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Clinical Trial Details — Status: Active, not recruiting

Administrative data

NCT number NCT04345978
Other study ID # B2020-063
Secondary ID
Status Active, not recruiting
Phase N/A
First received
Last updated
Start date January 1, 2020
Est. completion date September 30, 2023

Study information

Verified date August 2020
Source Fudan University
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

In 2018, colorectal cancer is the third most common malignant tumor in terms of morbidity and second mortality in the world. Surgical resection is still the main treatment for colorectal cancer.With the introduction of the ERAS, the latest international and domestic guidelines for fasting before surgery all advocate shortening the fasting time. For example, 2 hours before surgery, oral take cleared fluids, including water, sugar water, fruit juice, tea and black coffee (without milk) is allowed.Solid food can be consumed 4 hours before surgery, and oral diet should be resumed as soon as possible after surgery. Changes in diet, nutritional status, and physical activity are closely related to the incidence of colorectal cancer. Therefore, we believe that the intestine may be very sensitive to different fasting times during the perioperative period. Prolonging the fasting time may improve the prognosis by improving postoperative insulin resistance, reducing inflammation and protecting anti-tumor immune function in patients with colorectal cancer.Prolonged fasting time seems to be contrary to the results of some studies, and whether it is applicable to patients with tumor surgery is unclear. Therefore, there is an urgent need to conduct large-scale, prospective, randomized controlled clinical studies to clarify the most suitable perioperative fasting strategy (including composition, interval, and amount) for cancer patients, which can not only reduce surgical stress and speed up postoperative rehabilitation,reduce postoperative metastasis and recurrence and improve mid- and long-term prognosis.


Description:

As early as a century ago, Investigators proved that diet restriction can prevent the occurrence of transplanted tumors in mice. Following this milestone, many animal studies (from mice to primates) have confirmed that diet restriction can slow the development of spontaneous tumors and transplanted tumors. A study of macaque monkeys for more than 20 years revealed that restricting diet by 30% can reduce the incidence of tumors by 50%, which makes people see the potential value of restricting diet to humans. However, whether diet restriction can also reduce the incidence of human tumors is not entirely clear. The growth of tumor cells requires a nutrient-rich environment, and the lack of glucose and amino acids caused by diet restrictions is very detrimental to tumor cells. Unlike normal cells, tumor cells mainly rely on glycolysis (Warburg effect) rather than energy and biosynthetic precursors provided by oxidative phosphorylation for proliferation. These characteristics make tumor cells extremely sensitive to changes in the surrounding environment, which is called differential stress sensitization (DSS).Investigators found that the use of low sugar and low serum in a cell model to simulate periodic fasting can enhance the sensitivity of human or animal tumor cells to doxorubicin and cyclophosphamide, and also found that they were transplanted subcutaneously in mice Melanoma or breast cancer, diet combined with chemotherapy is better than chemotherapy alone; in the mouse metastatic neuroblastoma model, fasting before high-dose chemotherapy can successfully reduce the toxic side effects of chemotherapy drugs and reduce metastasis and prolong the tumor-free survival. Surgery and stress are twin brothers. Surgical resection, blood flow blockage, ischemia-reperfusion injury, tissue damage, local inflammatory factor release, and changes in systemic neuroendocrine and metabolism all affect blood flow, blood coagulation, and immune function. Investgators found restricted diet can reduce the inflammatory response after myocardial ischemia-reperfusion injury in mice. Many animal experiments have confirmed that perioperative fasting can effectively protect the liver, kidneys, and brain from organ damage. The specific mechanism may be related to fasting increasing antioxidant enzyme activity, reducing insulin-like growth factor-1 (IGF-1), and activating the autophagy pathway. Similar to chemotherapy, there is currently no randomized clinical controlled study to evaluate the impact of individualized perioperative dietary regimens (such as restricted diet) on the prognosis of tumor surgery.

In 2018, colorectal cancer is the third most common malignant tumor in terms of morbidity and second mortality in the world. Surgical resection is still the main treatment for colorectal cancer.With the introduction of the ERAS, the latest international and domestic guidelines for fasting before surgery all advocate shortening the fasting time. For example, 2 hours before surgery, oral take cleared fluids, including water, sugar water, fruit juice, tea and black coffee (without milk) is allowed.Solid food can be consumed 6 hours before surgery, and oral diet should be resumed as soon as possible after surgery. Changes in diet, nutritional status, and physical activity are closely related to the incidence of colorectal cancer. Therefore, we believe that the intestine may be very sensitive to different fasting times during the perioperative period. Prolonging the fasting time may improve the prognosis by improving postoperative insulin resistance, reducing inflammation and protecting anti-tumor immune function in patients with colorectal cancer.Prolonged fasting time seems to be contrary to the results of some studies, and whether it is applicable to patients with tumor surgery is unclear. Therefore, there is an urgent need to conduct large-scale, prospective, randomized controlled clinical studies to clarify the most suitable perioperative fasting strategy (including composition, interval, and amount) for cancer patients, which can not only reduce surgical stress and speed up postoperative rehabilitation,reduce postoperative metastasis and recurrence and improve mid- and long-term prognosis.


