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Open Access 01-01-2020 | Gastric Cancer | Original Scientific Report

New Concept Air Conditioning System for the Operating Room to Minimize Patient Cooling and Surgeon Heating: A Historical Control Cohort Study

Authors: Hisashi Usuki, Hiroaki Kitamura, Yasuhisa Ando, Hironobu Suto, Eisuke Asano, Minoru Ohshima, Takayoshi Kishino, Kensuke Kumamoto, Keiichi Okano, Yasuyuki Suzuki

Published in: World Journal of Surgery | Issue 1/2020

Abstract

Background

Intraoperative hypothermia is a common adverse event. For avoiding the complication due to hypothermia, many warming devices and methods have been used in perioperative period. It has been reported that more patients undergoing laparoscopic surgery tend to have hypothermia than with open surgery. To avoid intraoperative hypothermia, many kinds of warming tools have been used. But, it was also reported that some warming methods increased perceptions of distraction and physical demand.

Methods

To achieve both patients’ normothermia and surgeons’ comfort, new air conditioning (AC) system was designed with considering the characteristics of laparoscopic surgery. The temperature of the airflows to the patient and to the surgeons can be adjusted independently in this new system. The new system has two parts. One controls the temperature of the central area over the operation table. The air from this part falls on the patients. The other part is the lateral area beside the operating table; the air from this part falls on the surgeons. The subjects of this study were 160 gastric cancer patients and 316 colorectal cancer patients undergoing laparoscopic surgery. The temperature of the central flow was set 23.5 °C, and the temperature of the lateral flow was set 22 °C just after the anesthesia. The number of timepoints the patient spent in hypothermic state, defined as a temperature cooler by 0.5 °C or more than that at the starting point of surgery, was determined in each patient.

Results

In the results, the rate of hypothermic state in old operation rooms was 23.8% and that in new operation rooms was 2.7% in male gastric cancer patients (p < 0.01). And those were 37.1% in old operation rooms and 0.9% in new operation rooms in female gastric cancer patients (p < 0.01). The rate of hypothermic state in old operation rooms was 30.0% and that in new operation rooms was 9.5% in male colorectal cancer patients (p < 0.01). And those were 41.6% in old operation rooms and 8.9% in new operation rooms in female colorectal cancer patients (p < 0.01). The similar results were showed in the study, which subjects were limited the patients undergoing surgery in 2015 and 2016; which were the last year the old operation rooms were used and the first year the new operation rooms were used.

Conclusions

Thus, the usefulness of the new air conditioning system for achieving both patients’ normothermia and comfort of surgeons could be verified in this study.

Huntington TR, LeMaster CB (1997) Laparoscopic hypothermia: heat loss from insufflation gas flow. Surg Laparosc Endosc 7:153–155CrossRef

Kaynan AM, Winfield HN (2002) Thermostasis during laparoscopic urologic surgery. J Endourol 16:465–470CrossRef

Nduka CC, Puttick M, Coates P et al (2002) Intraperitoneal hypothermia during surgery enhances postoperative tumor growth. Surg Endosc 16:611–615CrossRef

Campbell G, Alderson P, Smith AF et al (2015) Warming of intravenous and irrigation fluids for preventing inadvertent perioperative hypothermia. Cochrane Database Syst Rev. https://doi.org/10.1002/14651858.CD009891.pub2 CrossRefPubMedPubMedCentral

Sellden E, Lindahl SG (1999) Amino acid-induced thermogenesis reduces hypothermia during anesthesia and shortens hospital stay. Anesth Analg 89:1551–1556CrossRef

Umenai T, Nakajima Y, Sessler DI et al (2006) Perioperative amino acid infusion improves recovery and shortens the duration of hospitalization after off-pump coronary artery bypass grafting. Anesth Analg 103:1386–1393CrossRef

Fujita T, Okada N, Kanamori J et al (2017) Thermogenesis induced by amino acid administration prevents intraoperative hypothermia and reduces postoperative infectious complications after thoracoscopic esophagectomy. Dis Esophagus 30:1–7PubMed

Bashirov E, Cetiner S, Emre M et al (2007) A randomized controlled study evaluating the effects of the temperature of insufflated CO₂ on core body temperature and blood gases (an experimental study). Surg Endosc 21:1820–1825CrossRef

Dean M, Ramsay R, Heriot A et al (2017) Warmed, humidified CO₂ insufflation benefits intraoperative core temperature during laparoscopic surgery: a meta-analysis. Asian J Endosc Surg 10:128–136CrossRef

10.

Miller-Leiden S, Lobascio C, Nazaroff WW et al (1996) Effectiveness of in-room air filtration and dilution ventilation for tuberculosis infection control. J Air Waste Manag Assoc (1995) 46:869–882CrossRef

11.

