Talk to today’s medical scientists studying the disease-prevention properties of plant foods and most would tell you that a fast-rising star is the black raspberry, one of Nature’s most powerful antioxidant fruits.
Particularly in the prevention of cancer, black raspberries are revealing remarkable effects as anti-tumor agents in laboratory research. In pursuit of this important finding, over the past six years no other fruit has had as much progress toward human clinical trials as the black raspberry.
Let’s have a look at the scientific and health foundations for the benefits of including black raspberries in your diet.
How many species of black raspberries are commonly available to the general consumer?
In Canada and the US, there are two main species called Rubus occidentalis L. and Rubus eucodermis L. Rubus (a genus of plants in the family Rosaceae, subfamily Rosoidea). The Rubus is characterized by rose-like thorns along vines forming brambles that grow as irregular canes ranging from one to four meters in length. It is conventional to include black raspberries among other Rubus berries (red raspberries, blackberries, boysenberries, loganberries) as “brambleberries” or “caneberries” that have grown native in North America since recorded time.
How is the black raspberry different from other Rubus species?
Often called “blackcaps” by berry farmers, black raspberries are the smallest and bluest of the Rubus berries. Scientific assays of blackcap phytochemicals reveal the densest and most avid pigmentation among North American plants–so strong that the US Department of Agriculture used black raspberry juice as stamp dye on meats for several decades. Scientific tests have described blackcaps with the richest contents of pigment antioxidants among North American berries (as described further below).
Where do blackcaps grow and what markets are served?
Black raspberries grow primarily in the western US and in British Columbia. They prefer wet, mild winters and humid, warm summers and are harvested over the month of July. Oregon’s Willamette Valley, especially, is noted for black raspberries accounting for 95% of total US production or about 4 million pounds per year. Only 5% of black raspberries are sold fresh. The market for processing to provide year-round supplies of frozen (immediately quick frozen, IQF), pureed or concentrated juice products makes up the rest.
What qualities of black raspberries appeal to consumers?
The intense pigmentation qualities mentioned above derive from a rich concentration and diversity of phenolic acid antioxidants in blackcaps. Phenolics give black raspberries several distinctive taste and chemical qualities, including high acidity (pH of about 3.5), semi-sweet taste (brix of about 10 in IQF fruit, 17 in puree) and a special tangy full-bodied taste that appeals to most people, including children. Blackcaps are very versatile regular in dessert recipes.
Over the past few years, research primarily at Ohio State University by Dr. Gary Stoner and colleagues has shown exciting - even astonishing - results of black raspberry phenolic extracts and whole berries themselves on colon and esophageal cancers in experimental animals. The focus has been on the antioxidant qualities particularly of ellagic and ferulic acids (both phenolic antioxidants) from blackcaps.
Black raspberries are one of the world’s most promising tools from plant foods in the fight against cancer. They are now entering human clinical trials supervised by Dr. Stoner.
What are oxidants and antioxidants?
Moment by moment throughout the cells of our bodies, free radicals (i.e., oxidants or radical oxygen species) are continuously being generated by normal metabolism. Exposure to toxins in the environment, or irradiation, increases free radical production. Free radicals are unstable atoms having potential to damage cells and alter genes if not quickly neutralized.
Our bodies defend against oxidation through enzymes called dismutases, catalases, reductases and peroxidases. Also, our diet provides a host of chemicals serving antioxidant roles. These chemicals include: vitamins A, C and E; minerals like selenium, manganese and zinc; and pigments from the plant foods we eat.
In black raspberries, phenolic pigments like ellagic and ferulic acids are the major antioxidant source.
What are other pigments present in black raspberries?
The rich color of black raspberries comes from numerous chemicals of the phenolic super-family that is a class of several thousands of members serving plants as pigments. Black raspberry antioxidant strength is proportional to the intensity of the dye from its pigments.
A major subgroup of pigment phenolics is the flavonoid group that is densely populated in blackcaps. One flavonoid class in particular - anthocyanins - accounts for most of the blue-red-black pigmentation of black raspberries. In addition to anthocyanins, however, are ellagic acid, ferulic acid, gallic acid, rutin and cyanidin glycosides (phenolics identified by Dr. Stoner and colleagues as important anticarcinogens in blackcaps). Vitamin C, a universal antioxidant, is also well concentrated in black raspberries (about 2 mg per 100 grams of fruit), as is calcium (32 mg per 100 grams).
Is there a way to measure antioxidant quality of a plant food and how well do black raspberries perform?
Yes, a test called ORAC (oxygen radical absorbance capacity) is performed on a food sample in a test tube. Then, the strength of antioxidant is measure by how well it neutralizes free radicals.
