Difference between revisions of "Fiber"

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* Fiber reduces the [[Glycemic Index]] of foods, which may be why fiber reduces subsequent hunger<ref name="Holt-1992"/><ref name="Bourdon-1999"/><ref name="Leathwood-1988"/>.
 
* Fiber reduces the [[Glycemic Index]] of foods, which may be why fiber reduces subsequent hunger<ref name="Holt-1992"/><ref name="Bourdon-1999"/><ref name="Leathwood-1988"/>.
 
* Fiber reduces the energy that is absorbed from other (non-fiber) food<ref name="Heaton-1973"/>.
 
* Fiber reduces the energy that is absorbed from other (non-fiber) food<ref name="Heaton-1973"/>.
 +
* It's probable that the benefits of fiber are linked to consuming high fiber foods rather than fiber supplements.
 +
* The characteristics of the fiber (solubility, fermentability, viscosity) are important in determining the impact on weight<ref name="SchroederMarquart2013"/>.
 
=Other Health Benefits=
 
=Other Health Benefits=
 
There are a number of other health benefits from increased fiber intake.  
 
There are a number of other health benefits from increased fiber intake.  
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* '''Viscous and non-viscous.''' Some fibers form a thick, viscous gel tends to slow digestion and reduce cholesterol levels. Viscus can also fibers also help more with constipation.  
 
* '''Viscous and non-viscous.''' Some fibers form a thick, viscous gel tends to slow digestion and reduce cholesterol levels. Viscus can also fibers also help more with constipation.  
 
* '''Soluble and insoluble.''' A soluble fiber will disperse in water, while insoluble fiber will not. While soluble and insoluble fibers tend to have different characteristics, you need to consider other aspects of a fiber to understand it's impact on your health. Most insoluble fibers are non-fermentable, but soluble fibers can either be fermentable or non-fermentable. Likewise, insoluble fiber is generally non-viscus while soluble can be either.  
 
* '''Soluble and insoluble.''' A soluble fiber will disperse in water, while insoluble fiber will not. While soluble and insoluble fibers tend to have different characteristics, you need to consider other aspects of a fiber to understand it's impact on your health. Most insoluble fibers are non-fermentable, but soluble fibers can either be fermentable or non-fermentable. Likewise, insoluble fiber is generally non-viscus while soluble can be either.  
Depending on the combination of characteristics, there are different health benefits, as shown below<ref name="WoleverTosh2010"/>.  
+
These characteristics interact in complex ways, so all characteristics have to be considered together<ref name="SchroederMarquart2013"/>. Depending on the combination of characteristics, there are different health benefits, as shown below<ref name="McRorie2015"/>.  
 
{| class="wikitable"  
 
{| class="wikitable"  
 
! Soluble?
 
! Soluble?
Line 34: Line 36:
 
| No
 
| No
 
| No
 
| No
| Wheat bran
+
| Wheat bran, Cellulose
 
|  
 
|  
 
* Course particles can irritate the digestive tract, which may reduce constipation.  
 
* Course particles can irritate the digestive tract, which may reduce constipation.  
Line 41: Line 43:
 
* No increase in flatulence.  
 
* No increase in flatulence.  
 
* No calorific value.  
 
* No calorific value.  
 +
* May encourage meal termination<ref name="SchroederMarquart2013"/>.
 
|-
 
|-
 
| Yes
 
| Yes
Line 54: Line 57:
 
* Possible cholesterol reduction<ref name="WoleverTosh2010"/><ref name="GuoLiu2012"/>
 
* Possible cholesterol reduction<ref name="WoleverTosh2010"/><ref name="GuoLiu2012"/>
 
* No clinically supported health benefits.
 
* No clinically supported health benefits.
* Some calorific value.
+
* 1.5-2.5 Cal/g <ref name="Smith-1998"/><ref name="Livesey-1990"/>.
 
|-
 
|-
 
| Yes
 
| Yes
Line 67: Line 70:
 
* Reduces Cholesterol.
 
* Reduces Cholesterol.
 
* No reduction in constipation or diarrhea.
 
