nach oben

Erschienen in:

Open Access 01.12.2023 | Research

The role of dexmedetomidine as an adjuvant for high-thoracic erector spinae plane block for analgesia in shoulder arthroscopy; a randomized controlled study

verfasst von: Mohamed Ahmed Hamed, Omar Sayed Fargaly, Rana Ahmed Abdelghaffar, Mohammed Ahmed Moussa, Mohammad Fouad Algyar

Erschienen in: BMC Anesthesiology | Ausgabe 1/2023

Abstract

Background

Management of postoperative pain after shoulder arthroscopy is an important issue. Dexmedetomidine, as an adjuvant, improves nerve block efficacy and decreases postoperative consumption of opioids. As a result, we designed this study to determine if adding dexmedetomidine to an erector spinae plane block (ESPB) that is guided by ultrasound (US) is beneficial for treating immediate postoperative pain following shoulder arthroscopy.

Methods

This randomized controlled double-blind trial recruited 60 cases 18–65 years old of both sexes, American Society of Anesthesiologists (ASA) physical status I-II, scheduled for elective shoulder arthroscopy. Random allocation of 60 cases was done equally into two groups according to the solution injected in US-guided ESPB at T2 before general anesthetic induction. Group (ESPB): 20 ml 0.25% bupivacaine. Group (ESPB + DEX): 19 ml bupivacaine 0.25% + 1 mL dexmedetomidine 0.5 µg/kg. The primary outcome was The total rescue morphine consumption in the first 24 postoperative hours.

Results

The mean intraoperative fentanyl consumption was significantly lower in the group (ESPB + DEX) compared to the group (ESPB) (82.86 ± 13.57 versus 100.74 ± 35.07, respectively, P = 0.015). The median (IQR) time of the 1^st rescue analgesic request was significantly delayed in the group (ESPB + DEX) compared to group (ESPB) [18.5 (18.25–18.75) versus 12 (12–15.75), P = 0.044]. The number of cases that required morphine was significantly lower in the group (ESPB + DEX) than in the group (ESPB) (P = 0.012). The median (IQR) of total postoperative morphine consumption in 1^st 24 h was significantly lower in the group (ESPB + DEX) compared to the group (ESPB) [0 (0–0) versus 0 (0–3), P = 0.021].

Conclusion

The dexmedetomidine as an adjuvant to bupivacaine in ESPB produced adequate analgesia by reducing the intraoperative and postoperative opioid requirements in shoulder arthroscopy.

Trial Registration

This study is registered on ClinicalTrials.gov (NCT05165836; principal investigator: Mohammad Fouad Algyar; registration date: 21/12/ 2021).

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

ASA

The American Society of Anesthesiologists

BIS

Bispectral Index

BMI

Body mass index

Confidence Interval

ESPB

Erector Spinae Plane Block

General Anesthesia

Heart Rate

IQR

Interquartile Range

Local anesthetic

MAP

Mean Arterial Blood Pressure

NRS

Numeric Rating Scale

PACU

Post Anesthesia Care Unit

PCA

Patient-Controlled Analgesia

PONV

Postoperative nausea and vomiting

PVB

Paravertebral Block

Standard deviation

Ultrasound

Introduction

Shoulder arthroscopy is one of the most frequently performed orthopedic surgery for various surgical applications, such as instability and stiffness of rotator cuff tears [1, 2]. Postoperative pain is an unfavorable outcome causing distress to cases. So, good pain management is critical to recovery after orthopedic surgery and is required to optimize surgical results [3].

There are several analgesic strategies and methods for postoperative pain management following a shoulder arthroscopy, including regional nerve blocks, intra-articular administration of local anesthetic (LA), non-steroidal anti-inflammatory drugs, intravenous narcotics shots, or patient-controlled analgesia (PCA), and continuous-flow cold therapy [4].

The erector spinae plane block (ESPB) is a relatively new regional anesthetic technique that can control acute pain for different surgeries [5]. Additionally, ESPB is a successful treatment for persistent pain in the shoulder, and the LA distribution was observed to extend to C3 if conducted at the T2 level [6‐8].

