HypothesisPatients undergoing warmed, humidified carbon dioxide (CO2) insufflation for laparoscopic cholecystectomy will (1) maintain a warmer intraoperative core temperature, (2) have their surgeon experience less fogging of the camera lens, and (3) have less postoperative pain than patients undergoing laparoscopic cholecystectomy with standard CO2insufflation.DesignA double-blind, prospective, randomized study comparing patients undergoing laparoscopic cholecystectomy with standard CO2insufflation vs those receiving warmed, humidified CO2(Insuflow Filter Heater Hydrator; Lexion Medical, St Paul, Minn) was performed. Main variables included patient core temperature, postoperative pain, analgesic requirements, and camera lens fogging.ResultsOne hundred one blinded patients (69 women, 32 men) undergoing laparoscopic cholecystectomy were randomized into 2 groups—52 receiving standard CO2insufflation (group A) and 49 receiving warmed, humidified CO2(group B). Mean patient intraoperative core temperature change (group A decreased by 0.03°C, group B increased by 0.29°C, P= .01) and mean abdominal pain (Likert scale, 0-10) at 14 days postoperatively (group A, 1.0; group B, 0.3; P= .02) were different. Other variables (camera lens fogging, early postoperative pain, narcotic requirements, recovery room stay, and return to normal activities) between groups were similar.ConclusionWhile patients undergoing laparoscopic cholecystectomy with warmed, humidified CO2had several advantages that were statistically significant, no major clinically relevant differences between groups A and B were evident.Achieving early hospital dismissal, prompt return to full recovery, and minimization of patient discomfort remain laudable goals following any surgical intervention. Rapid acceptance of newer minimally invasive techniques, perioperative instrumentation, and pharmaceutical options has become commonplace even though objective data supporting such usage is often lacking. Surgeons should use beneficial technology in a cost-effective manner, but they should discard pharmaceutical hype and resist industry and patient pressure if "new and improved" is not truly better. While patients undergoing laparoscopic cholecystectomy (LC) are dismissed routinely within hours of having the procedure and many return to work in short order, any medication, technique, or technology that potentially benefits some 700 000 Americans per year deserves careful investigation.The current approach in the United States for most laparoscopic procedures uses carbon dioxide (CO2) gas at a temperature of 21°C and 0% relative humidity to insufflate the peritoneal cavity for visualization. Recent studies suggest warming (to 35°C) and humidifying (95%) the CO2is beneficial in that it may cause (1) less patient hypothermia, (2) less fogging of the camera lens, (3) less pain for the patient, and (4) lesser doses of narcotics.Earlier dismissal and potentially lower overall cost has been implied.Lexion Medical (St Paul, Minn) has produced a novel adaptation to allow warmed, humidified CO2to be used in place of standard (room temperature, nonhumidified) CO2. The device is called the Insuflow Filter Heater Hydrator, which was Food and Drug Administration approved in January 1998. We elected to study the product in a double-blinded, prospective, randomized trial.METHODSA double-blind, prospective, randomized study comparing patients undergoing LC with and without warmed, humidified CO2was proposed to and approved by our institutional review board. All general surgeons at the Mayo Clinic, Rochester, Minn, agreed to participate. The study was open to all patients aged 18 through 100 years who gave written consent. Such patients were randomized to group A (standard CO2) or group B (warmed, humidified CO2) using a computer model initiated by the surgical scrub nurse at the time of anesthetic induction. Only 1 surgical scrub nurse per procedure was privy to which method of CO2insufflation was being used, and they collected none of the data. The Insuflow device was attached to our insufflation equipment in all of the patients but was only activated by the single scrub nurse in those patients randomized to group B. The patients, surgeons, surgical trainees, students, operative and hospital floor nurses, and study coordinator were masked. Masked anesthesiologists used an external warming device at their discretion. Patients converted intraoperatively to open cholecystectomy or those undergoing a concomitant procedure were excluded from the study. The study coordinator accumulated all data and