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The Journal of Arthroplasty Aug 2022
Meta-Analysis
Topics: Anesthesia, Spinal; Anesthetics, Local; Arthroplasty; Bupivacaine; Humans; Mepivacaine
PubMed: 35914889
DOI: 10.1016/j.arth.2022.04.018 -
Clinical Oral Investigations Nov 2020Pain management for the extraction of the mandibular third molar is a challenge as compelling evidence in comparative anaesthetics is currently lacking. (Meta-Analysis)
Meta-Analysis
OBJECTIVES
Pain management for the extraction of the mandibular third molar is a challenge as compelling evidence in comparative anaesthetics is currently lacking.
MATERIALS AND METHODS
Thorough literature searches took place in PubMed, ScienceDirect, CENTRAL, Embase, Web of Science, CBM, and CNKI. Thirty-three trials were meta-analysed using a Bayesian statistical approach within the random-effects model. Grading of Recommendations Assessment, Development, and Evaluation was performed to determine the overall quality of evidence across all comparisons.
RESULTS
In terms of success rate, an inferior alveolar nerve block (IANB) injection of 2% lidocaine with epinephrine was less effective than a combined injection of buccal infiltration (BI) and lingual infiltration (LI) with a 4% articaine (RR = 0.85 [0.75, 0.96], P = 0.611). According to visual analogue scale (VAS), 2% lidocaine-IANB with epinephrine caused higher VAS scores than 4% articaine-IANB with epinephrine (MD = 0.84 [0.28, 1.40], P = 0.057), whereas 0.5% levobupivacaine-IANB showed lower scores than 2% lidocaine-IANB (MD = - 1.62 [- 2.97, - 0.28], P = 0.045). Also, 2% lidocaine-IANB with epinephrine presented longer latency than both 4% articaine-IANB with epinephrine (MD = 39.44 [16.97, 61.90], P < 0.001) and 4% articaine-BI + LI with epinephrine (MD = 164.41 [16.23, 312.58], P < 0.001); 4% articaine-IANB with epinephrine produced shorter latency than 0.5% bupivacaine-IANB with epinephrine (MD = - 42.92 [- 70.28, - 15.56], P = 0.106); 0.75% ropivacaine-IANB caused shorter onset of action compared with 2% lidocaine-IANB (MD = - 40.88 [- 65.50, - 16.26], P < 0.001). In addition, 2% lidocaine-IANB with epinephrine produced significantly shorter duration than both 4% articaine-IANB with epinephrine (MD = - 47.33 [- 57.88, - 36.77], P = 0.265) and 2% mepivacaine-IANB with epinephrine (MD = - 10.01 [- 19.59, - 0.44], P = 0.769). The duration of action triggered by 4% articaine-IANB with epinephrine was shorter compared with 0.5% bupivacaine-IANB with epinephrine (MD = - 64.17 [- 74.65, - 53.69], P = 0.926). Both 0.5% levobupivacaine-IANB and 0.75% ropivacaine-IANB produced longer duration of action than 2% lidocaine-IANB (MD = 333.70 [267.33, 400.07], P < 0.001) and (MD = 288.01 [287.67, 288.34], P = 0.634, respectively).
CONCLUSIONS
The network meta-analysis demonstrated that the intraosseous injection of 4% articaine with epinephrine had the most noteworthy success rate. However, the combination of BI and LI of 4% articaine with epinephrine, and IANB of 0.5% bupivacaine were, according to a VAS, the most effective. It should be noted that a rapid onset of action was produced by BI combined with LI of 4% articaine with epinephrine and IANB of 2% mepivacaine with epinephrine, while the most prolonged duration of action was generated by IANB of 0.5% levobupivacaine or 0.5% bupivacaine.
CLINICAL RELEVANCE
For a better understanding of local anaesthesia for the extraction of the third molar, our study was aimed to provide evidence to guide better dental practices in pain management for clinicians.
Topics: Anesthesia, Dental; Anesthesia, Local; Anesthetics, Local; Bayes Theorem; Carticaine; Double-Blind Method; Humans; Lidocaine; Mandibular Nerve; Molar, Third; Nerve Block; Network Meta-Analysis; Pulpitis
PubMed: 32833132
DOI: 10.1007/s00784-020-03490-3 -
Journal of the American Dental... Feb 2020The authors of this systematic review and meta-analysis aimed to evaluate the effect of different anesthetics on the efficacy of inferior alveolar nerve block (IANB) in... (Meta-Analysis)
Meta-Analysis
BACKGROUND
The authors of this systematic review and meta-analysis aimed to evaluate the effect of different anesthetics on the efficacy of inferior alveolar nerve block (IANB) in patients with irreversible pulpitis.
TYPES OF STUDIES REVIEWED
The authors conducted a search of MEDLINE databases (PubMed, Scopus, Web of Science, Cochrane Central Register of Controlled Trials, Latin American and Caribbean Health Sciences Literature, and Brazilian Library of Dentistry). There was no restriction on publication year or idiom. The gray literature was also explored. The authors included only randomized clinical trials that compared different anesthetics in the efficacy of IANB in patients with irreversible pulpitis. The risk of bias was evaluated by using the Cochrane Collaboration's tool. A random-effects Bayesian mixed treatment comparison model was used to compare different anesthetic solutions in randomized clinical trials with low or unclear risk of bias. Heterogeneity was assessed by using Cochran Q test and I statistics. Quality of evidence was assessed by using the Grading of Recommendations Assessment, Development and Evaluation approach.
