Brandi L S, Bertolini R, Janni A, Gioia A, Angeletti C A
Department of Surgery, Intensive Care Unit at School of Anesthesiology and Intensive Care, University of Pisa, Italy.
Chest. 1996 Mar;109(3):630-7. doi: 10.1378/chest.109.3.630.
To determine the effect of elective thoracic surgery on energy metabolism and gas exchange and to evaluate whether the 30-degree sitting position would affect these variables.
Prospective, unblinded, controlled study.
Surgical ICU in a university hospital.
Twenty-two adult patients undergoing elective pulmonary resection.
Posture change from supine to 30-degree sitting position.
Oxygen consumption (VO2), carbon dioxide production (VCO2), respiratory quotient (RQ), and energy expenditure (EE) were measured by means of computerized indirect calorimetry before and after surgery. Heart rate and respiratory frequency were measured continuously during gas exchange measurement. Blood gases were analyzed with an automated blood gas analyzer. Preoperatively, altering position did not affect energy metabolism, gas exchange, and cardiopulmonary variables. Postoperatively, the measured EE was 116% of the expected value. Mean EE and VO2 values for each position were higher than the preoperative values for the corresponding postures (p<0.05 for each position), while VCO2 increased only in the supine position (p<0.05). Mean percent increases in EE, VO2, and VCO2 were significantly lower in the 30-degree sitting position than in the supine position (EE: 7.9+/-2.7% vs 14.4+/-2.3%; p<0.001; VO2: 9.0+/-3.0% vs 16.4+/- 2.6%; p<0.001; VCO2: 3.2+/-2.1% vs 6.5+/-1.4%: p<0.05). Arterial oxygen tension and all the physiologic indexes of gas exchange for each position were worse than the preoperative values for the corresponding postures (p<0.05 for each position). Mean arterial pressure, heart rate, and respiratory frequency for each position were higher than the preoperative values for the corresponding postures (p<0.05 for each position). No changes in mean values of these variables occurred between the two positions postoperatively.
The early postoperative period of patients undergoing elective thoracic surgery is characterized by a condition of impaired gas exchange and by a hypermetabolic state. Hypermetabolism can be partly mitigated by assuming the 30-degree sitting position.
确定择期胸外科手术对能量代谢和气体交换的影响,并评估30度坐位是否会影响这些变量。
前瞻性、非盲、对照研究。
大学医院的外科重症监护病房。
22例接受择期肺切除术的成年患者。
体位从仰卧位改为30度坐位。
术前和术后通过计算机化间接测热法测量耗氧量(VO2)、二氧化碳产生量(VCO2)、呼吸商(RQ)和能量消耗(EE)。在气体交换测量期间连续测量心率和呼吸频率。用自动血气分析仪分析血气。术前,改变体位不影响能量代谢、气体交换和心肺变量。术后,测得的EE为预期值的116%。每个体位的平均EE和VO2值均高于相应体位的术前值(每个体位p<0.05),而VCO2仅在仰卧位增加(p<0.05)。30度坐位时EE、VO2和VCO2的平均增加百分比显著低于仰卧位(EE:7.9±2.7%对14.4±2.3%;p<0.001;VO2:9.0±3.0%对16.4±2.6%;p<0.001;VCO2:3.2±2.1%对6.5±1.4%:p<0.05)。每个体位的动脉血氧分压和所有气体交换生理指标均低于相应体位的术前值(每个体位p<0.05)。每个体位的平均动脉压、心率和呼吸频率均高于相应体位的术前值(每个体位p<0.05)。术后两个体位之间这些变量的平均值没有变化。
择期胸外科手术患者术后早期的特点是气体交换受损和高代谢状态。采取30度坐位可部分减轻高代谢状态。
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