contacted patients postoperatively by telephone. Main variables studied during hospitalization included intraoperative patient core temperature (via esophageal probe), camera lens fogging (subjective evaluation by the surgeon, on a 1- [severe fogging] to 5-point scale [no fogging]), early postoperative pain rating (11-point Likert scale, 0 [no pain] through 10 [worst pain]), and medication usage. Analgesic medication usage was converted to morphine equivalents (Table 1)to allow comparison of not only narcotic vs nonnarcotic medications, but also oral and parenteral variations. Per standard Mayo Clinic nursing protocol, all patients were asked to use the same 11-point Likert scale to rate abdominal, shoulder, and other pain after LC. Patients were contacted 2 weeks postoperatively to assess their ability to return to normal activities, their pain rating (Likert scale, 0-10), and usage of pain medication.Table 1. Mean Equivalent Daily Dose (MEDD) Conversion TableMedication (Type of Administration)MEDD Factor*Codeine (orally)0.05Meperidine (IV)0.10Meperidine (orally)0.05Fentanyl (IV)0.10Morphine (IV)1.00Oxycodone (orally)0.83Propoxyphene (orally)0.08Abbreviation: IV, intravenously.*Morphine equivalents = dose (expressed in milligrams or micrograms) × MEDD factor (adapted from Charrois et al6and Pereira et al7).The study sample was calculated to be at least 100 subjects, with approximately 50 in each arm. A sample this size provides 80% power (based on historical data at the Mayo Clinic) to detect differences in means of continuous variables at greater than or equal to 0.57 SD. This implies that we could reasonably detect differences of 0.31°C in the mean intraoperative core temperature between groups A and B and of 0.35°C in the mean core temperature change during the operation; a difference of 14 minutes in the mean postanesthesia care unit (PACU) time; and a difference in means of 1.3–Likert points of perceived pain. Patient accrual occurred from November 1, 2001, through June 30, 2002.Statistical analyses between groups A and B were performed for demographic and preoperative, intraoperative, and postoperative data. Subset analysis of groups A and B based on age (<65 years vs 65 year) was similarly performed. Variables that were continuous in nature were compared using 2-sample ttests if the data were normally distributed; if not, the Wilcoxon rank sum tests were used. Discrete, nominal data were analyzed using χ2tests, while discrete, ordinal data were compared using Mantel-Haenszel χ2tests. All statistical tests were 2-sided, and the threshold of significance was set at P<.05.RESULTSOne hundred seventeen patients gave written consent, were randomized, and underwent LC. Sixteen patients were excluded from further analysis (11 were converted to open cholecystectomy, 3 underwent an additional operation that increased the duration of the procedure [umbilical hernia repair, 2 patients; extensive lysis of adhesions, 1 patient], and 2 patients had the Insuflow device removed during the operation for technical reasons). This allowed 101 blinded patients (69 women, 32 men) completing LC to be randomized into 2 groups: 52 receiving standard CO2insufflation (group A) and 49 receiving warmed, humidified CO2(group B). Mean patient age was 52 years (age range, 19-86 years). The groups were comparable demographically (Table 2). Hospital-generated data were complete on all 101 patients, but only 78 patients were able to be reached for telephone data acquisition 2 weeks postoperatively. Operative data between groups were similar (Table 3). A statistical difference between groups was seen with 1 of 6 temperature assessments (Table 4), 2 of 18 pain assessments (shoulder pain on entry to the PACU: group A, 0.8; group B, 0.2; P= .05; abdominal pain at 14 days: group A, 1.0; group B, 0.3; P= .02), and morphine equivalent usage at 14 days (Table 5). While data were similar between groups, sufficient differences in a few patients generated statistical differences between groups A and B (Figure 1). All other variables (core temperature while in the recovery room, number of times the camera lens needed to be cleaned intraoperatively, pain medications, hospital stay, time to return to baseline activity level, and others) were not statistically different. Overall mean (SD) duration in the PACU (group A, 82  minutes; group B, 74  minutes; P= .14) and overall mean (SD) hospital stay (group A, 29  hours; group B, 31 [22 hours]; P= .55) were similar. The percentage of patients having returned to normal activities at 2 weeks postoperatively in groups A and