1) Petroze RT, Puligandla PS : Preoperative cardiopulmonary evaluation in specific neonatal surgery. Semin Pediatr Surg 28 : 3-10, 2019
麻酔科学レビュー 2020
特記事項:
- 2021 →「麻酔科学レビュー 2021」
商品紹介
麻酔科学分野のエキスパートによって選別された2018年8月から2019年7月までの1年間に国内外で発表された最新の文献レビューです。麻酔科専門医だけでなく、専門医を目指す方、内科医、外科医にも有用な情報が掲載されています。
目次
- 1.麻酔前投薬と術前評価
2.術前絶飲食
3.周術期禁煙ガイドライン
4.麻酔と気道管理・確保
5.吸入麻酔薬
6.悪性高熱症ガイドライン
7.静脈麻酔薬(麻薬を除く)
8.筋弛緩薬と拮抗薬
9.局所麻酔薬
10.心・血管作動薬
11.麻酔に用いられる麻薬性鎮痛薬と鎮静薬
12.麻酔と呼吸機能
13.麻酔と心機能
14.麻酔と冠循環
15.麻酔と肝機能
16.麻酔と腎機能
17.麻酔と脳神経機能
18.麻酔薬と臓器保護作用
19.麻酔深度とモニター活用法
20.麻酔領域での経食道心エコー(TEE)による評価
21.超音波診断と末梢神経ブロック
22.周術期ポイントオブケア超音波2019-20
23.輸血と輸液
24.宗教的輸血拒否
25.危機的出血への対応
26.全静脈麻酔(TIVA),鎮静(MAC)
27.手術室危機管理・安全対策
28.WHO安全な手術のためのガイドライン
29.硬膜外麻酔と脊髄くも膜下麻酔
30.小児麻酔
31.高齢者麻酔
32.緊急手術の麻酔
33.産科麻酔
34.産科危機的出血への対応ガイドライン
35.内視鏡手術の麻酔
36.日帰り手術の麻酔
37.心臓・大血管手術の麻酔
38.小児心臓手術の麻酔
39.脳外科の麻酔
40.Awake craniotomyの麻酔
41.移植手術の麻酔
42.周術期静脈血栓塞栓症と抗血栓薬
43.抗血栓療法ガイドライン
44.麻酔関連偶発症
45.痛みの生理学
46.術後の疼痛管理
47.ペインクリニック
48.緩和ケアとがんの痛み治療
49.麻酔科医と救急医療
50.心肺蘇生と脳保護
51.手術室の効率化と安全
52.麻酔科領域の新機材,新技術,新知見
53.新しい人工呼吸
54.集中治療(1)呼吸・循環管理
55.集中治療(2)体液,栄養,感染の管理
56.集中治療(3)ICUにおける鎮痛と鎮静
57.集中治療(4)ICUにおけるモニター
58.集中治療(5)小児集中治療
59.集中治療(6)血液浄化
この書籍の参考文献
参考文献のリンクは、リンク先の都合等により正しく表示されない場合がありますので、あらかじめご了承下さい。
本参考文献は電子書籍掲載内容を元にしております。
1. 麻酔前投薬と術前評価
P.1 掲載の参考文献
P.3 掲載の参考文献
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P.4 掲載の参考文献
3) Hernaiz Alonso C, Tanner JJ, Wiggins ME et al : Proof of principle : preoperative cognitive reserve and brain integrity predicts intra- individual variability in processed EEG (Bispectral Index Monitor) during general anesthesia. PLoS ONE 14 : e0216209, 2019
P.5 掲載の参考文献
4) Lederman D, Easwar J, Feldman J et al : Anesthetic considerations for lung resection : preoperative assessment, intraoperative challenges and postoperative analgesia. Ann Transl Med 7 : 356, 2019
2. 術前絶飲食
P.6 掲載の参考文献
1) Riveros-Perez E, Davoud S, Sanchez MG et al : Ultrasound your NPO : effect of body mass index on gastric volume in term pregnant women-retrospective case series. Ann Med Surg 48 : 95-98, 2019
P.7 掲載の参考文献
2) Presta MV, Bhavani SS, Abdelmalak BB : Nil per os guideline : what is changing, what is not, what should? Minerva Anesthesiol 84 : 1413-1419, 2018
P.8 掲載の参考文献
3) Haskins SC, Kruisselbrink R, Boublik J et al : Gastric ultrasound for the regional anesthesiologist and pain specialist. Reg Anesth Pain Med 43 : 689-698, 2018
P.9 掲載の参考文献
4) Miller DC, Schneider BJ, Smith C : Spine Interventional Society's Patient Safety Committee : NPO prior to interventional spine procedures. Pain Med 19 : 2570-2571, 2018
3. 周術期禁煙ガイドライン
P.11 掲載の参考文献
1) Batchelor TJP, Rasburn NJ, Abdelnour-Berchtold E et al : Guidelines for enhanced recovery after lung surgery : recommendations of the Enhanced Recovery After Surgery (ERAS(R)) Society and the European Society of Thoracic Surgeons (ESTS). Eur J Cardiothorac Surg 55 : 91-115, 2019
P.12 掲載の参考文献
2) Mayor MA, Khandhar SJ, Chandy J et al : Implementing a thoracic enhanced recovery with ambulation after surgery program : key aspects and challenges. J Thorac Dis 10 (Suppl 32) : S3809-S3814, 2018
3) D'Andrilli A, Massullo D, Rendina EA : Enhanced recovery pathways in thoracic surgery from Italian VATS Group : preoperative optimisation. J Thorac Dis 10 (Suppl 4) : S535-S541, 2018
4) Engelman DT, Ali WB, Williams JB et al : Guidelines for perioperative care in cardiac surgery Enhanced Recovery After Surgery Society recommendations. JAMA Surg 154 : 755-766, 2019
5) Low DE, Allum W, De Manzoni G et al : Guidelines for perioperative care in esophagectomy : Enhanced Recovery After Surgery (ERAS(R)) Society recommendations. World J Surg 43 : 299-330, 2019
6) Gustafsson UO, Scott MJ, Hubner M et al : Guidelines for perioperative care in elective colorectal surgery : Enhanced Recovery After Surgery (ERAS(R)) Society recommendations : 2018. World J Surg 43 : 659-695, 2019
7) Wainwright TW, Gill M, McDonald DA et al : Consensus statement for perioperative care in total hip replacement and total knee replacement surgery : Enhanced Recovery After Surgery (ERAS(R)) Society recommendations. Acta Orthopaedica 90 : 3-19, 2019
8) Vukovic N, Dinic L : Enhanced Recovery After Surgery protocols in major urologic surgery. Front Med 5 : 93, 2018
P.13 掲載の参考文献
9) Stewart LE, Hampton BS : Perioperative care : a review of guidelines and recommendations-part 1 : preoperative evaluation. Topics in Obstetrics & Gynecology : 38 : 1-6, 2018
10) Krantz T, Dunivan G : Putting surgical site infection bundles into practice. Contemporary OB/GYN 63 : 9-10, 12-13, 2018
11) Alamanda VK, Springer BD : Perioperative and modifiable risk factors for periprosthetic joint infections (PJI) and recommended guidelines. Curr Rev Musculoskelet Med 11 : 325-331, 2018
12) Spina NT, Aleem IS, Nassr A et al : Surgical site infections in spine surgery : preoperative prevention strategies to minimize risk. Global Spine J : 8 (4S) 31S-36S, 2018
13) Stokes SM, Wakeam E, Antonoff MB, et al : Optimizing health before elective thoracic surgery : systematic review of modifiable risk factors and opportunities for health services research. J Thorac Dis 11 (Suppl 4) : S537-S554, 2019
14) Jensen BT, Lauridsen SV, Jensen BJ : Prehabilitation for major abdominal urologic oncology surgery. Curr Opin Urol 28 : 243-250, 2018
15) Lauridsen SV, Thomsen T, Thind P et al : STOP smoking and alcohol drinking before Operation for bladder cancer (the STOP-OP study), perioperative smoking and alcohol cessation intervention in relation to radical cystectomy : study protocol for a randomized controlled trial. Traials 18 : 329, 2017
P.14 掲載の参考文献
16) Padevit L, Sarnthein J, Stienen MN et al : Smoking status and perioperative adverse events in patients undergoing cranial tumor surgery. J Neurooncol 144 : 97-105, 2019
17) Crippen MM, Patel N, Filimonov A et al : Association of smoking tobacco with complications in head and neck microvascular reconstructive surgery. JAMA Facial Plast Surg 21 : 20-26, 2019
18) Jones DW, Goodney PP, Eldrup-Jorgensen J et al : Active smoking in claudicants undergoing lower extremity bypass predicts decreased graft patency and worse overall survival. J of Vasc Surg 68 : 796-806.e1, 2018
19) HalleTR, Benarroch-Gampel J, Teodorescu VJ et al : Surgical intervention for peripheral artery disease does not improve patient compliance with recommended medical therapy. Ann Vasc Surg 46 : 104-111, 2018
20) Bloom JA, Rashad R, Chatterjee A : The impact on mortality and societal costs from smoking cessation in aesthetic plastic surgery in the United States. Aesthet Surg J 39 : 439-444, 2019
21) Zhao S, Chen F, Wang D et al : Effect of preoperative smoking cessation on postoperative pain outcomes in elderly patients with high nicotine dependence. Medicine 98 : e14209, 2019