Dexmedetomidine is an effective α2 agonist that lowers blood pressure, causes perioperative sympatholysis, and improves the anaesthesia produced by other anaesthetics [9‐11]. Dexmedetomidine can also lengthen and speed up the onset of nerve blocks when used with LA [12‐15].

We hypothesized that dexmedetomidine use as an adjuvant in ESPB in shoulder arthroscopy would provide more effective and prolonged pain relief.

Nevertheless, there is a paucity of studies that discussed the impact of dexmedetomidine use as an adjuvant in ESPB in shoulder arthroscopy, so we established this trial to evaluate the effect of adding dexmedetomidine to ultrasound (US)-guided ESPB for the management of acute postoperative pain in shoulder arthroscopy.

Methods

This randomized controlled double-blind was conducted following the tenets of the Declaration of Helsinki. The study design was approved by the ethical review board of Kafrelsheikh University, Egypt (MKSU 40–11-21), and written informed consent was reported from all cases. The study was conducted after registration on ClinicalTrials.gov (NCT05165836; principal investigator: Mohammad Fouad Algyar; date of registration: December 21, 2021, with no plan to share individual participant data). Our research enrolled 60 cases 18 to 65 years old, of both sexes, with body mass index < 40 kg/m², American Society of Anesthesiologists (ASA) physical status I-II, scheduled for elective shoulder arthroscopy. The study was conducted from December 21, 2021, to May 20, 2022, at Kafrelsheikh and Fayoum University hospitals.

Exclusion criteria were allergic history to drugs used in the trial, shoulder diagnostic arthroscopic operations, chronic opioid usage, skin infection of the block area, and coagulopathy.

Randomization and blindness

Sixty cases were randomly divided into two groups by a computer-generated sequence into sealed opaque envelopes. Group (ESPB) n = 30: received ESPB by 20 ml 0.25% bupivacaine, group (ESPB + DEX) n = 30: received ESPB by 19 ml bupivacaine 0.25% + 1 ml dexmedetomidine 0.5 μg/kg. Cases, anesthesiologists, and outcome assessors were blinded. A devoted pharmacist formulated the research solutions without further involvement in the trial. Unaware of the group assignment, a second anesthesiologist examined intraoperative and postoperative parameters.

Preanesthetic assessment included history taking, general examination, and laboratory investigations.

All cases were premedicated by midazolam 2 mg intravenous (IV) after cannula insertion. In addition, cases underwent US-guided ESPB before general anesthesia induction (GA).

High-Thoracic ESPB Technique [7]

Blocks were put together using a US machine (Philips CX50 Extreme edition). To see the lateral tip of the T2 transversal process, a 2–5 MH2 curved probe was positioned transversely. The patient's transducer was positioned longitudinally three cm laterally of the T2 spinous process. The hyperechoic transverse process cast a shadow across the muscles of the rhomboid major, trapezius, and erector spinae. The skin was thereafter numbed with 3 ml of 2% lidocaine. A 20-gauge needle was used to administer 20 ml of 0.25% bupivacaine or 19 ml of bupivacaine 0.25% + 1 mL of 0.5 g/kg dexmedetomidine to the designated group. The tip of the needle was positioned in the deep fascial plane (anterior) side of the erector spinae. The fluid spreading out, lifting the erector spinae muscle away from the transverse process shadow, revealed the needle's position.

The success of the block was confirmed by the loss of pinprick sensation on the dermatomal site of the block after 30 min of injection. Therefore, cases of failed blocks were excluded from the study.

