体重指数对急性呼吸窘迫综合征的影响。

Davide Chiumello, Davide Chiumello, A. Colombo, I. Algieri, C. Mietto, E. Carlesso, F. Crimella, M. Cressoni, Michael Quintel, L. Gattinoni, L. Gattinoni
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At 5 and 45 cm H2O of PEEP, two lung computed tomography scans were performed.\n\n\nRESULTS\nPatients were divided as follows according to BMI: normal weight (BMI≤25 kg m(-2)), overweight (BMI between 25 and 30 kg m(-2)), and obese (BMI>30 kg m(-2)). Obese, overweight, and normal-weight groups presented a similar lung elastance (median [interquartile range], respectively: 17.7 [14.2-24.8], 20.9 [16.1-30.2], and 20.5 [15.2-23.6] cm H2O litre(-1) at 5 cm H2O of PEEP and 19.3 [15.5-26.3], 21.1 [17.4-29.2], and 17.1 [13.4-20.4] cm H2O litre(-1) at 15 cm H2O of PEEP) and chest elastance (respectively: 4.9 [3.1-8.8], 5.9 [3.8-8.7], and 7.8 [3.9-9.8] cm H2O litre(-1) at 5 cm H2O of PEEP and 6.5 [4.5-9.6], 6.6 [4.2-9.2], and 4.9 [2.4-7.6] cm H2O litre(-1) at 15 cm H2O of PEEP). Lung recruitability was not affected by the body weight (15.6 [6.3-23.4], 15.7 [9.8-22.2], and 11.3 [6.2-15.6]% for normal-weight, overweight, and obese groups, respectively). 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引用次数: 35

摘要

背景:在健康受试者中,肥胖与功能剩余容量的大幅减少以及肺和胸壁弹性的加强有关,这可促进肺泡塌陷和低氧血症。同样,患有急性呼吸窘迫综合征(ARDS)的肥胖患者可能比正常体重的患者出现更大的呼吸力学紊乱。方法纳入101例ARDS患者。在5和15 cm H2O的PEEP下,以预测体重的6-8 ml kg(-1)的潮气量测量分割呼吸力学和气体交换。在5和45 cm H2O PEEP时,进行两次肺部计算机断层扫描。结果按BMI分为正常体重(BMI≤25 kg m(-2))、超重(BMI在25 ~ 30 kg m(-2)之间)、肥胖(BMI>30 kg m(-2))。肥胖、超重和正常体重组肺弹性(中位数[四分位数范围]分别为:呼气末正压5 cm H2O时17.7[14.2-24.8]、20.9[16.1-30.2]和20.5 [15.2-23.6]cm H2O升(-1),呼气末正压15 cm H2O时19.3[15.5-26.3]、21.1[17.4-29.2]和17.1 [13.4-20.4]cm H2O升(-1))和胸弹性(分别为:4.9[3.1-8.8], 5.9[3.8-8.7]和7.8 [3.9-9.8]cm H2O升(-1)在5 cm H2O的PEEP和6.5[4.5-9.6],6.6[4.2-9.2]和4.9 [2.4-7.6]cm H2O升(-1)在15 cm H2O的PEEP)。肺再生能力不受体重的影响(正常体重、超重和肥胖组分别为15.6%[6.3-23.4]、15.7%[9.8-22.2]和11.3[6.2-15.6]%)。与正常体重组相比,肥胖组肺气量显著降低,而总叠加压显著升高(分别为1148[680-1815]对827 [686-1213]ml和17.4[15.8-19.3]对19.3 [18.6-21.7]cm H2O)。结论急性呼吸窘迫综合征患者胸壁弹性和肺功能不明显增高。
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Effect of body mass index in acute respiratory distress syndrome.
BACKGROUND Obesity is associated in healthy subjects with a great reduction in functional residual capacity and with a stiffening of lung and chest wall elastance, which promote alveolar collapse and hypoxaemia. Likewise, obese patients with acute respiratory distress syndrome (ARDS) could present greater derangements of respiratory mechanics than patients of normal weight. METHODS One hundred and one ARDS patients were enrolled. Partitioned respiratory mechanics and gas exchange were measured at 5 and 15 cm H2O of PEEP with a tidal volume of 6-8 ml kg(-1) of predicted body weight. At 5 and 45 cm H2O of PEEP, two lung computed tomography scans were performed. RESULTS Patients were divided as follows according to BMI: normal weight (BMI≤25 kg m(-2)), overweight (BMI between 25 and 30 kg m(-2)), and obese (BMI>30 kg m(-2)). Obese, overweight, and normal-weight groups presented a similar lung elastance (median [interquartile range], respectively: 17.7 [14.2-24.8], 20.9 [16.1-30.2], and 20.5 [15.2-23.6] cm H2O litre(-1) at 5 cm H2O of PEEP and 19.3 [15.5-26.3], 21.1 [17.4-29.2], and 17.1 [13.4-20.4] cm H2O litre(-1) at 15 cm H2O of PEEP) and chest elastance (respectively: 4.9 [3.1-8.8], 5.9 [3.8-8.7], and 7.8 [3.9-9.8] cm H2O litre(-1) at 5 cm H2O of PEEP and 6.5 [4.5-9.6], 6.6 [4.2-9.2], and 4.9 [2.4-7.6] cm H2O litre(-1) at 15 cm H2O of PEEP). Lung recruitability was not affected by the body weight (15.6 [6.3-23.4], 15.7 [9.8-22.2], and 11.3 [6.2-15.6]% for normal-weight, overweight, and obese groups, respectively). Lung gas volume was significantly lower whereas total superimposed pressure was significantly higher in the obese compared with the normal-weight group (1148 [680-1815] vs 827 [686-1213] ml and 17.4 [15.8-19.3] vs 19.3 [18.6-21.7] cm H2O, respectively). CONCLUSIONS Obese ARDS patients do not present higher chest wall elastance and lung recruitability.
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