喂养不耐受性麻痹性回肠炎的病因和预防--重新审视一个古老的概念。

Gerald Moss
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引用次数: 0

摘要

腹部手术后胃肠道(G-I)蠕动受损("麻痹性回肠")。过早尝试进食会诱发 "进食不耐受",尤其是腹胀影响呼吸,从而延迟康复。对照研究(如斯隆-凯特琳纪念医院的研究)建议患者在腹部大手术后不要马上进食,以避免出现这种并发症。我们推测,当进食、消化道分泌物和吞咽空气的总液体流入量超过进食部位的蠕动流出量时,液体就会积聚。这种局部淤积会触发 G-I 迷走神经反射,进一步减缓本已迟缓的肠道蠕动,导致腹部普遍胀气。同样,易感人群的迷走神经心血管反射也可能是肠道喂养导致 1:1,000 的不明原因肠坏死发生率的原因。我们重新评估了我们的数据,这些数据支持这种诱发 "进食不耐受 "的假定机制。我们将工作重点放在术后肠内营养上,大手术后每小时立即喂食至少 100 千卡热量的报道系列最多。我们发现,通过监测流入量和蠕动流出量,立即从进食部位清除任何可能多余的食物,可以持续避免这种并发症。我们对 31 例结肠切除术和 160 例胆囊切除术患者进行 "开放 "手术后立即进行十二指肠内喂食。同时在进食部位近端抽吸十二指肠,有效清除所有吞咽的空气和多余的进食物。为了挽救消化道分泌物,人工(后来是自动)通过单独的进食通道将脱气后的吸液重新导入。每小时检测一次氮平衡、血清氨基酸以及吸出物中是否有被清除的进食物。结肠切除术患者在术后 5-17 小时开始进行 X 射线运动研究。临床上,患者的运动和吸收在两小时内恢复正常。喂食的硫酸钡穿过安全的吻合口,在结肠切除术后 24-48 小时内排出肠道。所有患者均在 2-24 小时内达到正蛋白平衡,血清氨基酸水平升高,且无 G-I 不良反应。限制肠道流入量,使其与进食部位的蠕动流出量相匹配,可以有效防止 "进食不耐受"。这些患者立即得到了全面的肠内营养,术后麻痹性回肠炎得到了迄今为止最迅速的缓解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The etiology and prevention of feeding intolerance paralytic ileus--revisiting an old concept.

The etiology and prevention of feeding intolerance paralytic ileus--revisiting an old concept.

The etiology and prevention of feeding intolerance paralytic ileus--revisiting an old concept.

The etiology and prevention of feeding intolerance paralytic ileus--revisiting an old concept.

Gastro-intestinal (G-I) motility is impaired ("paralytic ileus") after abdominal surgery. Premature feeding attempts delay recovery by inducing "feeding intolerance," especially abdominal distention that compromises respiration. Controlled studies (e.g., from Sloan-Kettering Memorial Hospital) have lead to recommendations that patients not be fed soon after major abdominal surgery to avoid this complication. We postulate that when total fluid inflow of feedings, digestive secretions, and swallowed air outstrip peristaltic outflow from the feeding site, fluid accumulates. This localized stagnation triggers G-I vagal reflexes that further slow the already sluggish gut, leading to generalized abdominal distention. Similarly, vagal cardiovascular reflexes in susceptible subjects could account for the 1:1,000 incidence of unexplained bowel necrosis reported with enteral feeding. We re-evaluated our data, which supports this postulated mechanism for the induction of "feeding intolerance." We had focused our efforts on postoperative enteral nutrition, with the largest reported series of immediate feeding of at least 100 kcal/hour after major surgery. We found that this complication can be avoided consistently by monitoring inflow versus peristaltic outflow, immediately removing any potential excess from the feeding site. We fed intraduodenally immediately following "open" surgery for 31 colectomy and 160 consecutive cholecystectomy patients. The duodenum was aspirated simultaneously just proximal to the feeding site, efficiently removing all swallowed air and excess feedings. To salvage digestive secretions, the degassed aspirate was re-introduced manually (and later automatically) via a separate feeding channel. Hourly assays were performed for nitrogen balance, serum amino acids, and for the presence of removed feedings in the aspirate. The colectomy patients had X-ray motility studies initiated 5-17 hours after surgery. Clinically normal motility and absorption resumed within two hours. Fed BaSO4 traversed secure anastomoses, to exit in bowel movements within 24-48 hours of colectomy. All patients were in positive protein balance within 2-24 hours, with elevated serum amino acids levels and without adverse G-I effects. Limiting inflow to match peristaltic outflow from the feeding site consistently prevented "feeding intolerance." These patients received immediate full enteral nutrition, with the most rapid resolution of postoperative paralytic ileus, to date.

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