Tag Archive for: cancer

Nutrition During Cancer Treatment

Nutrition plays an important role in overall cancer treatment and healing.

Cancer treatments include chemotherapy, radiation therapy, surgery, immunotherapy, and T-cell therapy.  No matter which cancer diagnosis, mechanism of onset, or even genetic predisposition, a nutritious diet, together with regular physical activity, is vital for not only cancer prevention but also for treatment and recovery.

Should I only eat organic foods?

Let us first mention: the benefits of eating fruits and vegetables far surpass any risk associated with pesticides- organic or not.

Cancer is a costly disease. Buying organic foods also be costly. Organic foods can be nutritious, however, there is no strong evidence to support organic being more nutritious than conventionally grown foods.

Organic foods are produced using farming practices that restrict the use of certain but not all pesticides and fertilizers. Most synthetics are prohibited in organicunless there is no naturally occurring alternative.

Organic or not, fruits and vegetables properly cleaned can be safely consumed during cancer treatment Neutropenic patients should talk to their dietitian and oncologist before consuming raw fruits and vegetables.

Does sugar feed cancer?

Nutrients feed cells. Therefore, all nutrients- carbohydrates, proteins, and fats feed cancer.

This myth comes from two facts that alone are true, but together, they are out of context. 1) Excess consumption of high-sugar foods can lead to excess adipose tissue and 2) Increased body fat can increase the risk of developing diseases, such as cancer.

Carbohydrates come from fruits, vegetables, grains, dairy, and of course, sugar. Although the science is much more complex, when we consume carbohydrates, our body breaks this down to be used for energy. Glucose is the primary source of energy our brains and muscles use for energy.

Carbohydrates are the ideal source of energy our bodies use, although, when there are not enough carbohydrates on board, our bodies resort to using fat and protein.

We must remember to look at the source of sugar! Highly-refined, high-calorie foods that may contain added sugars are traditionally low in nutrients and dietary fiber. Foods like these have been associated with insulin resistance and increased risk of developing diseases.

Consuming carbohydrate sources such as fruits and vegetables, grains, and dairy means a diet rich in vitamins,
minerals, and phytochemicals that can help to defend the body against cancer and other diseases.

How do I prevent weight loss?

Maintaining weight can seem like an uphill battle during chemotherapy. On days when you have an appetite, try to get enough calories, protein, vitamins, and minerals. This is important in controlling weight loss. Chemotherapy and other medications can cause loss of appetite and dysgeusia (altered taste). Some tips to prevent weight loss and increase calorie content include:

  • Replacing water or broth with milk in soups and cooked cereals
  • Adding butter, salad dressing, and oils to vegetables
  • Adding extra protein to soups by slicing cooked egg white into the soup
  • Eating when you do have an appetite

If you are doing your treatment at an in-patient facility, your weight is monitored very closely, and the oncology dietitian works closely with your oncologist to prevent extreme and rapid weight loss.

How do I deal with nausea and vomiting?

There is some evidence that ginger may be helpful in further reducing or eliminating nausea and vomiting during and after chemotherapy treatments. Some patients find chewing gum helps with reducing nausea and vomiting. If the smell of food makes you nauseous, try avoiding strong spices and seasonings. Call in some help from friends and family members if preparing foods makes it hard to have an appetite.

Cancer is a disease that impacts everyone in the patient’s support network. If you have questions about nutrition during cancer treatment and recovery, contact our dietitians at Banister Nutrition at 405-755-7561.

KD

American Institute for Cancer Research. Available at www.aicr.org. Accessed January 15, 2020.
Barański, M., Średnicka-Tober, D., Volakakis, N., Seal, C., Sanderson, R., Stewart, G., . . . Leifert, C. (2014). Higher antioxidant and lower cadmium concentrations and lower incidence of pesticide residues in organically grown crops: A systematic literature review and meta-analyses. British Journal of Nutrition, 112(5), 794-811. doi:10.1017/S0007114514001366
Dangour AD, Dodhia SK, Hayter A et al. (2009) Nutritional quality of organic foods: a systematic review. American Journal of Clinical Medicine, 90, 680-685.
Smith-Spangler C, Brandeau ML, Hunter GE et al. (2012) Are organic foods safer or healthier than conventional alternatives? A systematic review.  Annals of Internal Medicine, 157, 348-366.

Blueberries help in the fight against cancer.

Summertime is the best time to explore in-season fruits.

Blueberries are in abundance and offer a wide variety of options when it comes to meals and snacks.

At 80 calories per one cup serving, blueberries provide a great source of antioxidants, fiber, vitamin C, vitamin K, and magnesium.

A handful of blueberries can be added to yogurt, mixed in pancake or waffle batters, and even pureed to compliment a salad vinaigrette. The possibilities are truly endless.

Blueberries are rich in flavonoids (mainly anthocyanidins), which have anti-cancer properties. The anthocyanins and polyphenols in blueberries are major functional ingredients for preventing disease.

A 2017 study in Pathology & Oncology Research, demonstrated that blueberries also exhibit inherent abilities to prevent carcinogenesis, inhibit the proliferation of neoplastic cells, and reduce the risks of recurrence in patients in remission. 

Many cancer research studies support that blueberries may be one of the best functional fruits in the health role of preventing chronic disease. Anthocyanins encourage our immune system to function properly, prevent DNA damage and regulate our hormones.

KD

Davidson, K.T., Zhu, Z., Balabanov, D. et al. Pathol. Oncol. Res. (2018) 24: 733. https://doi.org/10.1007/s12253-017-0376-2