Leslie K, Sessler DI, Bjorksten AR et al (1995) Mild hypothermia alters propofol pharmacokinetics and increases the duration of action of atracurium. Anesth Analg 80:1007–1014PubMed

12.

Hannan EL, Samadashvili Z, Wechsler A et al (2010) The relationship between perioperative temperature and adverse outcomes after off-pump coronary artery bypass graft surgery. J Thorac Cardiovasc Surg 139:1568–1575CrossRef

13.

Schmied H, Kurz A, Sessler DI et al (1996) Mild hypothermia increases blood loss and transfusion requirements during total hip arthroplasty. Lancet 347:289–292CrossRef

14.

Winkler M, Akca O, Birkenberg B et al (2000) Aggressive warming reduces blood loss during hip arthroplasty. Anesth Analg 91:978–984CrossRef

15.

Beilin B, Shavit Y, Razumovsky J et al (1998) Effects of mild perioperative hypothermia on cellular immune responses. Anesthesiology 89:1133–1140CrossRef

16.

Ben-Eliyahu S, Shakhar G, Rosenne E et al (1999) Hypothermia in barbiturate-anesthetized rats suppresses natural killer cell activity and compromises resistance to tumor metastasis: a role for adrenergic mechanisms. Anesthesiology 91:732–740CrossRef

17.

Kurz A, Sessler DI, Lenhardt R (1996) Perioperative normothermia to reduce the incidence of surgical-wound infection and shorten hospitalization. Study of wound infection and temperature group. N Engl J Med 334:1209–1215CrossRef

18.

Kurz A (2008) Thermal care in the perioperative period. Best Pract Res Clin Anaesthesiol 22:39–62CrossRef

19.

Berrios-Torres SI, Umscheid CA, Bratzler DW et al (2017) Centers for disease control and prevention guideline for the prevention of surgical site infection, 2017. JAMA Surg 152:784–791CrossRef

20.

Wong PF, Kumar S, Bohra A et al (2007) Randomized clinical trial of perioperative systemic warming in major elective abdominal surgery. Br J Surg 94:421–426CrossRef

21.

Erdling A, Johansson A (2015) Core temperature—the intraoperative difference between esophageal versus nasopharyngeal temperatures and the impact of prewarming, age, and weight: a randomized clinical trial. AANA J 83:99–105PubMed

22.

Brandes IF, Muller C, Perl T et al (2013) Efficacy of a novel warming blanket: prospective randomized trial. Der Anaesthesist 62:137–142CrossRef

23.

Madrid E, Urrutia G, Roque i Figuls M et al (2016) Active body surface warming systems for preventing complications caused by inadvertent perioperative hypothermia in adults. Cochrane Database Syst Rev 4:Cd009016PubMed

24.

Su SF, Nieh HC (2018) Efficacy of forced-air warming for preventing perioperative hypothermia and related complications in patients undergoing laparoscopic surgery: a randomized controlled trial. Int J Nurs Pract 24:e12660CrossRef

25.

Berg RJ, Inaba K, Sullivan M et al (2015) The impact of heat stress on operative performance and cognitive function during simulated laparoscopic operative tasks. Surgery 157:87–95CrossRef

26.

National Collaborating Centre for N, Supportive C, National Institute for Health and Clinical Excellence: Guidance (2008). In: The management of inadvertent perioperative hypothermia in adults. Royal College of Nursing (UK) National Collaborating Centre for Nursing and Supportive Care, London

27.

Usuki H, Koizumi M (2017) The body temperature in laparoscopic surgery and the countermeasure in the construction of operative center. Jpn J Oper Med 38:100-106

28.

Usuki H, Asano E, Oshima M et al (2018) Operating room: which temperature is comfortable for both patients and surgeons? Thermol Int 28:3

Title: New Concept Air Conditioning System for the Operating Room to Minimize Patient Cooling and Surgeon Heating: A Historical Control Cohort Study
Authors: Hisashi Usuki
Hiroaki Kitamura
Yasuhisa Ando
Hironobu Suto
Eisuke Asano
Minoru Ohshima
Takayoshi Kishino
Kensuke Kumamoto
Keiichi Okano
Yasuyuki Suzuki
Publication date: 01-01-2020
Publisher: Springer International Publishing
Keywords: Gastric Cancer
Gastric Cancer
Published in: World Journal of Surgery / Issue 1/2020
Print ISSN: 0364-2313
Electronic ISSN: 1432-2323
DOI: https://doi.org/10.1007/s00268-019-05203-8

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

New Concept Air Conditioning System for the Operating Room to Minimize Patient Cooling and Surgeon Heating: A Historical Control Cohort Study

Abstract

Background

Methods

Results

Conclusions

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusions

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