Anesthetic Toxicity Research Articles

Outcome of transurethral resection of bladder tumour under spinal anaesthesia combined with obturator nerve block in Sri Lanka.

Transurethral resection of bladder tumour (TURBT) is done under general anaesthesia (GA) with muscle relaxation to prevent obturator jerk and bladder perforation. TURBT under spinal anaesthesia (SA) with obturator nerve block (ONB) may prevent the obturator jerk while eliminating the disadvantages of GA. To assess the outcome of TURBT under SA and ONB. Patients undergoing TURBT for lateral wall tumours from 01.11.2017 to 30.10.2020 were prospectively studied. Anterior branch of obturator nerve with plain Bupivacaine was blocked with the guidance of an ultrasound scan and a nerve stimulator. Significant obturator jerk which necessitated conversion to GA was defined as failed ONB. Out of 72 patients with mean age of 66.7 years underwent ONB, 61 (84.7%) were men. Fifty two (72.2%) had unilateral and 20 (27.8%) had bilateral blocks. Sixty one (84.7%) patients had no obturator jerk whereas 5 (7%) had a mild jerk which did not preclude safe resection. Six patients (8.3%) had a failed ONB requiring conversion to GA. None had a bladder perforation requiring laparotomy, developed neurovascular injury or anaesthetic toxicity and only one patient required intensive care monitoring. SA with anterior branch of ONB is an effective and safe alternative to GA with muscle relaxation for TURBT although a randomized trial is necessary to determine the true efficacy and safety over the other.

Analgesia and stress attenuation of ultrasound-guided modified pectoral nerve block type-II with different volumes of 0.3% ropivacaine in patients undergoing modified radical mastectomy for breast cancer: A prospective parallel randomized double-blind controlled clinical trial.

A previous randomized clinical trial concluded that an optimal concentration of 0.3% ropivacaine could provide satisfactory analgesia for breast cancer patients undergoing modified radical mastectomy. We wondered if a smaller volume (30 ml vs. 40 ml) of 0.3% ropivacaine could still provide adequate analgesia in an ultrasound-guided PECS II block in modified radical mastectomy. We performed a prospective parallel randomized double-blind controlled clinical trial. Eligible patients were assigned to either the P30 or P40 group (30 or 40 ml of 0.3% ropivacaine, respectively). The skin area of hypoesthesia, anaesthetic plane determined with ultrasound, pain visual analogue scale (VAS), anaesthetic dosages, and complications were recorded. Serum levels of interleukin-1β and interleukin-6 were measured postoperatively. A total of 40 patients completed the trials, with 20 patients in each group. Although the skin area of hypoesthesia and the anaesthetic planes were significantly larger in the P40 group compared with the P30 group (p < 0.05), the VAS, analgesic and opioid doses, serum cytokine levels, anaesthetic toxicity, and complications had no significant differences between the two groups. Compared with 40 ml, 30 ml of 0.3% ropivacaine could provide adequate analgesia and reduce surgical stress in patients undergoing modified radical mastectomy for breast cancer.

Cardio Protective Effects of Lipid Emulsion against Ropivacaine-Induced Local Anesthetic Systemic Toxicity-An Experimental Study.

Inadvertent intravascular injection of local anesthetics (LA) during regional anesthesia causes Local Anesthetic Systemic Toxicity (LAST). Theories of lipid rescue in the case of LAST proved that the administration of lipids in LAST has beneficial effects. One possible mechanism of action is based on the lipophilic properties of LA which allow plasma-free LA to be bound by the molecules of Lipid Emulsion (LE). The association LA–LE is shuttled towards organs such as liver and the kidneys, and the half-life of LA is shortened. The main objective of this experimental study was to assess the possible cardio-prophylactic effect of LE administration before the induction of LAST by intravenous administration of Ropivacaine. This was an experimental, interventional, prospective, and non-randomized study. The subjects were divided into groups and received, under general anesthesia, LE 20% first 0.3–0.4 mL, followed by 0.1 mL Ropivacaine 2 mg/mL, or Ropivacaine alone. At the end of the experiment, the subjects were sacrificed, and tissue samples of kidney, heart and liver were harvested for histopathological examination. LE, when administered as prophylaxis in Ropivacaine-induced LAST, had protective cardiac effects in rats. The LE known side effects were not produced if the substance was administered in the low doses used for LAST prophylaxis.

