Effect of Urethral Analgesia on Voiding

NCT ID: NCT02823431

Last Updated: 2018-07-27

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: NA
• Total Enrollment: 23 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2016-07-31
• Study Completion Date: 2016-12-31

Brief Summary

The purpose of this study is to evaluate how urethral analgesia impacts voiding efficiency in healthy women. The investigator hypothesizes that anesthetizing the urethral with lidocaine gel will decrease voiding efficiency as measured by standard bladder testing (urodynamic testing).

Detailed Description

1. Purpose of the Study The purpose of this study is to determine whether urethral sensory feedback has a role in the micturition (bladder emptying) reflex in female controls during routine office Urodynamic Studies (UDS). UDS are current clinical tests of urethral and bladder function and consist of several individual studies including filling cystometry, pressure-flow studies, and urethral pressure profilometry (UPP). Filling cystometry focuses primarily on sensation and activity of the bladder during the filling (or storage) phase of the micturition (voiding) cycle. Pressure-flow studies (which include voiding cystometry) are used to assess the motor activity of the bladder muscle during bladder emptying. UPP assesses urethral sphincter motor function and has traditionally been used to evaluate stress urinary incontinence. Perineal patch electromyography (EMG) is often added to UDS to assess for pelvic floor muscle recruitment during voiding, which may suggest voiding dysfunction.

2. Background & Significance The storage and elimination of urine is regulated by neural circuits in the brain and spinal cord to coordinate function between the urinary bladder and the urethra. During the micturition (bladder emptying) reflex, the elimination of urine is facilitated by bladder wall contraction and urethral wall and pelvic floor muscle relaxation. Urine that subsequently flows through the urethra also activates sensory nerves to amplify bladder contractions and maintain efficient bladder emptying. Incomplete voiding and urinary retention occurs when these mechanisms are disrupted or poorly coordinated.

Incomplete bladder emptying due to detrusor underactivity is an understudied health concern for women in the United States. The overall incidence detrusor underactivity in women has not yet been reported in the literature. One study by Wu et al. (2005) determined that 7.8% of patients in an outpatient rehabilitation facility had symptoms of incomplete bladder emptying; whereas, 21% of people without symptoms had elevated post void residuals when universally screened. Their population consisted of 350 patients, of which two-thirds were women. Lower urinary tract symptoms, including urinary urgency, frequency and incomplete bladder emptying, have been shown to decrease quality of life, increase healthcare utilization, decrease workplace productivity, and impact intimate relationships.

The current clinical management options for women with retention are intermittent or indwelling catheterization, urethral dilation, or reconstructive surgery. These treatments, however, often fail to completely resolve lower urinary tract symptoms and the patients may develop chronic retention complications such as overflow incontinence, hydroureter, hydronephrosis, infection, or renal failure. In order to improve therapeutic outcomes, there is still a need to clarify the specific mechanisms that underlie detrusor underactivity in women. Our proposed studies will be contributing to the growing body of literature implicating urethral sensory feedback as a candidate to recover efficient bladder emptying.

3. Hypothesis and Justification Overall Hypothesis: Urethral afferent nerve fiber activation augments bladder contractions for efficient voiding and urethral anesthesia will disrupt sensory feedback and impair bladder emptying.

Specific Aim 1: To assess voiding efficiency (voided volume/{voided volume + residual volume}) in women controls with and without urethral anesthesia Hypothesis 1a: Voiding efficiency will be lower when the urethra is anesthetized during micturition pressure-flow studies Hypothesis 1b: Detrusor contraction at maximum flow rate (Pdet@Qmax) and duration of detrusor contraction will be reduced when the urethra is anesthetized during micturition pressure-flow studies Hypothesis 1c: Voiding while anesthetized will lead to increased valsalva-voiding (increased intra-abdominal pressure, Pabd) and an intermittent urinary stream during micturition pressure-flow studies

Specific Aim 2: To assess whether urethral anesthesia gel improves discomfort during the UDS Hypothesis: Visual Analog Scale (VAS) scores for pain will be lower during the UDS when the urethra has been anesthetized