B were similar (group A, 44%; group B, 56%; P= .17). Subset analysis of all patients younger than 65 years (group A, 37; group B, 33) found no difference between the groups except for statistically significant differences of the following: less camera lens fogging (mean number of lens cleanings required, 0.59 vs 1.22; P= .05), less shoulder pain on arrival to the PACU (Likert score, 0.0 vs 1.2; P= .02), shorter mean stay within the PACU (66 vs 83 minutes, P= .01), and less abdominal pain 2 weeks postoperatively (Likert score, 0.2 vs 1.1; P= .02) for group B. Patients aged 65 years or older harbored 1 difference on subset analysis: intraoperative patient mean core temperature change was 0.47°C warmer for group B (P= 0.02).Table 2. Patient DemographicsDemographic VariableGroup A (n = 52)Group B (n = 49)PValueAge, mean (range), y50 (19-79)55 (24-86).20No. of patients aged <65 y3733.68Sex, M/F20/3212/37.13BMI, mean (range)29.7 (21-46)29.5 (17-50).44Patients with CAD, COPD, HTN, or MI2726>.99Abbreviations: BMI, body mass index (calculated as weight in kilograms divided by the square of height in meters); CAD, coronary artery disease; COPD, chronic obstructive pulmonary disease; HTN, hypertension; MI, history of myocardial infarction.Table 3. Operative Data*Operative VariableGroup AGroup BPValueUse of Bair Hugger,† No. of patients3432>.99Operative time, mean (SD) [median], min91.2 (22.3) 91.2 (22.7) >.99Episodes of bile spillage18 (35)10 (20).13Cases of acutely inflamed gallbladder14 (27)8 (16).23Camera lens foggingSevere01 (2)Moderate2 (4)4 (8)Minimal5 (10)7 (14).83Rare20 (43)14 (29)None20 (43)23 (47)Times camera lens cleaned, mean (median), No.1.6 (3.2)1.1 (2.1).37Amount of CO2used, mean (median), L67 (79)63 (62).20Abbreviation: CO2, carbon dioxide.*Data are given as the number (percentage) of patients unless otherwise indicated.†A Bair Hugger is an external warming device made by Augustine Medical, Eden Prairie, Minn.Table 4. Patient Core Temperature*Core Temperature, °CGroup AGroup BPValueMean intraoperative36.0 (0.6)36.0 (0.6).61Change in the OR−0.03 (0.3)+0.29 (0.6).01Entering PACU36.0 (0.6)35.9 (0.6).28Hour on floor1st36.3 (0.6)36.3 (0.7).524th36.7 (0.5)36.6 (0.5).34Change, PACU to 4th hour0.6 (0.7)0.7 (0.6).71Abbreviations: OR, operating room; PACU, postanesthesia care unit.*Data are given as the mean (SD).Table 5. Pain Medication*Total Morphine Equivalents†Group AGroup BPValuePACU2.6 (5.2)2.8 (5.8).941st Hour2.5 (4.5)2.4 (4.4).804th Hour2.7 (4.3)3.5 (5.5).33Post-PACU26.7 (35.3)20.4 (26.4).52PACU and post-PACU29.2 (35.4)23.2 (27.1).532 Weeks postoperatively0.8 (2.8)0.0.02Abbreviation: PACU, postanesthesia care unit.*Data are given as the mean (SD) equivalent daily dose.†See asterisk footnote in Table 1 for explanation of morphine equivalents.Abdominal pain 2 weeks postoperatively.COMMENTThe statistically significant findings in this double-blinded, prospective, randomized study of patients undergoing LC with warmed, humidified CO2vs standard CO2were 4-fold: patients were warmer intraoperatively using the Insuflow device, they harbored slightly less shoulder pain on PACU entry, they had less abdominal pain at 2 weeks postoperatively, and they used less pain medication at 2 weeks postoperatively. None of the other main variables studied showed a statistically significant difference between groups A and B. Other studies have similarly attempted to quantitate the benefits, or lack thereof, for using warmed, humidified CO2insufflation.Warming the CO2insufflant, without adding humidity, seems to have little effect on the patient's core temperature and may actually cause more pain. Testing warmed vs standard CO2insufflation, Saad et al(using CO2at 37°C vs 21°C) and Nelskyla et al(using CO2at 37°C vs 24°C) found no difference in patients' core temperatures with small, prospective studies involving LC (n = 20) and laparoscopic hysterectomy (n = 37), respectively. Interestingly, Wills et al(using CO2at 37°C vs 21°C) found more pain in patients undergoing laparoscopic fundoplication (n = 21) with heated CO2than for standard CO2(n = 19), but they noted core body temperatures increased 0.2°C with heated gas. Slim et alfound in 100 randomized patients undergoing laparoscopic upper gastrointestinal tract procedures that purely warming the CO2increased pain and had little effect on patient core temperature. In a rat model, Hazebroek et allooked at the physiologic and actual peritoneal effects of 120 minutes of CO2insufflation of cold, warm, dry, humidified, and gasless combinations. Heat with humidity prevented hypothermia. Heat without