22) Beaupre LA, Hammal F, DeSutter C et al : Impact of a standardized referral to a community pharmacist-led smoking cessation program before elective joint replacement surgery. Tob Induc Dis 17 : 1-7, 2019
P.15 掲載の参考文献
23) Gormsen J, Hjorne F, Helgstrand F : Cotinine test in evaluating smoking cessation at the day of bariatric surgery. Scand J Surg 25 : 1-4, 2019
24) Luxton NA, Shih P, Rahman MA : Electronic cigarettes and smoking cessation in the perioperative period of cardiothoracic surgery : views of Australian clinicians. Int J Environ Res Public Health 15 : 2481, 2018
25) Hajek P, Phillips-Waller A, Przulj D et al : A randomized trial of e-cigarettes versus nicotine-replacement therapy. N Engl J Med 380 : 629-637, 2019
26) Layden JE, Ghinai I, Pray I et al : Pulmonary illness related to e-cigarette use in Illinois and Wisconsin-preliminary report. N Engl J Med, September 6, 2019
4. 麻酔と気道管理・確保
P.16 掲載の参考文献
1) Doherty C, Neal R, English C et al : Multidisciplinary guidelines for the management of paediatric tracheostomy emergencies. Anaesthesia 73 : 1400-1417, 2018
2) Cook F, Lobo D, Martin M et al : Prospective validation of a new airway management algorithm and predictive features of intubation difficulty. Br J Anaesth 122 : 245-254, 2019
P.17 掲載の参考文献
3) Detsky ME, Jivraj N, Adhikari NK et al : Will this patient be difficult to intubate? : the rational clinical examination systematic review. JAMA 321 : 493-503, 2019
4) Baillard C, Boubaya M, Statescu E et al : Incidence and risk factors of hypoxaemia after preoxygenation at induction of anaesthesia. Br J Anaesth 122 : 388-394, 2019
5) Tan PCF, Millay OJ, Leeton L et al : High-flow humidified nasal preoxygenation in pregnant women : a prospective observational study. Br J Anaesth 122 : 86-91, 2019
6) Lai CJ, Yeh KC, Wang ML et al : Heated humidified high-flow nasal oxygen prevents intraoperative body temperature decrease in non-intubated thoracoscopy. J Anesth 32 : 872-879, 2018
7) Zochios V, Collier T, Blaudszun G et al : The effect of high-flow nasal oxygen on hospital length of stay in cardiac surgical patients at high risk for respiratory complications : a randomised controlled trial. Anaesthesia 73 : 1478-1488, 2018
8) Alhomary M, Ramadan E Curran E, et al : Videolaryngoscopy vs. fibreoptic bronchoscopy for awake tracheal intubation : a systematic review and meta-analysis. Anaesthesia 73 : 1151-1161, 2018
P.18 掲載の参考文献
9) Liu TT, Li L Wan L et al : Videolaryngoscopy vs. macintosh laryngoscopy for double-lumen tube intubation in thoracic surgery : a systematic review and meta-analysis. Anaesthesia 73 : 997-1007, 2018
10) Nakanishi T, Yoshimura M, Sakamoto S et al : Postoperative laryngeal morbidity and intubating conditions using the McGRATH(TM) MAC videolaryngoscope with or without neuromuscular blockade : a randomised, double-blind, non-inferiority trial. Anaesthesia 73 : 990-996, 2018
11) Thomsen JLD, Norskov AK, Rosenstock CV : Supraglottic airway devices in difficult airway management : a retrospective cohort study of 658,104 general anaesthetics registered in the Danish Anaesthesia Database. Anaesthesia 74 : 151-157, 2019
12) Siddiqui N, Yu E, Boulis S et al : Ultrasound is superior to palpation in identifying the cricothyroid membrane in subjects with poorly defined neck landmarks : a randomized clinical trial. Anesthesiology 129 : 1132-1139, 2018
P.19 掲載の参考文献
13) Drew T, McCaul CL : Laryngeal hand-shake technique in locating the cricothyroid membrane : a non-randomised comparative study. Br J Anaesth 121 : 1173-1178, 2018
14) Basaran B, Egilmez AI, Alatas N et al : M. Accuracy of identifying the cricothyroid membrane in children using palpation. J Anesth 32 : 768-773, 2018
15) Weightman WM, Gibbs NM : Prevalence of major vessels anterior to the trachea at sites of potential front-of-neck emergency airway access in adults. Br J Anaesth 121 : 1166-1172, 2018
16) Fennessy P, Drew T, Husarova V et al : Emergency cricothyroidotomy : an observational study to estimate optimal incision position and length. Br J Anaesth 122 : 263-268, 2019
17) Dixit A, Ramaswamy KK, Perera S et al : Impact of change in head and neck position on ultrasound localisation of the cricothyroid membrane : an observational study. Anaesthesia 74 : 29-32, 2019
18) Birenbaum A, Hajage D, Roche S et al : Effect of cricoid pressure compared with a sham procedure in the rapid sequence induction of anesthesia : the IRIS randomized clinical trial. JAMA Surg 154 : 9-17, 2019
P.20 掲載の参考文献
19) Lee D, Czech AJ, Elriedy M et al : A multicentre prospective cohort study of the accuracy of conventional landmark technique for cricoid localisation using ultrasound scanning. Anaesthesia 73 : 1229-1234, 2018
20) Gautier N, Danklou J, Brichant JF et al : The effect of force applied to the left paratracheal oesophagus on air entry into the gastric antrum during positive-pressure ventilation using a facemask. Anaesthesia 74 : 22-28, 2019
21) Naik K, Frerk C : Cricoid force : time to put it to one side. Anaesthesia 74 : 6-8, 2019
22) Goebel U, Schumann S, Wirth S : Peak airway pressure is lower during pressure-controlled than during manual facemask ventilation for induction of anesthesia in pediatric patients-a randomized, clinical crossover trial. J Anesth 33 : 33-39, 2019
23) Kemper M, Imach S, Buehler PK et al : Tube tip and cuff position using different strategies for placement of currently available paediatric tracheal tubes. Br J Anaesth 121 : 490-495, 2018
24) Ritchie-McLean S, Ferrier V, Clevenger B et al : Using middle finger length to determine the internal diameter of uncuffed tracheal tubes in paediatrics. Anaesthesia 73 : 1207-1213, 2018
25) Zhang B, Gurnaney HG, Stricker PA et al : A prospective observational study of technical difficulty with glidescope-guided tracheal intubation in children. Anesth Analg 127 : 467-471, 2018
P.21 掲載の参考文献
26) Moon TS, Fox PE, Somasundaram A et al : The influence of morbid obesity on difficult intubation and difficult mask ventilation. J Anesth 33 : 96-102, 2019
27) Grieco DL, Anzellotti GM, Russo A et al : Airway closure during surgical pneumoperitoneum in obese patients. Anesthesiology 131 : 58-73, 2019
28) Ball L, Hemmes SNT, Serpa Neto A et al : Intraoperative ventilation settings and their associations with postoperative pulmonary complications in obese patients. Br J Anaesth 121 : 899-908, 2018
29) Taboada M, Doldan P, Calvo A et al : Comparison of tracheal intubation conditions in operating room and intensive care unit : a prospective, observational study. Anesthesiology 129 : 321-328, 2018