Recruitment information / eligibility

Status Active, not recruiting
Enrollment 2400
Est. completion date September 30, 2023
Est. primary completion date September 30, 2022
Accepts healthy volunteers No
Gender All
Age group 20 Years to 70 Years
Eligibility Inclusion Criteria:

1. Age 20 ~ 70 years old

2. With BMI 20.5-25.0 kg/m2

3. Without any Endocrine and metabolic diseases

4. A stable body weight (±3 kg) for at least 6 months

5. Those diagnosed with colorectal cancer by preoperative pathology or enteroscopy

6. Patients undergoing laparoscopic radical colorectal cancer resection

7. ASA grade I-III grade

8. Initial patients have not received any treatment for bowel cancer except neoadjuvant chemotherapy

9. Patients with confirmed and feasible radical resection of colorectal cancer

10. No evidence of distant metastasis before surgery

11. Willing to participate in the research of the subject and agree to follow up regularly

Exclusion Criteria:

1. Patients with relapsed colorectal cancer who are going to undergo surgery and re-excision

2. accompanied by other malignant tumors

3. Severe malnourished patients

4. History of systemic metabolism such as diabetes

5. Before surgery, have received other treatments for colorectal cancer (such as local excision, etc.) in addition to neoadjuvant chemotherapy

6. Have a history of immunotherapy before surgery

7. Combined with basic diseases of serious heart, lung, brain, kidney and other important organs

8. Combined with severe primary diseases such as severe immune system or hematopoietic system

9. The tumor burden cannot be cured, and there is distant metastasis. Those who intend to undergo palliative surgery

10. People with gastroesophageal reflux disease, difficulty swallowing, intestinal obstruction, or difficulty in airway management

11. People who refuse to participate in the study or cannot receive long-term follow-up

Study Design


Related Conditions & MeSH terms


Intervention

Behavioral:
Fasting hours
Normal Fasting hours before CRC surgery for 8 hours and feeding 8 hours after surgery; Prolong fasting hours before CRC surgery for 24 hours and feeding 24 hours after surgery.

Locations

Country Name City State
China Department of Biostatistics, School of Public Health, Fudan University, Shanghai Shanghai
China Fudan University Huashan Hospital Shanghai Shanghai
China Fudan University Shanghai Cancer center Shanghai Shanghai
China Fudan University,ZhongShan Hospital Shanghai Shanghai
China Shanghai Changhai Hospital, Naval Medical University, Shanghai Shanghai
China Shanghai First People's Hospital,Shanghai Jiaotong University Shanghai Shanghai
China Shanghai Tongji Hospital,Tongji University Shanghai Shanghai

Sponsors (6)

Lead Sponsor Collaborator
Fudan University Changhai Hospital, Huashan Hospital, Shanghai Cancer Hospital, China, Shanghai General Hospital, Shanghai Jiao Tong University School of Medicine, Tongji Hospital

Country where clinical trial is conducted

China, 

Outcome

Type Measure Description Time frame Safety issue
Primary Disease-free Survival Defined and calculated as the time from the date of surgery to the first time of colon cancer recurrence or metastasis or cancer-related death During 2 years after surgery
Secondary Overall Survival Defined and calculated as the time from the date of surgery to the first time of Colon cancer recurrence or metastasis or cancer-related death During 2 years after surgery
Secondary Postoperative pain score and side effects of patient-controlled analgesia Assessed with visual analogue score ( 0 is no pain and 10 is the most severe pain) During the first 48 hours after surgery
Secondary Incidence of delirium Assessed for delirium using the 3D-CAM instrument During the first 1 week after surgery
Secondary Length of stay in hospital after surgery and total costs after surgery Length of stay in hospital after surgery and total costs after surgery During the first 30 days after surgery
Secondary Return of bowel function Measured by the time of first flatus During the first 30 days after surgery
Secondary Neutrophil to Lymphocyte Ratio,LMR,SII Neutrophil to Lymphocyte Ratio,Lymphocyte to Monocyte ratio,Symstem Imflammatory Index During the first24?48 and 72 hours after surgery
Secondary Serum CA19-9 ?CA125?CEA?CA72-4?CA242?AFP?CA15-3?CA50 levels Tumor Biomaker Level During 2 years after surgery
Secondary Recovery Parameter Q40 scale score During the first24?48 and 72 hours after surgery
Secondary T Lymphocyte cell count T lymphocyte cell count before fasting and after fasting During the first24?48 and 72 hours after surgery
Secondary T Lymphocyte cell DNA damage T lymphocyte cell count before fasting and after fasting During the first24?48 and 72 hours after surgery
Secondary IL-1ß,IL-2,IL-4,IL-5,IL-6,IL-8,IL-10,IL-17A,IL-17F,TNF-a,TNF-ß, Inflammatory factor level During the first24?48 and 72 hours after surgery
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