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Takeaways
- Riboflavin is essential for energy production in cells
- It acts as an antioxidant, protecting against oxidative stress
- Riboflavin supports healthy skin, eyes, and may help prevent migraines
- Deficiency can lead to various health issues, but is rare in developed countries
- Food sources include dairy, lean meats, eggs, and leafy greens
- Supplements are available but most people get enough from their diet
What is Vitamin B2?
Vitamin B2, also called riboflavin, is a water-soluble vitamin. It belongs to the B-vitamin group, which helps the body convert food into energy. The name riboflavin comes from its chemical structure; “ribo” refers to its sugar component, and “flavin” to its yellow color.
Riboflavin was first isolated from milk by scientists in 1879. However, its role in health wasn’t fully understood until the 1930s. Researchers then discovered it was important for human growth and red blood cell formation.
Riboflavin is an essential nutrient because our bodies can’t make it. It must be obtained through food or supplements. It participates in many key processes, including energy production and cell growth, so a sufficient intake is necessary for proper body function.
Riboflavin’s Function in the Body
Energy Production
Riboflavin is vital for energy production at the cellular level. It helps break down carbohydrates, fats, and proteins into energy that cells can use. This process occurs within mitochondria, which are like the powerhouses of our cells.
Within the mitochondria, riboflavin becomes part of two crucial molecules: flavin adenine dinucleotide (FAD) and flavin mononucleotide (FMN). These molecules act as coenzymes, assisting enzymes in carrying out their functions, particularly within the electron transport chain.
The electron transport chain is a series of reactions that generate most of the body’s energy in the form of ATP. Riboflavin-based coenzymes are essential in this chain, moving electrons to produce the energy cells require to work correctly.
Some of the main energy metabolism processes that involve riboflavin are:
- Glucose oxidation
- Fatty acid oxidation
- Amino acid breakdown
- Krebs cycle reactions
Antioxidant Properties
Beyond energy production, riboflavin also acts as an antioxidant, protecting our cells from damage caused by harmful molecules called free radicals.
Free radicals are unstable molecules that can damage cells and DNA, causing oxidative stress. This damage is associated with aging and various diseases. Riboflavin helps to neutralize these harmful free radicals.
Riboflavin has a dual role in antioxidant defense. First, it is part of the glutathione redox cycle, helping to recycle glutathione, a key antioxidant in our bodies. Second, riboflavin can directly neutralize some types of free radicals.
This antioxidant function is beneficial throughout the body, helping protect the skin, eyes, and other organs. Research suggests it might even have a role in preventing certain cancers1.
Enzyme Cofactor
Riboflavin’s role as an enzyme cofactor is extensive, participating in over 100 enzyme reactions. This makes it very important for many cellular processes.
Riboflavin is converted into the coenzymes FAD and FMN, which attach to enzymes and help them function. Without these coenzymes, many enzymes would be unable to carry out their necessary roles.
Riboflavin-dependent enzymes are involved in many different tasks including breaking down toxins in the liver, producing hormones, and assisting other vitamins to work correctly.
Here’s a table of common enzymes that require riboflavin-derived cofactors:
Enzyme | Function |
---|---|
Glutathione reductase | Recycles antioxidants |
Succinate dehydrogenase | Helps produce cellular energy |
Xanthine oxidase | Breaks down purines (part of DNA) |
Pyridoxamine phosphate | Helps activate vitamin B6 |
Methylene tetrahydrofolate reductase | Involved in folate metabolism |
The wide range of these enzymes highlights the extensive impact riboflavin has on our health, influencing everything from energy creation to DNA repair.
Dietary Sources of Vitamin B2
It is usually easy to get enough riboflavin through a balanced diet because it is found in many foods. Some foods are naturally rich in the vitamin, while others are fortified with it during processing.
The amount of riboflavin our bodies absorb and use, known as bioavailability, varies between food sources. Generally, it is highly bioavailable from most sources, with the body absorbing 60-75% of the riboflavin we consume2.