* No reduction in constipation or diarrhea.
* Some calorific value.
+
* 1.5-2.5 Cal/g <ref name="Smith-1998"/><ref name="Livesey-1990"/>
 
 
 
|-
 
|-
 
| Yes
 
| Yes
 
| Yes
 
| Yes
 
| No
 
| No
| Psyllium (Metamucil)  
+
| Psyllium (Metamucil), Methylcellulose (Citrucel)
 
|  
 
|  
 
* Dissolves in water to form a thick gel (think of cooked oatmeal/ porridge).  
 
* Dissolves in water to form a thick gel (think of cooked oatmeal/ porridge).  
Line 82: Line 84:
 
* Reduces both constipation and diarrhea, normalizing stools.
 
* Reduces both constipation and diarrhea, normalizing stools.
 
* No calorific value.
 
* No calorific value.
 +
* May reduce weight gain and encourage meal termination<ref name="SchroederMarquart2013"/>.
 
|}
 
|}
 
Here's the same information in an alternative layout.  
 
Here's the same information in an alternative layout.  
 
{| class="wikitable"  
 
{| class="wikitable"  
 
!  
 
!  
! Wheat bran
+
! Wheat bran, Cellulose
 
! Inulin, wheat dextrin, oligosaccharides, resistant starches
 
! Inulin, wheat dextrin, oligosaccharides, resistant starches
 
! Oats, Barley, Guar Gum
 
! Oats, Barley, Guar Gum
! Psyllium (Metamucil)
+
! Psyllium (Metamucil), Methylcellulose (Citrucel)
 
|-
 
|-
 
| Improve digestive bacteria?
 
| Improve digestive bacteria?
Line 129: Line 132:
 
| Calories?
 
| Calories?
 
| No
 
| No
| Yes
+
| 1.5-2.5 Cal/g <ref name="Smith-1998"/><ref name="Livesey-1990"/>
| Yes
+
| 1.5-2.5 Cal/g <ref name="Smith-1998"/><ref name="Livesey-1990"/>
 
| No
 
| No
 +
|-
 +
|
 +
|
 +
|
 +
|
 +
|
 
|}
 
|}
 
=Sources of Fiber=
 
=Sources of Fiber=
Line 334: Line 343:
 
<ref name="GuoLiu2012">Zhuang Guo, Xiao-Ming Liu, Qiu-Xiang Zhang, Feng-Wei Tian, Hao Zhang, He-Ping Zhang, Wei Chen, Effects of inulin on the plasma lipid profile of normolipidemic and hyperlipidemic subjects: a meta-analysis of randomized controlled trials, Clinical Lipidology, volume 7, issue 2, 2012, pages 215–222, ISSN [http://www.worldcat.org/issn/1758-4299 1758-4299], doi [http://dx.doi.org/10.2217/clp.12.8 10.2217/clp.12.8]</ref>
 
<ref name="GuoLiu2012">Zhuang Guo, Xiao-Ming Liu, Qiu-Xiang Zhang, Feng-Wei Tian, Hao Zhang, He-Ping Zhang, Wei Chen, Effects of inulin on the plasma lipid profile of normolipidemic and hyperlipidemic subjects: a meta-analysis of randomized controlled trials, Clinical Lipidology, volume 7, issue 2, 2012, pages 215–222, ISSN [http://www.worldcat.org/issn/1758-4299 1758-4299], doi [http://dx.doi.org/10.2217/clp.12.8 10.2217/clp.12.8]</ref>
 
<ref name="BlachierAdam2015">François Blachier, Clare L. Adam, Lynn M. Thomson, Patricia A. Williams, Alexander W. Ross, Soluble Fermentable Dietary Fibre (Pectin) Decreases Caloric Intake, Adiposity and Lipidaemia in High-Fat Diet-Induced Obese Rats, PLOS ONE, volume 10, issue 10, 2015, pages e0140392, ISSN [http://www.worldcat.org/issn/1932-6203 1932-6203], doi [http://dx.doi.org/10.1371/journal.pone.0140392 10.1371/journal.pone.0140392]</ref>
 