30) Kim HY, Kim EJ, Shin CS et al : Shallow nasal RAE tube depth after head and neck surgery : association with preoperative and intraoperative factors. J Anesth 33 : 118-124, 2019
P.22 掲載の参考文献
31) Kohzuka Y, Isono S, Ohara S et al : Nasopharyngeal tube effects on breathing during sedation for dental procedures : a randomized controlled trial. Anesthesiology 130 : 946-957, 2019
5. 吸入麻酔薬
P.23 掲載の参考文献
1) Wang YZ, Li TT, Cao HL et al : Recent advances in the neuroprotective effects of medical gases. Med Gas Res 9 : 80-87, 2019
P.24 掲載の参考文献
2) Landoni G, Lomivorotov VV, Nigro Neto C et al : Volatile anesthetics versus total intravenous anesthesia for cardiac surgery. N Engl J Med 380 : 1214-1225, 2019
3) Heiberg J, Royse CF, Royse AG et al : Propofol attenuates the myocardial protection properties of desflurane by modulating mitochondrial permeability transition. Anesth Analg 127 : 387-397, 2018
4) Tang S, Huang W, Zhang K et al : Comparison of effects of Propofol versus sevoflurane for patients undergoing cardiopulmonary bypass cardiac surgery. Pak J Med Sci 35 : 1072-1075, 2019
5) Dong J, Xu M, Zhang W et al : Effects of sevoflurane pretreatment on myocardial ischemia-reperfusion injury through the Akt/Hypoxia-inducible factor 1-alpha (HIF-1α) /vascular endothelial growth factor (VEGF) signaling pathway. Med Sci Monit 25 : 3100-3107, 2019
6) Liao X, Zhou S, Zong J et al : Sevoflurane exerts protective effects on liver ischemia/reperfusion injury by regulating NFKB3 expression via miR-9-5p. Exp Ther Med 17 : 2632-2640, 2019
7) Xu G, Wng X, Xiong Y et al : Effect of sevoflurane pretreatment in relieving liver ischemia/reperfusion-induced pulmonary and hepatic injury. Acta Cir Bras 34 : e201900805, 2019
P.25 掲載の参考文献
8) Li HL, Weng Y, Liu W et al : Effect of sevoflurane and propofol on acute kidney injury in pediatric living donor liver transplantation. Ann Transl Med 7 : 340, 2019
9) Wang K, Zhang Y, Li X et al : Toxicity mechanism of sevoflurane in neural stem cell of rats through DNA methylation. Exp Ther Med 18 : 237-241, 2019
10) Bi C, Cai Q, Shan Y et al : Sevoflurane induces neurotoxicity in the developing rat hippocampus by upregulating connexin 43 via the JNK/c-Jun/AP-1 pathway. Biomed Phamacother 108 : 1469-1476, 2018
11) Yufune S, Satoh Y, Akai R, et al : Supression of ERK phosphorylation through oxidative stress is involved in the mechanism underlying sevoflurane-induced toxicity in the developing brain. Sci Rep 6 : 21859, 2016
P.26 掲載の参考文献
12) Wang N, Wang M : Dexmedetomidine suppresses sevoflurane anesthesia-induced neuroinflammation through activation of the PI3K/Akt/mTOR pathway. BMC Anesthesiol 19 : 134, 2019
13) Yue H, Hu B, Luo Z et al : Metformin protects against sevoflurane-induced neuronal apoptosis through the S1P1 and ERK signaling pathways. Exp Ther Med 17 : 1463-1469, 2019
14) Ge XH, Zhu GJ, Geng DQ et al : Metformin protects the brain against ischemia/reperfusion injury through PI3K/Akt1/JNK3 signaling pathways in rats. Physiol Behav 170 : 115-123, 2017
15) Kinjo S, Lim E, Magsaysay MV et al : Volatile anaesthetics and postoperative delirium in older surgical patients-a secondary analysis of prospective cohort studies. Acta Anaesthesiol Scand 63 : 18-26, 2019
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P.27 掲載の参考文献
17) Liang LQ, Jiao YQ, Guo SL : Effects of sevoflurane inhalation anesthesia on cognitive and immune function in elderly patients after abdominal operation. Eur Rev Med Pharmacol Sci 22 : 8932-8938, 2018
18) Kletecka J, Holeckova I, Brenkus P et al : Propofol versus sevoflurane anesthesia : effect on cognitive decline and event-related potentials. J Clin Monit Comp 33 : 665-673, 2019
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20) Zhao X, Jin Y, Li H et al : Sevoflurane impairs learning and memory of the developing brain through post-transcriptional inhibition of CCNA2 via microRNA-19-3p. Aging 10 : 3794-3805, 2018
21) Xiong J, Wang H, Mu F et al : MiR-125b-5p inhibitor might protect against sevoflurane-induced cognitive impairments by targeting LINK1. Curr Neurovasc Res 16 : 382-391, 2019
P.28 掲載の参考文献
22) Lai HC, Lee MS, Lin C et al : Propofol-based total intravenous anaesthesia is associated with better survival than desflurane anaesthesia in hepatectomy for hepatocellular caicinoma : a retrospective cohort study. Br J Anaesth 123 : 151-160, 2019
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6. 悪性高熱症ガイドライン
P.30 掲載の参考文献
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3) Riazi S, Kraeva N, Hopkins PM : Malignant hyperthermia in the post-genomics era : new perspectives on an old concept. Anesthesiology 128 : 168-180, 2018
P.31 掲載の参考文献
4) Lu Z, Rosenberg H, Li G : Prevalence of malignant hyperthermia diagnosis in hospital discharge records in California, Florida, New York, and Wisconsin. J Clin Anesth 39 : 10-14, 2017
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6) Jones PM, Allen BN, Cherry RA et al : Association between known or strongly suspected malignant hyperthermia susceptibility and postoperative outcomes : an observational population-based study. Can J Anaesth 66 : 161-181, 2019
7) Larach MG, Klumpner TT, Brandom BW et al : Succinylcholine use and dantrolene availability for malignant hyperthermia treatment : database analyses and systematic review. Anesthesiology 130 : 41-54, 2019
8) Urman RD, Rajan N, Belani K et al : Malignant hyperthermia-susceptible adult patient and ambulatory surgery center : Society for Ambulatory Anesthesia and Ambulatory Surgical Care Committee of the American Society of Anesthesiologists Position Statement. Anesth Analg 129 : 347-349, 2019
P.32 掲載の参考文献
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11) Chang L, Daly C, Miller DM et al : Permeabilised skeletal muscle reveals mitochondrial deficiency in malignant hyperthermiasusceptible individuals. Br J Anaesth 122 : 613-621, 2019
12) Vellecco V, Martelli A, Bibli IS et al : Anomalous Kv 7 channel activity in human malignant hyperthermia syndrome unmasks a key role for H2 S and persulfidation in skeletal muscle. Br J Pharmacol 2019 : 1-14, 2019
P.33 掲載の参考文献
13) Litman RS, Smith VI, Larach MG et al : Consensus statement of the Malignant Hyperthermia Association of the United States on unresolved clinical questions concerning the management of patients with malignant hyperthermia. Anesth Analg 128 : 652-659, 2019
14) Hudig K, Pollock N, Bulger T et al : Masseter muscle rigidity and the role of DNA analysis to confirm malignant hyperthermia susceptibility. Anaesth Intensive Care 47 : 60-68, 2019
15) Xu Z, Jiang Y, St Jacques P et al : Increase in carbon dioxide removal for early diagnosis of malignant hyperthermia : a retrospective study from a large medical center in North America. J Clin Anesth 58 : 73-74, 2019