Riboflavin from animal products typically has high bioavailability, while plant sources can be slightly lower. However, cooking and processing methods can sometimes increase bioavailability by releasing riboflavin from its bound form.
Here is a list of foods that are good sources of riboflavin:
- Milk and dairy products
- Eggs
- Lean meats and organ meats
- Fish
- Dark green leafy vegetables
- Whole grains and fortified cereals
- Nuts and seeds
- Mushrooms
Below is a comparison of the riboflavin content found in various foods:
Food | Serving Size | Riboflavin Content (mg) |
---|---|---|
Beef liver, cooked | 3 ounces | 2.9 |
Fortified breakfast cereal | 1 cup | 1.3 |
Yogurt, plain, fat-free | 1 cup | 0.6 |
Milk, 2% fat | 1 cup | 0.5 |
Almonds | 1 ounce | 0.3 |
Spinach, cooked | 1/2 cup | 0.2 |
Egg, large | 1 whole | 0.2 |
As shown, animal products are often rich in riboflavin. However, plant-based diets can also provide sufficient amounts. Many breakfast cereals are also fortified with riboflavin, helping ensure most people meet their daily requirements.
Recommended Daily Intake
The daily amount of riboflavin required varies depending on factors such as age, sex, and life stage. The Food and Nutrition Board at the National Academies of Sciences, Engineering, and Medicine provides recommended intake amounts3.
For adults, the Recommended Dietary Allowance (RDA) for riboflavin is:
- Men (19+ years): 1.3 mg per day
- Women (19+ years): 1.1 mg per day
- Pregnant women: 1.4 mg per day
- Breastfeeding women: 1.6 mg per day
The riboflavin needs of children and teenagers are different and are as follows:
- Infants (0-6 months): 0.3 mg per day
- Infants (7-12 months): 0.4 mg per day
- Children (1-3 years): 0.5 mg per day
- Children (4-8 years): 0.6 mg per day
- Boys (9-13 years): 0.9 mg per day
- Girls (9-13 years): 0.9 mg per day
- Boys (14-18 years): 1.3 mg per day
- Girls (14-18 years): 1.0 mg per day
Several factors can influence how much riboflavin a person needs, these include:
-
Physical activity: Athletes may need more riboflavin. It helps metabolize the extra energy they use.
-
Pregnancy and breastfeeding: Women need more to support fetal development and milk production.
-
Certain health conditions: Some diseases can interfere with riboflavin absorption or increase needs.
-
Alcohol use: Heavy drinking can interfere with riboflavin absorption and metabolism.
-
Smoking: Smokers may need more riboflavin. The chemicals in smoke can interfere with its metabolism.
To ensure that you are getting sufficient riboflavin in your diet:
- Include a variety of riboflavin-rich foods in your meals.
- If you’re vegetarian or vegan, pay extra attention to plant-based sources.
- Consider a B-complex supplement if you’re at risk for deficiency.
- Be aware that cooking methods can affect riboflavin content. Boiling can lead to losses.
- If you’re an athlete or pregnant, consult a dietitian about your specific needs.
Most people in developed countries get enough riboflavin from their diets. If you have concerns about your intake, it is best to speak with a healthcare professional. They can assess your intake and determine your specific needs.
Signs of Deficiency
Riboflavin deficiency, also known as ariboflavinosis, is uncommon in developed countries because our bodies use the vitamin efficiently and many foods are fortified with it. It can still happen, particularly in certain populations.
Low riboflavin levels can affect various body systems, starting with subtle changes in the mouth and skin. As the deficiency progresses, other symptoms begin to appear.
Common symptoms of a riboflavin deficiency include:
- Sore, red, or swollen tongue
- Cracks at the corners of the mouth
- Dry, scaly skin
- Inflamed eyelids
- Sensitivity to light
- Sore throat
In more severe cases, a riboflavin deficiency can lead to:
- Anemia
- Cataracts
- Nerve damage
- Growth problems in children
These symptoms show how riboflavin is important for skin health, eye function, and nerve health. If levels are low, these systems cannot operate effectively.