<ref name="BlachierAdam2015">François Blachier, Clare L. Adam, Lynn M. Thomson, Patricia A. Williams, Alexander W. Ross, Soluble Fermentable Dietary Fibre (Pectin) Decreases Caloric Intake, Adiposity and Lipidaemia in High-Fat Diet-Induced Obese Rats, PLOS ONE, volume 10, issue 10, 2015, pages e0140392, ISSN [http://www.worldcat.org/issn/1932-6203 1932-6203], doi [http://dx.doi.org/10.1371/journal.pone.0140392 10.1371/journal.pone.0140392]</ref>
 +
<ref name="SchroederMarquart2013">Natalia Schroeder, Len Marquart, Daniel Gallaher, The Role of Viscosity and Fermentability of Dietary Fibers on Satiety- and Adiposity-Related Hormones in Rats, Nutrients, volume 5, issue 6, 2013, pages 2093–2113, ISSN [http://www.worldcat.org/issn/2072-6643 2072-6643], doi [http://dx.doi.org/10.3390/nu5062093 10.3390/nu5062093]</ref>
 +
<ref name="McRorie2015">Johnson W. McRorie, Evidence-Based Approach to Fiber Supplements and Clinically Meaningful Health Benefits, Part 1, Nutrition Today, volume 50, issue 2, 2015, pages 82–89, ISSN [http://www.worldcat.org/issn/0029-666X 0029-666X], doi [http://dx.doi.org/10.1097/NT.0000000000000082 10.1097/NT.0000000000000082]</ref>
 
</references>
 
</references>

Latest revision as of 05:04, 15 April 2017

A salad is a great way of getting fiber.

Fiber is an essential part of a healthy diet, and is frequently misunderstood. Fiber does far more than prevent constipation, helping with weight loss and overall health. Fiber is broadly defined as edible food that cannot be digested in the small intestine, and while some fiber is completely indigestible, other types can be partly digested further down the digestive tract.

1 Weight Loss and Fiber

One of the key benefits of fiber is to help with weight loss and weight control. Fiber can help with weight loss in many ways:

  • Fiber can slow the emptying of the stomach, and delay the absorption of nutrients in the small intestine. This produces a feeling of fullness for longer[1] and fiber (30g/day) reduces hunger from low calorie diets[2].
  • Higher fiber intake is linked to long term weight control[3][4][5][6].
  • Fiber displaces the more energy dense components of food[7] and can reduce the absorption of fat and protein[8].
  • Calories from fiber that is fermented varies between 1.5 and 2.5 Calories/gram[9][8].
  • Fiber reduces the Glycemic Index of foods, which may be why fiber reduces subsequent hunger[7][10][11].
  • Fiber reduces the energy that is absorbed from other (non-fiber) food[12].
  • It's probable that the benefits of fiber are linked to consuming high fiber foods rather than fiber supplements.
  • The characteristics of the fiber (solubility, fermentability, viscosity) are important in determining the impact on weight[13].

2 Other Health Benefits

There are a number of other health benefits from increased fiber intake.

  • Some fiber is fermented in the colon by bacteria. This fermentation produces carbon dioxide, methane, hydrogen, and short-chain fatty acids. These short chain fatty acids are the preferred fuel for the cells in the colon[14] and if they are lacking they may cause Ulcerative colitis[15][16] and the colon cells to self-digest[17].
  • Some, but not all, types of fiber will reduce constipation. For instance, Guar Gum is highly fermentable and does not change stool consistency[18].
  • Some types of fiber can normalize cholesterol levels[19].
  • Cereal fiber provides substantial protection from Coronary Heart Disease[20][21][22]. (There is little evidence for other types of fiber[19].)
  • Fiber may provide protection against colorectal cancer, though the evidence is not conclusive[23][24]. In addition, fiber may protect against breast cancer[25].

3 Increasing Your Fiber Intake

Rapidly increasing your fiber intake can cause digestive pain, bloating and flatulence. These problems can be minimized or avoided by increasing your fiber intake gradually. It is also important to increase your fluid intake along with your fiber intake, as fiber will absorb several times its weight in water. The health benefits of fiber may not be achievable with fiber supplements.

4 Types of Fiber

There are several ways of classifying fiber[26]:

  • Fermentable and non-fermentable. While the fiber cannot be digested directly by humans, it can be fermented by bacteria that naturally live in the colon. This means that fermentable fiber helps keep your digestive bacteria healthy. These bacteria also tend to partly digest the fermentable fiber and the resulting short chain fatty acids are used by the digestive tract. Without soluble fiber, there are indications that the colon will be starved of this essential nutrition.
  • Viscous and non-viscous. Some fibers form a thick, viscous gel tends to slow digestion and reduce cholesterol levels. Viscus can also fibers also help more with constipation.
  • Soluble and insoluble. A soluble fiber will disperse in water, while insoluble fiber will not. While soluble and insoluble fibers tend to have different characteristics, you need to consider other aspects of a fiber to understand it's impact on your health. Most insoluble fibers are non-fermentable, but soluble fibers can either be fermentable or non-fermentable. Likewise, insoluble fiber is generally non-viscus while soluble can be either.

