Overview
SCIENTIFIC SCORE
Possibly Effective
Based on 18 Researches
7.8
USERS' SCORE
Good
Based on 4 Reviews
8.4
Supplement Facts
Serving Size: 1 tbsp (15 ml)
Amount Per Serving
%DV
Calories
120
Total Fat
14 g
18%
Saturated Fat
2.5 g
13%
Polyunsaturated Fat
8 g
Monounsaturated Fat
2 g
Sodium
0 mg
0%
Total Carbohydrate
0 g
0%
Protein
0 g
Vitamin E
20 mg
130%
Top Medical Research Studies
2
We explored the relationship between vitamin E and heart attack risk through a two-sample mendelian randomization study. Using genetic variations from nearly 8,000 individuals of European descent, we dug into whether higher levels of vitamin E could protect against coronary artery disease (CAD) and myocardial infarction (MI).
Contrary to some previous beliefs about its benefits, our results suggested that increased vitamin E levels were actually associated with a higher risk of both CAD and MI. This means it's time to rethink the safety and effectiveness of vitamin E supplements for heart health.
Contrary to some previous beliefs about its benefits, our results suggested that increased vitamin E levels were actually associated with a higher risk of both CAD and MI. This means it's time to rethink the safety and effectiveness of vitamin E supplements for heart health.
Read More
9
We aimed to uncover how the proteins VEGFA and bFGF can support heart recovery following a heart attack, and we did this by enhancing human adipose-derived stem cells (hADSCs) with modified mRNA. These proteins are known to play a role in improving blood flow and reducing cell death, both vital for effective healing.
By modifying the hADSCs to overexpress these proteins, we sought to improve their ability to support the heart during such a critical time. Importantly, our approach involved using a new technique that enables the hADSCs to produce these growth factors in a timed, efficient manner. This modification not only led to better survival of the transplanted cells but also promoted stable formation of new blood vessels at the site of injury.
We observed that the infused hADSCs improved overall heart function and electrical activity, suggesting a robust response to the proteins we introduced. The results indicate that the combination of these engineered stem cells and the proteins could substantially enhance recovery after a heart attack, paving the way for new treatments for heart diseases caused by ischemia.
By modifying the hADSCs to overexpress these proteins, we sought to improve their ability to support the heart during such a critical time. Importantly, our approach involved using a new technique that enables the hADSCs to produce these growth factors in a timed, efficient manner. This modification not only led to better survival of the transplanted cells but also promoted stable formation of new blood vessels at the site of injury.
We observed that the infused hADSCs improved overall heart function and electrical activity, suggesting a robust response to the proteins we introduced. The results indicate that the combination of these engineered stem cells and the proteins could substantially enhance recovery after a heart attack, paving the way for new treatments for heart diseases caused by ischemia.
Read More
9
We examined how vitamin E affects individuals with diabetes and the specific Haptoglobin 2-2 genotype, who are at greater risk for heart problems. By analyzing data from two trials, we found that taking vitamin E significantly reduced the risk of heart events like strokes and heart attacks in these patients.
The study suggests that screening diabetics for the Haptoglobin genotype and offering vitamin E as treatment could improve heart health and even extend life expectancy by three years for those affected.
The study suggests that screening diabetics for the Haptoglobin genotype and offering vitamin E as treatment could improve heart health and even extend life expectancy by three years for those affected.
Read More
Most Useful Reviews
9
Moisturises heart
Mrahha, it deeply moisturises the heart.
Read More
9
Nutrient-rich oil
1 people found this helpful
The quality of heavy wheat germ oil is exceptional, offering numerous health benefits. Mixing it with salad masks its flavour, making it enjoyable. It’s rich in 100% vitamin E and Omega 3, vital for heart health, hair, and more. Don’t overlook this product if you're focused on hair health!
Read More
7
Enhances cardiovascular health
1 people found this helpful
Delicious oil! It is of superb quality. While I can't drink it straight, I add it to my salad for its rich aroma, which enhances the flavour! This oil is packed with Omega and nutritious ingredients, improving bodily functions. It normalises heart activity and addresses inflammation. I've noticed my hair is now shinier and more vibrant! I highly recommend it. ❤️
Read More
Medical Researches
SCIENTIFIC SCORE
Possibly Effective
Based on 18 Researches
7.8
- All Researches
9
We explored the potential of TAPI-1, a protein that inhibits harmful enzymes, in treating heart damage after a heart attack, using a novel delivery method. To enhance its effectiveness, researchers created nanoparticles that mimic neutrophils, a type of immune cell that quickly appears in injured heart tissue.
These specialized nanoparticles were loaded with TAPI-1 and specifically designed to target inflamed areas of the heart in rats following a heart attack. By delivering TAPI-1 more precisely, we aimed to reduce heart injury and improve heart function.
