Body mass index of patients with colorectal cancer on effect of surgical difficulty and surgical reaction: a real world study based on DACCA_CHINESE JOURNAL OF BASES AND CLINICS IN GENERAL SURGERY

Authors：

HE Ziyan ^1,2 , LIU Guina ² , ZOU Yuheng ² ,  WANG Xiaodong ¹ , LI Li ¹

1. Department of Gastrointestinal Surgery, West China Hospital, Sichuan University, Chengdu 610041, P. R. China;
2. West China School of Medicine in Sichuan University, Chengdu 610041, P. R. China;

Corresponding?author：

WANG Xiaodong, Email: wangxiaodong@wchscu.cn

Keywords：

colorectal cancer; body mass index; DACCA; surgery difficulty; surgery reaction

DOI：

10.7507/1007-9424.202112015

Video：

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Objective To analyze the impact of body mass index (BMI) on surgical difficulty and surgical reaction of patients with colorectal cancer served by West China Hospital, based on the current version of Database from Colorectal Cancer (DACCA). Methods The data of DACCA were updated on September 22, 2021. All data items included BMI, operative duration, anatomical difficulty, pelvic stenosis, abdominal obesity, adhesion in surgical area, abnormal mesenteric status, tissue or organ hypertrophy, intestinal quality in surgical area, surgery reaction, and perioperative complications of colorectal cancer module including temperature, flatus, pain, and mental status. The patients were divided into lean (BMI <18.5 kg/m²), normal (BMI 18.5–23.9 kg/m²), overweight (BMI 24.0–27.9 kg/m²), and obesity (BMI ≥28.0 kg/m²) by Chinese four classification method. Results After scanning, 6 311 data rows were analyzed. ① The effect of BMI on surgical difficulty: BMI was weakly positively correlated with operative duration (r_s=0.096, P<0.001). The overweight and obesity patients were more likely to have anatomical abnormalities (r_s=0.385, P<0.001 ), pelvic stenosis (r_s=0.386, P<0.001), abdominal obesity (r_s=0.567, P<0.001), and adhesion in surgical area (r_s=0.043, P=0.004). There was difference in tissue or organ hypertrophy among patients with different BMI (χ²=39.988, P<0.001). It was also found that the lean patients were prone to develop ‘very heavy adhesions’ when adhesions occurred in surgical area, and to ‘mesangial contracture, short, fixed’ of abnormal mesenteric status, while the obesity patients were prone to ‘mesangial thickening’ of abnormal mesenteric status. There was no difference in intestinal quality among patients with different BMI (P>0.05). ② The effect of BMI on surgical reaction: BMI was weakly positively correlated with the overall assessment of surgical reaction (r_s=0.049, P=0.001), and obesity patients were more likely to have severe surgical reaction. BMI was weakly negatively correlated with pain (r_s=–0.058, P<0.001）and the lean patients were more likely to have pain that needed drug control. However, there were no differences in temperature, flatus, and mental status among patients with different BMI (P>0.05). Conclusions High BMI of patients will affect several indicators including operative duration, anatomical difficulty, pelvic stenosis, abdominal obesity, adhesion in surgical area, abnormal mesenteric status, tissue or organ hypertrophy, resulting in increased difficulty of surgery. Although high BMI might affect overall response state after surgery, it will not affect temperature, flatus, and mental status, reflecting a relatively weak impact on surgical reaction.

