Bursten S L, Federighi D A, Parsons P, Harris W E, Abraham E, Moore E E, Moore F A, Bianco J A, Singer J W, Repine J E
Division of Lipid Biology, Cell Therapeutics, Inc., Seattle, WA 98119, USA.
Crit Care Med. 1996 Jul;24(7):1129-36. doi: 10.1097/00003246-199607000-00011.
No means exist for predicting the acute respiratory distress syndrome (ARDS), which complicates sepsis, trauma, and a variety of clinical disorders. Because activation of phospholipid-signaling pathways involving the acyl chains oleate and linoleate may initiate and amplify the inflammatory response, and thereby lead to the development of ARDS, we examined whether serum concentrations of these bioactive lipids increase and are predictive of ARDS in at-risk patients.
Part I: A prospective, single-blind trial. Part II: A prospective, randomized, double-blind trial.
General intensive therapy units in five university teaching hospitals.
Part I: Thirty-nine healthy control patients were studied to determine normal distribution of serum acyl values, followed by 30 patients admitted with onset of sepsis, trauma, or development of ARDS (within 24 hrs of admission) over a 1-yr period. Part II: Eight patients admitted with sepsis syndrome over a 2-month period.
Part II: Patients were randomized to receive the substituted methylxanthine, lisofylline (CT1501R), or an identically presented placebo.
We measured the serum free fatty acid concentrations in the 39 healthy control subjects, and then we prospectively examined the serum free fatty acid concentrations in 30 age-matched patients in samples obtained within 24 hrs from the onset of sepsis, trauma, or development of ARDS. We then prospectively studied eight septic, at-risk patients who were matched for age, Acute Physiology and Chronic Health Evaluation II scores, Multiple Organ Failure index, and Glasgow Coma Score, in a double-blind, placebo-controlled, pilot study. These patients included four patients who received no treatment and four patients who received lisofylline, a compound that decreases serum unsaturated free fatty acids and diminishes acute lung injury in animals caused by sepsis and/or trauma. The calculated ratios of serum free fatty acids (Le., the ratio of C18 unsaturated fatty acids linoleate and oleate to fully saturated palmitate, C16:0) increased and predicted the development of ARDS in at-risk patients. Serum samples from the 30 patients, obtained within 24 hrs from the onset of sepsis, trauma, or development of ARDS, had significantly increased mean acyl chain ratios (1.42 +/- 0.35 [SD]) compared with healthy control subjects (0.86 +/- 0.25; p < .01). Sera from 13 patients with sepsis or trauma who did not develop ARDS (group A [at-risk, non-pre-ARDS]) also had increased acyl ratios (1.23 +/- 0.27) compared with sera from healthy control subjects (0.86 +/- 0.25; p < .01). Sera from seven patients who subsequently developed ARDS (group B [at-risk, pre-ARDS]) had higher acyl ratios (1.70 +/- 0.21) than group A at-risk patients who did not develop ARDS (1.23 +/- 0.27; p < .01) or healthy control subjects (0.86 +/- 0.25; p < .001). Sera from ten group C patients with ARDS at the time of admission to the study had the highest acyl ratios (1.80 +/- 0.75), which exceeded values for healthy control subjects (p < .001) and group A at-risk patients without ARDS (p = .01), but were not significantly different then group B at-risk, pre-ARDS patients (p = .17). Prospective study of eight septic, at-risk patients demonstrated significantly (p < .05) increased serum acyl ratios in the four untreated patients (findings consistent with the first study) but a significantly (p = .02) reduced ratio in the four at-risk patients treated with lisofyline.
Increases in unsaturated serum acyl chain ratios differentiate between healthy and seriously iII patients, and identify those patients likely to develop ARDS. Thus, the serum acyl ratio may not only prospectively identify and facilitate the assessment of new treatments in patients at highest risk for developing ARDS, but may also lead to new insights about the pathogenesis of ARDS.
目前尚无预测急性呼吸窘迫综合征(ARDS)的方法,ARDS会使脓毒症、创伤和多种临床病症复杂化。由于涉及油酸酯和亚油酸酯酰基链的磷脂信号通路的激活可能引发并放大炎症反应,进而导致ARDS的发生,我们研究了这些生物活性脂质的血清浓度是否会升高以及是否可预测高危患者发生ARDS。
第一部分:前瞻性单盲试验。第二部分:前瞻性随机双盲试验。
五所大学教学医院的综合重症监护病房。
第一部分:研究了39名健康对照患者以确定血清酰基值的正常分布,随后在1年期间对30名因脓毒症、创伤发作或发生ARDS(入院后24小时内)而入院的患者进行了研究。第二部分:在2个月期间对8名因脓毒症综合征入院的患者进行了研究。
第二部分:患者被随机分配接受替代甲基黄嘌呤利索茶碱(CT1501R)或外观相同的安慰剂。
我们测量了39名健康对照受试者的血清游离脂肪酸浓度,然后前瞻性地检测了30名年龄匹配患者在脓毒症、创伤发作或发生ARDS后24小时内采集样本中的血清游离脂肪酸浓度。然后,我们在一项双盲、安慰剂对照的试点研究中,对8名年龄、急性生理与慢性健康状况评分II、多器官功能衰竭指数和格拉斯哥昏迷评分相匹配的脓毒症高危患者进行了前瞻性研究。这些患者包括4名未接受治疗的患者和4名接受利索茶碱治疗的患者,利索茶碱是一种可降低血清不饱和游离脂肪酸并减轻脓毒症和/或创伤所致动物急性肺损伤的化合物。计算得出的血清游离脂肪酸比率(即C18不饱和脂肪酸亚油酸酯和油酸酯与完全饱和的棕榈酸酯C16:0的比率)升高,并可预测高危患者发生ARDS。在脓毒症、创伤发作或发生ARDS后24小时内采集的30名患者的血清样本,其平均酰基链比率(1.42±0.35[标准差])与健康对照受试者(0.86±0.25)相比显著升高(p<.01)。13名未发生ARDS的脓毒症或创伤患者(A组[高危,非ARDS前期])的血清酰基比率(1.23±0.27)与健康对照受试者的血清(0.86±0.25)相比也有所升高(p<.01)。7名随后发生ARDS的患者(B组[高危,ARDS前期])的血清酰基比率(1.70±0.21)高于未发生ARDS的A组高危患者(1.23±0.27;p<.01)或健康对照受试者(0.86±0.25;p<.001)。10名在研究入院时患有ARDS的C组患者的血清酰基比率最高(1.80±0.75),超过了健康对照受试者的值(p<.001)和无ARDS的A组高危患者的值(p =.01),但与B组高危ARDS前期患者无显著差异(p =.17)。对8名脓毒症高危患者的前瞻性研究表明,4名未治疗患者的血清酰基比率显著升高(p<.05)(结果与第一项研究一致),而4名接受利索茶碱治疗的高危患者的比率显著降低(p =.02)。
血清不饱和酰基链比率的升高可区分健康患者和重症患者,并识别出可能发生ARDS的患者。因此,血清酰基比率不仅可以前瞻性地识别并有助于评估发生ARDS风险最高的患者的新治疗方法,还可能为ARDS的发病机制带来新的见解。