Some physical signs that might suggest riboflavin deficiency are:
- Angular cheilitis (cracks at mouth corners)
- Glossitis (inflamed tongue)
- Seborrheic dermatitis (scaly skin patches)
- Anemia (pale skin, fatigue)
- Cataracts (cloudy eye lens)
It’s important to know that these symptoms can be caused by other conditions and aren’t unique to riboflavin deficiency. If you have any of these symptoms, it’s best to see a doctor for tests to check your riboflavin levels and overall health.
Certain groups of people are at higher risk of riboflavin deficiency. These include:
- Alcoholics
- People with eating disorders
- Vegans who don’t supplement
- People with certain genetic disorders
- Those with malabsorption conditions like celiac disease
If you belong to one of these groups, it’s important to pay close attention to your riboflavin intake. Regular check-ups can help catch any deficiencies early.
Health Benefits of Adequate Riboflavin Intake
Skin Health
Riboflavin is important for maintaining healthy skin. It helps in the production of collagen, a protein that provides skin with structure and elasticity. Without sufficient riboflavin, skin can become dry and cracked.
This vitamin also protects the skin from damage thanks to its antioxidant properties that combat free radicals, molecules that can damage skin cells. By neutralizing free radicals, riboflavin may help prevent premature aging of the skin.
Some studies suggest riboflavin may be helpful for certain skin conditions. It might help reduce inflammation in acne4 and alleviate symptoms of eczema. However, further studies are required to confirm these effects.
Riboflavin is commonly found in skincare products like creams and serums that claim to improve skin texture and reduce signs of aging. While topical use is promising, getting riboflavin through food is still the most effective way to support overall skin health.
Eye Health
Riboflavin is vital for many functions in the eyes. It helps maintain the health of the cornea, the clear outer layer of the eye, as well as supporting other eye tissues.
One of the well-studied benefits of riboflavin for the eyes is its role in cataract prevention. Cataracts, which are cloudy areas in the lens, are a major cause of vision loss in older adults. Some studies suggest that higher intake of riboflavin could lower cataract risk5.
Riboflavin may also be helpful for other eye conditions, such as reducing eye fatigue and light sensitivity. Research suggests it could be beneficial for glaucoma too, but more studies are required to confirm these findings.
The antioxidant capabilities of riboflavin are key to eye health. Our eyes are exposed to oxidative stress from sunlight and normal metabolism. Riboflavin helps to protect eye tissues from this kind of damage.
Getting enough riboflavin is vital for maintaining good vision as we age, particularly for individuals who are at high risk for eye problems, such as those with diabetes or a family history of eye disease.
Migraines
Migraines, which are severe headaches, can significantly impact quality of life. Some research indicates that riboflavin might help prevent these painful episodes. This has made it a topic of interest in migraine research.
The exact mechanisms by which riboflavin might help with migraines are not completely understood. It is thought that it could be related to energy production in brain cells since migraines may be connected to problems with this process. Riboflavin could help by improving cellular energy production.
Several studies have examined the effectiveness of riboflavin in migraine prevention. One study found that daily doses of 400 mg of riboflavin reduced migraine frequency6 and also decreased the need for pain medication. Other studies have yielded similar results.
The potential benefits of riboflavin for migraines include:
- Reduced frequency of attacks
- Shorter duration of headaches
- Less severe pain during attacks
- Decreased need for pain medication
It is worth noting that not all studies show the same results and some people may benefit more than others. The effects of riboflavin may also take a few months to become noticeable.
If you have migraines, speak to your doctor about riboflavin to determine if it is a suitable option for you. Do not start taking high-dose supplements without consulting a healthcare provider.