At Oregon State University, black raspberries have been tested for ORAC against other berries and plant foods (first analyzed in a 2004 ORAC report by US Department of Agriculture scientists). Black raspberries had the highest ORAC among other caneberries, fruits or vegetables analyzed measuring 3 times higher ORAC than blackberries or red raspberries.
Plants with pale skins and white pulps like pears and some apples have low ORAC whereas dark fruit like black raspberries, blueberries and cranberries have relatively high ORAC.
What does a high ORAC from black raspberries mean for health protection?
The answer to this question requires actual clinical research in humans (being performed but still preliminary) but the scientific evidence points to widespread protection against numerous diseases by having a diet rich in high-ORAC foods like black raspberries.
What are some diseases that evolve from free radicals and what can we do to counter oxidative stress?
Growing scientific evidence shows that nearly every disease involves free radicals to some extent. Cancer, heart and vascular disease, diabetes, inflammation and neurological disorders all have strong components of oxidative stress. Premature aging and diseases of the elderly such as macular degeneration are thought to result from oxidative damage to cells as well.
The laboratory studies by Dr. Stoner point to the importance of oxidative factors in colon and esophageal cancer, and to the potential protective role of phenolics from black raspberries or other antioxidant-rich plant foods.
Consumers can enjoy the pleasures of dark berries in their diets while likely gaining antioxidant protection from berry phenolics. Why wait for positive results from the years of clinical research ahead? The preliminary evidence and pleasurable eating qualities of black raspberries should be enough to warrant including these berry treasures in your diet now
ScienceDaily (May 2, 2002) — COLUMBUS, Ohio — There is a potentially powerful biological weapon for health — a mix of compounds suspected of thwarting colon cancer — hiding deep inside the juicy sweetness of a black raspberry. And if it can be harnessed, it could play a major role in preventing the second leading cause of cancer deaths in the United States.
In a recent study, rats that were injected with a cancer-causing agent and then fed a berry-rich diet had 80 percent fewer malignant tumors compared to rats that had no berries in their diet.
For years, scientists have touted the health benefits of eating fruits and vegetables. They’re only now starting to gain an understanding of what compounds give certain foods a healthful edge. Black raspberries are rich in several substances thought to have cancer-preventing properties, said Gary Stoner, a study co-author and a professor of public health at Ohio State University. Stoner is also a researcher at the university’s Comprehensive Cancer Center.
Such substances are called antioxidants. The researchers also compared the antioxidant activity of black raspberries to that of blueberries and strawberries, two fruits with suspected chemopreventive effects. Black raspberries prevailed in the comparison by as much as 40 percent.
“We were surprised by how much difference there was between the antioxidant activity of the raspberries vs. the other fruits,” Stoner said.
The research appears in the current issue of the journal Nutrition and Cancer.
Rats were injected with azoxymethane (AOM), a carcinogen that causes colon tumors. After two weeks of exposure to AOM, the animals were placed into four groups and fed diets mixed with 0, 2.5, 5 or 10 percent freeze-dried black raspberries. Two additional groups of rats, which did not receive AOM, served as controls. The two latter groups were fed a diet containing 0 or 5 percent freeze-dried black raspberries, respectively.
Nine weeks after the final injection of AOM, researchers looked for the development of tiny lesions in the colon called aberrant crypt foci (ACF). Although ACF rarely occur in humans, the lesions can develop into polyps in rats. In humans, polyps are benign masses of tissue which, if left untreated, could develop into malignant tumors.
Every rat injected with the carcinogen AOM developed the ACF lesions. While most of these lesions go away on their own, Stoner said, some may eventually develop into malignant tumors. In rats fed diets supplemented with black raspberries, the number of malignant tumors seemed to correspond with the amount of freeze-dried berries fed to a rat — the more berries a rat ate, the fewer tumors it had.
At the end of the study, the prevalence of adenocarcinomas or malignant tumors was reduced by 80 percent in the rats that ate the most black raspberries in their diets. “That’s a much higher reduction than I thought we’d see,” Stoner said.
Adenocarcinomas were reduced by 28 and 35 percent, respectively, in the groups eating diets of 2.5 and 5 percent black raspberries. This reduction is based on the average number of tumors found in rats that had been injected with AOM and fed a berry-free diet.
The tumors were smaller in the rats that ate freeze-dried berries — diets of 2.5, 5 and 10 percent yielded reductions in tumor size of 28, 42 and 75 percent, respectively, when compared to the animals not fed the berries.
The researchers also measured urinary levels of 8-OHdG — a compound that is related to the degree of oxidative damage in the body. The process of oxidation produces free radicals, which can damage cells as well as genetic material. Free radicals are thought to play a role in the onset of cancer.
