The use of nitrous oxide-oxygen inhalation sedation to relieve anxiety and pain in dental outpatient treatment has been a very mature and safe technique in the world. This technology has been introduced into China for nearly 20 years, and many clinical cases have proved its safety, practicability and effectiveness, which can meet the clinical needs of patients. To further standardize and popularize this technique, the Society of Sedation and Analgesia, Chinese Stomatological Association formed the recommended application guidelines after many discussions and revisions on the basis of widely soliciting opinions and referring to relevant literatures. It covers indications, contraindications, standardized operation procedures, occupational protection, identification and treatment of adverse reactions, training and other aspects. This guideline can be used as a reference for the use of nitrous oxide-oxygen inhalation sedation techniques in the outpatient setting of dentistry.
Anesthesia, Dental ; Anesthetics, Inhalation/adverse effects* ; Conscious Sedation/methods* ; Dental Anxiety/prevention & control* ; Humans ; Nitrous Oxide/adverse effects* ; Outpatients ; Oxygen

Sevoflurane is one of the most commonly used inhaled anesthetics in obstetric and pediatric general anesthesia.According to related literature,this article reviews major possible mechanisms including myelin formation damage,nerve inflammation,cell apoptosis,oxidative stress,inhibition of histone acetylation,synapsis and receptor changes of sevoflurane-induced neurotoxicity in animal experiments.Furthermore,we summarize the neuroprotection effects and functioning mechanisms of anti-anemia medicine,plant-based drugs,alpha 2 adrenoceptor agonists and others,aiming to provide a basis for the brain protection of fetuses and infants during the perioperative period.
Anesthetics, Inhalation/adverse effects* ; Animals ; Apoptosis ; Brain ; Child ; Female ; Humans ; Methyl Ethers ; Neuroprotective Agents/therapeutic use* ; Oxidative Stress ; Pregnancy ; Sevoflurane

Objective To study the influence of halogenated hydroxyl-alkanes inhalation anesthetic on the determination of ethanol content in blood. Methods Halogenated hydroxyl-alkanes were analyzed by headspace gas chromatography with double column confirmatory detection method. The influence of halogenated hydroxyl-alkanes on determination of ethanol content in blood sample by headspace gas chromatography was explored under the different detection conditions of KB-BAC1/ KB-BAC2 and J&W DB-ALC1/DB-ALC2 gas chromatographic column. Results The retention time of sevoflurane and enflurane was similar to that of ethanol and tert butanol respectively when using the J&W DB-ALC1/DB-ALC2 gas chromatographic column, and interfered with the detection of ethanol content in blood; only J&W DB-ALC1 gas chromatographic column can separate the sevoflurane and ethanol components, so as to eliminate their influence on the detection of ethanol content in blood. When using KB-BAC1/KB-BAC2 gas chromatographic column, the retention time of sevoflurane, isoflurane and ethanol is similar, especially that of sevoflurane and ethanol, and sevoflurane obviously interferes with the determination of ethanol content in blood. Conclusion Halogenated hydroxy-alkanes interfere with determination of ethanol content in blood by headspace gas chromatography. The interference can be discriminated effectively by choosing the suitable chromatographic column and double column confirmatory detection.
Alkanes ; Anesthetics, Inhalation ; Ethanol ; Isoflurane ; Sevoflurane

PURPOSE: The safety and effectiveness of inhalation sedation, a technique that enables sedation using the inhalation of an anesthetic in an out-of-theater environment was evaluated in this study.METHODS: Electronic literature databases were used to identify the safety assessments and the tests for efficacy of inhalation sedation. Data was retrieved from 1980 to 2017. Safety assessment was based on identifying complications encountered during treatment, and included assessment of the concentration of inhalation anesthetic in the air, gaseous exposure, cardiac index and blood test results, and effectiveness was based on the depth of sedation, degree of pain experienced by the patient, and medical outcomes.RESULTS: The safety of inhalation sedation was similar to intravenous sedation. However, inhalation sedation should be used with caution as repetitive interventions increased liver toxicity, as indicated by the Gasification Force Test Inhalation sedation was clinically effective, and demonstrated a similar depth of sedation, with equally effective pain relief compared with intravenous sedation. In addition, the time taken for cannula removal, and for recovery were typically faster.CONCLUSION: Inhalation sedation was safe and effective and provided similar results to intravenous sedation. However, physicians should be aware that when using inhaled anesthetics, hepatotoxicity has been reported so liver function should be carefully monitored.
Anesthetics ; Catheters ; Hematologic Tests ; Humans ; Hypnotics and Sedatives ; Inhalation ; Liver

BACKGROUND: General anesthesia with intravenous or inhalation anesthetics reduces respiratory functions. We investigated the effects of propofol, desflurane, and sevoflurane on postoperative respiratory function tests.METHODS: This single-center randomized controlled study was performed in a university hospital from October 2015 to February 2017. Ninety patients scheduled for endoscopic endonasal transsphenoidal pituitary surgery were randomly categorized into either of these three groups: propofol (n = 30, the Group TIVA), desflurane (n = 30, the Group D) or sevoflurane (n = 30, the Group S). We analyzed the patients before, after, and 24 h following surgery, to identify the following parameters: forced expiratory volume in 1 second (FEV₁) %, forced vital capacity (FVC) %, FEV₁/FVC, and arterial blood gases (ABG). Furthermore, we also recorded the intraoperative dynamic lung compliance and airway resistance values.RESULTS: We did not find any significant differences in FEV₁ values (primary outcome) among the groups (P = 0.336). There was a remarkable reduction in the FEV₁ and FVC values in all groups postoperatively relative to the baseline (P < 0.001). The FVC, FEV₁/FVC, ABG analysis, compliance, and airway resistance were similar among the groups. Intraoperative dynamic compliance values were lower at the 1st and 2nd hours than those immediately after intubation (P < 0.001).CONCLUSIONS: We demonstrated that propofol, desflurane, and sevoflurane reduced FEV₁ and FVC values postoperatively, without any significant differences among the drugs.
Airway Resistance ; Anesthesia, General ; Anesthetics, Inhalation ; Compliance ; Forced Expiratory Volume ; Gases ; Humans ; Intubation ; Lung Compliance ; Propofol ; Prospective Studies ; Respiratory Function Tests ; Vital Capacity