humidity did not. Histologic analysis of the rat peritoneum showed definite changes in any group with CO2insufflation compared with the gasless method. Ottfound standard CO2insufflation (21°C) without humidity (and without external warming devices) will decrease the patient's core temperature by 0.3°C for each 50 L of CO2used. With 65% of all of our study patients having an external warming device applied in the operating room, we found no such drop in patient core temperature.Combining humidity (95%) and heat (36°C), as the Insuflow device does, has been analyzed in numerous small studies. In a prospective, randomized, controlled, multicenter study of laparoscopic gynecologic procedures (n = 72), Ott et alsuggested reduced hypothermia, shortened length of recovery room stay, and reduced postoperative pain occurred in patients receiving warmed, humidified CO2insufflation. Nguyen et alfound core temperatures increased by 0.4°C with Insuflow use (vs no core temperature change with standard CO2) in patients undergoing laparoscopic Nissen fundoplication. Neudecker's literature search to support the European Association for Endoscopic Surgery's position on practice guidelines involving pneumoperitoneum for laparoscopic surgery found that "The clinical benefits of warmed, humidified insufflation gas are minor and contradictory."(p1121)In 40 patients undergoing thoracoscopic procedures randomized to standard CO2vs warmed, humidified CO2, pain was less at 6 hours, and at 1, 2, 3, and 14 days after operation for the warmed, humidified group.While no difference in respiratory complications was seen, these investigators felt the Insuflow device was useful.Core body and intra-abdominal patient temperatures do seem to be maintained better with the Insuflow device. The clinical significance of a mean benefit of 0.32°C (P= .01) as seen in our study is unclear, and statistical significance does not imply clinical importance. One might extrapolate that elderly patients, or patients tending toward hypothermia undergoing longer laparoscopic procedures might benefit from warmed, humidified CO2insufflation.Although some studies have shown less patient pain using warmed, humidified CO2for laparoscopic procedures, we remain cautious about a small, but statistically significant difference (P= .02) in patients who reported abdominal pain at 14 days after the operation in our study. Pain perception was not different at other times of assessment. A mean difference of 0.77 (7.7%) between groups 2 weeks postoperatively using a 0- to 10-point Likert scale is small, and its clinical relevance is uncertain. The use of similar amounts of narcotic and nonnarcotic analgesics by both groups was noted, except for follow-up at day 14. Perhaps the benefit lies in just a handful of patients where peritoneal irritation is more sensitive or the immune system interactions of cytokines are more crucial (Figure 1).We hypothesized that using warmed, humidified CO2would decrease camera lens fogging. We did not find this to be true. While Almeidasuggested there is less camera lens fogging and better visualization with use of the Insuflow device, Nguyen et alfound no such difference in a randomized trial of 20 patients undergoing laparoscopic Nissen fundoplication. Indeed, our larger, randomized trial of 101 patients undergoing LC seems to mirror Nguyen's findings: we both found patient core temperatures were greater (0.3-0.4°C) with warmed, humidified CO2, but early pain, camera lens fogging, and narcotic requirements were equivalent to those who received standard CO2insufflation.Patients returned to baseline activities in similar fashion in groups A and B. The hospital stay was similar, as were the recovery room stay, and narcotic usage. The cost of warming and humidifying CO2with the Insuflow device is less than $100, and if thermoregulation is vital and an all-out attempt at minimizing patient discomfort is desired, the Insuflow device may have a useful clinical role. However, better and larger randomized, blinded trials should be undertaken before the clinical utility of such a product can be recommended globally.NTNguyenGFurduiNWFlemingEffect of heated and humidified carbon dioxide gas on core temperature and postoperative pain: a randomized trial.Surg Endosc.2002;16:1050-1054.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12165821&dopt=AbstractWGMoutonMNaefJRBessellKTOttenHEWagnerGJMaddernA randomized controlled trial to determine the effect of humidified carbon dioxide (CO2) insufflation on postoperative pain following thoracoscopic procedures.Surg Endosc.2001;15:579-581.