These characteristics interact in complex ways, so all characteristics have to be considered together[13]. Depending on the combination of characteristics, there are different health benefits, as shown below[27].

Soluble? Viscus? Fermentable? Examples Health impacts
No No No Wheat bran, Cellulose
  • Course particles can irritate the digestive tract, which may reduce constipation.
  • Finely ground particles such as whole-wheat bread, have little effect on health.
  • No cholesterol reduction.
  • No increase in flatulence.
  • No calorific value.
  • May encourage meal termination[13].
Yes No Yes Inulin, wheat dextrin, oligosaccharides, resistant starches
  • Dissolves completely in water.
  • Digestion by bacteria improves digestive health.
  • May rapidly increase flatulence.
  • No reduction in constipation or diarrhea.
  • No reduction in rate of digestion (does not reduce glycemic index).
  • Possible cholesterol reduction[28][29]
  • No clinically supported health benefits.
  • 1.5-2.5 Cal/g [9][8].
Yes Yes Yes Oats, Barley, Guar Gum, Pectin[30] (Apples, etc.)
  • Dissolves in water to form a thick gel (think of cooked oatmeal/ porridge).
  • Digestion by bacteria improves digestive health.
  • Slows nutrient absorption (lowering glycemic index.)
  • May increase flatulence.
  • Reduces Cholesterol.
  • No reduction in constipation or diarrhea.
  • 1.5-2.5 Cal/g [9][8]
Yes Yes No Psyllium (Metamucil), Methylcellulose (Citrucel)
  • Dissolves in water to form a thick gel (think of cooked oatmeal/ porridge).
  • No bacterial support.
  • Slows nutrient absorption (lowering glycemic index.)
  • No flatulence.
  • Reduces Cholesterol.
  • Reduces both constipation and diarrhea, normalizing stools.
  • No calorific value.
  • May reduce weight gain and encourage meal termination[13].

Here's the same information in an alternative layout.

Wheat bran, Cellulose Inulin, wheat dextrin, oligosaccharides, resistant starches Oats, Barley, Guar Gum Psyllium (Metamucil), Methylcellulose (Citrucel)
Improve digestive bacteria? No Yes Yes No
Slows nutrient absorption No No Yes Yes
Causes flatulence No Yes Yes No
Reduces Cholesterol No No Yes Yes
Reduces constipation? Only if coarse ground No No Yes
Normalizes stools? (Reduces both constipation and diarrhea) No No No Yes
Calories? No 1.5-2.5 Cal/g [9][8] 1.5-2.5 Cal/g [9][8] No

5 Sources of Fiber

Many good sources of fiber are also generally considered healthy foods, and there is a sample list below. In addition, it's worth noting that when pasta or rice is cooked and then left to go cold, some of the carbohydrate changes to form 'resistant starch', a form of fiber. A cup of cold pasta for instance, contains about 1.9 grams of resistant starch[31].

5.1 Legumes (beans)

Beans.jpg
Amount Fiber (grams)
Split peas, cooked 1 cup 16.3
Lentils, cooked 1 cup 15.6
Black beans, cooked 1 cup 15.0
Kidney beans, canned 1 cup 13.6
Lima beans, cooked 1 cup 13.2
Refried beans, canned 1 cup 12.2
Baked beans 1 cup 10.4

5.2 Grains

Pasta.jpg
Amount Fiber (grams)
Spaghetti, whole-wheat, cooked 1 cup 6.2
Barley, pearled, cooked 1 cup 6.0
Bran flakes 3/4 cup 5.3
Oatmeal, quick, regular or instant, cooked 1 cup 4.0
Popcorn, air-popped 3 cups 3.5
Brown rice, cooked 1 cup 3.5

5.3 Vegetables

SaladVeg.jpg
Amount Fiber (grams)
Artichoke hearts, cooked 1 cup 14.4
Peas, cooked 1 cup 8.8
Broccoli, boiled 1 cup 5.1
Sweet corn, cooked 1 cup 4.2
Brussels sprouts, cooked 1 cup 4.1
Potato, with skin, baked 1 medium 2.9
Tomato paste 1/4 cup 2.7
Carrot, raw 1 medium 1.7

5.4 Fruits

FruitPears.jpg

Fruits contain 0.5-1.5% Pectin by fresh weight.