Studies supporting Specific Aims:

i. Micturition with Urethral Anesthesia Distension and fluid flow in the urethra has been previously demonstrated to evoke sensory nerve discharge. Nerve firing originating from the urethra is then able to initiate contractions in the filling bladder and increase the amplitude and duration of ongoing bladder contractions. This pudendal-bladder reflex has been shown to be necessary for efficient bladder emptying because disruption to urethral sensory feedback by transection of the sensory branch of the pudendal nerve or intraurethral anesthesia reduces voiding efficiency in the rat. Urethral anesthesia in humans has also been demonstrated to increase post void residual and alter symptoms experienced during the voiding phase.

This investigator's approach is novel as this study will characterize voiding in healthy women who will be randomized to placebo versus urethral analgesia. Investigators will do this by performing UDS, which will include all clinical tests for bladder function, with or without urethral anesthesia (2% lidocaine hydrochloride jelly or plain aqueous gel).

ii. Pain Perception During Catheterization Urethral catheterization elicits mild to moderate pain in women. The use of lubricant anesthetic on the catheter is one available option to manage tissue trauma and pain perception. Several studies have reported that 2% lidocaine gel reduces procedural pain during female urethral catheterization. Others however, have found that lubricant anesthetic and catheter size, does not effect the perception of pain in urethral catheterization in women. These discrepant reports suggest a consensus has not been reached on the efficacy of lubricant anesthetic and pain perception in women.

4. Subject Recruitment: Subjects will be recruited from Duke Hospital and Duke University Campus via newspaper advertisements and paper fliers.

5. Design and Procedures To account for screen failures, it is anticipated that a total of 40 female controls will be screened to achieve n=20 for completed UDS. Subjects will perform a baseline voiding test (uroflow), then will be randomized to undergoing urodynamic studies with or without urethral analgesia. Participants will be randomized to their arm of the study using a random number generator (MatLab). Study staff and the subjects will be blinded to the treatment regimen; thus, this study design is a randomized double-blind placebo-controlled trial. Inclusion and exclusion criteria are listed in a separate section.

Study Visit Questionnaires and Tests After their phone screen, (3.i), participants will be scheduled for the study visit. All study procedures will take place at the Duke Urogynecology Office at Patterson Place. Participants will undergo informed consent on arrival to their study visit. Subjects will provide a urine specimen for a point of care urinalysis and pregnancy test. Pre-procedure vital signs, including height and weight will be obtained. Subjects will fill out the following questionnaires: Lower Urinary Tract Symptoms Tool, Sociodemographics and Functional Comorbidity Index and complete a Medication List.

If subjects have a negative urinalysis and pregnancy test they will be randomized. If either of their point of care tests is positive (per exclusion criteria), they will be excluded from the study and referred to their primary care physician.

Prior to performing UDS, the subject's bladder will be scanned transabdominally with a standard clinic bladder scanner. This will ensure adequate urine is within the bladder to start the first test.

The participant will then be placed in the dorsal lithotomy position and a pelvic exam will be performed to confirm no pelvic organ prolapse past the hymen during valsalva. Uroflow testing will then begin. Subjects will then undergo a 2-hour wait and be given water to re-fill their bladder. After two hours, Urodynamic testing will be performed.

Order of Studies Performed During Urodynamic Testing: Complex Uroflowmetry, Complex Cystometry, Urethral Pressure Profilometry, Micturition Pressure-flow Study

The Visual Analog Scale (VAS) will be administered to assess discomfort at the following times; after uroflow but before PVR (baseline), immediately after the urethral catheter is placed, after 100mL of fluid has been instilled, and at full bladder capacity (MCC).

After the completion of the UDS procedures, subjects will have completed their study visit.