Safety and Efficacy of Rescue Nerve Blocks

Background: The overall incidence of complications following peripheral nerve blocks is very low. Peripheral nerve blocks performed under ultrasound guidance are widely thought to present a lower risk to direct needle trauma than paresthesia and nerve stimulation techniques and have been shown to decrease opioid consumption by providing analgesia directly to the site of injury. Currently, when a nerve block fails altogether or provides inadequate analgesia, pain and opioid consumption increases which in turn decrease patient satisfaction and increases healthcare costs. Concerns remain whether the benefits of opioid reduction outweigh the risk of inadvertent needle trauma and other potential complications when performing a nerve block replacement, or ‘rescue block’. Objective: Examine whether performing a rescue peripheral nerve block provides adequate analgesia to elicit a decrease in opioid consumption. Analyze the incidence of nerve injury following ultrasound-guided ‘rescue’ continuous peripheral nerve blocks. Methods: Data was retrospectively collected from patient electronic medical records from a Level 1 academic Trauma Center at Regional One Hospital in Memphis, Tennessee from March 1, 2019 to May 31 2021. Inclusion criteria was patients over 18 years of age at time of admission who received consecutive continuous peripheral nerve blocks in the same relative location during a time when the peripheral nerves were likely partially or fully anesthetized (a rescue block). The primary outcomes assessed were 24-hour opioid consumption prior to the initial continuous nerve block, just prior to and after the ‘rescue’ block. Adverse outcomes potentially due to performing a ‘rescue’ block were also examined, including direct needle trauma, nerve injury related to extended exposure to local anesthetics, and local anesthetic systemic toxicity. Types of nerve blocks performed, range and median number of catheter days, and reason for rescue block was recorded for all patients. All available electronic healthcare records were reviewed to identify potential injury. Nerve blocks were categorized into low and high risk for direct needle trauma based on the incidence of needle trauma found in the literature and whether the needle was required to be adjacent to a discrete nerve or nerve bundle in order to perform the procedure. Results: 55 patients were examined. Of the 55 patients, 5 had multiple locations both blocked and rescued, bringing the total rescue procedures examined up to 60. Additionally, 10 patients had their rescue site re-blocked multiple times due to either multiple surgeries, displacements, or duration of analgesia required bringing the total number of rescue blocks performed to 74. Patients that received an initial continuous peripheral nerve block consumed significantly fewer opioids during the 24 hour period following the block than the 24-hour period before the block was performed (P=0.033). Continuous peripheral nerve blocks (CNPB) were replaced or ‘rescued’ for two general reasons: Failed or Inadequate Analgesia (21) and to Extend the Utilization of adequately functioning infusions (35). Once a rescue nerve block was performed, there was no significant change in opioid consumption than after the original block (P=0.64). Of the 60 rescue blocks that were recorded, there were 0 adverse outcomes that were attributed to the rescue block procedure. Conclusion: Following failed CPNB or when performed to extend the utilization of CPNB infusions, ultrasound-guided ’rescue’ nerve blocks result in reduced opioid consumption to a similar level as the initial peripheral nerve block, and do not result in an increase in the incidence direct needle trauma. Given the relatively low incidence of needle trauma and other nerve block-related complications, larger studies are needed to confirm these initial findings, however, ultrasound provides numerous clinical strategies that can be employed that may reduce the incidence of direct needle trauma compared with traditional nerve localization techniques.