Berries reduced the level of 8-OHdG in the urine by 73, 81 and 83 percent in the 2.5, 5 and 10 percent berry diets, respectively. “This suggests that berries bind up a good portion of free radicals, preventing them from causing damage in the body,” Stoner said.
In addition to measuring the levels of some of these chemopreventive compounds, Stoner and his colleagues compared the antioxidant activity of the black raspberries to that of strawberries and blueberries. Previous studies suggested that these two fruits had antioxidant activity superior to that of other fruits commonly eaten in the United States, but researchers had not studied black raspberries.
Using a device that measured each fruit’s ability to absorb free radicals, the researchers found that black raspberries topped the charts: these berries exhibited 11 percent more antioxidant activity than did blueberries and 40 percent more than strawberries.
One reason for the raspberries’ seemingly stellar health advantage may be their richness in compounds such as anthocyanins, which give berries their almost-black pigment; phenols, such as ellagic, coumaric and ferulic acid; calcium; and vitamins such as A, C, E and folic acid. All of these substances are known chemopreventive agents, Stoner said.
Fresh black raspberries are undoubtedly beneficial, but they are also expensive and can be hard to come by. Freeze-dried berries have as much nutritional content as fresh berries do, but the freeze-dried version isn’t readily available to consumers, Stoner said. He tells people to hold off on getting discouraged, though.
“The results of this study would translate in humans to eating two large bowls — or four cups — of fresh black raspberries each day,” he said. “That may seem a bit extreme. People need to know that these animals are given whopping doses of a carcinogen. It’s conceivable that a much lower dose would be effective in humans.”
It’s also good to keep in mind that the National Cancer Institute continues to recommend four to six helpings of fruits and vegetables each day. “We’re just suggesting that people make one of those helpings berries,” Stoner said.
The research was supported in part by a grant from the Ohio Department of Agriculture.
Stoner conducted the research with Ashok Gupta, Ronald Nines, Laura Kresty, Wendy Frankel, Suzy Habib, Krista La Perle and professor of food science and nutrition Steven Schwartz, all with Ohio State; Gabriel Harris of the National Institute of Occupational Safety and Health in Morgantown, W. Va.; and Daniel Gallaher of the University of Minnesota, Twin Cities
Black Raspberries
| Black Raspberries |
|
Source: Oregon Raspberry & Blackberry Commission
Oxygen Radical Absorbance Capacity (ORAC), Anthocyanin, and Ellagic Acid Values
Recent testing has confirmed that Oregon black raspberries have astonishingly high antioxidant levels. Antioxidant levels, shown in terms of their oxygen radical absorption capacity (ORAC), are a measure of a substance’s ability to absorb oxygen free radicals. Oxygen free radicals can damage DNA, cause cellular change, oxidize LDL cholesterol, and cause premature mental aging. Consuming foods high in antioxidants helps prevent cancer, heart disease, stroke, and possibly Alzheimer’s Disease. When compared to other foods, black raspberries have extremely high ORAC values. They are also among the highest foods in anthocyanins. Anthocyanins give foods like black raspberries their deep, dark color and have been shown to have anti-inflammatory and vasoprotective properties. Research has linked anthocyanins with improved vision, cardiovascular health, memory retention in old age and reduced risk of hypertension.
Source: Oregon Raspberry & Blackberry Commission
Other Nutraceutical Values of Black Raspberries
| Black Raspberry | |
| Anthocyanins | 214-589 mg/100 g |
| Ellagic Acid | 5.37 mg/g dry wt |
| ORAC | 77 umole TE/g |
Source: Oregon Raspberry & Blackberry Commission
Health Benefits
Black Raspberries contain an extremely dark pigment which allows them to be used as a colorant and gives black raspberries one of the highest antioxidant ratings in common fruits and berries. Rich in ellagic acid, anthocyanins and antioxidants, black raspberries have been called the “king of berries” for their superior health benefits.
Studies at Ohio State University have found significant decreases in colon tumors in rats and esophageal tumors in mice fed a diet with black raspberries. In vitro studies have shown that extracts of raspberries and blackberries may slow the growth of breast cervical, colon and esophageal cancers. Human clinical trials are underway to assess the effects of black raspberries on colon and esophageal cancers in humans.