16) Bilmen JG, Hopkins PM : The use of charcoal filters in malignant hyperthermia : have they found their place? Anaesthesia 74 : 13-16, 2019
P.34 掲載の参考文献
17) Diszhazi G, Magyar ZE, Motyan JA et al : Dantrolene requires Mg2+ and ATP to inhibit the ryanodine receptor. Mol Pharmacol 96 : 401-407, 2019
18) Jin W, Tan X, Wen J et al : A novel dantrolene sodium-loaded mixed micelle containing a small amount of cremophor EL : characterization, stability, safety and pharmacokinetics. Molecules 24 : E728, 2019
19) Mori S, Iinuma H, Manaka N et al : Structural development of a type-1 ryanodine receptor (RyR1) Ca2+ -release channel inhibitor guided by endoplasmic reticulum Ca2+ assay. Eur J Med Chem 179 : 837-848, 2019
20) Thoben C, Dennhardt N, Krauss T et al : Preparation of anaesthesia workstation for trigger-free anaesthesia : an observational laboratory study. Eur J Anaesthesiol 36 : 851-856, 2019
21) Neira VM, Al Madhoun W, Ghaffari K et al : Efficacy of Malignant Hyperthermia Association of the United States-recommended methods of preparation for malignant hyperthermia-susceptible patients using Drager Zeus anesthesia workstations and associated costs. Anesth Analg 129 : 74-83, 2019
22) De Wel B, Claeys KG : Malignant hyperthermia : still an issue for neuromuscular diseases? Curr Opin Neurol 31 : 628-634, 2018
P.35 掲載の参考文献
23) Knuiman GJ, Kusters B, Eshuis L et al : The histopathological spectrum of malignant hyperthermia and rhabdomyolysis due to RYR1 mutations. J Neurol 266 : 876-887, 2019
24) House CM, Tipton MJ, Hopkins PM et al : Thermoregulation and markers of muscle breakdown in malignant hyperthermia susceptible volunteers during an acute heat tolerance test. J Sci Med Sport 22 : 586-590, 2019
25) Zvaritch E, Gillies R, Kraeva N et al : Fatal awake malignant hyperthermia episodes in a family with malignant hyperthermia-susceptibility : a case series. Can J Anaesth 66 : 540-545, 2019
26) Johannsen S, Turkmeneli I, Isbary S et al : Ultrasound elastography for rapid, real-time detection of localized muscular reaction in malignant hyperthermia-susceptible pigs. Anesthesiology 129 : 989-999, 2018
7. 静脈麻酔薬 ( 麻薬を除く )
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1) Sommerfield D, von Ungern-Sternberg BS : The mask or the needle? which induction should we go for? Curr Opin Anaesthesiol 32 : 377-383, 2019
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2) McCann ME, Soriano SG : Does general anesthesia affect neurodevelopment in infants and children? BMJ 367 : 16459, 2019
3) Rengel KF, Hayhurst CJ, Pandharipande PP et al : Long-term cognitive and functional impairments after critical illness. Anesth Analg 128 : 772-780, 2019
4) Hesse S, Kreuzer M, Hight D et al : Association of electroencephalogram trajectories during emergence from anaesthesia with delirium in the postanaesthesia care unit : an early sign of postoperative complications. Br J Anaesth 122 : 622-634, 2019
5) Quan C, Chen J, Luo Y et al : BIS-guided deep anesthesia decreases short-term postoperative cognitive dysfunction and peripheral inflammation in elderly patients undergoing abdominal surgery. Brain Behav 9 : e01238, 2019
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6) Raeder J : Procedural sedation in ambulatory anaesthesia : what's new? Curr Opin Anaesthesiol 32 : 743-748, 2019
7) Cornett EM, Novitch MB, Brunk AJ et al : New benzodiazepines for sedation. Best Pract Res Clin Anaesthesiol 32 : 149-164, 2018
8) Sear JW : Challenges of bringing a new sedative to market ! Curr Opin Anaesthesiol 31 : 423-430, 2018
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9) Iida A, Naito H, Yorifuji T et al : Factors affecting the absorption of midazolam to the extracorporeal membrane oxygenation circuit. Acta Med Okayama 73 : 101-107, 2019
10) Gohil JR, Jindal S : Cardiotoxicity associated with midazolam in a patient with diphtheria. Curr Drug Saf 14 : 57-59, 2019
11) Wang L, Shen J, Ge L et al : Dexmedetomidine for craniotomy under general anesthesia : a systematic review and meta-analysis of randomized clinical trials. J Clin Anesth 54 : 114-125, 2019
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12) Mulier JP : Is opioid-free general anesthesia for breast and gynecological surgery a viable option? Curr Opin Anaesthesiol 32 : 257-262, 2019
13) Sridharan K, Sivaramakrishnan G : Drugs for preventing post-operative nausea and vomiting in patients undergoing laparoscopic cholecystectomy : network meta-analysis of randomized clinical trials and trial sequential analysis. Int J Surg 69 : 1-12, 2019
14) Meek R, Mee MJ, Egerton-Warburton D et al : Randomized placebo-controlled trial of droperidol and ondansetron for adult emergency department patients with nausea. Acad Emerg Med 26 : 867-877, 2019
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15) Krystal JH, Abdallah CG, Sanacora G et al : Ketamine : a paradigm shift for depression research and treatment. Neuron 101 : 774-778, 2019
16) Kim J, Farchione T, Potter A et al : Esketamin for treatment-resistant depression-first FDA-approved antidepressant in a new class. N Engl J Med 381 : 1-4, 2019
17) Wang J, Echevarria GC, Doan L et al : Effects of a single subanaesthetic dose of ketamine on pain and mood after laparoscopic bariatric surgery : a randomised double-blind placebo controlled study. Eur J Anaesthesiol 36 : 16-24, 2019
18) Riddell JM, Trummel JM, Onakpoya IJ : Low-dose ketamine in painful orthopaedic surgery : a systematic review and meta-analysis. Br J Anaesth 123 : 325-334, 2019
19) Boenigk K, Echevarria GC, Nisimov E et al : Low-dose ketamine infusion reduces postoperative hydromorphone requirements in opioid-tolerant patients following spinal fusion : a randomised controlled trial. Eur J Anaesthesiol 36 : 8-15, 2019
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20) Hemphill S, McMenamin L, Bellamy MC et al : Propofol infusion syndrome : a structured literature review and analysis of published case reports. Br J Anaesth 122 : 448-459, 2019
21) Aguirre JA, Etzensperger F, Brada M et al : The beach chair position for shoulder surgery in intravenous general anesthesia and controlled hypotension : impact on cerebral oxygenation, cerebral blood flow and neurobehavioral outcome. J Clin Anesth 53 : 40-48, 2019
22) Landoni G, Lomivorotov VV, Nigro Neto C et al : Volatile anesthetics versus total intravenous anesthesia for cardiac surgery. N Engl J Med 380 : 1214-1225, 2019