Pain relief after maxillofacial surgery: efficacy in patients undergoing ultrasound- guided trigeminal nerve block – a randomized controlled trial

Background: Pain management is a critical factor for successful surgical outcomes, as it enables patients to recover more quickly. Maxillofacial surgery is typically complex and requires appropriate pain relief methods. In this study, the use of ultrasound to guide the blocking of the trigeminal nerve was investigated. Methods: The study enrolled 60 patients in a randomized controlled trial. The patients were divided into two groups: group T received a trigeminal (V) nerve block using ropivacaine under ultrasound guidance; and group C, the control group, received paracetamol infusion. During follow up, the following outcomes were assessed: time required for the first dose of pain relief; 24-hour dose of ketorolac in both groups; visual analog scale (VAS) score at rest and when moving; changes in hemodynamics, including pulse, systolic blood pressure, diastolic and blood pressure and changes in respiration including respiratory rate, and SpO2. Systemic complications such as allergies, anaphylaxis, drug overdose, and anesthetic toxicity, as well as local complications such as vascular puncture, nerve damage, hematoma at the injection site, facial paralysis, jaw dropping, and paresthesia/numbness of the lips and tongue were evaluated. Results &amp; Conclusion: The results showed that blocking branches V2 and V3 of the trigeminal nerve under ultrasound guidance improved pain relief in patients compared to the intravenous paracetamol. The VAS score of the study group was lower than that of the control group in most cases. In addition, the investigated group could tolerate pain longer until the later first dose of analgesic with a lower dose of ketorolac, which suggests the potential of this intervention in managing pain from maxillofacial surgery.

Lipid emulsion facilitates reversal from volatile anesthetics in a rodent model

Background Lipid emulsion infusion is a first-line therapy against the toxicity of local anesthetics and is a potential treatment for other drug overdoses, especially for highly lipophilic drugs. Considering the lipophilic property of volatile anesthetics, we hypothesized that lipid emulsion could reverse general anesthesia. Methods Using adult rats, we tested the effect of lipid emulsion infusion on time to emergence after discontinuation of sevoflurane and isoflurane, and further evaluated restoration of righting reflex under continuous sevoflurane anesthesia. Electroencephalogram during lipid emulsion infusion was also investigated under continuous sevoflurane inhalation. The effect of lipid emulsion on sevoflurane-induced respiratory and hemodynamic depressions was evaluated by measuring respiratory rate, PaCO2 (arterial partial pressure of CO2), blood pressure, and heart rate. The binding property of lipid emulsion on sevoflurane and isoflurane was assessed using in vitro setting with a conical flask. Results Lipid emulsion infusion significantly decreased time to emergence from sevoflurane anesthesia (131 ± 53 vs. 237 ± 69 s) and restored righting reflex during continuous sevoflurane inhalation, by comparing normal saline infusion. Consistent with the behavioral findings, the electroencephalogram under continuous sevoflurane showed decreased power of the δ bands at 5 min after the initiation of lipid emulsion infusion. In addition to reversing hypnosis, lipid emulsion recovered respiratory as well as hemodynamic depressions induced by sevoflurane. Decreased time to emergence was observed also in isoflurane anesthesia (203 ± 111 vs. 314 ± 154 s). To investigate the binding mechanism of lipid emulsion infusion, in vitro experiments revealed significantly decreased anesthetic concentrations of sevoflurane and isoflurane by mixing with lipid emulsion. Conclusions Lipid emulsion facilitated reversal from volatile anesthetics, as shown by several parameters. As lipid emulsion could bind to volatile anesthetics and simply decrease their effects, our findings suggest that lipid emulsion is a potentially useful agent to reverse general anesthesia.

