Search Results (90)

Background/Objectives: Current guidelines recommend objective neuromuscular monitoring to ensure patient safety during neuromuscular blockade. Acceleromyography using train-of-four (TOF) stimulation is most commonly used to assess neuromuscular function. This study compares a new electromyography-based monitor with an established acceleromyography device for neuromuscular monitoring when mounted on a restricted arm. Methods: This prospective, controlled observational study enrolled patients undergoing surgery with general anesthesia requiring neuromuscular blockade. Two neuromuscular monitoring systems were used simultaneously: the standard acceleromyography device (Philips IntelliVue MX550) and the electromyography-based TetraGraph^® monitor on the opposite arm. Atracurium was administered as the neuromuscular blocking agent. The TetraGraph^® arm was restricted during surgery. The primary outcome was the time for the TOF ratio to return to ≥90%. Secondary endpoints included the time to reach a TOF count of 0 during induction. Data were analyzed using Bland–Altman plots and a paired t-test. Results: Mean time to recovery to TOF ratio ≥ 90% was 67 min (±21.4) for IntelliVue MX 550 and 75.8 min (±22.3) for TetraGraph^® (p = 0.0001; mean bias 8.9 min, 95% confidence intervals (CIs) 5.99–11.8). The mean time to reach a TOF count of 0 was 180.6 s (±7.8) for IntelliVue and 200 s (±8.2) for TetraGraph^® (p = 0.0217; mean bias 19 s, 95% CI 2.96–35.8). Conclusions: TetraGraph^® consistently recorded the endpoints later than IntelliVue, reflecting slower onset and recovery times. However, substantial intra-individual variability was observed with both devices during recovery from neuromuscular block. The observed differences may have clinical implications, such as when assessing readiness for extubation. Full article

Background/Objectives: Laparoscopic gynecologic surgery is widely utilized due to its minimally invasive nature. Postoperative discomfort, including intra-abdominal and referred shoulder pain, remains a challenge. This study evaluates the impact of deep neuromuscular blockade (NMB) reversed with sugammadex compared to moderate NMB reversed with neostigmine on postoperative pain, recovery, and surgical conditions in patients undergoing laparoscopic hysterectomy. Methods: This double-blind, randomized controlled trial included 228 patients undergoing laparoscopic hysterectomy under standardized pneumoperitoneum pressure (12 mmHg). Participants were randomized into two groups: deep NMB with sugammadex (SUG) and moderate NMB with neostigmine (NEO). Primary outcomes included postoperative pain (NRS) and neuromuscular recovery time (TOF ratio ≥ 0.9). Secondary outcomes were surgical conditions, surgeon satisfaction, extubation and recovery times, incidence of postoperative nausea and vomiting (PONV), and analgesic consumption. Results: The SUG group exhibited lower pain scores up to 24 h compared to the NEO group (p < 0.05). Pain reductions remained statistically significant up to 6 h postoperatively after Bonferroni correction, while differences beyond this time were not significant after adjustment. Neuromuscular recovery was markedly faster in the SUG group (147.58 ± 82.26 s vs. 488.02 ± 223.07 s, p < 0.05). Patients in the SUG group had shorter extubation (ΔT1), awakening (ΔT2), and recovery room transfer times (ΔT3). PONV was significantly lower in the SUG group. Deep NMB did not contribute to the improvement of surgical workspace conditions. Conclusions: Deep NMB with sugammadex enhances postoperative pain control and accelerates neuromuscular recovery in laparoscopic hysterectomy. These findings support the adoption of deep NMB with sugammadex as a valid anesthetic approach in laparoscopic hysterectomy procedures. Full article