The conventional approach of GA was used in every case. Monitoring was done by pulse oximetry, noninvasive blood pressure, temperature probe, capnography, and 5- lead ECG. Propofol 2 mg/kg IV and fentanyl one µg/kg IV were used to induce GA. Cis-atracurium 0.15 mg/kg IV was used to facilitate endotracheal intubation. Isoflurane 1–1.5% in 50% oxygen was used for anesthesia maintenance. Increasing dosages of 0.03 mg/kg cis-atracurium were administered intravenously. The depth of anesthesia was adjusted to obtain an adequate level of anesthesia by titrating the concentration according to the BIS monitoring (BIS Complete Monitoring System) to keep the BIS value between 40 and 60. Supplemental dosages of fentanyl one µg/kg IV were administered whenever the mean arterial blood pressure (MAP) or heart rate (HR) was over 20% from baseline readings. Intraoperative fentanyl (including induction dose) and isoflurane consumption were recorded. Intraoperative HR and MAP were measured intraoperatively every 15 min.

The extubation was completed once the anaesthesia was stopped. The post-anesthesia care unit received the cases (PACU). After then, cases were moved to the ward. Cases received a 1 gm/8 h IV dose of paracetamol. If the numeric rating scale (NRS) score is ≥ 4, rescue analgesia in the form of 3 mg IV morphine was administered. This procedure was repeated with a 10-min lockout interval until the NRS value dropped below 3. It was noted when the first rescue analgesia was used and how much morphine was used overall in the first day after surgery. In the PACU, immediately after surgery, and at 1, 2, 4, 6, 8, 12, and 24 h postoperatively, pain was assessed using the numerical rating scale (NRS), HR, and MAP.

Adverse events were recorded, such as nausea, vomiting, and hypotension (MAP < 20% of baseline readings and was managed by ephedrine, bradycardia (HR < 60 beats/min and was managed by atropine).

Outcomes

The total postoperative morphine consumption was our primary outcome. Secondary outcomes were postoperative pain scores, time to first request for rescue analgesia, and any adverse events.

Sample size calculation

G*Power 3.1.9.2 (Universitat Kiel, Germany) was used to determine the sample size. The mean (± SD) total morphine consumption (our primary outcome) was 3.43 ± 2.56 mg in ESPB without dexmedetomidine and 1.71 ± 1.79 mg in ESPB with dexmedetomidine according to a previous study (15). In each group, 30 cases were recruited with 0.779 effect size, 95% confidence limit, and 80% power, group ratio 1:1, and three cases were added to overcome dropout.

Statistical analysis

SPSS v26 was used to perform statistical analysis (IBM©, Chicago, IL, USA). Using the Shapiro-Wilks test and histograms, the normality of the data distribution was determined. Parametric quantitative data were expressed as mean and standard deviation (SD) and analyzed by unpaired student t-test. Non-parametric quantitative data were expressed as the median and interquartile range (IQR) and analyzed using the Mann–Whitney test. Qualitative variables were given as frequency and percentage (%) and analyzed using the Chi-square or Fisher's exact test. A two-tailed P value less than or equal to 0.05 was deemed statistically significant.

Results

In this trial, eligibility was determined for 92 cases. Sixty cases were divided into two groups of equal size. Three cases in the group (ESPB) and two cases in the group (ESPB + DEX) were dropped out due to failed block. Only 55 cases were analyzed (Fig. 1).

Insignificant differences were found between the two groups regarding patient demographics and duration of surgery (Table 1).

Table 1

Patient characteristics and duration of surgery of the studied groups

		Group ESPB	Group ESPB + DEX	P value
Sample size, n		30	30
Mean Age (SD) in (years)		44.81 ± 13.62	41.11 ± 12.98	0.306
Mean BMI (SD) in (kg/m²)		32.42 ± 4.9	31.79 ± 6.11	0.675
Gender, n (%)	Male	23 (85.2%)	22 (78.6%)	0.746
Gender, n (%)	Female	4 (14.8%)	6 (21.4%)	0.746
ASA physical status, n (%)	I	21 (77.78%)	20 (71.43%)	0.770
ASA physical status, n (%)	II	6 (22.22%)	8 (28.57%)	0.770
Mean duration of surgery (SD) in (min)		119.7 ± 28.09	125 ± 35.47	0.543

Data presented as mean ± SD and frequency (%), BMI Body mass index, ASA American Society of Anesthesiologists