Amount Fiber (grams)
Prunes, uncooked 1 cup, pitted 12.4
Pear, with skin 1 medium 5.5
Apple, with skin 1 medium 4.4
Strawberries (halves) 1 1/4 cup 3.8
Banana 1 medium 3.1
Orange 1 medium 3.1

5.5 Nuts

Nuts.jpg
Nuts Amount Fiber (grams)
Almonds 1 ounce (23 kernels) 3.5
Pistachio nuts 1 ounce (49 kernels) 2.9
Pecans 1 ounce (19 halves) 2.7
Peanuts 1 ounce 2.4

6 Flatulence

Flatulence (gas) is a constant source of both humor and embarrassment. Unfortunately, this embarrassment causes people to avoid high fiber foods, even when they understand the benefits. The major components of intestinal gas are nitrogen, hydrogen, carbon dioxide and methane, all of which are odorless. The actual odor comes from tiny amounts of compounds such as ammonia, hydrogen sulfide, other sulfur compounds, short chain fatty acids, etc. Even though only trace amounts are produced, the human nose can detect them in concentrations as low as 1 part in 100 million[32]. The amount of gas produced is proportional to fiber intake, but the intensity of the odor is independent of fiber intake[32]. Other factors, such as beer intake, increases flatulence odor but not quantity[32]. It's well known that beans and other legumes increase flatulence[33], so try different sources of fiber to find foods that do not cause problems. Also, live bacteria, which are found in fermented foods such as yoghurt, sauerkraut, etc., may reduce flatulence in people with irritable bowel syndrome[34][35]. Products such as Beano help reduce flatulence[36], but there is no evidence to determine if Beano will undermine the benefits of fiber. This is a concern given that Beano works by converting some of the fiber to simple sugars[37].