Нежелательные реакции местных анестетиков

The article explains the adverse reactions of local anesthetics, in particular one of them, called the toxicity of local anesthetics. It has been shown that for the development of systemic toxicity of local anesthetics, higher doses of the latter are required in comparison with those recommended in the instructions. It is proposed in the regulatory documents to replace the term 'toxicity of local anesthetics' with the term 'side effects of local anesthetics'

Двадцать лет «серебряной пули» против интоксикации местными анестетиками

Местные анестетики (МА), как и все другие медикаменты, могут вызвать нежелательные явления. В отличие от крайне редких (приблизительно 1 : 1 000 000) аллергических реакций на МА интоксикация местными анестетиками (ИМА) значительно более вероятна (инцидентность приблизительно 1 : 1000), особенно с относительно высокими дозами, применяемыми для эпидуральных или больших блокад нервов. Лечение тяжелой ИМА от современных анестетиков мощного и длительного действия (например, бупивакаины) было очень трудным и почти безнадежным до успешного «липидного спасения» довольно высокими внутривенными дозами липидной эмульсии у крыс в 1998 году, затем у пациентов в 2006 году. Этот революционный метод (20% липидная эмульсия болюсом 100 мл в течение 2–3 минут, затем инфузией 200–250 мл в течение 15–20 хвилин, если не восстановится стабильность гемодинамики — рассмотреть повторный болюс или ускорение инфузии), образно названный «серебряной пулей» против ИМА, сначала рекомендовался лишь как средство отчаяния в случае безуспешной реанимации. Однако рекомендации Американского общества региональной анестезии 2010, 2012 и 2017 годов последовательно становились все менее консервативными, и теперь «липидное спасение» рекомендуется при первых признаках серьезной ИМА, сразу после обеспечения проходимости дыхательных путей. Вывод: один литр 20% липидной эмульсии должен находиться на каждом рабочем месте, где выполняют эпидуральную анестезию или большие блокады нервов высокими дозами МА.

P 10. Perioperative EEG Signatures in newborn and infants 0 to 12 months

Introduction. EEG based monitoring systems are routinely used for guidance of depth of anesthesia. They have been developed for adult patients however, these monitors have not been validated for children nor for infants [1–5]. Given the toxicity of anesthetics and the lack of possibilities to surveil the level of anesthesia in infants demands for further progress in EEG based monitoring of the developing brain. Method. In a retrospective study frontal peri- and intraoperative EEGs (Narcotrend Monitor) were recorded in 115 infants aged. To analyze EEG dynamics over intraoperative time-points additionally in 20 EEG recordings event markers were added (Baseline EEG, loss of consciousness (LOC), intraoperative maintenance of anesthesia (OP), Extubation). Data are presented as mean with standard deviation. Results. Newborns show a mean relative δ-power at 80% in intraoperative EEG compared to infants (10-12 months) showing 47,5%. EEG dynamics in newborns from baseline (relative δ-power of 88%) to the intraoperative situation (80.5%) are discreet. The total power is constant from baseline to OP and shows a reduction at the time of extubation. In contrast infants >6-months have a strong reduction of relative δ-power from baseline to the intraoperative situation, which corresponds to an increase of faster frequencies. Discussion. Age-dependent EEG changes can be demonstrated in infants younger than one year under general anesthesia with sevoflurane which questions our today's monitoring systems in pediatric anesthesia. To improve EEG guided anesthesia in the future more studies are needed to advance the accuracy of EEG Monitors for pediatric anesthesia.

Experimental Study of Local Anesthetic Activity and Acute Toxicity of a Combined Gel

Experimental Study of Local Anesthetic Activity and Acute Toxicity of a Combined Gel

Early Isoflurane Exposure Impairs Synaptic Development in Fmr1 KO Mice via the mTOR Pathway.