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23) Subramaniam B, Shankar P, Shaefi S et al : Effect of intravenous acetaminophen vs placebo combined with propofol or dexmedetomidine on postoperative delirium among older patients following cardiac surgery : the DEXACET randomized clinical trial. JAMA 321 : 686-696, 2019
24) Aya AGM, Pouchain PH, Thomas H et al : Incidence of postoperative delirium in elderly ambulatory patients : a prospective evaluation using the FAM-CAM instrument. J Clin Anesth 53 : 35-38, 2019
25) Wu ZF, Lee MS, Wong CS et al : Propofol-based total intravenous anesthesia is associated with better survival than desflurane anesthesia in colon cancer surgery. Anesthesiology 129 : 932-941, 2018
P.44 掲載の参考文献
26) Lai, HC, Lee MS, Lin C et al : Propofol-based total intravenous anaesthesia is associated with better survival than desflurane anaesthesia in hepatectomy for hepatocellular carcinoma : a retrospective cohort study. Br J Anaesth 123 : 151-160, 2019
27) Sessler DI, Pei L, Huang Y et al : Recurrence of breast cancer after regional or general anaesthesia : a randomised controlled trial. Lancet 394 : 1807-1815, 2019
28) Hight DF, Gaskell AL, Kreuzer M et al : Transient electroencephalographic alpha power loss during maintenance of general anaesthesia. Br J Anaesth 122 : 635-642, 2019
29) Nir T, Or-Borichev A, Izraitel E et al : Transient subcortical functional connectivity upon emergence from propofol sedation in human male volunteers : evidence for active emergence. Br J Anaesth 123 : 298-308, 2019
8. 筋弛緩薬と拮抗薬
P.45 掲載の参考文献
1) Li J, Best OG, Rose MA et al : Assessing cross-reactivity too neuromuscular blocking agents by skin and basophil activation tests in patients with neuromuscular blocking agent anaphylaxis. Br J Anaesth 123 : e144-150, 2019
2) Min KC, Bondiskey P, Schulz V et al : Hypersensitivity incidence after sugammadex administration in healthy subjects : a randomized controlled trial. Br J Anaesth 121 : 749-757, 2018
P.46 掲載の参考文献
3) De Kam PJ, Nolte H, Good S et al : Sugammadex hypersensitivity and underlying mechanisms : a randimised study of healthy non-anaesthetised volunteers. Br J Anaesth 121 : 758-767, 2018
4) Van Gasse AL, Elst J, Bridts CH et al : Rocuronium hypersensitivity : dose off-target occupation of the MRGPRX2 receptor play a role? J Allergy Clin Immunol Pract 7 : 998-1003, 2019
5) Kameyama Y, Takagi S, Seto K et al : Efficiency of the TOF-Cuff(TM) for the evaluation of rocuronium-induced neuromuscular block and its reversal with sugammadex : a comparative study vs. acceleromyography. J Anesth 33 : 80-84, 2019
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6) Machado ES, Keli-Barcelos G, Dupuis-Lozeron E et al : Assessment of spontaneous neuromuscular recovery : a comparison of the TOF-Cuff(R) with the TOF Watch SX(R). Acta Anaesthesiol Scand 64 : 173-179, 2020
7) Murphy GS, Szokol JW, Avram MJ et al : Comparison of the TOFscan and the TOF-Watch SX during recovery of neuromuscular function. Anesthesiology 129 : 880-888, 2018
8) Min SH, Im H, Kim BR et al : Randomized trial comparing early and late administration of rocuronium before and after checking mask ventilation in patients with normal airway. Anesth Analg 129 : 380-386, 2019
P.48 掲載の参考文献
9) Muramatsu T, Isono S, Ishikawa T et al : Differences of recovery from rocuronium-induced deep paralysis in response to small doses of sugammadex between elderly and nonelderly patients. Anesthesiology 129 : 901-911, 2018
10) Broens SJL, Boon M, Martini CH et al : Reversal of partial neuromuscular block and the ventilator response to hypoxia. Anesthesiology 131 : 467-476, 2019
P.49 掲載の参考文献
11) Kirmeier E, Eriksson LI, Lewald H et al : Post-anaesthesia pulmonary complications after use of muscle relaxants (POPULAR) : a multicentre, prospective observational study. Lancet Respir Med 7 : 129-140, 2019
12) Blobner M, Hunter JM, Meistelman C et al : Use of a train-of-four ratio of 0.95 versus 0.9 for tracheal extubation : an exploratory analysis of POPULAR data. Br J Anaesth 124 : 63-72, 2020
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14) National Heart, Lung, and Blood Institute PETAL Clinical Trials Network, Moss M, Huang DT, Brower RG et al : Early neuromuscular blockade in the acute respiratory distress syndrome. N Engl J Med 380 : 1997-2008, 2019
9. 局所麻酔薬
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1) Subedi A, Tripathi M, Pokharel K et al : Effect of intravenous lidocaine, dexamethasone, and their combination on postoperative sore throat : a randomized controlled trial. Anesth Analg 129 : 220-225, 2019
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2) Kristek G, Rados I, Kristek D et al : Influence of postoperative analgesia on systemic inflammatory response and postoperative cognitive dysfunction after femoral fractures surgery : a randomized controlled trial. Reg Anesth Pain Med 44 : 59-68, 2019
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3) Koniuch KL, Buys MJ, Campbell B et al : Serum ropivacaine levels after local infiltration analgesia during total knee arthroplasty with and without adductor canal block. Reg Anesth Pain Med, 2019
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4) Forster C, Vanhaudenhuyse A, Gast P et al : Intravenous infusion of lidocaine significantly reduces propofol dose for colonoscopy : a randomised placebo-controlled study. Br J Anaesth 121 : 1059-1064, 2018
5) Zel J, Hadzic A, Cvetko E et al : Neurological and histological outcomes after subarachnoid injection of a liposomal bupivacaine suspension in pigs : a pilot study. Br J Anaesth 122 : 379-387, 2019
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6) Viscusi E, Gimbel JS, Pollack RA et al : HTX-011 reduced pain intensity and opioid consumption versus bupivacaine HCl in bunionectomy : phase III results from the randomized EPOCH 1 study. Reg Anesth Pain Med, 2019
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7) Meier PM, Pereira LM, Zurakowski D et al : Population pharmacokinetics of intraperitoneal bupivacaine using manual bolus atomization versus micropump nebulization and morphine requirements in young children. Anesth Analg 129 : 963-972, 2019
8) Liu L, Jin Z, Cai X et al : Comparative regimens of lipid rescue from bupivacaine-induced asystole in a rat model. Anesth Analg 128 : 256-263, 2019
9) Zaballos M, Callejo D, Sevilla R et al : Comparative effects of sodium bicarbonate and intravenous lipid emulsions on reversing bupivacaine-induced electrophysiological toxicity in a porcine experimental model. Anesth Analg 129 : 63-72, 2019
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10) Yu ZY, Geng J, Li ZQ et al : Dexmedetomidine enhances ropivacaine-induced sciatic nerve injury in diabetic rats. Br J Anaesth 122 : 141-149, 2019