7 References

  1. CP. Sepple, NW. Read, Gastrointestinal correlates of the development of hunger in man., Appetite, volume 13, issue 3, pages 183-91, Dec 1989, PMID 2596841
  2. A. Astrup, E. Vrist, F. Quaade, Dietary fibre added to very low calorie diet reduces hunger and alleviates constipation., Int J Obes, volume 14, issue 2, pages 105-12, Feb 1990, PMID 2160441
  3. H. Du, DL. van der A, HC. Boshuizen, NG. Forouhi, NJ. Wareham, J. Halkjaer, A. Tjønneland, K. Overvad, MU. Jakobsen, Dietary fiber and subsequent changes in body weight and waist circumference in European men and women., Am J Clin Nutr, volume 91, issue 2, pages 329-36, Feb 2010, doi 10.3945/ajcn.2009.28191, PMID 20016015
  4. PN. Appleby, M. Thorogood, JI. Mann, TJ. Key, Low body mass index in non-meat eaters: the possible roles of animal fat, dietary fibre and alcohol., Int J Obes Relat Metab Disord, volume 22, issue 5, pages 454-60, May 1998, PMID 9622343
  5. WC. Miller, MG. Niederpruem, JP. Wallace, AK. Lindeman, Dietary fat, sugar, and fiber predict body fat content., J Am Diet Assoc, volume 94, issue 6, pages 612-5, Jun 1994, PMID 8195547
  6. JN. Davis, VA. Hodges, MB. Gillham, Normal-weight adults consume more fiber and fruit than their age- and height-matched overweight/obese counterparts., J Am Diet Assoc, volume 106, issue 6, pages 833-40, Jun 2006, doi 10.1016/j.jada.2006.03.013, PMID 16720124
  7. 7.0 7.1 S. Holt, J. Brand, C. Soveny, J. Hansky, Relationship of satiety to postprandial glycaemic, insulin and cholecystokinin responses., Appetite, volume 18, issue 2, pages 129-41, Apr 1992, PMID 1610161
  8. 8.0 8.1 8.2 8.3 8.4 8.5 G. Livesey, Energy values of unavailable carbohydrate and diets: an inquiry and analysis., Am J Clin Nutr, volume 51, issue 4, pages 617-37, Apr 1990, PMID 2138862
  9. 9.0 9.1 9.2 9.3 9.4 T. Smith, JC. Brown, G. Livesey, Energy balance and thermogenesis in rats consuming nonstarch polysaccharides of various fermentabilities., Am J Clin Nutr, volume 68, issue 4, pages 802-19, Oct 1998, PMID 9771857
  10. I. Bourdon, W. Yokoyama, P. Davis, C. Hudson, R. Backus, D. Richter, B. Knuckles, BO. Schneeman, Postprandial lipid, glucose, insulin, and cholecystokinin responses in men fed barley pasta enriched with beta-glucan., Am J Clin Nutr, volume 69, issue 1, pages 55-63, Jan 1999, PMID 9925123
  11. P. Leathwood, P. Pollet, Effects of slow release carbohydrates in the form of bean flakes on the evolution of hunger and satiety in man., Appetite, volume 10, issue 1, pages 1-11, Feb 1988, PMID 3355122
  12. KW. Heaton, Food fibre as an obstacle to energy intake., Lancet, volume 2, issue 7843, pages 1418-21, Dec 1973, PMID 4128728
  13. 13.0 13.1 13.2 13.3 Natalia Schroeder, Len Marquart, Daniel Gallaher, The Role of Viscosity and Fermentability of Dietary Fibers on Satiety- and Adiposity-Related Hormones in Rats, Nutrients, volume 5, issue 6, 2013, pages 2093–2113, ISSN 2072-6643, doi 10.3390/nu5062093
  14. WE. Roediger, Utilization of nutrients by isolated epithelial cells of the rat colon., Gastroenterology, volume 83, issue 2, pages 424-9, Aug 1982, PMID 7084619
  15. WE. Roediger, A. Duncan, O. Kapaniris, S. Millard, Reducing sulfur compounds of the colon impair colonocyte nutrition: implications for ulcerative colitis., Gastroenterology, volume 104, issue 3, pages 802-9, Mar 1993, PMID 8440437
  16. WE. Roediger, The colonic epithelium in ulcerative colitis: an energy-deficiency disease?, Lancet, volume 2, issue 8197, pages 712-5, Oct 1980, PMID 6106826
  17. DR. Donohoe, N. Garge, X. Zhang, W. Sun, TM. O'Connell, MK. Bunger, SJ. Bultman, The microbiome and butyrate regulate energy metabolism and autophagy in the mammalian colon., Cell Metab, volume 13, issue 5, pages 517-26, May 2011, doi 10.1016/j.cmet.2011.02.018, PMID 21531334
  18. JL. Slavin, Dietary fiber: classification, chemical analyses, and food sources., J Am Diet Assoc, volume 87, issue 9, pages 1164-71, Sep 1987, PMID 3040839
  19. 19.0 19.1 USDA, Dietary, Functional, and Total Fiber http://www.nal.usda.gov/fnic/DRI//DRI_Energy/339-421.pdf
  20. C. Bolton-Smith, M. Woodward, H. Tunstall-Pedoe, The Scottish Heart Health Study. Dietary intake by food frequency questionnaire and odds ratios for coronary heart disease risk. II. The antioxidant vitamins and fibre., Eur J Clin Nutr, volume 46, issue 2, pages 85-93, Feb 1992, PMID 1313760