BACKGROUND: Biliary atresia is an extrahepatic progressive obliterate cholangiopathy that occurs in infants. Kasai procedure, a surgical method that can help re-establish bile flow from the liver into the intestine, is its first line treatment. Since infants with biliary atresia already have advanced hepatic dysfunction, all kinds of schemes should be considered to minimize further liver damage during surgery. The objective of this study was to compare the postoperative hepatic functions between the two commonly used inhalational anesthetics in infants undergoing the Kasai procedure (i.e., desflurane and sevoflurane). METHODS: This prospective, randomized, double-blind, single-center, and parallel group study included 40 children undergoing Kasai procedure. They were randomly allocated to Group S (sevoflurane) or Group D (desflurane). All the patients were anesthetized with designated anesthetic agent with the end-tidal concentration of about 0.8–1 minimum alveolar concentration. Postoperative hepatic functions were assessed by aspartate aminotransferase (AST), alanine aminotransferase (ALT), albumin, prothrombin time, and total bilirubin. RESULTS: A total of 38 patients were selected for the study. In both groups, AST, ALT were increased in magnitude to the peak on postoperative day 0 and decreased to preoperative value at postoperative day 3. There were no significant differences between the groups in any laboratory results related to liver function. CONCLUSIONS: Sevoflurane and desflurane, inhalation anesthetics for maintaining anesthesia used in infants undergoing the Kasai procedure, did not show any difference in preserving postoperative hepatic function.
Alanine Transaminase ; Anesthesia ; Anesthetics ; Anesthetics, Inhalation ; Aspartate Aminotransferases ; Bile ; Biliary Atresia ; Bilirubin ; Child ; Humans ; Infant ; Intestines ; Liver ; Liver Function Tests ; Methods ; Portoenterostomy, Hepatic ; Prospective Studies ; Prothrombin Time

Anesthetics, Local ; chemistry ; pharmacology ; toxicity ; Central Nervous System ; drug effects ; Ethyl Chloride ; chemistry ; pharmacology ; toxicity ; Humans ; Inhalation ; Male ; Medical History Taking ; Neurologic Examination ; Patient Care Management ; methods ; Psychotropic Drugs ; chemistry ; pharmacology ; toxicity ; Substance-Related Disorders ; etiology ; physiopathology ; psychology ; therapy ; Treatment Outcome ; Volatilization ; Young Adult

The safety of occupational exposure to inhaled anesthetics remains a concern among the medical staff in hospitals. Few reports are seen about the impact of inhaled anesthetics on the reproductive system, particularly that of males. Several clinical and basic studies on isoflurane and others suggest that inhaled anesthetics affect the reproductive system of rodents by decreasing the sperm count, inducing sperm morphological abnormality, reducing sperm motility, and changing the levels of reproductive hormones, the underlying mechanisms of which are mainly associated with the alteration of the hypothalamic-pituitary-gonadal axis and DNA damage and apoptosis of reproductive cells. This article reviews the main impacts of inhaled anesthetics on the male reproductive system and the possible mechanisms.
Anesthetics, Inhalation ; pharmacology ; Apoptosis ; DNA Damage ; Genitalia, Male ; drug effects ; Humans ; Isoflurane ; pharmacology ; Male ; Occupational Exposure ; Sperm Count ; Sperm Motility ; drug effects ; Spermatozoa ; drug effects

Anesthetics, Inhalation ; pharmacology ; Child ; Electrocardiography ; Heart Rate ; drug effects ; Humans ; Isoflurane ; analogs & derivatives ; pharmacology ; Methyl Ethers ; pharmacology

OBJECTIVE: To determine the maximum dose of continuously infused mivacurium for intraoperative neuromonitoring and observe its adverse effects in thyroid surgery. METHODS: Twenty-eight patients undergoing thyroid surgery with intraoperative neuromonitoring received continuous infusion of mivacurium at the initial rate of 5.43 μg?kg?min, and the infusion rate for the next patient was adjusted based on the response of the previous patient according to the results of neurological monitoring. The depth of anesthesia was maintained with sevoflurane and remifentanil during the surgery. The LD50 and 95% of mivacurium were calculated using Brownlee's up-and-down sequential method. RESULTS: The LD50 of continuously infused mivacurium was 8.94 μg?kg?min (95% : 8.89- 8.99 μg?kg?min) during thyroid surgery, which did not affect neurological function monitoring. Transient chest skin redness occurred after induction in 9 patients (32.1%). None of the patients experienced intubation difficulties or showed intraoperative body motions during the surgery. CONCLUSIONS In patients undergoing thyroid surgery under anesthesia maintained by inhalation and intravenous infusion, the LD50 of mivacurium was 8.94 μg?kg?min (95% : 8.89-8.99 μg?kg?min) for continuous infusion, which does not cause serious adverse effects during the operation.
Anesthesia ; Anesthetics, Inhalation ; Anesthetics, Intravenous ; Humans ; Intraoperative Neurophysiological Monitoring ; methods ; Lethal Dose 50 ; Mivacurium ; administration & dosage ; adverse effects ; Neuromuscular Nondepolarizing Agents ; administration & dosage ; adverse effects ; Remifentanil ; Sevoflurane ; Thyroid Gland ; surgery