General anesthetics (GAs) may cause disruptions in brain development, and the effect of GA exposure in the setting of pre-existing neurodevelopmental disease is unknown. We tested the hypothesis that synaptic development is more vulnerable to GA-induced deficits in a mouse model of fragile X syndrome than in WT mice and asked whether they were related to the mTOR pathway, a signaling system implicated in both anesthesia toxicity and fragile X syndrome. Early postnatal WT and Fmr1-KO mice were exposed to isoflurane and brain slices were collected in adulthood. Primary neuron cultures isolated from WT and Fmr1-KO mice were exposed to isoflurane during development, in some cases treated with rapamycin, and processed for immunohistochemistry at maturity. Quantitative immunofluorescence microscopy was conducted for synaptic markers and markers of mTOR pathway activity. Isoflurane exposure caused reduction in Synpasin-1, PSD-95, and Gephyrin puncta that was significantly lower in Fmr1-KO mice than in WT mice. Similar results were found in cell culture, where synapse loss was ameliorated with rapamycin treatment. Early developmental exposure to isoflurane causes more profound synapse loss in Fmr1- KO than WT mice, and this effect is mediated by a pathologic increase in mTOR pathway activity.

SYNTHESIS, STRUCTURE, AND BIOLOGICAL ACTIVITY OF NOVEL BISPIDINE DERIVATIVES

Objective: Derivatives of 3,7-diazabicyclo[3.3.1]nonan-9-one attract considerable attention from pharmacists for the treatment of a wide rangeof diseases. According to this interest, the novel derivatives of 3-cyclopropanmethyl-7-alkoxyalkyl-3,7-diazabicyclo[3.3.1]nonan-9-one withisopropoxypropyl and ethoxypropyl substituents in the position 7 had been synthesized to study their biological activity and toxicity. The practicalsignificance of the work is in the accumulation and development of scientific representations about diazabicyclic compounds, methods for theirsynthesis, structure, and properties, which can subsequently be used in a targeted design and identification of even more complex systems, as wellas in the development of further research in the field of 3,7-diazabicyclo[3.3.1]nonanes. For this purpose, complexes of the synthesized compoundswith β-cyclodextrin are obtained and their biological activity is investigated at the Department of Pharmacology of S.D. Asfendiyarov Kazakh NationalMedical University with the aid of the pharmacological tests.Methods: An experimental study of local anesthetic activity on the models of infiltration, conduction anesthesia, and acute toxicity of synthesizedmolecules was carried out using primary screening methods.Results: As a result of pharmacological screening, it has been found that the compounds exhibit local anesthetic activity and low toxicity and wasrecommended for in-depth study of their pharmacological properties.Conclusion: It turned out that a nature of the N-alkoxyalkyl radical does not affect the toxicity of cyclopropanmethyl- substituted bispidines. In theseries of O-benzoyloximes of bispidinones, the isopropoxypropyl- substituted analog is 1.3 times less toxic than ethoxypropyl- one.

Effect of drugs used in general anesthesia on oocyte and embryo quality in Iraqi infertile females undergoing intracytoplasmic sperm injection

Various types of anesthetic techniques were described for oocyte recovery. Different anesthetic agents have been used with different effects on oocyte quality and embryonic development and studies on the potential toxicity of general anesthesia ended up with conflicting results. Many experiments as well as human studies documented the existence of anesthetic agents in the follicular fluid (FF) with possible adverse effects on the oocyte quality and subsequent embryo development. Ketamine and remifentanil were used for the studied groups to compare oocytes and embryos characteristic of infertile women during oocytes retrieval under general anesthesia: one group receiving ketamine, midazolam, and propofol and the other group receiving remifentanil, midazolam and propofol. 60 infertile females were undergoing intracytoplasmic sperm injection categorized in two groups, group I received midazolam, remifentanil and propofol; whereas, group II received midazolam, ketamine and propofol. There was highly significant difference in mean abnormal oocyte between ketamine and remifentanil groups. Grade III embryos were significantly limited to ketamine group. FF ketamine and remifentanil were not significantly correlated to any of oocyte characteristics or embryo characteristics. Anesthetic agents, ketamine and remifentanil, were detected in the FF of infertile women and within recommended doses. Ketamine resulted in adverse effects on oocyte and embryo quality in comparison with remifentanil represented by greater percentage of abnormal oocytes and that bad quality embryos were limited to ketamine group.