Background/Objectives: Total intravenous anesthesia (TIVA) typically combines propofol and remifentanil. Remifentanil exerts minimal influence on motor evoked potential (MEP), whereas propofol partially reduces MEP amplitude. Remimazolam, a novel agent, is a component of TIVA. However, evidence of remimazolam on MEP is limited. We aimed to compare the effects of propofol and remimazolam, combined with remifentanil, on relative MEP depression. Methods: Using a crossover design, 18 patients undergoing spine surgery were randomly assigned to receive either propofol or remimazolam as the first agent. In the propofol first sequence, anesthesia was induced and maintained with propofol, which was then switched to remimazolam 60 min after surgery. In the remimazolam first sequence, remimazolam was used first and then switched to propofol. The primary outcomes measured were the MEP amplitude and latency. Results: MEP amplitude and latency during propofol and remimazolam infusions were as follows: amplitude (mean (SD); 635.3 (399.1) vs. 738.4 (480.4) μV, p = 0.047) and latency (median [IQR]; 22.4 [20.3–24.6] vs. 21.4 [19.6–23.5] ms, p = 0.070), indicating propofol caused greater depression in amplitude than remimazolam. However, an incident of severe body movement disrupting surgery occurred under remimazolam anesthesia in a young, healthy male patient, although bispectral index remained below 60. This suggests that remimazolam, at hypnotic levels similar to propofol, may result in reduced akinesia in major surgeries, such as spinal surgery, when neuromuscular blockade is not employed. Conclusions: Remimazolam demonstrated comparable or superior effects to propofol on MEP latency and amplitude when combined with remifentanil during spinal surgery, rendering it a potential alternative to propofol for MEP monitoring. Full article

Preeclampsia with severe features presents major anesthetic challenges, particularly in category 1 cesarean sections, in which rapid, safe, and hemodynamically stable induction is critical. Neuraxial techniques may be controversial due to neurological symptoms, making general anesthesia a viable option. However, traditional general anesthesia may exacerbate hypertension and increase maternal and fetal risks. Two primigravida patients with elevated blood pressure and neurological symptoms underwent category 1 cesarean delivery under TIVA-TCI with propofol, using the Marsh model. Hemodynamic stability, drug dosing, and maternal–neonatal outcomes were monitored. Sufentanil was administered for analgesia; neuromuscular blockade was achieved with rocuronium and reversed with sugammadex. No BIS or TOF monitoring was available. Both patients maintained stable hemodynamics and oxygenation throughout surgery. Intubation was successfully performed at an effect-site concentration of 3.5 µg/mL. Neonatal Apgar scores were within acceptable limits. No major complications occurred intraoperatively or postoperatively. TCI allowed individualized dosing and smooth emergence. TIVA-TCI with propofol appears to be a viable alternative to volatile-based general anesthesia in category 1 emergencies for cesarean sections for patients with preeclampsia with severe features, especially when neuraxial anesthesia is controversial. It offers hemodynamic stability and controlled depth of anesthesia, though its use requires experience and may not be optimal in cases requiring ultra-rapid induction. Full article

Background: Botulinum toxin type A (BoNT/A) is widely used in both clinical and aesthetic settings to induce temporary neuromuscular paralysis by inhibiting acetylcholine release. Although generally regarded as safe and effective, complications such as iatrogenic ptosis or facial asymmetry may occur and persist for several weeks or even months, with no standardized method currently available to accelerate recovery. Objective: This article explores the hypothesis that photobiomodulation (PBM)—a non-invasive modality recognized for its neuroregenerative potential—may facilitate the reversal of BoNT/A-induced neuromuscular blockade. Discussion: PBM enhances mitochondrial activity by stimulating cytochrome c oxidase in nerve and muscle tissues, thereby increasing ATP production and modulating intracellular signaling pathways associated with neuroplasticity, cell survival, and synaptogenesis. Preclinical studies have demonstrated that PBM can upregulate neurotrophic factors (e.g., BDNF, NGF), enhance SNAP-25 expression, and promote structural remodeling of neurons in both young and aged brains. These mechanisms are biologically consistent with the regenerative processes required for recovery from BoNT/A-induced effects. While controlled clinical trials for this specific application are currently lacking, anecdotal clinical reports suggest that PBM may accelerate functional recovery in cases of BoNT/A-related complications. Conclusions: Although this approach has not yet been tested in clinical trials, we propose that photobiomodulation may hypothetically serve as a supportive strategy to promote neuromuscular recovery in patients experiencing adverse effects from BoNT/A. This hypothesis is grounded in robust preclinical evidence but requires validation through translational and clinical research. Full article