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11) Elajnaf T, Baptista-Hon DT, Hales TG : Potent inactivation-dependent inhibition of adult and neonatal NaV1.5 channels by lidocaine and levobupivacaine. Anesth Analg 127 : 650-660, 2018
10. 心・血管作動薬
P.59 掲載の参考文献
1) Mohta M, Garg A, Chilkoti GT et al : A randomised controlled trial of phenylephrine and noradrenaline boluses for treatment of postspinal hypotension during elective caesarean section. Anaesthesia 74 : 850-855, 2019
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2) Wang X, Mao M, Liu S et al : A comparative study of bolus norepinephrine, phenylephrine, and ephedrine for the treatment of maternal hypotension in parturients with preeclampsia during Cesarean delivery under spinal anesthesia. Med Sci Monit 25 : 1093-1101, 2019
3) Mohta M, Dubey M, Malhotra RK, et al : Comparison of the potency of phenylephrine and norepinephrine bolus doses used to treat post-spinal hypotension during elective caesarean section. Int J Obstet Anesth 38 : 25-31, 2019
4) Hasanin AM, Amin SM, Agiza NA et al : Norepinephrine infusion for preventing postspinal anesthesia hypotension during cesarean delivery. a randomized dose-finding trial. Anesthesiology 130 : 55-62, 2019
5) Kornilov E, Orbach-Zinger S, Hoshen M et al : A prospective observational study of the change in regional cerebral oxygen saturation during cesarean delivery in women receiving phenylephrine prophylaxis for spinal hypotension. Int J Obstet Anesth 37 : 29-35, 2018
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6) Singh S, Lumbreras-Marquez MI, Farber MK et al : Transient tachypnea of newborns is associated with maternal spinal hypotension during elective cesarean delivery : A retrospective cohort study. Anesth Analg 129 : 162-167, 2019
7) Wang X, Shen X, Liu S et al : The efficacy and safety of norepinephrine and its feasibility as a replacement for phenylephrine to manage maternal hypotension during elective cesarean delivery under spinal anesthesia. Bio Med Res Int. Article ID 1869189, 14 pages, 2018
8) Elriedy M, Cockerham R : Spinal-induced hypotension at caesarean section. Anaesthesia & Intensive Care Medicine 20 : 376-378, 2019
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9) Harper NJN, Cook TM, Garcez T et al : Anaesthesia, surgery, and life-threatening allergic reactions : management and outcomes in the 6th national audit project (NAP6). Br J Anaesth 121 : 172-188, 2018
10) Koponen T, Karttunen J, Musialowicz T, et al : Vasoactive-inotropic score and the prediction of morbidity and mortality after cardiac surgery. Br J Anaesth 122 : 428-436, 2019
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11) Khanna AK, Naylor DF, Naylor AJ et al : Early resumption of βblockers is associated with decreased atrial fibrillation after noncardiothoracic and nonvascular surgery. a cohort analysis. Anesthesiology 129 : 1101-1110, 2018
12) Bircher NG, Chan PS, Xu Y et al : Delays in cardiopulmonary resuscitation, defibrillation, and epinephrine administration all decrease survival in in-hospital cardiac arrest. Anesthesiology 130 : 414-422, 2019
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13) Kasugai D, Nishikimi M, Nishida K et al : Timing of administration of epinephrine predicts the responsiveness to epinephrine in norepinephrine-refractory septic shock : a retrospective study. J Intensive Care 7 : 20, 2019
14) Nagendran M, Russell JA, Walley KR et al : Vasopressin in septic shock : an individual patient data meta-analysis of randomised controlled trails. Intensive Care Med 45 : 844-855, 2019
15) Liu ZM, Chan J, Kou Q et al : Terlipressin versus norepinephrine as infusion in patients with septic shock : a multicenter, randomised, double-blinded trial. Intensive Care Med 44 : 1816-1825, 2018
16) Cheng L, Yan J, Han S et al : Comparative efficacy of vasoactive medications in patients with septic shock : a network meta-analysis of randomized controlled trials. Critical Care 23 : 168, 2019
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17) Abdelazziz MM, Abdelhamid HM : Terlipressin versus norepinephrine to prevent milrinon-induced systemic vascular hypotension in cardiac surgery patients with pulmonary hypertension. Ann Card Anaesth 22 : 136-142, 2019
18) Mahdy MM, Abbas MS, Kamel EZ et al : Effects of terlipressin infusion during hepatobiliary surgery on systemic and splanchnic haemodynamics, renal function and blood loss : a double-blind, randomized clinical trial. BMC anesthesiol 19 : 106, 2019
19) Abbas MS, Mohamed KS, Ibraheim OA et al : Effects of terlipressin infusion on blood loss and transfusion needs during liver resection : a randomised trial. Acta Anaesthesiol Scand 63 : 34-39, 2019
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20) Zangrillo A, Alvaro G, Belletti A et al : Effect of levosimendan on renal outcome in cardiac surgery patients with chronic kidney disease and perioperative cardiovascular dysfunction : a substudy of a multicenter randomized trial. J Cardiothorac Vasc Anesth 32 : 2152-2159, 2018
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11. 麻酔に用いられる麻薬性鎮痛薬と鎮静薬
P.67 掲載の参考文献
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3) Onishi E, Kobayashi T, Dexter E et al : Comparison of opioid prescribing patterns in the United States and Japan : primary care physicians' attitudes and perceptions. J Am Board Fam Med 30 : 248-254, 2017
4) Schmidt P, Berger MB, Day L et al : Home opioid use following cesarean delivery : how many opioid tablets should obstetricians prescribe? J Obstet Gynaecol Res 44 : 723-729, 2018
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6) Soffin EM, Lee BH, Kumar KK : The prescription opioid crisis : role of the anaesthesiologist in reducing opioid use and misuse. Br J Anaesth 122 : e198-e208, 2019
7) Chakravarthy M : Regional analgesia in cardiothoracic surgery : a changing paradigm toward opioid-free anesthesia? Ann Card Anaesth 21 : 225-227, 2018
8) Frauenknecht J, Kirkham KR, Jacot-Guillarmod A et al : Analgesic impact of intra-operative opioids vs. opioid-free anaesthesia : a systematic review and meta-analysis. Anaesthesia 74 : 651-662, 2019
9) Lavand'homme P, Estebe JP : Opioid-free anesthesia : a different regard to anesthesia practice. Curr Opin Anaesthesiol 31 : 556-561, 2018
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10) Beloeil H, Laviolle B, Menard C et al : POFA trial study protocol : a multicentre, double-blind, randomised, controlled clinical trial comparing opioid-free versus opioid anaesthesia on postoperative opioid-related adverse events after major or intermediate non-cardiac surgery. BMJ Open 8 : e020873, 2018