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11591944&dopt=AbstractODAlmeida JrAwake microlaparoscopy with the Insuflow device.JSLS.2002;6:199-201.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12166755&dopt=AbstractDEOttHReichBLoveReduction of laparoscopic-induced hypothermia, postoperative pain and recovery room length of stay by pre-conditioning gas with the Insuflow device: a prospective randomized controlled multi-center study.JSLS.1998;2:321-329.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10036122&dopt=AbstractLDemcoEffect of heating and humidifying gas on patients undergoing awake laparoscopy.J Am Assoc Gynecol Laparosc.2001;8:247-251.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11342732&dopt=AbstractTCharroisMALindsayEBrueraUtilizing a morphine equivalent daily dose for comparison of opioid use in two palliative care units in Canada [abstract].J Palliat Care.1998;14:117.JPereiraPLawlorAViganoEquianalgesic dose ratios for opioids: a critical review and proposals for long-term dosing.J Pain Symptom Manage.2001;22:672-687.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11495714&dopt=AbstractSSaadIMinorTMohriMNagelschmidtThe clinical impact of warmed insufflation carbon dioxide gas for laparoscopic cholecystectomy.Surg Endosc.2000;14:787-790.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11000355&dopt=AbstractKNelskylaAYli-HankalaJSjobergIKorhonenKKorttilaWarming of insufflation gas during laparoscopic hysterectomy: effect on body temperature and the autonomic nervous system.Acta Anaesthesiol Scand.1999;43:974-978.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10593458&dopt=AbstractVLWillsDRHuntAArmstrongA randomized controlled trial assessing the effect of heated carbon dioxide for insufflation on pain and recovery after laparoscopic fundoplication.Surg Endosc.2001;15:166-170.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11285961&dopt=AbstractKSlimJBousquetFKwiatkowskiGLescureDPezetJChipponiEffect of CO2gas warming on pain after laparoscopic surgery: a randomized double-blind controlled trial.Surg Endosc.1999;13:1110-1114.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10556449&dopt=AbstractEJHazebroekMASchrevePVisserImpact of temperature and humidity of carbon dioxide pneumoperitoneum on body temperature and peritoneal morphology.J Laparoendosc Adv Surg Tech A.2002;12:355-364.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12470410&dopt=AbstractDEOttLaparoscopic hypothermia.J Laparoendosc Surg.1991;1:127-131.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=1836397&dopt=AbstractJNeudeckerSSauerlandENeugebauerThe European Association for Endoscopic Surgery clinical practice guideline on the pneumoperitoneum for laparoscopic surgery.Surg Endosc.2002;16:1121-1143.http://www.ncbi.nlm.nih.gov/htbin-post/Entrez/query?db=m&form=6&Dopt=r&uid=entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12015619&dopt=AbstractDavid W. Easter, MD, La Jolla, Calif:Congratulations go to the authors for attempting to shed some scientific light on the tangled subject of new devices in laparoscopic surgery. Dr Farley and colleagues accurately point out that since many, many laparoscopic procedures occur yearly in the United States, even small differences in outcomes may produce a large population-based benefit, for example, lower healthcare costs.Adding to the mixed literature on this subject, the authors found statistically significant differences in the intraoperative change of core body temperature, but only by 0.3°C and, less subjective pain, but only by 0.7 points on an 11-point scale, only for abdominal pain, and only at 2 weeks postoperatively. Notably, it appears from their well-constructed manuscript that at least 43 variables were analyzed for differences between groups. At a Pvalue of .05 significance, and the real possibility of a type I or II error, as the authors point out, we will not be surprised to find 1 or 2 false-positive results. The authors correctly point this possibility out when explaining the differences in pain medication usage at the 2-week interval. This difference was only 0.8 morphine equivalence units, and only at the last of 6 time points evaluated. Furthermore, of the 3 types of pain evaluated at 6 different time points, only the abdominal pain, not shoulder or other pain types, was measurably different.As for patient temperature measurements, only 1 of 6 measurements was different between groups, that is, only the intraoperative change in core temperatures. It appears that there is no real clinical value from this device