Anemia Prevention
Anemia is a condition characterized by a lack of healthy red blood cells, which are responsible for carrying oxygen throughout the body. Riboflavin plays a role in preventing some types of anemia.
Riboflavin assists in the absorption of iron, which is essential for creating hemoglobin, the protein in red blood cells that carries oxygen. Riboflavin also activates vitamin B6 and folate, which are also essential for red blood cell production.
Riboflavin deficiency can cause a specific type of anemia called normochromic-normocytic anemia. This occurs when red blood cells are normal in color and size but there are too few of them. Getting enough riboflavin can help prevent this type of anemia.
Riboflavin’s antioxidant properties also help protect red blood cells from damage, helping them live longer and function better. This reduces the risk of anemia by preventing the premature breakdown of red blood cells.
Riboflavin is especially important for people with certain genetic conditions, like G6PD deficiency, which causes red blood cells to break down too quickly. Research suggests that riboflavin supplements might be helpful for these patients7.
While riboflavin alone cannot prevent all types of anemia, it’s an important component of overall red blood cell health. A balanced diet with sufficient riboflavin and other B vitamins supports healthy red blood cell production.
Riboflavin Supplements
Although most people obtain adequate riboflavin through their diets, supplements are available. These may be beneficial in some cases. Here are some forms of riboflavin supplements and when they may be necessary.
Riboflavin supplements are available in different forms:
- Tablets
- Capsules
- Liquid drops
- As part of multivitamins
- In B-complex vitamins
Most supplements contain riboflavin in its basic form. Some contain a more easily absorbed form called riboflavin 5′-phosphate, which may be better for individuals with absorption problems.
When choosing a riboflavin supplement, take into account the following factors:
- Dosage: Match it to your needs and doctor’s recommendations
- Form: Pick one that’s easy for you to take regularly
- Brand reputation: Choose a reputable manufacturer
- Other ingredients: Check for allergens or unnecessary additives
- Cost: Compare prices, but don’t sacrifice quality for cheapness
Supplementation may be necessary in the following situations:
-
Diagnosed deficiency: If tests show you’re low in riboflavin.
-
Increased needs: During pregnancy, breastfeeding, or intense physical training.
-
Restricted diets: Vegans or those with milk allergies might need extra.
-
Certain health conditions: Some diseases interfere with riboflavin absorption.
5.5. Medication interactions: Some drugs can lower riboflavin levels.
-
Migraine prevention: High doses might help reduce migraine frequency.
-
Genetic conditions: Some people need extra riboflavin due to their genes.
Always speak to a healthcare provider before starting supplements. They can determine if you need them and what dose is right for you. High doses of riboflavin can cause side effects like diarrhea or increased urination, so it is important to not take more than recommended.
Riboflavin in Food Processing and Fortification
Riboflavin is used in food processing and fortification due to its bright yellow color and stability, making it useful beyond its nutritional value. Here’s how food manufacturers use this vitamin.
Many countries require certain foods to be fortified with riboflavin to help prevent deficiencies. Common fortified foods include:
- Bread and other baked goods
- Breakfast cereals
- Pasta
- Rice
- Milk and dairy products
Fortification involves adding riboflavin to foods that do not naturally contain it. This helps ensure people receive sufficient amounts even if their diets are not varied.
Riboflavin is quite stable during most cooking and processing methods, withstanding high temperatures and not degrading much over time. However, it is sensitive to light, which is why milk is often stored in opaque containers.
This table displays the riboflavin content in some commonly fortified foods:
Food | Serving Size | Riboflavin Content (mg) |
---|---|---|
Fortified breakfast cereal | 1 cup | 0.4 – 2.5 |
Fortified bread | 1 slice | 0.1 – 0.3 |
Fortified pasta, cooked | 1 cup | 0.2 – 0.4 |
Fortified rice, cooked | 1 cup | 0.1 – 0.3 |
Fortified non-dairy milk | 1 cup | 0.4 – 0.5 |
The amount of riboflavin added can vary between products and countries. Always check the nutrition label for precise amounts.