Plasmodium falciparum malaria remains a major cause of morbidity and mortality, particularly in endemic regions. We report the case of a 21-year-old male with recent travel to an endemic area (Guapi, Colombia), who presented with febrile symptoms, severe respiratory distress, and oxygen saturation below 75%, necessitating orotracheal intubation. During the procedure, he developed pulseless electrical activity cardiac arrest, achieving return of spontaneous circulation after advanced resuscitation. Diagnosis was confirmed by thick blood smear, demonstrating P. falciparum infection. The patient progressed to multiorgan failure, including acute respiratory distress syndrome with capillary leak pulmonary edema, refractory distributive shock, acute kidney injury with severe hyperkalemia, and consumptive thrombocytopenia. Management included invasive mechanical ventilation, vasopressor support, sedation-analgesia, neuromuscular blockade, methylene blue, unsuccessful hemodialysis due to hemorrhagic complications, and platelet transfusions. Despite these interventions, the patient experienced a second cardiac arrest and died. This case highlights the severity and rapid progression of severe malaria with multisystem involvement, underscoring the critical importance of early diagnosis and intensive multidisciplinary management. It also emphasizes the need for preventive strategies for travelers to endemic areas and the development of clinical protocols to improve outcomes in complicated malaria. Full article

Background and Objectives: Obturator reflex during transurethral resection of bladder tumors (TURBT) can cause serious complications, such as bladder perforation, hemorrhage, and incomplete resection. Although obturator nerve block (ONB) is routinely recommended under spinal anesthesia, it is often omitted under general anesthesia (GA) based on the assumption that neuromuscular blockade (NMB) alone prevents adductor muscle contractions. However, clinical observations suggest that the obturator reflex may still occur under deep NMB. This study aimed to determine whether adductor longus muscle (ALM) contraction persists under GA with deep NMB during TURBT. Materials and Methods: Thirty patients scheduled for TURBT under GA were prospectively enrolled. A selective ONB was performed under ultrasound and nerve stimulator guidance. After establishing the baseline current intensity for ALM contraction, neuromuscular monitoring was initiated, and rocuronium (0.6 mg/kg) was administered. Stimulation thresholds required to induce ALM contraction were sequentially assessed at decreasing Train-of-Four ratio (TOFr) stages (90% to 10%) and Train-of-Four count (TOFc) stages (3 to 0). Final measurements were repeated 1 min after achieving TOFc 0. Changes in stimulation intensity were analyzed using a linear mixed-effects model (LMM). Results: As NMB deepened, the current intensity required to provoke ALM contraction progressively increased: 0.51 ± 0.25 mA at TOFr 90%, 1.66 ± 0.53 mA at TOFr 10%, 2.04 ± 0.66 mA at TOFc 0, and 2.61 ± 0.29 mA at 1 min after TOFc 0. Notably, all patients demonstrated ALM contraction at TOFc 0 and thereafter, confirming the persistence of the obturator reflex despite complete NMB. LMM analysis revealed a significant trend of increasing stimulation thresholds with progressive NMB depth (β = 0.133, p < 0.001). Conclusions: Adductor muscle contractions in response to obturator nerve stimulation persist even under deep NMB. These findings raise concerns that deep NMB alone may be insufficient to prevent obturator reflex and suggest that ONB should be considered as an adjunctive practice during TURBT under GA in patients at risk. Full article

Sugammadex represents a significant advancement in neuromuscular blockade management, enabling rapid, predictable, and highly effective reversal of steroidal neuromuscular blockers such as rocuronium and vecuronium. This review critically examines recent advances in sugammadex research, particularly over the last decade, detailing its pharmacological profile, clinical efficacy, and safety compared to traditional reversal agents, like neostigmine. Its expanding clinical applications across operating rooms, critical care units, and emergency medicine are discussed, emphasizing dosing recommendations and clinical utility in special patient populations, including individuals with renal impairment, pediatric, obstetric, and obese patients. Economic considerations are explored, highlighting sugammadex’s cost-effectiveness through reduced postoperative complications and enhanced operational efficiency, despite higher initial costs. Finally, the review outlines ongoing research directions, including emerging reversal agents, advanced neuromuscular monitoring technologies, and potential future clinical applications, underscoring sugammadex’s evolving role in improving patient safety and anesthetic practice. Full article