in keeping the laparoscope clean, that is, fogging, or other measured variables.My questions relate to the clinical utility of this device given the authors' findings.1.Was there any difference in measured variables if you sort by the use of patient warming devices, for example, the Bair Hugger? Sixty-five percent of the patients in each group received the Bair Huggers at the discretion of the many anesthesiologists. My suspicion is that this was a most important covariable.2.What is the incremental additional cost of using this device? It looks like the device is the one major additional cost–what is the differential cost in using this device?3.What difference, if any, exists between the device-delivered gases at the unit itself and the patient-received gas at the port site. Is it still 95% and 95°C at the entrance to the abdomen?4.Did the authors learn anything from the 2 technical failures that they reported?5.Were there any infections found in your patients, and if so, how many in each group?6.Finally, regarding the ultimate utility of this device, are you recommending that we prescribe 2 fewer pain pills to our patients at discharge following the heat-humidified gas during LC? If not, I propose that the statistically significant differences are not clinically relevant.In your next studies, you may want to return to an animal model using more extreme study conditions with more strictly controlled variables.Dr Farley:Sorting the patients out by the Bair Hugger, again like with many others, is fraught with the hazards of subset analysis, but we did not see any difference between the two. The cost of the tubing is less than $100. The temperature within the tubing is consistent, at least from what I understand, its 95% humidity at the source and the actual water source is close to the abdominal wall so there is little change and the temperature is, indeed, 35°C to 36°C. We placed the device in each one of the 101 patients, but it was only turned on in 49 of them (group B). In 2 instances (group A), the connection did not fit well and the surgeons elected not to reconnect the device.We had 1 superficial wound infection in each group. Since the clinical relevance remains to be proven, I would base my analgesic treatment on patient pain, not on whether they did or did not use this device.While we have not studied the Insuflow in an animal model, we are doing a prospective randomized double-blind study with laparoscopic ventral hernia repair. This longer operation may show more or less benefit and we look forward to study completion.Raymond J. Joehl, MD, Chicago, Ill:Did you exclude patients with acute cholecystitis?Dr Farley:No.Dr Joehl:Or, if you did not exclude them preoperatively, how many patients were found to have acute cholecystitis or even gangrene? The second question relates to the 7 patients converted to open cholecystectomy. Did you exclude those patients from the analysis postoperatively?Dr Farley:Yes.Dr Joehl:The next group of questions relate to anesthesia technique. Whenever we talk about pain in the postoperative period, especially the immediate postoperative period, we need to consider techniques and medications used by anesthesiologists. At the Mayo Clinic is there an ambulatory anesthesia program that everyone follows in which you avoid intravenous narcotics and use intravenous NSAIDs [nonsteroidal anti-inflammatory drugs] to control pain in the recovery room? Did all surgeons use bupivicaine to infiltrate port sites?Dr Farley:First, there were patients in the study who had acute cholecystitis and they were not excluded—14 in group A and 8 in group B. The 4 conversions in group A and the 7 conversions in group B were eliminated from the study. We do not specifically have an ambulatory program and the anesthesiologists do have full autonomy. As I tried to allude to with a million different combinations of people coming and going in our institution, the variation is significant and it is certainly a warranted criticism of this paper. Port site infiltration is left up to each surgeon.Thomas R. Huntington, MD, Boise, Idaho:You implied that there is a 0.30°C temperature drop intraoperatively due to heating and humidifying the gas flowing through the abdomen. The thermodynamic equations for this are well worked out, fundamental, and they have been published in the surgical literature. Basically, it takes 1 kilocalorie to heat and humidify 36 L of CO2. Specific heat of the human body is 57 calories per degree of Celsius. When you run through that, it takes about 700 L to change the temperature of the human body