Supraclavicular Block: Challenging but Safer Option in Obese Patient During Covid-19 Pandemic

Introduction: Brachial plexus block is a boon for an anesthesiologist in difficult airway especially in the COVID-19 pandemic. The provision of regional anesthesia in this pandemic reduces the need for general anesthesia and the associated risk from aerosol-generating procedures. Case Report: A 35-year-old male weighing 130 kg with BMI 39.8 post-bariatric surgery 3 years back presented to casualty with the alleged roadside accident with fracture right midshaft humerus, right radius ulna, multiple facial injuries and suspected C3-C4 fracture. An USG guided supraclavicular block was given using 20 ml 2% lignocaine with adrenaline and 20 ml 0.75% ropivacaine. The patient shifted to COVID-19 post-anesthesia care unit for further management. Discussion: During the COVID-19 pandemic, regional anesthesia though challenging but considered the first choice and safer mode of anesthesia in COVID19 suspected patients with a difficult airway. The advent of USG has made supraclavicular nerve block safe for obese patients and reduce the risk of local anesthetic systemic toxicity. Conclusion: Supraclavicular brachial plexus block provides consistently effective anesthesia to the upper extremity. Also, recent advances in techniques of regional anesthesia have dropped the failure rates of the procedure.

Local Anesthetics: A Century of Progress

One century after the clinical introduction of cocaine, local anesthesia remains the most important method of pain control in dentistry. Many local anesthetics have been marketed since 1884, and it is likely that attempts to produce drugs that enhance anesthetic efficacy, reduce systemic and local toxicity, and increase nociceptive selectivity, will continue. In addition, new methods of drug administration have been and will be developed to achieve these goals. Of fundamental importance to such improvements are investigations into the pharmacology of drugs with local anesthetic activity and anatomical and physiologic studies pertaining to the reasons why local anesthetics sometimes fail to achieve desired results. This paper reviews recent advances in our understanding of these drugs and their clinical use.

Superior hypogastric nerve block (SHNB) for pain control after uterine fibroid embolization (UFE): technique and troubleshooting

BackgroundSuperior Hypogastric nerve Block (SHNB) has been shown to be an effective pain management technique after Uterine Fibroid Embolization (UFE), reducing the need for opiates and allowing same-day discharge after UFE. In this technical note we discuss relevant anatomy and technical details in performing SHNB.Main bodyThe Superior hypogastric plexus (SHP) is the part of the abdominopelvic sympathetic nervous system that provides a targeted intervention to sympathetic-mediated pain pathways of pelvic organs and a target for an anterior approach Superior Hypogastric nerve Block after embolization. Vascular structures are in close relation to the intended site of target of the SHP at the L5 vertebral body include aortic bifurcation and IVC confluence, hence a detailed knowledge of this is essential. A step by step technical approach to SHNB includes patient positioning for the block, image guidance and needle positioning, choice and technique of anesthetic injection. Traversing a large fibroid uterus, inadvertent vascular opacification and Local anesthetic systemic toxicity present challenges to performing the block and are addressed.ConclusionSuperior Hypogastric nerve Block (SHNB) can be a useful tool in the Interventional armamentarium to make UFE a better experience for patients with fibroids, allowing for better pain control as well as facilitating same day discharge. Performing SHNB appear to be can be performed with technical ease for an interventional radiologist.

Nonanesthetized Alternatively Repetitive Cast and Brace Treatment for Early-onset Scoliosis.

