Poor Dietary Polyphenol Intake in Childhood Cancer Patients

Exploring the Relationship Between Dietary Phytochemical Index and Chemotherapy-Related Symptoms: Insights From a Cross-Sectional Study

Phytochemicals may confer substantial benefits in alleviating chemotherapy-related symptoms. This cross-sectional study aimed to determine the role of dietary phytochemicals on treatment-related symptoms in patients receiving chemotherapy. Data including demographic variables, anthropometric measures such as weight and height, 3-day food record, and Nightingale Symptom Assessment Scale (N-SAS), a composite measure of patients' chemotherapy-related symptoms, were gathered via face-to-face interviews. The dietary phytochemical index (DPI) was computed based on the patient's food records and presented by dividing into quartiles. The study included 152 participants with a mean age of 59.59 ± 13.19 years. The mean N-SAS score was 2.16 ± 0.80. The average DPI score for the entire group was 24.66 ± 6.55, significantly higher in women (26.61 ± 6.06) than men (23.05 ± 6.54) (p = 0.001). As the DPI quartile values increased, there was a statistically significant decrease in N-SAS scores (p = 0.002). A significantly negative correlation was found between the N-SAS score and DPI, as well as all cancers (r = -0.364; p < 0.001). Additionally, a negative correlation was observed between the N-SAS score and specific cancer types, comprising lung cancer (r = -0.513; p = 0.005), breast cancer (r = -0.612; p < 0.001), and gastrointestinal system (GIS) cancer (r = -0.329; p = 0.033). Increasing dietary phytochemicals in chemotherapy patients may help manage treatment-related symptoms. Phytochemicals may confer substantial benefits in alleviating chemotherapy-related symptoms. This cross-sectional study aimed to determine the role of dietary phytochemicals on cancer-related symptoms in patients receiving chemotherapy. A significantly negative correlation was found between N-SAS score and DPI and all cancers (r = -0.364; p < 0.001) and different cancer types such as lung (r = -0.513; p = 0.005), breast (r = -0.612; p < 0.001), and GIS (r = -0.329; p = 0.033). As a result, increasing dietary phytochemicals in chemotherapy patients may help manage treatment-related symptoms.

Higher Dietary Polyphenol Intake Is Associated With Lower Blood Inflammatory Markers

BACKGROUND

Evidence suggests a link between polyphenol intake and reduced incidence of several chronic diseases. This could arise through associations between polyphenol intake and reduced systemic oxidative stress and subsequent inflammation. However, confirming this association is difficult, as few large cohorts allow for comprehensive assessments of both polyphenol intake and markers of systemic inflammation.

OBJECTIVES

To address this, polyphenol intake was assessed in the UK-based Airwave cohort using 7-d diet diaries and data from Phenol-Explorer to test for associations between polyphenol intake and blood biomarkers of inflammation.

METHODS

Participants included 9008 males and females aged 17-74 y (median age: 42 y) whose data was included in a cross-sectional analysis. Phenol-Explorer was used to estimate individuals' polyphenol intake from diet data describing the consumption of 4104 unique food items. C-reactive protein (CRP) and fibrinogen were used as blood biomarkers of inflammation.

RESULTS

There were 448 polyphenols found in reported diet items. Median total polyphenol intake was 1536 mg/d (1058-2092 mg/d). Phenolic acids and flavonoids were the main types of polyphenols, and nonalcoholic beverages, vegetables, and fruit were the primary sources. Variation in energy-adjusted polyphenol intake was explained by age, sex, salary, body mass index, education level, smoking, and alcohol consumption. Linear regressions showed inverse associations between total daily intake and both CRP (β: -0.00702; P < 0.001) and fibrinogen (β: -0.00221; P = 0.038). Associations with specific polyphenol compound groups were also found. Logistic regressions using total polyphenol intake quartiles showed stepwise reductions in the odds of elevated CRP with higher intake (6%, 23%, and 24% compared with quartile 1; P = 0.003), alongside 3% and 7% lower odds per unit of polyphenol consumption equivalent to 1 cup of tea or coffee per day.

CONCLUSIONS

This study describes polyphenol intake in a large, contemporary UK cohort. We observed associations between higher intake and lower CRP and fibrinogen. This contributes to evidence supporting the health benefits of dietary polyphenols.

The Role of Oxidative Stress and Inflammation in Cardiometabolic Health of Children During Cancer Treatment and Potential Impact of Key Nutrients

Significance: The 5-year survival rate of childhood cancers is now reaching 84%. However, treatments cause numerous acute and long-term side effects. These include cardiometabolic complications, namely hypertension, dyslipidemia, hyperglycemia, insulin resistance, and increased fat mass. Recent Advances: Many antineoplastic treatments can induce oxidative stress (OxS) and trigger an inflammatory response, which may cause acute and chronic side effects. Critical Issues: Clinical studies have reported a state of heightened OxS and inflammation during cancer treatment in children as the result of treatment cytotoxic action on both cancerous and noncancerous cells. Higher levels of OxS and inflammation are associated with treatment side effects and with the development of cardiometabolic complications. Key nutrients (omega-3 polyunsaturated fatty acids, dietary antioxidants, probiotics, and prebiotics) have the potential to modulate inflammatory and oxidative responses and, therefore, could be considered in the search for adverse complication prevention means as long as antineoplastic treatment efficiency is maintained. Future Directions: There is a need to better understand the relationship between cardiometabolic complications, OxS, inflammation and diet during pediatric cancer treatment, which represents the ultimate goal of this review. Antioxid. Redox Signal. 35, 293-318.

Dietary Polyphenols in Cancer Chemoprevention: Implications in Pancreatic Cancer

Naturally occurring dietary agents present in a wide variety of plant products, are rich sources of phytochemicals possessing medicinal properties, and thus, have been used in folk medicine for ages to treat various ailments. The beneficial effects of such dietary components are frequently attributed to their anti-inflammatory and antioxidant properties, particularly in regards to their antineoplastic activities. As many tumor types exhibit greater oxidative stress levels that are implicated in favoring autonomous cell growth activation, most chemotherapeutic agents can also enhance tumoral oxidative stress levels in part via generating reactive oxygen species (ROS). While ROS-mediated imbalance of the cellular redox potential can provide novel drug targets, as a consequence, this ROS-mediated excessive damage to cellular functions, including oncogenic mutagenesis, has also been implicated in inducing chemoresistance. This remains one of the major challenges in the treatment and management of human malignancies. Antioxidant-enriched natural compounds offer one of the promising approaches in mitigating some of the underlying mechanisms involved in tumorigenesis and metastasis, and therefore, have been extensively explored in cancer chemoprevention. Among various groups of dietary phytochemicals, polyphenols have been extensively explored for their underlying chemopreventive mechanisms in other cancer models. Thus, the current review highlights the significance and mechanisms of some of the highly studied polyphenolic compounds, with greater emphasis on pancreatic cancer chemoprevention.