The mean intraoperative fentanyl consumption was significantly lower in the group (ESPB + DEX) compared to the group (ESPB) (82.86 ± 13.57 versus 100.74 ± 35.07, respectively, P = 0.015). The median (IQR) time of the 1^st rescue analgesic request was significantly delayed in the group (ESPB + DEX) compared to the group (ESPB) [18.5 (18.25–18.75) versus 12 (12–15.75), P = 0.044]. The number of cases that required morphine was significantly lower in the group (ESPB + DEX) than in the group (ESPB) (P = 0.012). The median (IQR) of total postoperative morphine consumption in 1^st 24 h was significantly lower in the group (ESPB + DEX) compared to the group (ESPB) [0 (0–0) versus 0 (0–3), P = 0.021] (Table 2).

Table 2

Intraoperative fentanyl, isoflurane consumption, and postoperative total morphine consumption in both groups

	Group ESPB	Group ESPB + DEX	P value
Sample size,n	27	28
The mean intraoperative fentanyl consumption(SD) in (µg)	100.74 ± 35.07	82.86 ± 13.57	0.015
Time to the 1^st rescue analgesic request (IQR) in hours	12 (12–15.75)	18.5 (18.25–18.75)	0.044
The cases required postoperative morphine (SD)	11(40.74%%)	2 (7.14%%)	0.012
	(n = 11)	(n = 2)
The Postoperative total morphine consumption in 1^st 24 h (IQR) in (mg)	0 (0–3)	0 (0–0)	0.021

Data presented as mean ± SD or median (IQR), or frequency (%)

NRS was significantly lower in the group (ESPB + DEX) compared to the group (ESPB) at 12 and 18 h (P value = 0.001 and 0.001 respectively) and insignificantly different between both groups at other measurement times (Table 3).

Table 3

Comparison of the Numerical Rating Scale of the studied groups

	Group ESPB	Group ESPB + DEX	P value
Sample size, n	27	28
Immediate in PACU	1 (1–2)	1 (0–1)	0.098
1 h	1 (1–2)	1 (0–2)	0.415
2 h	1 (1–2)	2 (0–3)	0.192
4 h	2 (1–3)	2 (0–3)	0.479
6 h	1 (0–2)	2 (0.75–3)	0.276
8 h	1 (0–2)	2 (0.75–2.25)	0.289
12 h	3 (2.5–4)	1 (0–2)	< 0.001
18 h	3 (2–3)	2 (1–2.25)	< 0.001
24 h	1 (0–1.5)	1 (0–2)	0.719

Data presented as median (IQR)

Intraoperative HR and MAP were insignificantly different between both groups in all measurements. However, HR and MAP postoperatively were significantly lower in the group (ESPB + DEX) than in the group (ESPB) at 12 and 18 h (P value < 0.05) and compared between groups at other measurements.

PONV, bradycardia, and hypotension were insignificantly different between both groups. Block-related complications did not occur in any patient (Table 4).

Table 4

Adverse effects of the studied groups

	Group ESPB	Group ESPB + DEX	P value
Sample size,n	27	28
PONV, n (%)	6 (22.2%)	4 (14.3%)	0.730
Bradycardia, n (%)	3 (10%)	5 (17%)	0.706
Hypotension, n (%)	2 (7%)	4 (13%)	0.670

Data presented as frequency (%), PONV Postoperative nausea and vomiting

Discussion

In the current research, we observed that adding dexmedetomidine in US-guided ESPB was associated with a better analgesic effect by reducing intraoperative fentanyl and postoperative morphine consumption and a more prolonged analgesic effect and reduction of NRS with stable hemodynamics.

Peripheral nerve blocks, such as interscalene and supraclavicular blocks, can be utilised for postoperative shoulder analgesia. There are many methods for treating pain following shoulder surgery [16]. ESPB is an alternative method for the management of shoulder postoperative pain [7], and it has also been reported that ESPB may be used for chronic shoulder pain and upper extremity surgery [6, 8].