Use of cast is a standard treatment (Tx) choice for early-onset scoliosis. Recently, toxicity from repetitive use of general anesthesia has received attention by the Food and Drug Administration (FDA). We introduce a nonanesthetized cast Tx protocol called alternatively-repetitive-cast-and-brace (ARCB) that we have used since 1995 and have conducted an extensive follow-up on these patients to verify the efficacy of this protocol. This is a retrospective cohort study. Of a consecutive series of 155 patients who have undergone cast Tx at a single institution, 98 patients (male: 36, female: 62) have been identified under the following criteria: (1) Initial age before ARCB of ≤6; (2) Follow-up period of ≥2 years; (3) Initial scoliosis ≥35 degrees. Patients consisted of the following: congenital/structural: 45, idiopathic: 23, neuromuscular: 6, syndromic: 24. Precast, postfinal cast, minimum in-cast Cobb, as well as thoracic and T1-S1 heights were measured. Fifty-six of these patients had available pulse oximetry on days before and after initial cast, and these were also evaluated to assess cardiopulmonary effects that the cast have on the patients. Patients were casted 6.6 times, with a mean initial Cobb of 56.5 degrees and a final follow-up Cobb of 57.1 degrees. Follow-up period was 5.0 years. Mean curve progression per follow-up period was 0.5 degrees/y. Minimum in-cast Cobb was 25.6 degrees. Initially patients had a thoracic and T1-S1 height of 12.6 and 22.5 cm, respectively. At final cast, these were 15.3 and 27.2 cm, respectively. Of these patients, 39 had progression >1 degree/y, of which 83.1% had resulted in surgical correction, while this was true for only 37.3% of those that did not show such progression. Idiopathic patients had the greatest correction rate by cast (69%) and had shown an overall progression rate of -2.3 degrees/y. Pulse-oximetry results were not significant amongst patients before and after cast placement. ARCB is a versatile and practical Tx choice. It is an effective delaying method in sparing time until surgery with no apparent cardiopulmonary compromise. Curve control was most effective in Idiopathic patients while some curve control was achieved in other etiologies which may have spared time until their eventual surgery. Cast Tx without the need of general anesthesia is an increasingly important topic since anesthesia toxicity from its repetitive use has become apparent. This study exemplifies safe and efficacious use of such cast with effective suppression on cast progression in different etiologies at various degrees.

WHEN LIGHTING STRIKES TWICE: LOCAL ANESTHETIC SYSTEMIC TOXICITY AND EPINEPHRINE INDUCED STRESS CARDIOMYOPATHY

Local anesthetics (LAs) are thought to be free of deleterious effects. However, major events have occurred from LAs after any route of administration. We present a case of local anesthetic systemic toxicity (LAST) resulting in serious cardiovascular complications. An 85-year-old woman without

Beyond Anesthesia Toxicity: Anesthetic Considerations to Lessen the Risk of Neonatal Neurological Injury.

Infants who undergo surgical procedures in the first few months of life are at a higher risk of death or subsequent neurodevelopmental abnormalities. Although the pathogenesis of these outcomes is multifactorial, an understanding of the nature and pathogenesis of brain injury in these infants may assist the anesthesiologist in consideration of their day-to-day practice to minimize such risks. This review will summarize the main types of brain injury in preterm and term infants and their key pathways. In addition, the review will address key potential pathogenic pathways that may be modifiable including intraoperative hypotension, hypocapnia, hyperoxia or hypoxia, hypoglycemia, and hyperthermia. Each of these conditions may increase the risk of perioperative neurological injury, but their long-term ramifications are unclear.

Upper Limb Blocks: Advances in Anesthesiology Research

To summarize the recent literature regarding regional anesthesia of the upper extremity. Brachial plexus anatomy is more variable than previously believed. Several novel techniques for upper extremity blockade have been recently described. The ability of local anesthetic adjuvants and liposomal bupivacaine to prolong block duration has been investigated with mixed results. Regional anesthesia has played an important role in the expansion of ambulatory upper extremity surgery, especially shoulder arthroscopy and arthroplasty. Knowledge about the management of local anesthetic systemic toxicity remains essential for the safe performance of upper extremity blocks. The widespread adoption of ultrasound guidance for nerve blocks and the increasing emphasis on value in healthcare have fostered numerous innovations in regional anesthesia of the upper extremity in recent years. Further research is needed to determine the best technique for diaphragm-sparing shoulder analgesia and the most appropriate role for liposomal bupivacaine.