The search for novel compounds with anticonvulsant properties remains a key focus in neuropharmacology. Recently, the diazepine-benzimidazole derivative, DAB-19, has emerged as a promising candidate due to its demonstrated anxiolytic and analgesic effects. In this study, we investigate the mechanisms underlying DAB-19’s activity, focusing on its impact on glutamatergic transmission, a key target in the pathophysiology of various central nervous system disorders. Intriguingly, while DAB-19 suppressed evoked glutamatergic transmission in rat brain slices, it simultaneously enhanced spontaneous neurotransmission. Further experiments on glutamatergic neuromuscular synapses in fly larvae revealed two distinct mechanisms: calcium-dependent potentiation of glutamate release and inhibition of spike propagation via blockade of voltage-gated sodium channels. The latter effect was directly confirmed in rat brain neurons. Given its action on sodium channels, we tested DAB-19 in the pentylenetetrazole model, where it delayed seizure onset but did not prevent seizures. These findings position DAB-19 as a multifaceted compound with significant therapeutic potential. Full article

(1) Background: The aim of this bibliometric study is to analyze global research trends, citation impact, and scientific collaborations in the field of neuromuscular blockers (NMBAs) and their antagonists between 2000 and 2024. (2) Methods: Data were retrieved from the Web of Science Core Collection (WoSCC) using Boolean search strategies. Bibliometric analyses were conducted using R bibliometrix, VOSviewer, and CiteSpace software to visualize collaboration networks, keyword trends, and citation bursts. (3) Results: A total of 499 articles were analyzed, with the United States of America (USA), China, and South Korea leading in productivity, while France had the highest citation impact. Influential authors included Mertes PM and Fuchs-Buder T. Emerging topics such as sugammadex, sevoflurane, and neuromuscular monitoring were identified, reflecting a shift from pharmacokinetic studies to safety and monitoring strategies. (4) Conclusions: The findings indicate a marked increase in studies on neuromuscular monitoring and reversal agents, such as sugammadex, over the past two decades. The USA, France, and China emerged as the most contributory countries in NMBAs research, with their extensive international collaborations playing a pivotal role in shaping scientific progress. Highly influential studies have predominantly focused on NMBA pharmacokinetics, safety, anaphylaxis risks, and the clinical benefits of sugammadex, underscoring its critical role in reducing residual neuromuscular blockade (rNMB) and enhancing patient safety. Full article

Background: Neuromuscular blocking agents play an important role in modern anesthesia by facilitating optimal surgical conditions through deep muscle relaxation. Additionally, neuromuscular monitoring and reversal ensure swift and reliable recovery from neuromuscular blockade. The evolution of neuromuscular blocking agents, from early curare derivatives to contemporary agents such as rocuronium and cisatracurium, has significantly enhanced the safety and efficacy of anesthesia. Methods: This review examines the historical development, pharmacological mechanisms, clinical applications, and innovations in managing neuromuscular blockade. Results: It underscores key milestones in the advancement of neuromuscular blockade, including the introduction of neuromuscular monitoring techniques like Train-of-Four, which improve patient safety by reducing residual neuromuscular blockade. Pharmacological advancements, particularly the emergence of sugammadex, have further revolutionized clinical practice by enabling rapid and reliable reversal of steroidal neuromuscular blocking agents. The discussion covers the role of deep neuromuscular blockade in optimizing surgical conditions, especially in minimally invasive procedures. Conclusion: Comparative analyses of standard versus deep blockade reveal potential advantages in certain surgical scenarios, although patient-specific factors and associated risks must be carefully evaluated. Future directions involve developing innovative neuromuscular blocking agents and reversal agents aimed at achieving faster onset, shorter duration, and fewer side effects. The management of neuromuscular blockade continues to evolve, propelled by advancements in pharmacology and monitoring technology. Anesthesiologists should embrace a personalized approach, integrating advanced monitoring tools and customized pharmacological strategies to enhance patient outcomes. Ongoing research into next-generation neuromuscular blocking agents and reversal agents holds the promise of further improving safety and efficiency in anesthesia practice. Full article

Biomedical sciences have made immense progress and numerous discoveries aimed at improving the quality of life and life expectancy in modern times. Anesthesiology is typically tailored to individual patients as its clinical effects depend on multiple factors, including a patient’s physiological and pathological states, age, environmental exposures, and genetic variations. Sex differences are also paramount for a complete understanding of the effects of specific anesthetic medications on men and women. However, women-specific research and the inclusion of women in clinical trials, specifically during child-bearing years, remain disproportionately low compared to the general population at large. This review describes and summarizes genetic variations, including sex differences, that affect responses to common anesthetic medications such as volatile anesthetics, induction agents, neuromuscular blocking drugs, opioids, and local anesthetics. It also discusses the influence of genetic variations on anesthesia outcomes, such as postoperative nausea and vomiting, allergic reactions, pain, depth of anesthesia, awareness under anesthesia and recall, and postoperative delirium. Full article