Food processors also use riboflavin as a natural food coloring due to its yellow color. You may see it listed as “riboflavin” or “vitamin B2” on ingredient labels.
Riboflavin’s stability during processing is both advantageous and disadvantageous. It is beneficial because the vitamin remains intact in our food. However, riboflavin does not break down easily in water which may create environmental concerns in areas with many food processing plants.
Overall, fortifying foods with riboflavin has been a successful public health initiative, helping reduce deficiency rates in many countries. It is important to eat a balanced diet that includes natural sources of this vitamin.
Riboflavin and Other Nutrients
Riboflavin interacts with other nutrients in the body, and these interactions are vital for overall health. Here’s how riboflavin works with other vitamins and minerals.
Riboflavin interacts closely with other B vitamins, helping activate vitamin B6 and folate, which are essential for the body to use. Without enough riboflavin, someone might show signs of B6 or folate deficiencies even with sufficient intake of those vitamins.
Here is a list of nutrients that work closely with riboflavin:
- Vitamin B6: Riboflavin helps convert it to its active form
- Folate: Riboflavin is needed for folate metabolism
- Niacin: Our bodies can convert some riboflavin to niacin if needed
- Iron: Riboflavin helps with iron absorption and utilization
- Zinc: Works with riboflavin in antioxidant processes
Riboflavin also influences how the body uses other nutrients. For example, it is involved in:
- Protein metabolism
- Fat breakdown
- Carbohydrate use for energy
These interactions highlight the importance of a balanced diet. Getting enough of all nutrients helps ensure they each function optimally.
Some nutrients can impact riboflavin absorption or needs. For example:
- Alcohol can interfere with riboflavin absorption and metabolism
- High-protein diets might increase riboflavin needs
- Copper deficiency can impair riboflavin metabolism
Understanding these interactions helps us make better dietary decisions. It is not just about getting enough of each nutrient, but also about consuming them in the correct proportions.
Special Considerations
Pregnancy and Lactation
Pregnancy and breastfeeding increase the body’s need for many nutrients, including riboflavin. The body uses more riboflavin during these times to support fetal development and milk production.
During pregnancy, riboflavin contributes to fetal growth and development, especially for the baby’s bones, muscles, and nerves. The recommended daily intake increases from 1.1 mg to 1.4 mg for pregnant women.
Breastfeeding women need even more riboflavin, with the recommended intake increasing to 1.6 mg per day. This higher amount supports milk production. Breast milk is naturally rich in riboflavin, providing the infant with this vital nutrient.
Some studies indicate that riboflavin status can impact pregnancy outcomes. Low levels might increase the risk of preeclampsia, a serious pregnancy complication8. However, additional research is required to confirm this connection.
For pregnant and breastfeeding women, meeting their riboflavin needs is usually easy with a balanced diet. Good sources include:
- Dairy products
- Eggs
- Lean meats
- Leafy green vegetables
Prenatal vitamins often contain riboflavin as well, but obtaining nutrients through food is the preferred method when possible. Consult your doctor about your specific needs during pregnancy and lactation.
Elderly Population
As we age, our nutrient needs can change. While the recommended intake for riboflavin remains the same, older adults may be at a higher risk of deficiency due to the following factors:
-
Decreased food intake: Some older adults eat less overall.
-
Limited diet variety: Fixed incomes or health issues might limit food choices.
-
Reduced absorption: The body becomes less efficient at absorbing nutrients.
-
Chronic diseases: Some conditions common in older adults affect riboflavin status.
-
Medications: Certain drugs can interfere with riboflavin absorption or metabolism.
