Terayama Masayoshi, Imamura Yu, Kitazawa Toru, Miyazaki Naoki, Ishii Misuzu, Takagi Kumi, Kuriyama Kengo, Takahashi Naoki, Tamura Masahiro, Okamura Akihiko, Kanamori Jun, Watanabe Masayuki
Department of Gastroenterological Surgery, Cancer Institute Hospital, Japanese Foundation for Cancer Research, Tokyo, Japan.
Department of Diabetology, Endocrinology and Metabolism, Cancer Institute Hospital, Japanese Foundation for Cancer Research, Tokyo, Japan.
PLoS One. 2025 May 28;20(5):e0325039. doi: 10.1371/journal.pone.0325039. eCollection 2025.
Postoperative hyperglycemia in diabetic patients is a widely known risk factor for postoperative infectious complications (PICs) after esophagectomy; however, the significance of glycemic control in non-diabetic patients is less clear. In diabetic patients, early postoperative management of esophagectomy favors low-carbohydrate enteral nutrition (EN) over standard EN to suppress the risk of glycemic spike. Our single-center, randomized phase II trial seeks to test the hypothesis that low-carbohydrate EN can suppress hyperglycemia in non-diabetic patients who undergo esophagectomy. Herewith we present the study protocol.
A total of 50 patients will be enrolled and randomly assigned (1:1 ratio) to standard or low-carbohydrate EN. Randomization will be stratified by operation time (≥560 vs. < 560 min) and HbA1c (6.0-6.4% vs. < 6.0%). Both EN formula will be fed according to the following protocol: 400 mL/24 h on postoperative day (POD)-1; 800 mL on POD-2; 1200 mL on POD-3 and 1600 mL from POD-4 to POD-8. On POD-9, oral food intake will be initiated. A continuous glucose monitoring (CGM) device will be used to monitor blood glucose levels from POD-1 to -8. The primary outcome is the mean time-in-range (TIR) across the 48 h from POD-1 to -2. TIR is defined as the percentage-time that blood glucose remains within the targeted range of 70-180 mg/dL. The primary analysis will calculate the least squares mean difference in TIR over the 48 h (POD-1 to -2) between the two groups, with p-values calculated to test the null hypothesis that the mean difference between the groups is zero. The secondary outcomes will be as follows: 1) the incidence of PICs and/or other adverse events within 30 days after esophagectomy or during the hospital stay; 2) the number of cases requiring any dose alteration in EN formula during monitoring; 3) the number of cases requiring interventions for hyperglycemia or hypoglycemia; 4) the rates in change of nutritional indicators, such as serum albumin, prealbumin, and total protein levels, during the post-surgical hospital stay (vs. those values on the day of admission); and 5) the following CGM indices in relation to the incidence rate of PICs within 30 days after esophagectomy: the mean values for time-above-range (TAR), area under the curve (AUC), and TIR for each POD or from POD-1 to -8. TAR is defined as the percentage of time of a patient is recorded as having hyperglycemia (>blood glucose level of 180 mg/dL), and is indicative of the frequency and duration of hyperglycemia. AUC, which identifies periods of hyperglycemia and provides a comprehensive picture of glucose variability and control in diabetes management, is defined as the area under the curve over blood glucose level of 180 mg/dL on CGM monitoring.
This study is the first to investigate the impact of a low-carbohydrate EN formula on hyperglycemic control during perioperative nutritional management of esophageal cancer. These results will help to outline whether glycemic control should be also considered for non-diabetic patients during hospital care.
This trial has been registered in the Japanese Registry of Clinical Trials (jRCTs031240081).
糖尿病患者术后高血糖是食管癌切除术后感染并发症(PICs)的一个广为人知的危险因素;然而,血糖控制在非糖尿病患者中的意义尚不清楚。对于糖尿病患者,食管癌切除术后的早期管理倾向于采用低碳水化合物肠内营养(EN)而非标准EN,以抑制血糖峰值风险。我们的单中心、随机II期试验旨在检验低碳水化合物EN能否抑制接受食管癌切除术的非糖尿病患者的高血糖这一假设。在此我们展示该研究方案。
总共将招募50名患者,并随机分配(1:1比例)至标准或低碳水化合物EN组。随机分组将按手术时间(≥560分钟对<560分钟)和糖化血红蛋白(HbA1c)(6.0 - 6.4%对<6.0%)进行分层。两种EN配方均将按照以下方案给予:术后第1天(POD - 1)24小时内400毫升;POD - 2时800毫升;POD - 3时1200毫升;从POD - 4至POD - 8时1600毫升。在POD - 9时开始经口进食。将使用连续血糖监测(CGM)设备监测从POD - 1至 - 8的血糖水平。主要结局是从POD - 1至 - 2的48小时内的平均血糖达标时间(TIR)。TIR定义为血糖维持在70 - 180毫克/分升目标范围内的时间百分比。主要分析将计算两组在48小时(POD - 1至 -
2)内TIR的最小二乘均值差异,并计算p值以检验两组均值差异为零的原假设。次要结局如下:1)食管癌切除术后30天内或住院期间PICs和/或其他不良事件的发生率;2)监测期间需要对EN配方进行任何剂量调整的病例数;3)需要对高血糖或低血糖进行干预的病例数;4)术后住院期间营养指标(如血清白蛋白、前白蛋白和总蛋白水平)的变化率(与入院当天的值相比);5)与食管癌切除术后30天内PICs发生率相关的以下CGM指标:每个POD或从POD - 1至 - 8的血糖高于目标范围时间(TAR)、曲线下面积(AUC)和TIR的均值。TAR定义为记录患者血糖高于180毫克/分升(即高血糖)的时间百分比,指示高血糖的频率和持续时间。AUC用于识别高血糖时段,并提供糖尿病管理中血糖变异性和控制的全面情况,定义为CGM监测中血糖水平高于180毫克/分升时的曲线下面积。
本研究首次调查了低碳水化合物EN配方对食管癌围手术期营养管理期间血糖控制的影响。这些结果将有助于明确在医院护理期间非糖尿病患者是否也应考虑血糖控制。
本试验已在日本临床试验注册中心(jRCTs031240081)注册。