Background/Objectives: Early extubation is crucial for enhancing recovery from coronary artery bypass grafting (CABG). Residual neuromuscular blockade (NMB) effects can hinder early extubation, potentially leading to reintubation, lung infection, and prolonged post-anesthesia stay. Sugammadex, a modified gamma-cyclodextrin, reverses the non-depolarizing NMB effects of the steroidal muscle relaxants rocuronium and vecuronium. The American Society of Anesthesiologists recommends sugammadex administration when patients display a train-of-four (TOF) ratio of less than 0.9. Previous studies show that sugammadex decreases extubation times, reduces postoperative complications, and enhances patient comfort. Methods: This single-center, retrospective cohort study evaluated the efficacy of sugammadex in achieving extubation within six hours of intensive care unit (ICU) arrival post-CABG, defined as fast-track extubation (FTE). Results: Here, we report that although the total time of intubation in the ICU following CABG did not drop to the six-hour benchmark, it was substantially reduced by the administration of sugammadex in accordance with an FTE protocol. Furthermore, the risks of adverse events (e.g., anaphylaxis, heart failure) and postoperative complications (e.g., acidemia, hypoxemia, tachypnea) were unaltered. Conclusions: The use of sugammadex could, thus, reduce costs associated with prolonged intubation time and related complications without increasing morbidity or mortality. Full article

Veno-venous extracorporeal membrane oxygenation (vvECMO) is a life-saving intervention for severe respiratory failure unresponsive to conventional therapies. However, managing refractory hypoxemia in morbidly obese patients poses significant challenges due to the unique physiological characteristics of this population, including hyperdynamic circulation, elevated cardiac output, and increased oxygen consumption. These factors can limit the effectiveness of vvECMO by diluting arterial oxygen content and complicating oxygen delivery. Refractory hypoxemia in obese patients supported by vvECMO often stems from an imbalance between ECMO blood flow and cardiac output. Hyperdynamic circulation exacerbates the recirculation of oxygenated blood and impairs the efficiency of oxygen transfer. To address these challenges, a stepwise, individualized approach is essential. Strategies to reduce oxygen consumption include deep sedation, neuromuscular blockade, and temperature control. Cardiac output modulation can be achieved through beta-blockers and cautious therapeutic hypothermia. Optimizing oxygen delivery involves improving residual lung function; high positive end-expiratory pressure ventilation guided by esophageal pressure monitoring; prone positioning; and adjustments to the ECMO circuit, such as using dual oxygenators, larger membranes, or additional drainage cannulas. This review highlights the interplay of physiological adaptations and technical innovations required to overcome the challenges of managing refractory hypoxemia in obese patients during vvECMO. By addressing the complexities of high cardiac output and obesity, clinicians can enhance the effectiveness of vvECMO and improve outcomes for this high-risk population. Full article

Background and Objectives: Thyroid surgery with intraoperative neural monitoring (IONM) of the recurrent laryngeal nerve (RLN) requires precise anesthetic management. This narrative review compares non-selective (neostigmine) and selective (sugammadex) reversal agents for neuromuscular blockade (NMB), discussing their mechanisms of action and the challenges of achieving optimal NMB reversal without compromising surgical conditions or IONM quality. Materials and Methods: A literature search was conducted using PubMed, MEDLINE, and Google Scholar for studies published up to November 2023. Relevant case studies, clinical trials, systematic reviews, and guidelines focusing on NMB reversal in thyroid surgery with IONM were included, prioritizing investigations involving sugammadex and neostigmine. Results: Clinical evidence indicates that sugammadex (0.5–1 mg/kg) provides the rapid and reliable return of neuromuscular function, benefiting electromyography (EMG) signal quality preservation. However, overshooting the reversal can precipitate patient movement, compromising surgical precision. Neostigmine (0.03–0.04 mg/kg), while less selective, remains a cost-effective alternative, with recent studies suggesting adequate support for IONM signal integrity when carefully dosed and timed. Conclusions: This review underscores the need for balanced NMB reversal strategies tailored to intraoperative monitoring requirements in thyroidectomy. Further randomized trials and large-scale studies are needed to refine and standardize NMB reversal strategies in thyroid surgery with IONM. Full article