Overview

High - Dose Vitamin C Infusion Regimen Based on Pharmacokinetic Characteristics for Patients With Advanced Malignant Solid Tumors

Status:
RECRUITING
Trial end date:
2027-12-31
Target enrollment:
Participant gender:
Summary
Vitamin C is an essential water - soluble vitamin for the human body. It plays an important role in various physiological processes as an antioxidant and cofactor for multiple enzymes. Most vertebrates can synthesize vitamin C by themselves, but humans can only obtain it from the diet due to inactivating mutations in the synthesis enzyme gene. The incidence of severe malnutrition in tumor patients is 58.2%, and they often have insufficient intake. Vitamin C can be used for the prevention and treatment of various diseases, including vitamin C deficiency, iron - deficiency anemia, atherosclerosis, and COVID - 19. Its role in anti - tumor treatment was first proposed by Cameron E and Pauling LN in the 1970s. However, it was not verified in a subsequent randomized controlled study at the Mayo Clinic, and this treatment has been controversial ever since. Until subsequent studies found that this difference may be due to different administration routes. Oral administration is limited by absorption, transportation, and metabolism. Even at the maximum tolerated dose, the plasma drug concentration is always \< 250 mol/L, while intravenous injection can safely reach a pharmacological plasma concentration of 25 - 30 mmol/L, which is the key to exerting the anti - tumor effect. Therefore, intravenous injection of high - dose vitamin C (HDVC) as an emerging anti - tumor therapy has received renewed attention. A series of clinical studies have confirmed that a dose of 75 - 100 g/day (1.5 - 2.2 g/kg) is safe. Most pre - clinical experiments suggest that HDVC can inhibit the development or metastasis of tumors, significantly improve the survival rate of experimental animals, and prolong their survival time. It also has a synergistic or sensitizing effect on chemotherapy, radiotherapy, and targeted therapy. However, the number of clinical trials with positive results is very limited. Only a small number of studies have reported trends of increased disease control and objective response rates. For example, when combined with gemcitabine in the treatment of pancreatic cancer, the overall survival (OS) and progression - free survival (PFS) of patients were prolonged (21.7 months vs. 11.1 months; 13.7 months vs. 4.6 months). Currently, all clinical trials lack standardization and normativity in efficacy detection, and the repeatability of the experiments is poor. This has led to a situation where pre - clinical research shows good results, but clinical translation is very difficult. This may be closely related to the pharmacokinetic characteristics of vitamin C: a short half - life of only 30 minutes, high lability, first - order kinetic elimination, and rapid excretion through the kidneys. It is easily metabolized by the body's antioxidant system (especially reduced glutathione). After the infusion stops, the plasma vitamin C concentration drops rapidly, resulting in insufficient duration of the drug peak concentration or effective concentration to kill tumor cells in the body. Therefore, ensuring sufficient blood drug concentration, prolonging the duration of the effective concentration, and inhibiting the metabolism of antioxidants may improve the therapeutic effect of HDVC. This study attempts to summarize the clinical synergistic strategies of HDVC from existing clinical trials and explore a better HDVC treatment regimen. Based on comprehensive clinical research, we take patients with advanced malignant solid tumors receiving systemic anti - tumor treatment as the research objects. While patients are undergoing systemic anti - tumor treatment, HDVC treatment is combined. Three cohorts are designed: 0.5 g/kg once a day; 0.5 g/kg twice a day; 0.75 g/kg twice a day. All are intravenously dripped continuously for 5 - 7 days during the first cycle of standard systemic anti - tumor therapy, and the blood concentration of vitamin C is detected daily. The main objectives of this study are to study the pharmacokinetic characteristics of different high - dose vitamin C intravenous drip regimens in patients with advanced solid tumors, evaluate whether twice - daily administration can increase the blood concentration of vitamin C, and explore the appropriate regimen for combining high - dose vitamin C intravenous drip with standard systemic therapy in treating patients with advanced malignant solid tumors, providing ideas and a basis for the standardized clinical application of HDVC in the future.
Phase:
PHASE1
Details
Lead Sponsor:
Zhongnan Hospital