Search Results (4)

Background: Regional anesthesia techniques are increasingly used for pain management in minimally invasive cardiac surgery (MICS). We aimed to evaluate whether the combination of interpectoral plane block (IPB) and superficial serratus anterior plane block (SAPB) provides non-inferior postoperative analgesia compared to erector spinae plane block (ESPB) in adult patients undergoing MICS. Methods: In this prospective, single-center, double-blind, randomized, non-inferiority trial, 40 adult patients scheduled for MICS were allocated to receive either ESPB (n = 20) or a combination of IPB + SAPB (n = 20) prior to surgical incision. All patients received standardized anesthesia. Pain was assessed using the Critical-Care Pain Observation Tool (CPOT) during intubation and the Numerical Rating Scale (NRS) at 6–48 h postoperatively, following extubation. The primary outcome was the NRS score at 24 h. A non-inferiority margin of 2 NRS points was pre-specified, and non-inferiority was evaluated using between-group differences with 95% confidence intervals. Opioid consumption was recorded via PCA fentanyl and rescue analgesics, converted to morphine milligram equivalents (MMEs). Secondary outcomes included extubation time and postoperative nausea and vomiting (PONV). Results: Median 24 h NRS was 3.0 (0–5.0) in the ESPB group and 2.5 (0–5.0) in the IPB + SAPB group. The between-group difference remained within the predefined two-point margin (95% CI: −0.8 to 1.2). Opioid consumption (p = 0.394), extubation time, and PONV incidence were comparable (all p > 0.05). No block-related complications occurred. Conclusions: IPB + SAPB was non-inferior to ESPB for postoperative analgesia in MICS. Despite requiring two injections, it remains an effective alternative. Larger trials are needed to confirm these findings. Full article

Cardiac surgery is continuously evolving, with increasing skills required by the cardiac anaesthesiologist. Following the advent of intraoperative echocardiography, we are witnessing a potential new revolution for the cardiac anaesthesiologist. A new era has indeed started with the implementation of thoracic fascial blocks (TFBs) in the field of cardiac surgery. TFBs provide several advantages in the context of multimodal analgesia, with improved pain control and reduction of the side effects related to large doses of opioids. We envisage that implementation of TFBs is likely to become a pivotal concept in the field of enhanced recovery after cardiac surgery. We describe the main TFBs for the anterior and/or antero-lateral chest wall, and their peculiar use in cardiac surgery. In particular, we discuss indications and tips and tricks to enhance clinical results for the following blocks: (1) Pecto-Intercostal Plane (superficial and deep); (2) Rectus Sheath; (3) Interpectoral Plane and Pectoserratus Plane; (4) Serratus Anterior Plane; (5) Erector Spinae Plane. Nonetheless, the scientific evidence for the use of TFBs in the field of cardiac anaesthesia is not robust yet, mostly based on small-sized single-centre studies, making it difficult to achieve a high quality of evidence. Further, it remains unclear which cardiac surgery patients may benefit the most from these techniques. Full article

Background and Objectives: The increase in the incidence and diagnosis rate of breast cancer demands the optimization of resources. The aim of this study was to assess whether the supplementation of the interpectoral-pectoserratus plane block (PECS II) reduces surgery and post-anesthesia care unit (PACU) time in patients undergoing breast cancer surgery. Materials and methods: This was a retrospective data-analysis study. In 2016, PECS II block was introduced as a supplement to general anesthesia for all mastectomies with or without axillary resections in South Jutland regional hospital, Denmark. The perioperative data of patients operated 3 years before and 3 years after 2016 was retrieved through the Danish anesthesia database and patient journals and systematically analyzed. Female patients aged over 18 years, with no use of muscle relaxant, intubation, and inhalation agents, were included. The eligible data was organized into two groups, i.e., Block and Control, where the Block group received PECS II Block, while the Control group received only general anesthesia. Parameters such as surgery time, anesthesia time, PACU time, opioid consumption, and the incidence of postoperative nausea and vomiting (PONV) in PACU were retrieved and statistically analyzed. Results: A total of 172 patients out of 358 patients met eligibility criteria. After applying exclusion criteria, 65 patients were filtered out. A total of 107 patients, 51 from the Block and 56 from the Control group, were eligible for the final analysis. The patients were comparable in demographic parameters. The median surgery time was significantly less in the Block group (78 min (60–99)) in comparison to the Control group (98.5 min (77.5–139.5) p < 0.0045). Consequently, the median anesthesia time was also shorter in the Block group (140 min (115–166)) vs. the Control group (160 min (131.5 to 188), p < 0.0026). Patients from the Block group had significantly lower intraoperative fentanyl consumption (60 µg (30–100)) as compared with the Control group (132.5 µg (80–232.5), p < 0.0001). The total opioid consumption during the entire procedure (converted to morphine) was significantly lower in the Block group (16.37 mg (8–23.6)) as compared with the Control group (31.17 mg (16–46.5), p < 0.0001). No statistically significant difference was found in the PACU time, incidences of PONV, and postoperative pain. Conclusions: The interpectoral-pectoserratus plane (PECS II) block supplementation reduces surgery time, anesthesia time, and opioid consumption but not PACU time during breast cancer surgery. Full article

With an incidence of over 1.5 million worldwide per annum, breast cancer continues to be the most common cancer affecting the female population. The main and most effective treatment in over 40% of these patients is a primary neoplasm resection. General anaesthesia, at times in association with loco-regional anaesthetics, is the most commonly used anaesthesia technique for radical mastectomies. Nausea, vomiting, and considerable postoperative pain, which are commonly experienced side effects and complications of general anaesthesia, tend, however, to augment most patients’ post-surgical morbidity. A growing body of research has shown that loco-regional anaesthesia often used together with and, in some cases, in the substitution of general anaesthesia can be a safe, effective alternative. This work is a case report regarding a 94-year-old elderly patient who was anaesthetised during a left radical mastectomy using exclusively combined interpectoral and pectoserratus plane blocks. Full article