The increase in cation channels brought on by hyperpolarization, which prevents the nerve's membrane potential from returning to its resting state for potential discharge after hyperpolarization, is what gives perineuronal dexmedetomidine its analgesic effects [17]. Compared to placebo, perineural dexmedetomidine showed 60% prolongation of ulnar nerve sensory blockage, while systemic dexmedetomidine prolonged the duration of sensory block by 10% [18].

This is similar to another randomized controlled trial done by Elshal et al., [19] who documented that the addition of dexmedetomidine 0.5 µg/kg to bupivacaine in US-guided ESPB enhanced analgesia in open thoracotomy; this was evidenced by extended analgesic duration and a lower Visual Analog Scale at rest and while coughing and both intraoperative fentanyl and postoperative morphine use in 24 h with comparable hemodynamic characteristics in both groups. Dexmedetomidine's analgesic effects are regulated by various processes [20].

Similarly, Ciftci et al. [7] stated that performing high thoracic, high-volume, single-injection ESPB may provide effective analgesia as part of a multimodal analgesia treatment following arthroscopic shoulder surgery.

In contrast Kapukaya et al. [8] in their study Interscalene brachial plexus block offers more effective pain control than ESPB after arthroscopic shoulder surgery, according to a study comparing erector spinae plane block with interscalene brachial plexus block for postoperative analgesic management in patients who underwent shoulder arthroscopy.

Shanthanna et al. [21] in their randomised controlled trial; After arthroscopic shoulder surgery, the erector spinae plane block is preferred to peri-articular injection for pain management. They came to the conclusion that ESPB conducted at T2 was not superior to peri-articular injection for pain control and narcotic intake in major arthroscopic shoulder surgery. Also, previous research [22] showed that adding dexmedetomidine 0.5 g/kg to ropivacaine 0.25% for transversus abdominis plane block lowered the opioid intake and prolonged the analgesia duration without causing any extra adverse events following a variety of major surgeries.

Also, Mohta et al. [23] found that adding dexmedetomidine one µg/kg in paravertebral block (PVB) to bupivacaine 0.5% showed decreased morphine consumption and pain scores and delayed time to request the first analgesia in cases undergoing extensive surgery for breast cancer.

In addition, Mohamed et al. [24] found that in cases taking dexmedetomidine1 µg/kg, the time required first to rescue analgesia was longer, and the mean total intake of opioids was lower utilizing thoracic PVB with 20 ml of 0.25% bupivacaine in modified radical mastectomy.

According to our trial's results, adding dexmedetomidine 0.5 µg/kg to ESPB did not generate significant changes in HR or MAP. In addition, the incidence of other adverse events, such as nausea, vomiting, hypotension, and bradycardia, was comparable across the two groups.

Nevertheless, Esmaoglu et al. [25] documented that adding dexmedetomidine 100 µg to the LA resulted in significant HR, systolic blood pressure, and diastolic blood pressure within the first two hours. Other studies [26, 27] have reported marked bradycardia and hypotension following dexmedetomidine administration. Our research did not observe that we used a lower dose of dexmedetomidine (0.5 µg/kg).

The limitations

There were limitations in our trial, including a relatively small sample size to prove the occurrence of adverse effects of the block and a limited follow-up period (only 24 h). the sample size calculation was based on the previous study conducted on thoracotomies, in which many other factors are associated with postoperative pain. We used a volume of 20 ml 0.25% bupivacaine. More studies may be performed with different volumes and concentrations. Also, no control group utilized systemic analgesia or one of the regional gold-standard approaches in shoulder arthroscopy. More extensive randomized trials are needed to determine the dexmedetomidine effect on chronic pain and other related complications.

Conclusion

The dexmedetomidine as an adjuvant to bupivacaine in ESPB produced adequate analgesia by reducing the intraoperative and postoperative opioid requirements in shoulder arthroscopy.

Acknowledgements

Not applicable

Declarations

All the methods in this study were approved by The ethical review board of Kafrelsheikh University, Egypt, Permission number (MKSU 40–11-21). Written informed consent was taken from all patients. The methods were done according to the relevant guidelines and regulations.