These factors make it essential for older adults to monitor their riboflavin intake. Signs of deficiency might be mistaken for normal aging. These can include:
- Cracked lips
- Inflamed tongue
- Skin problems
- Eye fatigue
Strategies to help seniors ensure adequate riboflavin intake include:
- Eating a variety of riboflavin-rich foods
- Considering fortified foods like breakfast cereals
- Discussing supplements with a healthcare provider
- Regular health check-ups to catch any deficiencies early
Some research suggests higher riboflavin intake may provide added benefits for older adults such as maintaining cognitive function and eye health9. However, more studies are needed to confirm these findings.
Athletes
Athletes typically have higher energy requirements. This means they often need more vitamins involved in energy production, like riboflavin. The exact increase depends on the type and intensity of their exercise.
Riboflavin helps athletes by:
-
Energy production: It’s crucial for turning food into usable energy.
-
Recovery: It aids in repairing and building tissues after exercise.
-
Antioxidant action: It helps protect cells from exercise-induced oxidative stress.
-
Red blood cell formation: This supports oxygen delivery to muscles.
Most athletes can meet their riboflavin needs through their diet. Good sources for athletes include:
- Milk and yogurt (also good for post-workout recovery)
- Lean meats (for protein and riboflavin)
- Whole grains (for carbs and B vitamins)
- Leafy greens (for various nutrients)
Some athletes may require more riboflavin than others, including:
- Endurance athletes like marathon runners or triathletes
- Athletes in weight-class sports who restrict calories
- Vegetarian or vegan athletes
These groups should pay extra attention to their riboflavin intake. They might benefit from working with a sports nutritionist to ensure they are meeting all of their nutrient needs, including riboflavin.
While supplements are available, obtaining nutrients through food should be the primary choice. Whole foods provide a range of nutrients that work together. If you are considering supplements, speak with a healthcare provider first to determine if they are necessary and what dose is appropriate.
Remember, taking more than is necessary is not beneficial. High doses of riboflavin will not improve athletic performance and can cause side effects like diarrhea. A balanced diet is generally the most effective approach for most athletes.
Riboflavin Research and Future Directions
Although riboflavin has been studied for many years, research is ongoing. Scientists are exploring new potential benefits and applications. Here are some current areas of research and what the future may hold.
One exciting area is riboflavin’s role in gene expression. Recent studies suggest it might influence how genes are turned on or off. This could have implications for various health conditions and aging10.
Another promising area is riboflavin’s potential in cancer prevention and treatment. Some studies show it could help make cancer cells more sensitive to chemotherapy and protect healthy cells from damage during treatment11.
Researchers are also examining riboflavin for:
-
Heart health: It might help lower homocysteine levels, a risk factor for heart disease.
-
Brain function: Some studies suggest it could help with certain neurological disorders.
-
Diabetes management: It might help prevent diabetic complications.
-
Skin health: Topical applications are being studied for various skin conditions.
-
Athletic performance: Its role in energy metabolism makes it interesting for sports nutrition.
Here’s an ordered list of areas for riboflavin research to watch:
- Gene regulation and epigenetics
- Cancer prevention and treatment support
- Neuroprotective effects in brain disorders
- Metabolic health and diabetes management
- Skin health and wound healing
- Sports nutrition and exercise recovery
- Antimicrobial properties
- Environmental applications (like water treatment)
As research continues, new uses for this versatile vitamin may be discovered. Future studies could reveal new treatments or preventative approaches for various health conditions.
It is important to remember that research takes time, and early results may not always translate into proven benefits. Large, well-designed studies are necessary to confirm potential effects.
For now, the best approach is to ensure you are getting enough riboflavin through a balanced diet. If you are interested in its potential benefits for specific conditions, speak with a healthcare provider who can provide information about current evidence and its relevance to your situation.
FAQ
Riboflavin is an essential nutrient that plays a significant role in many bodily functions from energy production to skin health. Most people get enough through a balanced diet, however certain groups may need to pay close attention to their intake. If you have concerns about your riboflavin status, talk to a healthcare provider to assess your needs and determine if supplements are necessary. A varied diet rich in whole foods is usually the best way to meet your nutritional needs. As research continues, we may discover additional benefits of this versatile vitamin. For now, focusing on a healthy, balanced diet is the best way to ensure you obtain enough riboflavin and other essential nutrients.What foods are high in vitamin B2?