Citation： HE Ziyan, LIU Guina, ZOU Yuheng, WANG Xiaodong, LI Li. Body mass index of patients with colorectal cancer on effect of surgical difficulty and surgical reaction: a real world study based on DACCA. CHINESE JOURNAL OF BASES AND CLINICS IN GENERAL SURGERY, 2022, 29(1): 85-92. doi: 10.7507/1007-9424.202112015 Copy

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8.	Nugent TS, Kelly ME, Donlon NE, et al. Obesity and anastomotic leak rates in colorectal cancer: a meta-analysis. Int J Colorectal Dis, 2021, 36(9): 1819-1829.
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13.	Chern H, Chou J, Donkor C, et al. Effects of obesity in rectal cancer surgery. J Am Coll Surg, 2010, 211(1): 55-60.
14.	Sun Y, Chi P. Impact of body mass index on surgical and oncological outcomes in laparoscopic total mesorectal excision for locally advanced rectal cancer after neoadjuvant 5-fluorouracil-based chemoradiotherapy. Gastroenterol Res Pract, 2017, 2017: 1509140.
15.	Makino T, Shukla PJ, Rubino F, et al. The impact of obesity on perioperative outcomes after laparoscopic colorectal resection. Ann Surg, 2012, 255(2): 228-236.
16.	Veenhof AA, Engel AF, van der Peet DL, et al. Technical difficulty grade score for the laparoscopic approach of rectal cancer: a single institution pilot study. Int J Colorectal Dis, 2008, 23(5): 469-475.
17.	Shimada T, Tsuruta M, Hasegawa H, et al. Pelvic inlet shape measured by three-dimensional pelvimetry is a predictor of the operative time in the anterior resection of rectal cancer. Surg Today, 2018, 48(1): 51-57.
18.	Okugawa Y, Toiyama Y, Yamamoto A, et al. Lymphocyte-C-reactive protein ratio as promising new marker for predicting surgical and oncological outcomes in colorectal cancer. Ann Surg, 2020, 272(2): 342-351.
19.	Wierdak M, Pisarska M, Kuśnierz-Cabala B, et al. Serum amyloid a as an early marker of infectious complications after laparoscopic surgery for colorectal cancer. Surg Infect (Larchmt), 2018, 19(6): 622-628.
20.	Giessen-Jung C, Nagel D, Glas M, et al. Preoperative serum markers for individual patient prognosis in stage Ⅰ–Ⅲ colon cancer. Tumour Biol, 2015, 36(10): 7897-7906.
21.	Chaichian S, Kabir A, Mehdizadehkashi A, et al. Comparing the efficacy of surgery and medical therapy for pain management in endometriosis: a systematic review and meta-analysis. Pain Physician, 2017, 20(3): 185-195.
22.	Leite HR, Dario AB, Harmer AR, et al. Contributions of birthweight, annualised weight gain and BMI to back pain in adults: a population-based co-twin control study of 2754 Australian twins. Eur Spine J, 2019, 28(2): 224-233.
23.	Leysen L, Beckwée D, Nijs J, et al. Risk factors of pain in breast cancer survivors: a systematic review and meta-analysis. Support Care Cancer, 2017, 25(12): 3607-3643.