Typical Composition and Nutrition Values of Black Raspberries
(based on major types of packs)
|
Amount in 100g
|
IQF
|
Puree
|
| Brix ( Brix) |
9.8-11.8
|
10.5-18.0
|
| Calories (Kcal) |
72.54
|
60.11
|
| Calories from fat (Kcal) |
0.14
|
0.63
|
|
Nutrients
|
||
| Lipids (g) |
0.02
|
0.07
|
| Total Carbohydrates (g) |
16.75
|
14.12
|
| Dietary Fiber (g) |
1.68
|
2.17
|
| Sugar (g) |
5.15
|
4.44
|
| Protein (g) |
1.35
|
0.75
|
| Vitamin A (IU) |
38.00
|
<30.00
|
| Vitamin C (mg) |
2.38
|
1.47
|
| Calcium (mg) |
32.00
|
21.00
|
| Iron (mg) |
1.35
|
031
|
| Sodium (mg) |
.0.51
|
1.30
|
Source: Oregon Raspberry & Blackberry Commission
Nutritional Profile of Black Raspberries (Rubus spp.)
(Source: USDA National Nutrient Database for Standard Reference)
| Nutrients | 1 cup fresh | 1 cup canned, heavy syrup packed | 1 cup unthawed, sweetened frozen |
|---|---|---|---|
| Weight | 123 grams | 256 grams | 250 grams |
| Calories | 64 | 233 | 258 |
| Protein | 1.48 grams | 2.12 grams | 1.75 grams |
| Lipid (fat) | .80 grams | 0.31 grams | 0.40 grams |
| Carbohydrate, by difference | 14.69 grams | 59.80 grams | 65.40 grams |
| Fiber, total dietary | 8.0 grams | 8.4 grams | 11.0 grams |
| Sugars, total | 5.44 grams | 51.35 grams | 54.40 grams |
| Sucrose | .25 grams | ||
| Glucose (dextrose) | 2.29 grams | ||
| Fructose | 2.89 grams | ||
| Calcium | 31 mg | 28 mg | 38 mg |
| Iron | 0.85 mg | 1.08 mg | 1.62 mg |
| Magnesium | 27 mg | 31 mg | 32 mg |
| Phosphorus | 36 mg | 23 mg | 42 mg |
| Potassium | 186 mg | 241 mg | 285 mg |
| Sodium | 1 mg | 8 mg | 2 mg |
| Zinc | 0.52 mg | 0.41 mg | 0.46 mg |
| Copper | 0.111 mg | 0.146 mg | 0.263 mg |
| Manganese | 0.824 mg | 0.596 mg | 1.625 mg |
| Selenium | 0.2 mcg | 0.3 mcg | 0.8 mcg |
| Vitamin C, total ascorbic acid | 32.2 mg | 22.3 mg | 41.2 mg |
| Thiamin | 0.039 mg | 0.051 mg | 0.048 mg |
| Riboflavin | 0.047 mg | 0.079 mg | 0.113 mg |
| Niacin | 0.736 mg | 1.134 mg | 0.575 mg |
| Pantothenic acid | 0.405 mg | 0.627 mg | 0.375 mg |
| Vitamin B-6 | 0.068 mg | 0.108 mg | 0.085 mg |
| Folate, total | 26 mcg | 28 mcg | 65 mcg |
| Folate, food | 26 mcg | 28 mcg | 65 mcg |
| Folate, DFE | 26 mcg_DFE | 28 mcg_DFE | 65 mcg_DFE |
| Vitamin A, IU | 41 IU | 84 IU | 150 IU |
| Vitamin A, RAE | 2 mcg_RAE | 6 mcg_RAE | 8 mcg_RAE |
| Vitamin E (alpha-tocopherol) | 1.07 mg | 1.51 mg | 1.80 mg |
| Tocopherol, beta | 0.07 mg | ||
| Tocopherol, gamma | 1.75 mg | ||
| Tocopherol, delta | 1.28 mg | ||
| Vitamin K (phylloquinone) | 9.6 mcg | 13.3 mcg | 16. 3 mcg |
Researchers at the University of Southern Maine are trying to invent a pill to supplement fruits and vegetables to decrease cancer risk and improve health.
Visiting Libra Scholar John Lechner is working on creating a pill packed with cancer-fighting nutrients in USM?s Wise Laboratory of Environmental and Genetic Toxicology.
Lechner is building on research he began at the Comprehensive Cancer Center
of The Ohio State University. There, he fed rats suffering from esophageal cancer a diet of five percent freeze-dried black raspberries, a berry commercially grown in Ohio, and observed a reduction in those cancers.
He also provided another group of cancer-bearing animals drinking water laced with red beet juice and observed cancer reduction.
At USM, he is feeding laboratory mice the beet juice water in the hope of finding that it will stop the animals from getting lung cancer.
Plans also are underway to investigate the benefits of compounds found in fish, and discussions have begun to start human trials that would attempt to reduce free radicals that negatively affect the health of diabetes patients.