Can you have too much vitamin B2?
What are the symptoms of B2 deficiency?
Does vitamin B2 help with weight loss?
Is vitamin B2 good for skin?
How does riboflavin affect sleep?
Can vitamin B2 cause anxiety?
Is riboflavin water-soluble?
1. Thakur, K., Tomar, S. K., Singh, A. K., Mandal, S., & Arora, S. (2017). Riboflavin and health: A review of recent human research. Critical Reviews in Food Science and Nutrition, 57(17), 3650-3660. https://pubmed.ncbi.nlm.nih.gov/27029320/
2. Institute of Medicine (US) Standing Committee on the Scientific Evaluation of Dietary Reference Intakes and its Panel on Folate, Other B Vitamins, and Choline. (1998). Dietary Reference Intakes for Thiamin, Riboflavin, Niacin, Vitamin B6, Folate, Vitamin B12, Pantothenic Acid, Biotin, and Choline. National Academies Press (US). https://www.ncbi.nlm.nih.gov/books/NBK114311/
3. National Institutes of Health. (2021). Riboflavin – Fact Sheet for Health Professionals. https://ods.od.nih.gov/factsheets/Riboflavin-HealthProfessional/
4. Bowe, W. P., Patel, N., & Logan, A. C. (2012). Acne vulgaris: the role of oxidative stress and the potential therapeutic value of local and systemic antioxidants. Journal of Drugs in Dermatology, 11(6), 742-746. https://pubmed.ncbi.nlm.nih.gov/22648222/
5. Cumming, R. G., Mitchell, P., & Smith, W. (2000). Diet and cataract: the Blue Mountains Eye Study. Ophthalmology, 107(3), 450-456. https://pubmed.ncbi.nlm.nih.gov/10711880/
6. Schoenen, J., Jacquy, J., & Lenaerts, M. (1998). Effectiveness of high-dose riboflavin in migraine prophylaxis. A randomized controlled trial. Neurology, 50(2), 466-470. https://pubmed.ncbi.nlm.nih.gov/9484373/
7. Tan, K. L., Chow, M. T., & Karim, S. M. (1979). Effect of phototherapy on neonatal riboflavin status. Journal of Pediatrics, 94(1), 81-83. https://pubmed.ncbi.nlm.nih.gov/758421/
8. Wacker, J., Frühauf, J., Schulz, M., Chiwora, F. M., Volz, J., & Becker, K. (2000). Riboflavin deficiency and preeclampsia. Obstetrics & Gynecology, 96(1), 38-44. https://pubmed.ncbi.nlm.nih.gov/10862839/
9. Gariballa, S., & Forster, S. (2007). Effects of dietary supplements on depressive symptoms in older patients: a randomised double-blind placebo-controlled trial. Clinical Nutrition, 26(5), 545-551. https://pubmed.ncbi.nlm.nih.gov/17662509/
10. Mazur-Bialy, A. I., & Pocheć, E. (2017). Riboflavin Reduces Pro-Inflammatory Activation of Adipocyte-Macrophage Co-culture and Regulates MCP-1 and IL-6 Release. International Journal of Molecular Sciences, 18(11), 2338. https://pubmed.ncbi.nlm.nih.gov/29120370/
11. Naseri, A., Abedi, S. M., Mohammadpour, F., Mahdavi, M. R., Abediankenari, S., Pourbagher, R., & Sheikhi, A. (2017). Effect of Riboflavin on the Induction of Apoptosis in Human Breast Cancer Cell Line. Iranian Journal of Pathology, 12(2), 135-141. https://pubmed.ncbi.nlm.nih.gov/29515634/
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