaller than 12 F. Perform a circumferential measurement. Use a catheter with an infusion rate of 2 ml/min. Remove the catheter at a rate of 1 mm/s. Perform the examination in the seating or supine position with a half-full bladder after reducing any prolapse. Repeat the measurements. THE FOLLOWING ELEMENTS MUST BE TAKEN INTO ACCOUNT WHEN INTERPRETING AN URETHRAL PRESSURE PROFILE: The functional urethral length is neither a diagnostic criterion nor a prognostic criterion of urinary incontinence. The urethral pressure profile cannot be considered to be a useful test for the diagnosis of female urinary incontinence. However, in combination with clinical criteria, it is predictive of the results of female stress urinary incontinence surgical repair techniques. The pressure transmission ratio is neither a diagnostic criterion nor a prognostic criterion of urinary incontinence.
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PMID:[Recommendations for the urodynamic examination in the investigation of non-neurological female urinary incontinence]. 1821 38

A simulation system that generates dynamic bladder pressures for the use of testing and examining artificial urinary sphincters is designed, implemented, and compared to in-vivo measurements of Valsalva and coughing profiles. Cylinder and piston, which are integrated into the universal testing machine, simulating the bladder are connected with explanted sow urethras. The AMS 800 artificial urinary sphincter closes the urethra with well-defined external pressures. In order to select appropriate profiles for the bladder pressure, 34 Valsalva and coughing profiles of 6 patients were evaluated with respect to amplitude, pressure raise, dwell time, and half width.
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PMID:Simulation of stress urinary incontinence for in-vitro studies. 1848 53

Sphincters to guarantee continence are in principal the simplest muscles, because only two states (closed and open) seem to be important. The healthy urinary sphincter, however, provides dynamic components. During the filling phase the increase in tonus prevents urinary loss. The sphincter rapidly responds to pressure pulses caused, for example, by coughing. Contemporary artificial sphincters, however, merely generate two states and often induce atrophy and erosion. Hence the success of commercially available, continually improved implants is still limited. This communication reviews two physical principles, shape memory alloys and electrically activated polymer nanostructures, for applications in artificial sphincters which adapt the pressure acting on the urethra and react to stress situations such as coughing. The application of these principles allows intermittent reduction of pressure on the urethra, thus involving significantly less atrophy. The fabrication of reliably working nanostructures, however, is ambitious and will need time-consuming, high-level engineering.
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PMID:The challenges in artificial muscle research to treat incontinence. 1991 97

This article reviews progress made in understanding the causes of stress urinary incontinence. Over the last century, several hypotheses have been proposed to explain stress urinary incontinence. These theories are based on clinical observations and focus primarily on the causative role of urethral support loss and an open vesical neck. Recently these hypotheses have been tested by comparing measurements of urethral support and function in women with primary stress urinary incontinence to asymptomatic volunteers who were recruited to be similar in age, race, and parity. Maximal urethral closure pressure is the parameter that differs the most between groups being 43% lower in women with stress incontinence than similar asymptomatic women having as effect size of 1.6. Measures of urethral support effect sizes range from 0.5 to 0.6. Because any one objective measure of support may not capture the full picture of urethrovesical mobility, review of blinded ultrasounds of movements during cough were reviewed by an expert panel. The panel was able to identify women with stress incontinence correctly 57% of the time; just 7% above the 50% that would be expected by chance alone, confirming that urethrovesical mobility is not strongly associated with stress incontinence. Although operations that provide differential support to the urethra are effective, urethral support is not the predominant cause of stress incontinence. Improving our understanding of factors affecting urethral closure may lead to novel treatments targeting the urethra and improved understanding of the small but persistent failure rate of current surgery.
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PMID:Why do women have stress urinary incontinence? 2041 94

There are many causes of frequent urination. Whenever water or fluids are consumed, the patient has to urinate within 10 or 20 min. Often urinary bladder examinations & blood tests show no significant abnormalities, & treatment by anti-bacterial or anti-viral agents does not improve the symptoms significantly. In intractable frequent urination with difficulty holding urine, as well as other intractable medical problems such as frequent coughing, white pus in gingiva, infection of the apex of a root canalled tooth, slow-healing wounds, & ALS, the authors often found coexisting mixed infections of Candida albicans (C.A.), Helicobacter pylori (H.P.), & Cytomegalovirus (CMV) with or without additional bacterial (Chlamydia trachomatis, etc.) or viral infections & increased Asbestos, with or without Hg deposits. We often found various degrees of mixed infections with C.A., H.P., & CMV in the external sphincters of the urethra & in the Trigone of the urinary bladder which consists of (1) a horizontal, band-like area between the 2 ureter openings & (2) the funnel shaped part of the Trigone at the lower half of the urinary bladder. In the coexistence of significant amounts of C.A., H.P. & CMV, the infection cannot be reduced by otherwise effective medicines for H.P. & CMV. However, one optimal dose of Diflucan, or Caprylic acid taken orally or externally applied, rapidly reduced the symptoms significantly. We found the best treatment is to give a combination of an optimal dose of Caprylic acid orally in the form of "CaprilyCare" or "Caprylic Acid," with a capsule of Omega-3 Fish Oil as an anti-viral agent, Amoxicillin, Substance Z & a Cilantro tablet. We found that an optimal dose of Caprylic acid increases normal cell telomere (NCT) to a desirable 750 ng BDORT units while Diflucan increases NCT by only 25 ng BDORT units, & with Omega-3 fish oil, leads to a mutual cancellation of both drugs. Thus, Caprylic acid is superior to & less expensive than Diflucan, & has potential application for anti-cancer, anti-aging, anti-Alzheimer's disease, anti-Autism, anti-infection, & general circulatory improvement.
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PMID:Caprylic acid in the effective treatment of intractable medical problems of frequent urination, incontinence, chronic upper respiratory infection, root canalled tooth infection, ALS, etc., caused by asbestos & mixed infections of Candida albicans, Helicobacter pylori & cytomegalovirus with or without other microorganisms & mercury. 2183 Mar 50

Most cases of foreign-body aspiration are accidental events in children, whereas the majority of adults will have neurological dysfunction, trauma, alcohol abuse, or psychological disorders. Much has been written about psychiatric patients engaging in self-mutilation such as cutting and burning, but little is recorded about deliberate aspiration of objects in these patients, who clinically can be separated into 4 groups: (1) malingering, (2) psychosis, (3) pica, and (4) personality disorders. The immediate psychological gain for these patients is unclear, as the act is insidious with no evidence of intentional harm or immediate danger. Thus, they are considered as being parasuicidal events designed to diminish other psychological processes. Aspirated objects that are not immediately dislodged by coughing, choking, or gagging require surgical intervention. Most of these patients usually come to the attention of a psychiatrist, but such intervention does not prevent recurrences. We discuss a schizophrenic patient who aspirated multiple coins while under psychiatric treatment for prior episodes of aspiration of coins, ingestion of objects, and insertion of others in his urethra and rectum, while also reviewing some of the diagnostic and therapeutic challenges inherent in the management of these patients.
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PMID:Aspiration of foreign bodies in adults with personality disorders: impact on diagnosis and recurrence. 2199 39

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