one third of a degree. Your leak, I believe you said was 67 L. Laws of themodynamics state then that you can account for a 0.03°C drop. How do you account for this discrepancy?Dr Farley:I do not profess to be an expert in thermodynamics, but my understanding of the surgical literature, and Dr Ott has probably done more work on this than anyone, shows that for every 50 L of room temperature air, the patient's body will drop by 0.30°C.Dr Huntington:Dr Ott's study compared breast biopsy and arthroscopy to laparoscopy. That study was in a premiere issue of one of the laparoscopic journals. It would not pass peer review in this present day and age.His calculations or his results are thermodynamically impossible. You cannot cool the human body to that degree with the gas flows he is discussing. That study is no longer relevant. The thermodynamics of this, as I said, are fundamental; they are simple. They have well quantified the heat of vaporization, the thermal compacitants of CO2. These numbers do not lie. We cannot change the laws of thermodynamics by measuring temperature drops in the operating room. This is a trivial contribution to overall temperature changes in human bodies.Dr Farley:Thank you.Michael Schmidt, MD, Indianapolis, Ind:A quick question: Was there a difference between the groups in the number of gallbladders where there was bile spillage, and correspondingly, in terms of the amount of irrigation fluid and whether or not antibiotics were used in irrigation fluid?Dr Farley:The bile spillage in both groups was similar; for group A there was 18 (35%) and for group B there was 10 (20%) (P= .13).James G. Tyburski, MD, Detroit, Mich:Was there a difference in the amount of CO2used in the dry vs the warm because I would see the temperature change possibly being evaporation loss if there was a bad leak. In other words, the moisture in the abdomen being evaporated off the bowels causing evaporative heat loss, which could be thermodynamically significant.Dr Farley:There was not. The loss for group A was 67 L and the loss for group B was 63 L on average. There was a Pvalue of .20.Basil A. Pruitt, Jr, MD, San Antonio, Tex:First, since the major route of heat loss from the human body is radiation, how did you control for that and maintain that constant in both hospitals and in all operating rooms? Second, does heating the gas make CO2more soluble? If it does, did you follow up on pH and did you observe a significant pH change in these patients?Dr Farley:We did not follow up on the pH change. The room temperature in both hospitals is theoretically the same but we did not measure each room.John C. Hendricks, MD, Temple, Tex:Just an observation, nice clean study David. Back when we first started doing these some 12 to 13 years ago, I noticed that when you evacuate the air through the ports, it comes out like a blast furnace and when we do open procedures and my students or residents are using the electrocautery, I will have them, to illustrate the temperatures that are generated locally, I will have them touch that tissue that you have just burned to see what kind of heat you are actually developing in those tissues and I suspect that some of these patients have a lot of postoperative pain because the air that is super heated within the abdominal cavity is not evacuated sufficiently and they get sort of a first-degree burn in the peritoneum. The patients where you are constantly are attentive to that evacuation of that super-heated air; a lot of our patients, maybe 20%, come back and say they have no pain at all which is kind of surprising since they have 3 or 4 stab wounds, but a certain percentage return and I have never measured the intra-abdominal temperature, but I have always been tempted to do so to see what kind of temperatures we were generating. That is probably more important as far as postoperative pain goes than the core temperatures. We cannot discuss the thermodynamics of it.Dr Farley:We did not measure the intra-abdominal temperature.Accepted for publication March 9, 2004.This paper was presented at the 111th Meeting of the Scientific Session of the Western Surgical Association; November 12, 2003; Tucson, Ariz; and is published after peer review and revision. The discussions that follow this article are based on the originally submitted manuscript and not the revised manuscript.Lexion Medical provided the Insuflow devices for this study.Correspondence: David R. Farley, MD, Department of Surgery, Mayo Clinic, 200 First St SW, Rochester, MN 55905.
JAMA Surgery – American Medical Association
Published: Jul 1, 2004