Our results were promising—injecting TAPI-1 through these neutrophil-mimicking nanoparticles led to better heart performance and less scar tissue compared to standard TAPI-1 treatments. Not only did the targeted approach seem to optimize the protein's effects, but it also helped lessen the overall inflammation within the heart.
In summary, this study highlights a strategic advancement in delivering the TAPI-1 protein that could lead to more effective treatments for heart attack recovery, ultimately improving patient outcomes.
These specialized nanoparticles were loaded with TAPI-1 and specifically designed to target inflamed areas of the heart in rats following a heart attack. By delivering TAPI-1 more precisely, we aimed to reduce heart injury and improve heart function.
Our results were promising—injecting TAPI-1 through these neutrophil-mimicking nanoparticles led to better heart performance and less scar tissue compared to standard TAPI-1 treatments. Not only did the targeted approach seem to optimize the protein's effects, but it also helped lessen the overall inflammation within the heart.
In summary, this study highlights a strategic advancement in delivering the TAPI-1 protein that could lead to more effective treatments for heart attack recovery, ultimately improving patient outcomes.
Read More
9
We aimed to uncover how the proteins VEGFA and bFGF can support heart recovery following a heart attack, and we did this by enhancing human adipose-derived stem cells (hADSCs) with modified mRNA. These proteins are known to play a role in improving blood flow and reducing cell death, both vital for effective healing.
By modifying the hADSCs to overexpress these proteins, we sought to improve their ability to support the heart during such a critical time. Importantly, our approach involved using a new technique that enables the hADSCs to produce these growth factors in a timed, efficient manner. This modification not only led to better survival of the transplanted cells but also promoted stable formation of new blood vessels at the site of injury.
We observed that the infused hADSCs improved overall heart function and electrical activity, suggesting a robust response to the proteins we introduced. The results indicate that the combination of these engineered stem cells and the proteins could substantially enhance recovery after a heart attack, paving the way for new treatments for heart diseases caused by ischemia.
By modifying the hADSCs to overexpress these proteins, we sought to improve their ability to support the heart during such a critical time. Importantly, our approach involved using a new technique that enables the hADSCs to produce these growth factors in a timed, efficient manner. This modification not only led to better survival of the transplanted cells but also promoted stable formation of new blood vessels at the site of injury.
We observed that the infused hADSCs improved overall heart function and electrical activity, suggesting a robust response to the proteins we introduced. The results indicate that the combination of these engineered stem cells and the proteins could substantially enhance recovery after a heart attack, paving the way for new treatments for heart diseases caused by ischemia.
Read More
9
We explored how an innovative hydrogel enhanced heart repair after a heart attack. This injectable hydrogel includes α-tocopherol, a form of vitamin E. In our study using a rabbit model, we implanted the hydrogel after inducing a heart attack.
Four weeks later, the results were promising. We noticed improved heart function and reduced damage to heart tissue. This suggests that the hydrogel, enriched with vitamin E, plays a vital role in helping the heart recover better after an injury.
Four weeks later, the results were promising. We noticed improved heart function and reduced damage to heart tissue. This suggests that the hydrogel, enriched with vitamin E, plays a vital role in helping the heart recover better after an injury.
Read More
9
β-Cryptoxanthin outperforming vitamin E
We investigated how three antioxidant compounds—β-cryptoxanthin, astaxanthin, and vitamin E—affect heart damage from ischemia-reperfusion injury in mice.
Mice were treated with these compounds before inducing heart injury.
Results showed that all treatments reduced heart damage, but β-cryptoxanthin was the most effective, shrinking heart injury by 60% compared to vitamin E and astaxanthin.
Ultimately, while vitamin E showed some benefits, β-cryptoxanthin stood out in reducing oxidative stress and cellular damage more effectively.
Mice were treated with these compounds before inducing heart injury.
Results showed that all treatments reduced heart damage, but β-cryptoxanthin was the most effective, shrinking heart injury by 60% compared to vitamin E and astaxanthin.
Ultimately, while vitamin E showed some benefits, β-cryptoxanthin stood out in reducing oxidative stress and cellular damage more effectively.
Read More
9
We examined how vitamin E affects individuals with diabetes and the specific Haptoglobin 2-2 genotype, who are at greater risk for heart problems. By analyzing data from two trials, we found that taking vitamin E significantly reduced the risk of heart events like strokes and heart attacks in these patients.
The study suggests that screening diabetics for the Haptoglobin genotype and offering vitamin E as treatment could improve heart health and even extend life expectancy by three years for those affected.
The study suggests that screening diabetics for the Haptoglobin genotype and offering vitamin E as treatment could improve heart health and even extend life expectancy by three years for those affected.
Read More
User Reviews
USERS' SCORE
Good
Based on 4 Reviews
8.4
- All Reviews
- Positive Reviews
- Negative Reviews
9
Moisturises heart
Mrahha, it deeply moisturises the heart.