1. 汪曉東, 呂炘沂, 劉健博, 等. 數據庫建設第七部分: 結直腸癌手術的特征(三). 中國普外基礎與臨床雜志, 2020, 27(12): 1568-1574.
2. 汪曉東, 劉健博, 孟鑫宇, 等. 數據庫建設第八部分: 結直腸癌手術反應及圍術期并發癥的標簽與結構化. 中國普外基礎與臨床雜志, 2021, 28(4): 508-511.
3. 國際生命科學學會中國辦事處中國肥胖問題工作組聯合數據匯總分析協作組. 中國成人體質指數分類的推薦意見簡介. 中華預防醫學雜志, 2001, 35(5): 349-350.
4. 汪曉東, 孟鑫宇, 劉健博, 等. 數據庫研究第八部分: 結直腸癌術后風險與并發癥. 中國普外基礎與臨床雜志, 2021, 28(3): 369-375.
5. 姚宏偉, 李心翔, 崔龍, 等. 中國結直腸癌手術病例登記數據庫2019年度報告: 一項全國性登記研究. 中國實用外科雜志, 2020, 40(1): 106-110, 116.
6. 張敏. 內臟型肥胖指標與體質指數對腹腔鏡結直腸癌手術結果影響的差異性研究. 延安: 延安大學, 2019.
7. 張海鑫. 骨盆及病理參數對腹腔鏡中低位直腸癌手術難度的影響及相關評分系統的建立. 沈陽: 中國醫科大學, 2019.
8. Nugent TS, Kelly ME, Donlon NE, et al. Obesity and anastomotic leak rates in colorectal cancer: a meta-analysis. Int J Colorectal Dis, 2021, 36(9): 1819-1829.
9. Li Q, Li D, Jiang L, et al. Factors influencing difficulty of laparoscopic abdominoperineal resection for ultra-low rectal cancer. Surg Laparosc Endosc Percutan Tech, 2017, 27(2): 104-109.
10. Senagore AJ, Delaney CP, Madboulay K, et al. Laparoscopic colectomy in obese and nonobese patients. J Gastrointest Surg, 2003, 7(4): 558-561.
11. Pikarsky AJ, Saida Y, Yamaguchi T, et al. Is obesity a high-risk factor for laparoscopic colorectal surgery? Surg Endosc, 2002, 16(5): 855-858.
12. Zhou XC, Su M, Hu KQ, et al. CT pelvimetry and clinicopathological parameters in evaluation of the technical difficulties in performing open rectal surgery for mid-low rectal cancer. Oncol Lett, 2016, 11(1): 31-38.
13. Chern H, Chou J, Donkor C, et al. Effects of obesity in rectal cancer surgery. J Am Coll Surg, 2010, 211(1): 55-60.
14. Sun Y, Chi P. Impact of body mass index on surgical and oncological outcomes in laparoscopic total mesorectal excision for locally advanced rectal cancer after neoadjuvant 5-fluorouracil-based chemoradiotherapy. Gastroenterol Res Pract, 2017, 2017: 1509140.
15. Makino T, Shukla PJ, Rubino F, et al. The impact of obesity on perioperative outcomes after laparoscopic colorectal resection. Ann Surg, 2012, 255(2): 228-236.
16. Veenhof AA, Engel AF, van der Peet DL, et al. Technical difficulty grade score for the laparoscopic approach of rectal cancer: a single institution pilot study. Int J Colorectal Dis, 2008, 23(5): 469-475.
17. Shimada T, Tsuruta M, Hasegawa H, et al. Pelvic inlet shape measured by three-dimensional pelvimetry is a predictor of the operative time in the anterior resection of rectal cancer. Surg Today, 2018, 48(1): 51-57.
18. Okugawa Y, Toiyama Y, Yamamoto A, et al. Lymphocyte-C-reactive protein ratio as promising new marker for predicting surgical and oncological outcomes in colorectal cancer. Ann Surg, 2020, 272(2): 342-351.
19. Wierdak M, Pisarska M, Kuśnierz-Cabala B, et al. Serum amyloid a as an early marker of infectious complications after laparoscopic surgery for colorectal cancer. Surg Infect (Larchmt), 2018, 19(6): 622-628.
20. Giessen-Jung C, Nagel D, Glas M, et al. Preoperative serum markers for individual patient prognosis in stage Ⅰ–Ⅲ colon cancer. Tumour Biol, 2015, 36(10): 7897-7906.
21. Chaichian S, Kabir A, Mehdizadehkashi A, et al. Comparing the efficacy of surgery and medical therapy for pain management in endometriosis: a systematic review and meta-analysis. Pain Physician, 2017, 20(3): 185-195.
22. Leite HR, Dario AB, Harmer AR, et al. Contributions of birthweight, annualised weight gain and BMI to back pain in adults: a population-based co-twin control study of 2754 Australian twins. Eur Spine J, 2019, 28(2): 224-233.
23. Leysen L, Beckwée D, Nijs J, et al. Risk factors of pain in breast cancer survivors: a systematic review and meta-analysis. Support Care Cancer, 2017, 25(12): 3607-3643.

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Body mass index of patients with colorectal cancer on effect of surgical difficulty and surgical reaction: a real world study based on DACCA

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