Not Applicable.

Competing interests

The authors declare no competing interests.

Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data.

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Eichinger JK, Galvin JW. Management of complications after total shoulder arthroplasty. Curr Rev Musculoskelet Med. 2015;8:83–91.CrossRefPubMedPubMedCentral

Gotlin MJ, Kwon YW, Strauss EJ, Zuckerman JD, Virk MS. Glenohumeral arthritis in the young adult current concepts in treatment. Bull Hosp Jt Dis. 2013;2022(80):37–46.

Garimella V, Cellini C. Postoperative pain control. Clin Colon Rectal Surg. 2013;26:191–6.CrossRefPubMedPubMedCentral

Hurley ET, Maye AB, Thompson K, Anil U, Resad S, Virk M, et al. Pain Control After Shoulder Arthroscopy: A Systematic Review of Randomized Controlled Trials With a Network Meta-analysis. Am J Sports Med. 2021;49(8):2262–71. https://doi.org/10.1177/0363546520971757. Epub 2020 Dec 15.

Tulgar S, Ahiskalioglu A, De Cassai A, Gurkan Y. Efficacy of bilateral erector spinae plane block in the management of pain: current insights. J Pain Res. 2019;27(12):2597–613. https://doi.org/10.2147/JPR.S182128. (PMID:31695476;PMCID:PMC6717717).CrossRef

Forero M, Rajarathinam M, Adhikary SD, Chin KJ. Erector spinae plane block for the management of chronic shoulder pain: a case report. Can J Anaesth. 2018;65:288–93.CrossRefPubMed

Ciftci B, Ekinci M, Gölboyu BE, Kapukaya F, Atalay YO, Kuyucu E, Demiraran Y. High Thoracic Erector Spinae Plane Block for Arthroscopic Shoulder Surgery: A Randomized Prospective Double-Blind Study. Pain Med. 2021;22(4):776–83. https://doi.org/10.1093/pm/pnaa359. (PMID: 33155041).CrossRefPubMed

Kapukaya F, Ekinci M, Ciftci B, Atalay YO, Gölboyu BE, Kuyucu E, Demiraran Y. Erector spinae plane block vs interscalene brachial plexus block for postoperative analgesia management in patients who underwent shoulder arthroscopy. BMC Anesthesiol. 2022;22(1):142. https://doi.org/10.1186/s12871-022-01687-5. (PMID:35550031;PMCID:PMC9097375).CrossRefPubMedPubMedCentral

Lee S. Dexmedetomidine: present and future directions. Korean J Anesthesiol. 2019;72:323–30.CrossRefPubMedPubMedCentral

10.

Bekker AY, Kaufman B, Samir H, Doyle W. The use of dexmedetomidine infusion for awake craniotomy. Anesth Analg. 2001;92:1251–3.CrossRefPubMed

11.

Mack PF, Perrine K, Kobylarz E, Schwartz TH, Lien CA. Dexmedetomidine and neurocognitive testing in awake craniotomy. J Neurosurg Anesthesiol. 2004;16:20–5.CrossRefPubMed

12.

Almasi R, Rezman B, Kriszta Z, Patczai B, Wiegand N, Bogar L. Onset times and duration of analgesic effect of various concentrations of local anesthetic solutions in standardized volume used for brachial plexus blocks. Heliyon. 2020;6:e04718.CrossRefPubMedPubMedCentral

13.

Abdallah FW, Brull R. Facilitatory effects of perineural dexmedetomidine on neuraxial and peripheral nerve block: a systematic review and meta-analysis. Br J Anaesth. 2013;110:915–25.CrossRefPubMed

14.

Vorobeichik L, Brull R, Abdallah FW. Evidence basis for using perineural dexmedetomidine to enhance the quality of brachial plexus nerve blocks: a systematic review and meta-analysis of randomized controlled trials. Br J Anaesth. 2017;118:167–81.CrossRefPubMed

15.