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12) Gutierrez R, Contreras F, Blanch A et al : Remifentanil-induced secondary hyperalgesia is not prevented by preoperative acetazolamide administration in patients undergoing total thyroidectomy : a randomized controlled trial. J Pain Res 12 : 2991-2997, 2019
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13) Qiu H, Sun Z, Shadhiya F et al : The influence of dexmedetomidine on remifentanil-induced hyperalgesia and the sex differences. Exp Ther Med 16 : 3596-3602, 2018
14) Melber AA, Jelting Y, Huber M et al : Remifentanil patient-controlled analgesia in labour : six-year audit of outcome data of the RemiPCA SAFE Network (2010-2015). Int J Obstet Anesth 39 : 12-21, 2019
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17) Murray H, Hodgkinson P, Hughes D : Remifentanil patient-controlled intravenous analgesia during labour : a retrospective observational study of 10 years' experience. Int J Obstet Anesth 39 : 29-34, 2019
18) Wilson MJA, MacArthur C, Hewitt CA et al : Intravenous remifentanil patient-controlled analgesia versus intramuscular pethidine for pain relief in labour (RESPITE) : an open-label, multicentre, randomised controlled trial. Lancet 392 : 662-672, 2018
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12. 麻酔と呼吸機能
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1) Writing Group for the PReVENT Investigators ; Simonis FD, Serpa Neto A et al : Effect of a low vs intermediate tidal volume strategy on ventilator-free days in Intensive Care Unit patients without ARDS : a randomized clinical trial. JAMA 320 : 1872-1880, 2018
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3) Pereira SM, Tucci MR, Morais CCA et al : Individual positive end-expiratory pressure settings optimize intraoperative mechanical ventilation and reduce postoperative atelectasis. Anesthesiology 129 : 1070-1081, 2018
4) Park M, Ahn HJ, Kim JA et al : Driving pressure during thoracic surgery : a randomized clinical trial. Anesthesiology 130 : 385-393, 2019
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5) Kacmarek RM, Villar J : Lung-protective ventilation in the operating room : individualized positive end-expiratory pressure is needed! Anesthesiology 129 : 1057-1059, 2018
6) Pham T, Serpa Neto A, Pelosi P et al : Outcomes of patients presenting with mild acute respiratory distress syndrome insights from the LUNG SAFE Study. Anesthesiology 130 : 263-283, 2019
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7) National Heart, Lung, and Blood Institute PETAL Clinical Trials Network, Moss M, Huang DT, Brower RG et al : Early neuromuscular blockade in the acute respiratory distress syndrome. N Engl J Med 380 : 1997-2008, 2019
8) Aoyama H, Uchida K, Aoyama K et al : Assessment of therapeutic interventions and lung protective ventilation in patients with moderate to severe acute respiratory distress syndrome : a systematic review and network meta-analysis. JAMA Netw Open 2 : e198116, 2019
9) Grasselli G, Scaravilli V, Tubiolo D et al : Quality of life and lung function in survivors of extracorporeal membrane oxygenation for acute respiratory distress syndrome. Anesthesiology 130 : 572-580, 2019
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10) Muramatsu T, Isono S, Ishikawa T et al : Differences of recovery from rocuronium-induced deep paralysis in response to small doses of sugammadex between elderly and nonelderly patients. Anesthesiology 129 : 901-911, 2018
11) Naguib M, Brull SJ, Hunter JM et al : Anesthesiologists' overconfidence in their perceived knowledge of neuromuscular monitoring and its relevance to all aspects of medical practice : an international survey. Anesth Analg 128 : 1118-1126, 2019
12) Harman A, Tung A, Fox C et al : Heuristics, overconfidence, and experience : impact on monitoring depth of neuromuscular blockade. Anesth Analg 128 : 1057-1059, 2019
13. 麻酔と心機能
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2) Maheshwari K, Turan A, Mao G et al : The association of hypotension during non-cardiac surgery, before and after skin incision, with postoperative acute kidney injury : a retrospective cohort analysis. Anaesthesia 73 : 1223-1228, 2018
3) Saugel B, Reese PC, Sessler DI et al : Automated ambulatory blood pressure measurements and intraoperative hypotension in patients having noncardiac surgery with general anesthesia : a prospective observational study. Anesthesiology 131 : 74-83, 2019
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4) Sessler DI, Turan A, Stapelfeldt WH et al : Triple-low alerts do not reduce mortality : a real-time randomized trial. Anesthesiology 130 : 72-82, 2019
5) Lima MF, Mondadori LA, Chibana AY et al : Outcome impact of hemodynamic and depth of anesthesia monitoring during major cancer surgery : a before-after study. J Clin Monit Comput 33 : 365-371, 2019
6) Shen JT, Xu M, Wu Y et al : Association of pre-operative troponin levels with major adverse cardiac events and mortality after noncardiac surgery : a systematic review and meta-analysis. Eur J Anaesthesiol 35 : 815-824, 2018
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7) Beattie WS, Wijeysundera DN, Chan MTV et al : Implication of major adverse postoperative events and myocardial injury on disability and survival : a planned subanalysis of the ENIGMA-II trial. Anesth Analg 127 : 1118-1126, 2018
8) Myles PS, Leslie K, Chan MTV et al : The safety of addition of nitrous oxide to general anaesthesia in at-risk patients having major non-cardiac surgery (ENIGMA-II) : a randomised, single-blind trial. Lancet 384 : 1446-1454, 2014
9) Ackland GL, Abbott TEF, Cain D et al : Preoperative systemic inflammation and perioperative myocardial injury : prospective observational multicentre cohort study of patients undergoing non-cardiac surgery. Br J Anaesth 122 : 180-187, 2019
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11) Punthakee Z, Iglesias PP, Alonso-Coello P et al : Association of preoperative glucose concentration with myocardial injury and death after non-cardiac surgery (GlucoVISION) : a prospective cohort study. Lancet Diabetes Endocrinol 6 : 790-797, 2018
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12) Abbott TEF, Pearse RM, Cuthbertson BH et al : Cardiac vagal dysfunction and myocardial injury after non-cardiac surgery : a planned secondary analysis of the measurement of exercise tolerance before surgery study. Br J Anaesth 122 : 188-197, 2019
13) Glance LG, Faden E, Dutton RP et al : Impact of the choice of risk model for identifying low-risk patients using the 2014 American College of Cardiology/American Heart Association perioperative guidelines. Anesthesiology 129 : 889-900, 2018