RESULTS
A total of 7,981 studies were identified; only 16 met the eligibility criteria, and they were all meta-analyzed. A significant difference was observed in the pair lidocaine versus articaine, with higher success with articaine (risk ratio, 0.76; 95% confidence interval, 0.63 to 0.88) in the mixed treatment comparison analysis, as this comparison was graded as high-quality evidence. The probability of success for each treatment was 73% for articaine, 57% for prilocaine, 55% for mepivacaine, 53% for bupivacaine, and 12% for lidocaine. This ranking was considered high quality of evidence.
CONCLUSIONS AND PRACTICAL IMPLICATIONS
The use of articaine can increase the IANB success rate in patients with irreversible pulpitis. Among the anesthetic solutions, lidocaine was the least effective.
Topics: Anesthesia, Dental; Anesthetics, Local; Bayes Theorem; Brazil; Double-Blind Method; Humans; Lidocaine; Mandibular Nerve; Nerve Block; Pulpitis
PubMed: 31813471
DOI: 10.1016/j.adaj.2019.09.002 -
The Cochrane Database of Systematic... Dec 2019Spinal anaesthesia has been implicated as one of the possible causes of neurological complications following surgical procedures. This painful condition,... (Meta-Analysis)
Meta-Analysis
BACKGROUND
Spinal anaesthesia has been implicated as one of the possible causes of neurological complications following surgical procedures. This painful condition, occurring during the immediate postoperative period, is termed transient neurological symptoms (TNS) and is typically observed after the use of spinal lidocaine. Alternatives to lidocaine that can provide high-quality anaesthesia without TNS development are needed. This review was originally published in 2005, and last updated in 2009.
OBJECTIVES
To determine the frequency of TNS after spinal anaesthesia with lidocaine and compare it with other types of local anaesthetics by performing a meta-analysis for all pair-wise comparisons, and conducting network meta-analysis (NMA) to rank interventions.
SEARCH METHODS
We searched CENTRAL, MEDLINE, Elsevier Embase, and LILACS on 25 November 2018. We searched clinical trial registries and handsearched the reference lists of trials and review articles.
SELECTION CRITERIA
We included randomized and quasi-randomized controlled trials comparing the frequency of TNS after spinal anaesthesia with lidocaine to other local anaesthetics. Studies had to have two or more arms that used distinct local anaesthetics (irrespective of the concentration and baricity of the solution) for spinal anaesthesia in preparation for surgery. We included adults who received spinal anaesthesia and considered all pregnant participants as a subgroup. The follow-up period for TNS was at least 24 hours.
DATA COLLECTION AND ANALYSIS
Four review authors independently assessed studies for inclusion. Three review authors independently evaluated the quality of the relevant studies and extracted the data from the included studies. We performed meta-analysis for all pair-wise comparisons of local anaesthetics, as well as NMA. We used an inverse variance weighting for summary statistics and a random-effects model as we expected methodological and clinical heterogeneity across the included studies resulting in varying effect sizes between studies of pair-wise comparisons. The NMA used all included studies based on a graph theoretical approach within a frequentist framework. Finally, we ranked the competing treatments by P scores.
MAIN RESULTS
The analysis included 24 trials reporting on 2226 participants of whom 239 developed TNS. Two studies are awaiting classification and one is ongoing. Included studies mostly had unclear to high risk of bias. The NMA included 24 studies and eight different local anaesthetics; the number of pair-wise comparisons was 32 and the number of different pair-wise comparisons was 11. This analysis showed that, compared to lidocaine, the risk ratio (RR) of TNS was lower for bupivacaine, levobupivacaine, prilocaine, procaine, and ropivacaine with RRs in the range of 0.10 to 0.23 while 2-chloroprocaine and mepivacaine did not differ in terms of RR of TNS development compared to lidocaine. Pair-wise meta-analysis showed that compared with lidocaine, most local anaesthetics were associated with a reduced risk of TNS development (except 2-chloroprocaine and mepivacaine) (bupivacaine: RR 0.16, 95% confidence interval (CI) 0.09 to 0.28; 12 studies; moderate-quality evidence; 2-chloroprocaine: RR 0.09, 95% CI 0.01 to 1.51; 2 studies; low-quality evidence; levobupivacaine: RR 0.13, 95% CI 0.02 to 0.69; 2 studies; low-quality evidence; mepivacaine: RR 1.01, 95% CI 0.18 to 5.82; 4 studies; very low-quality evidence; prilocaine: RR 0.18, 95% CI 0.07 to 0.49; 4 studies; moderate-quality evidence; procaine: RR 0.14, 95% CI 0.04 to 0.52; 2 studies; moderate-quality evidence; ropivacaine: RR 0.10, 95% CI 0.01 to 0.78; 2 studies; low-quality evidence). We were unable to perform any of our planned subgroup analyses due to the low number of TNS events.
AUTHORS' CONCLUSIONS
Results from both NMA and pair-wise meta-analysis indicate that the risk of developing TNS after spinal anaesthesia is lower when bupivacaine, levobupivacaine, prilocaine, procaine, and ropivacaine are used compared to lidocaine. The use of 2-chloroprocaine and mepivacaine had a similar risk to lidocaine in terms of TNS development after spinal anaesthesia. Patients should be informed of TNS as a possible adverse effect of local anaesthesia with lidocaine and the choice of anaesthetic agent should be based on the specific clinical context and parameters such as the expected duration of the procedure and the quality of anaesthesia. Due to the very low- to moderate-quality evidence (GRADE), future research efforts in this field are required to assess alternatives to lidocaine that would be able to provide high-quality anaesthesia without TNS development. The two studies awaiting classification and one ongoing study may alter the conclusions of the review once assessed.
Topics: Anesthesia, Local; Anesthesia, Spinal; Anesthetics, Local; Humans; Lidocaine; Network Meta-Analysis; Pain; Peripheral Nervous System Diseases; Randomized Controlled Trials as Topic
PubMed: 31786810
DOI: 10.1002/14651858.CD003006.pub4