Ping Y, Ye Q, Wang W, Ye P, You Z. Dexmedetomidine as an adjuvant to local anesthetics in brachial plexus blocks: A meta-analysis of randomized controlled trials. Medicine (Baltimore). 2017;96:e5846.CrossRefPubMed

16.

Fontana C, Di Donato A, Di Giacomo G, et al. Postoperative analgesia for arthroscopic shoulder surgery: A prospective randomized controlled study of intraarticular, subacromial injection, interscalenic brachial plexus block and intraarticular plus subacromial injection efficacy. Eur J Anaesthesiol. 2009;26(8):689–93.CrossRefPubMed

17.

Wang X, Ran G, Chen X, Xie C, Wang J, Liu X, et al. The effect of ultrasound-guided erector spinae plane block combined with dexmedetomidine on postoperative analgesia in patients undergoing modified radical mastectomy: A randomized controlled trial. Pain Ther. 2021;10:475–84.CrossRefPubMedPubMedCentral

18.

Marhofer D, Kettner SC, Marhofer P, Pils S, Weber M, Zeitlinger M. Dexmedetomidine as an adjuvant to ropivacaine prolongs peripheral nerve block: a volunteer study. Br J Anaesth. 2013;110:438–42.CrossRefPubMed

19.

Elshal MM, Gamal RM, Ahmed AM, Gouda NM, Abdelhaq MM. Efficacy of adding dexmedetomidine as adjuvant with bupivacaine in ultrasound-guided erector spinae plane block for post thoracotomy pain: Randomized controlled study. Egypt J Anaesth. 2021;37:425–31.CrossRef

20.

Zhao Y, He J, Yu N, Jia C, Wang S. Mechanisms of dexmedetomidine in neuropathic pain. Front Neurosci. 2020;14:330–430.CrossRefPubMedPubMedCentral

21.

Shanthanna H, Czuczman M, Moisiuk P, O'Hare T, Khan M, Forero M, Davis K, Moro J, Vanniyasingam T, Foster G, Thabane L, Alolabi B. Erector spinae plane block vs. peri-articular injection for pain control after arthroscopic shoulder surgery: a randomised controlled trial. Anaesthesia. 2021. doi: https://doi.org/10.1111/anae.15625. Epub ahead

22.

Lee JS, Hu HM, Edelman AL, Brummett CM, Englesbe MJ, Waljee JF, et al. New persistent opioid use among patients with cancer after curative-intent surgery. J Clin Oncol. 2017;35:4042–9.CrossRefPubMedPubMedCentral

23.

Mohta M, Kalra B, Sethi AK, Kaur N. Efficacy of dexmedetomidine as an adjuvant in paravertebral block in breast cancer surgery. J Anesth. 2016;30:252–60.CrossRefPubMed

24.

Mohamed SA, Fares KM, Mohamed AA, Alieldin NH. Dexmedetomidine as an adjunctive analgesic with bupivacaine in paravertebral analgesia for breast cancer surgery. Pain Physician. 2014;17:E589–98.CrossRefPubMed

25.

Esmaoglu A, Yegenoglu F, Akin A, Turk CY. Dexmedetomidine added to levobupivacaine prolongs axillary brachial plexus block. Anesth Analg. 2010;111:1548–51.CrossRefPubMed

26.

Gad M, Elmetwally M. Efficacy of adding dexmedetomidine as adjuvant with levobupivacaine in ultrasound-guided serratus plane block for modified radical mastectomy surgery. Res Opin Anesth Intensive Care. 2019;6:234–42.CrossRef

27.