14) Dhillon AK, Disque AA, Nguyen-Buckley CT et al : Does a low 6-minute walk distance predict elevated postoperative troponin? Anesth Analg 127 : e1-e3, 2018
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15) Shulman MA, Cuthbertson BH, Wijeysundera DN et al : Using the 6-minute walk test to predict disability-free survival after major surgery. Br J Anaesth 122 : 111-119, 2019
14. 麻酔と冠循環
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1) Cook CM, Ahmad Y, Howard JP et al : Impact of percutaneous revascularization on exercise hemodynamics in patients with stable coronary disease. J Am Coll Cardiol 72 : 970-983, 2018
2) Al-Lamee R, Howard JP, Shun-Shin MJ et al : Fractional flow reserve and instantaneous wave-free ratio as predictors of the placebo-controlled response to percutaneous coronary intervention in stable single-vessel coronary artery disease. Circulation 138 : 1780-1792, 2018
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15. 麻酔と肝機能
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16. 麻酔と腎機能
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17. 麻酔と脳神経機能
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18. 麻酔薬と臓器保護作用
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19. 麻酔深度とモニター活用法
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20. 麻酔領域での経食道心エコー ( TEE ) による評価
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21. 超音波診断と末梢神経ブロック
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22. 周術期ポイントオブケア超音波 2019 - 20
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23. 輸血と輸液
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24. 宗教的輸血拒否
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25. 危機的出血への対応
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26. 全静脈麻酔 ( TIVA ) , 鎮静 ( MAC )
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27. 手術室危機管理・安全対策
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28. WHO 安全な手術のためのガイドライン
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29. 硬膜外麻酔と脊髄くも膜下麻酔
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3) Narasimhan P, Kashyap L, Mohan VK et al : Comparison of caudal block with paravertebral block for renal surgeries in pediatiric patients : a prospective randomised, blinded clinical trial. J Clin Anesth 52 : 105-110, 2019
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7) Kwikiriza A, Kiwanuka JK, Firth PG et al : The analgesic effects of intrathecal morphine in comparison with ultrasound-guided transversus abdominis plane block after caesarean section : a randomized controlled trial at a Ugandan regional referral hospital. Anaesthesia 74 : 167-174, 2019
8) VlisidesPE, Thompson A, Kunkler BS et al : Perioperative epidural use and risk of delirium in surgical patients : a secondary analysis of the PODCAST trial. Anesth Analg 128 : 944-952, 2019
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11) Mahmoud AAA, Mansour AZ, Yasin HM et al : Addition of neostigmine and atropine to conventional management of postdural puncture headache : a randomized controlled trial. Anesth Analg 127 : 1434-1439, 2018
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13) Zivkovic N, van Samkar G, Hermanns H et al : Face and construct validity of TU-Delft epidural simulator and the value of real-time visualization. Reg Anesth Pain Med 44 : 298-302, 2019.
14) Nixon HC, Stariha J, Farrer J et al : Resident competency and proficiency in combined spinal-epidural catheter placement is improved using a computer-enhanced visual learning program : a randomized controlled trial. Anesth Analg 128 : 999-1004, 2019
15) Contreras F, Morales J, Bravo D et al : Dural puncture epidural analgesia for labor : a randomized comparison between 25-gauge and 27-gauge pencil point spinal needles. Reg Anesth Pain Med 44 : 750-753, 2019
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30. 小児麻酔
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4) Walker BJ, Long JB, Sathyamoorthy M et al : Complications in pediatric regional anesthesia. an analysis of more than 100,000 blocks from the Pediatric Regional Anesthesia Network. Anesthesiology 129 : 721-732, 2018
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25) de Carvalho ALR, Vital RB, de Lira CCS et al : Laryngeal mask airway versus other airway devices for anesthesia in children with an upper respiratory tract infection : a systematic review and meta-analysis of respiratory complications. Anesth Analg 127 : 941-950, 2018
31. 高齢者麻酔
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6) Janssen TL, Steyerberg EW, Langenberg JCM et al : Multimodal prehabilitation to reduce the incidence of delirium and other adverse events in elderly patients undergoing elective major abdominal surgery : an uncontrolled before-and-after study. PLoS One 14 : e0218152, 2019
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9) Hesse S, Kreuzer M, Hight D et al : Association of electroencephalogram trajectories during emergence from anaesthesia with delirium in the postanaesthesia care unit : an early sign of postoperative complications. Br J Anaesth 122 : 622-634, 2019
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32. 緊急手術の麻酔
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3) Yonekura H, Ide K, Onishi Y et al : Preoperative echocardiography for patients with hip fractures undergoing surgery : a retrospective cohort study using a nationwide database. Anesth Analg 128 : 213-220, 2019
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33. 産科麻酔
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34. 産科危機的出血への対応ガイドライン
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35. 内視鏡手術の麻酔
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2) Gu Z, Xin L, Wang H et al : Doxapram alleviates low SpO2 induced by the combination of propofol and fentanyl during painless gastrointestinal endoscopy. BMC Anesthesiology 19 : 216, 2019
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36. 日帰り手術の麻酔
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37. 心臓・大血管手術の麻酔
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38. 小児心臓手術の麻酔
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39. 脳外科の麻酔
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40. Awake craniotomyの麻酔
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41. 移植手術の麻酔
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42. 周術期静脈血栓塞栓症と抗血栓薬
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44. 麻酔関連偶発症
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45. 痛みの生理学
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46. 術後の疼痛管理
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48. 緩和ケアとがんの痛みの治療
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49. 麻酔科医と救急医療
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