Hemodynamic Stability of Bupivacaine With and Without Adrenaline for Paracervical Block for Cervical Conization
Information source: Helse Fonna
ClinicalTrials.gov processed this data on August 23, 2015 Link to the current ClinicalTrials.gov record.
Condition(s) targeted: Cervical Intraepithelial Neoplasia
Intervention: Bupivacaine (Drug); Adrenaline (Drug)
Phase: Phase 4
Status: Recruiting
Sponsored by: Helse Fonna Official(s) and/or principal investigator(s): Gunnar Helge Sjøen, MD, Principal Investigator, Affiliation: Helse Fonna
Overall contact: Gunnar Helge Sjøen, MD, Phone: 52732000, Ext: 0047, Email: gunnar.helge.sjoeen@helse-fonna.no
Summary
Cervical conization is done for pre-cancer disease. The procedure is performed with local
anesthesia and general anesthesia. Local anesthesia is given by paracervical block, and
several different local anesthetics is being used including bupivacaine with and without
adrenaline. Adrenaline might reduce local bleeding and reduce toxicity of bupivacaine by
reducing absorption, but might affect cardiovascular function. This study will examine this
effect.
Clinical Details
Official title: Hemodynamic Stability of Bupivacaine With and Without Adrenaline for Paracervical Block for Cervical Conization During General Anesthesia: A Randomized Controlled Double Blinded Study
Study design: Allocation: Randomized, Endpoint Classification: Pharmacodynamics Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment
Primary outcome: Changes in Cardiac Output as measured by LiDCOplus monitor.
Secondary outcome: Changes in Stroke Volume as measured by LiDCOplus monitor.Changes in Heart Rate as measured by LiDCOplus monitor. Changes in Total Peripheral Resistance as measured by LiDCOplus monitor.
Detailed description:
Most patients scheduled for cervical conization are healthy, young women. Some do this
procedure with local anesthesia (paracervical block) and sedation, others general anesthesia
combined with local anesthesia. Lidocaine with adrenaline is often used, but some uses
longer acting substances like bupivacaine 2,5 mg/ml with adrenaline 5 microg/ml.
Adding of adrenaline prolongs the effect of anesthesia and the effect is probably strongest
for short-acting local anesthetics. Adrenaline may delay absorption of local anesthetics
avoiding toxic plasma concentrations and reduce local bleeding. Injection of local
anesthetics with adrenaline may affect haemodynamic stability.
Para-cervical block has been used for analgesia in first stage of labor, but may give foetal
bradycardia in 3-4 % and may affect the cardiotocogram in 10-12%. This effect is observed
with bupivacaine and the less toxic levobupivacaine. Because of fear for complications and
foetal injury this block has been replaced by more effective and safer methods like epidural
and spinal anesthesia.
In gynecological practice the para-cervical block is still used for termination of
pregnancy, cervical conization and for instrumentation of uterus.
We have observed affection of hemodynamic stability when using local anesthetics with
adrenaline in nasal mucosa and during cervical conization. Some patients may experience
increase or decrease in blood pressure and heart rate with a duration of 3-5 minutes.
Kerkkamp and coworkers have observed an 64% increase in cardiac output when using
bupivacaine with adrenaline 100 microg epidurally but de Leeuw et al find an effect of less
than 10% change in cardiac output during combined psoas compartment and ischiadic-block. We
have performed a non-randomized, non-blinded pilot-study showing a 86% increase in systolic
blood pressure and 65% increase in cardiac output after para-cervical block with bupivacaine
50 mg and adrenaline 100 microg. We want to confirm these results by doing a randomized,
blinded study.
Most day-surgical patients are classified as ASA (American Society of Anesthesiologists)
grade 1-2, and the complication rates are low. Still we may experience cardiovascular events
during anesthesia with patients considered without cardiovascular diseases. Hemodynamic
stability during anesthesia is a goal for all patients.
LiDCOplus (Lithium Dilution Cardiac Output) is a minimal invasive hemodynamic monitor for
measuring cardiac output (CO) and systemic resistance (SVR). It uses two algorithms. PulseCO
is an analysis of artery-waveform and gives nominal values. LiDCO is calibration with a
small dose Lithium and gives absolute values. This study will examine relative changes, and
calibration is not necessary.
The primary endpoints with respect to the hemodynamic effects of the interventions are group
differences in systolic blood pressure and cardiac output the first 0-10 minutes after
intervention. Secondary endpoints are other hemodynamic variables as stroke volume (SV),
heart rate (HR), and systemic vascular resistance (SVR).
Demographic data and baseline measurements will be presented as mean (SD) if normally
distributed or as median and range if not normally distributed, and group differences will
be tested using the one-way ANOVA or Kruskal-Wallis tests, respectively. Baseline
hemodynamic values represent measurements collected before administration of local
anesthesia.
Eligibility
Minimum age: 18 Years.
Maximum age: 50 Years.
Gender(s): Female.
Criteria:
Inclusion Criteria:
• Clinical diagnosis of cervical pre-cancer
Exclusion Criteria:
- Pregnancy
- Feeding mother
- Bad nutritional state
- Infection
- Treatment for hypertension
- Diabetes for many years or complications
- Cardiovascular disease
- Serious anemia
- Cardial arrythmia
- Serious liver-disease
- Hypersensitivity to local anesthesia of amide-type
Locations and Contacts
Gunnar Helge Sjøen, MD, Phone: 52732000, Ext: 0047, Email: gunnar.helge.sjoeen@helse-fonna.no
Kirurgisk Klinikk-Anestesi, Haugesund, Rogaland 5504, Norway; Recruiting Gunnar Helge Sjøen, MD, Phone: 52732000, Ext: 0047, Email: gunnar.helge.sjoeen@helse-fonna.no Haldis Økland Lier, PhD, Phone: 52732000, Ext: 0047, Email: haldis.okland.lier@helse-fonna.no
Additional Information
Related publications: Nesheim BI. Which local anesthetic is best suited for paracervical blocks? Acta Obstet Gynecol Scand. 1983;62(3):261-4. Panda N, Verma RK, Panda NK. Efficacy and safety of high-concentration adrenaline wicks during functional endoscopic sinus surgery. J Otolaryngol Head Neck Surg. 2012 Apr;41(2):131-7. Zhao F, Wang Z, Yang J, Sun J, Wang Q, Xu J. Low-dosage adrenaline induces transient marked decrease of blood pressure during functional endoscopic sinus surgery. Am J Rhinol. 2006 Mar-Apr;20(2):182-5. Retraction in: Am J Rhinol. 2006 Nov-Dec;20(6):673. Palomäki O, Huhtala H, Kirkinen P. A comparative study of the safety of 0.25% levobupivacaine and 0.25% racemic bupivacaine for paracervical block in the first stage of labor. Acta Obstet Gynecol Scand. 2005 Oct;84(10):956-61. Kerkkamp HE, Gielen MJ. Cardiovascular effects of epidural local anaesthetics. Comparison of 0.75% bupivacaine and 0.75% ropivacaine, both with adrenaline. Anaesthesia. 1991 May;46(5):361-5. de Leeuw MA, Slagt C, Hoeksema M, Zuurmond WW, Perez RS. Hemodynamic changes during a combined psoas compartment-sciatic nerve block for elective orthopedic surgery. Anesth Analg. 2011 Mar;112(3):719-24. doi: 10.1213/ANE.0b013e318206bc30. Epub 2010 Dec 14.
Starting date: May 2015
Last updated: July 22, 2015
|