Conditions

Urethral Analgesia

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: BASIC_SCIENCE
• Blinding Strategy: DOUBLE

Study Groups

Analgesia Arm

Participants randomized to this arm will undergo uroflow studies then be given a 2-hour rest. Urodynamics with the use of Urojet (lidocaine hydrochloride 2%) will then be performed. The lidocaine gel will be placed in and around the urethra. It will be allowed to set for 3 minutes, then the remainder of the standard urodynamic evaluation will be performed. We are using Urojet (lidocaine gel) in an FDA approved manner (for analgesia).

Group Type: ACTIVE_COMPARATOR

lidocaine gel

Intervention Type: DRUG

Placebo Arm

Participants randomized to this arm will first undergo uroflow studies then be given a 2-hour rest. Urodynamic testing without analgesia (standard of care) will then be performed.

Group Type: PLACEBO_COMPARATOR

Plain aqueous gel

Intervention Type: OTHER

Interventions

lidocaine gel

Intervention Type: DRUG

Plain aqueous gel

Intervention Type: OTHER

Other Intervention Names

Urojet 2% gel; KY gel

Eligibility Criteria

Inclusion Criteria

• Females ages 18-60 years

Exclusion Criteria

• Able to provide informed consent and agree to the risks of the study
• Willing to abstain from caffeine and alcohol for 24 hours
• Willing to avoid taking anticholinergic medications (for reasons other than incontinence; e.g., diphenhydramine) for one week prior to the procedure

• Pelvic organ prolapse past the hymen
• Multiple sclerosis, myasthenia gravis, Parkinson's Disease, stroke within the past 6 months
• Interstitial cystitis / Bladder Pain Syndrome
• Recurrent (≥ 3/year) urinary tract infections
• Positive pregnancy test at the time of consent
• ≤ 6 weeks postpartum or if breastfeeding
• Positive urine dip (>+1nitrites or >1+LE) and urinary symptoms at the time of consent
• >1+ blood on urinary dip
• Morbid obesity (BMI >40)
• Taking anticholinergic medications for urinary incontinence
• >2 replies of ≥ "sometimes" on the Lower Urinary Tract Symptoms questionnaire at the time of consent

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 60 Years
• Eligible Sex: FEMALE
• Accepts Healthy Volunteers: Yes

Sponsors

Duke University

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Warren Grill

Role: PRINCIPAL_INVESTIGATOR

Duke University

Locations

Duke University Campus

Durham, North Carolina, United States

Countries

United States

References

Chen SC, Grill WM, Fan WJ, Kou YR, Lin YS, Lai CH, Peng CW. Bilateral pudendal afferent stimulation improves bladder emptying in rats with urinary retention. BJU Int. 2012 Apr;109(7):1051-8. doi: 10.1111/j.1464-410X.2011.10526.x. Epub 2011 Aug 23.

Reference Type: BACKGROUND

PMID: 21883860 (View on PubMed)

Peng CW, Chen JJ, Cheng CL, Grill WM. Improved bladder emptying in urinary retention by electrical stimulation of pudendal afferents. J Neural Eng. 2008 Jun;5(2):144-54. doi: 10.1088/1741-2560/5/2/005. Epub 2008 Apr 22.

Reference Type: BACKGROUND

PMID: 18430976 (View on PubMed)

Shafik A, Shafik AA, El-Sibai O, Ahmed I. Role of positive urethrovesical feedback in vesical evacuation. The concept of a second micturition reflex: the urethrovesical reflex. World J Urol. 2003 Aug;21(3):167-70. doi: 10.1007/s00345-003-0340-5. Epub 2003 Jul 25.

Reference Type: BACKGROUND

PMID: 12898170 (View on PubMed)

Kisby CK, Gonzalez EJ, Visco AG, Amundsen CL, Grill WM. Randomized Controlled Trial to Assess the Impact of Intraurethral Lidocaine on Urodynamic Voiding Parameters. Female Pelvic Med Reconstr Surg. 2019 Jul/Aug;25(4):265-270. doi: 10.1097/SPV.0000000000000544.

Reference Type: DERIVED

PMID: 29300256 (View on PubMed)

Other Identifiers

Pro00071589

Identifier Type: -

Identifier Source: org_study_id