Das K, Singh A, Khatri D, Gosal J, Bhaisora K, Mehrotra A, et al. The dilemma of multifocality in insular tumors: Multicentricity versus metastasis. Saudi J Anaesth. 2014;8:72–7.CrossRef

Titel: The role of dexmedetomidine as an adjuvant for high-thoracic erector spinae plane block for analgesia in shoulder arthroscopy; a randomized controlled study
verfasst von: Mohamed Ahmed Hamed
Omar Sayed Fargaly
Rana Ahmed Abdelghaffar
Mohammed Ahmed Moussa
Mohammad Fouad Algyar
Publikationsdatum: 01.12.2023
Verlag: BioMed Central
Erschienen in: BMC Anesthesiology / Ausgabe 1/2023
Elektronische ISSN: 1471-2253
DOI: https://doi.org/10.1186/s12871-023-02014-2

Neu im Fachgebiet AINS

Delir bei kritisch Kranken – Antipsychotika versus Placebo

16.05.2024 Delir nicht substanzbedingt Nachrichten

Um die Langzeitfolgen eines Delirs bei kritisch Kranken zu mildern, wird vielerorts auf eine Akuttherapie mit Antipsychotika gesetzt. Eine US-amerikanische Forschungsgruppe äußert jetzt erhebliche Vorbehalte gegen dieses Vorgehen. Denn es gibt neue Daten zum Langzeiteffekt von Haloperidol bzw. Ziprasidon versus Placebo.

Eingreifen von Umstehenden rettet vor Erstickungstod

15.05.2024 Fremdkörperaspiration Nachrichten

Wer sich an einem Essensrest verschluckt und um Luft ringt, benötigt vor allem rasche Hilfe. Dass Umstehende nur in jedem zweiten Erstickungsnotfall bereit waren, diese zu leisten, ist das ernüchternde Ergebnis einer Beobachtungsstudie aus Japan. Doch es gibt auch eine gute Nachricht.

Darf man die Behandlung eines Neonazis ablehnen?

08.05.2024 Gesellschaft Nachrichten

In einer Leseranfrage in der Zeitschrift Journal of the American Academy of Dermatology möchte ein anonymer Dermatologe bzw. eine anonyme Dermatologin wissen, ob er oder sie einen Patienten behandeln muss, der eine rassistische Tätowierung trägt.

Ein Drittel der jungen Ärztinnen und Ärzte erwägt abzuwandern

07.05.2024 Klinik aktuell Nachrichten

Extreme Arbeitsverdichtung und kaum Supervision: Dr. Andrea Martini, Sprecherin des Bündnisses Junge Ärztinnen und Ärzte (BJÄ) über den Frust des ärztlichen Nachwuchses und die Vorteile des Rucksack-Modells.

Update AINS

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

hier abonnieren

Springer Medizin

Abstract

Background

Methods

Results

Conclusion

Trial Registration

Publisher’s Note

Introduction

Methods

Randomization and blindness

High-Thoracic ESPB Technique [7]

Outcomes

Sample size calculation

Statistical analysis

Results

Discussion

The limitations

Conclusion

Acknowledgements

Declarations

Ethics approval and consent to participate

Consent for publication

Competing interests

Publisher’s Note

Weitere Artikel der Ausgabe 1/2023

Association between serum HMGB1 elevation and early pediatric acute respiratory distress syndrome: a retrospective study of pediatric living donor liver transplant recipients with biliary atresia in China

Efficacy and safety of Cook staged Extubation Set in patients with difficult airway: a systematic review and meta-analysis

Postoperative effect of sufentanil preemptive analgesia combined with psychological intervention on breast cancer patients

Pre-anesthesia ultrasound monitoring of subclavian vein diameter changes induced by modified passive leg raising can predict the occurrence of hypotension after general anesthesia: a prospective observational study

NT-proBNP change is useful for predicting weaning failure from invasive mechanical ventilation among postsurgical patients: a retrospective, observational cohort study

General anesthesia with S-ketamine improves the early recovery and cognitive function in patients undergoing modified radical mastectomy: a prospective randomized controlled trial

Neu im Fachgebiet AINS

Delir bei kritisch Kranken – Antipsychotika versus Placebo

Eingreifen von Umstehenden rettet vor Erstickungstod

Darf man die Behandlung eines Neonazis ablehnen?

Ein Drittel der jungen Ärztinnen und Ärzte erwägt abzuwandern

Update AINS