  21. CG. Humble, AM. Malarcher, HA. Tyroler, Dietary fiber and coronary heart disease in middle-aged hypercholesterolemic men., Am J Prev Med, volume 9, issue 4, pages 197-202, PMID 8398218
  22. A. Wolk, JE. Manson, MJ. Stampfer, GA. Colditz, FB. Hu, FE. Speizer, CH. Hennekens, WC. Willett, Long-term intake of dietary fiber and decreased risk of coronary heart disease among women., JAMA, volume 281, issue 21, pages 1998-2004, Jun 1999, PMID 10359388
  23. SA. Bingham, NE. Day, R. Luben, P. Ferrari, N. Slimani, T. Norat, F. Clavel-Chapelon, E. Kesse, A. Nieters, Dietary fibre in food and protection against colorectal cancer in the European Prospective Investigation into Cancer and Nutrition (EPIC): an observational study., Lancet, volume 361, issue 9368, pages 1496-501, May 2003, PMID 12737858
  24. Y. Park, DJ. Hunter, D. Spiegelman, L. Bergkvist, F. Berrino, PA. van den Brandt, JE. Buring, GA. Colditz, JL. Freudenheim, Dietary fiber intake and risk of colorectal cancer: a pooled analysis of prospective cohort studies., JAMA, volume 294, issue 22, pages 2849-57, Dec 2005, doi 10.1001/jama.294.22.2849, PMID 16352792
  25. JY. Dong, K. He, P. Wang, LQ. Qin, Dietary fiber intake and risk of breast cancer: a meta-analysis of prospective cohort studies., Am J Clin Nutr, volume 94, issue 3, pages 900-5, Sep 2011, doi 10.3945/ajcn.111.015578, PMID 21775566
  26. Linus Pauling Institute at Oregon State University http://lpi.oregonstate.edu/infocenter/phytochemicals/fiber/
  27. Johnson W. McRorie, Evidence-Based Approach to Fiber Supplements and Clinically Meaningful Health Benefits, Part 1, Nutrition Today, volume 50, issue 2, 2015, pages 82–89, ISSN 0029-666X, doi 10.1097/NT.0000000000000082
  28. T. M. Wolever, S. M. Tosh, A. L. Gibbs, J. Brand-Miller, A. M. Duncan, V. Hart, B. Lamarche, B. A. Thomson, R. Duss, P. J. Wood, Physicochemical properties of oat -glucan influence its ability to reduce serum LDL cholesterol in humans: a randomized clinical trial, American Journal of Clinical Nutrition, volume 92, issue 4, 2010, pages 723–732, ISSN 0002-9165, doi 10.3945/ajcn.2010.29174
  29. Zhuang Guo, Xiao-Ming Liu, Qiu-Xiang Zhang, Feng-Wei Tian, Hao Zhang, He-Ping Zhang, Wei Chen, Effects of inulin on the plasma lipid profile of normolipidemic and hyperlipidemic subjects: a meta-analysis of randomized controlled trials, Clinical Lipidology, volume 7, issue 2, 2012, pages 215–222, ISSN 1758-4299, doi 10.2217/clp.12.8
  30. François Blachier, Clare L. Adam, Lynn M. Thomson, Patricia A. Williams, Alexander W. Ross, Soluble Fermentable Dietary Fibre (Pectin) Decreases Caloric Intake, Adiposity and Lipidaemia in High-Fat Diet-Induced Obese Rats, PLOS ONE, volume 10, issue 10, 2015, pages e0140392, ISSN 1932-6203, doi 10.1371/journal.pone.0140392
  31. Resistant Starch http://www.ndwheat.com/uploads%5Cresources%5C635%5Cresistant-starch-fact-sheet.pdf
  32. 32.0 32.1 32.2 TD. Bolin, RA. Stanton, Flatus emission patterns and fibre intake., Eur J Surg Suppl, issue 582, pages 115-8, 1998, PMID 10029376
  33. KR. Price, J. Lewis, GM. Wyatt, GR. Fenwick, Flatulence--causes, relation to diet and remedies., Nahrung, volume 32, issue 6, pages 609-26, 1988, PMID 3068547
  34. S. Nobaek, ML. Johansson, G. Molin, S. Ahrné, B. Jeppsson, Alteration of intestinal microflora is associated with reduction in abdominal bloating and pain in patients with irritable bowel syndrome., Am J Gastroenterol, volume 95, issue 5, pages 1231-8, May 2000, doi 10.1111/j.1572-0241.2000.02015.x, PMID 10811333
  35. K. Niedzielin, H. Kordecki, B. Birkenfeld, A controlled, double-blind, randomized study on the efficacy of Lactobacillus plantarum 299V in patients with irritable bowel syndrome., Eur J Gastroenterol Hepatol, volume 13, issue 10, pages 1143-7, Oct 2001, PMID 11711768
  36. TG. Ganiats, WA. Norcross, AL. Halverson, PA. Burford, LA. Palinkas, Does Beano prevent gas? A double-blind crossover study of oral alpha-galactosidase to treat dietary oligosaccharide intolerance., J Fam Pract, volume 39, issue 5, pages 441-5, Nov 1994, PMID 7964541
  37. JT. Lettieri, B. Dain, Effects of beano on the tolerability and pharmacodynamics of acarbose., Clin Ther, volume 20, issue 3, pages 497-504, PMID 9663365