Read More
9
Nutrient-rich oil
1 people found this helpful
The quality of heavy wheat germ oil is exceptional, offering numerous health benefits. Mixing it with salad masks its flavour, making it enjoyable. It’s rich in 100% vitamin E and Omega 3, vital for heart health, hair, and more. Don’t overlook this product if you're focused on hair health!
Read More
7
Enhances cardiovascular health
1 people found this helpful
Delicious oil! It is of superb quality. While I can't drink it straight, I add it to my salad for its rich aroma, which enhances the flavour! This oil is packed with Omega and nutritious ingredients, improving bodily functions. It normalises heart activity and addresses inflammation. I've noticed my hair is now shinier and more vibrant! I highly recommend it. ❤️
Read More
7
Skin healing effects
1 people found this helpful
I appreciate this product for treating red lines and skin cracks. The box quality is excellent, and while it has a slightly unpleasant smell, it doesn't matter when mixed. I completely recommend this product, as it helps reduce the appearance of wounds. The ingredients are of high quality and beneficial for hair and heart health.
Read More
Frequently Asked Questions
9
Moisturises heart
Mrahha, it deeply moisturises the heart.
7
Enhances cardiovascular health
1 people found this helpful
Delicious oil! It is of superb quality. While I can't drink it straight, I add it to my salad for its rich aroma, which enhances the flavour! This oil is packed with Omega and nutritious ingredients, improving bodily functions. It normalises heart activity and addresses inflammation. I've noticed my hair is now shinier and more vibrant! I highly recommend it. ❤️
7
Skin healing effects
1 people found this helpful
I appreciate this product for treating red lines and skin cracks. The box quality is excellent, and while it has a slightly unpleasant smell, it doesn't matter when mixed. I completely recommend this product, as it helps reduce the appearance of wounds. The ingredients are of high quality and beneficial for hair and heart health.
9
Nutrient-rich oil
1 people found this helpful
The quality of heavy wheat germ oil is exceptional, offering numerous health benefits. Mixing it with salad masks its flavour, making it enjoyable. It’s rich in 100% vitamin E and Omega 3, vital for heart health, hair, and more. Don’t overlook this product if you're focused on hair health!
9
We explored the potential of TAPI-1, a protein that inhibits harmful enzymes, in treating heart damage after a heart attack, using a novel delivery method. To enhance its effectiveness, researchers created nanoparticles that mimic neutrophils, a type of immune cell that quickly appears in injured heart tissue.
These specialized nanoparticles were loaded with TAPI-1 and specifically designed to target inflamed areas of the heart in rats following a heart attack. By delivering TAPI-1 more precisely, we aimed to reduce heart injury and improve heart function.
Our results were promising—injecting TAPI-1 through these neutrophil-mimicking nanoparticles led to better heart performance and less scar tissue compared to standard TAPI-1 treatments. Not only did the targeted approach seem to optimize the protein's effects, but it also helped lessen the overall inflammation within the heart.
In summary, this study highlights a strategic advancement in delivering the TAPI-1 protein that could lead to more effective treatments for heart attack recovery, ultimately improving patient outcomes.
These specialized nanoparticles were loaded with TAPI-1 and specifically designed to target inflamed areas of the heart in rats following a heart attack. By delivering TAPI-1 more precisely, we aimed to reduce heart injury and improve heart function.
Our results were promising—injecting TAPI-1 through these neutrophil-mimicking nanoparticles led to better heart performance and less scar tissue compared to standard TAPI-1 treatments. Not only did the targeted approach seem to optimize the protein's effects, but it also helped lessen the overall inflammation within the heart.
In summary, this study highlights a strategic advancement in delivering the TAPI-1 protein that could lead to more effective treatments for heart attack recovery, ultimately improving patient outcomes.
9
We aimed to uncover how the proteins VEGFA and bFGF can support heart recovery following a heart attack, and we did this by enhancing human adipose-derived stem cells (hADSCs) with modified mRNA. These proteins are known to play a role in improving blood flow and reducing cell death, both vital for effective healing.
By modifying the hADSCs to overexpress these proteins, we sought to improve their ability to support the heart during such a critical time. Importantly, our approach involved using a new technique that enables the hADSCs to produce these growth factors in a timed, efficient manner. This modification not only led to better survival of the transplanted cells but also promoted stable formation of new blood vessels at the site of injury.
We observed that the infused hADSCs improved overall heart function and electrical activity, suggesting a robust response to the proteins we introduced. The results indicate that the combination of these engineered stem cells and the proteins could substantially enhance recovery after a heart attack, paving the way for new treatments for heart diseases caused by ischemia.
By modifying the hADSCs to overexpress these proteins, we sought to improve their ability to support the heart during such a critical time. Importantly, our approach involved using a new technique that enables the hADSCs to produce these growth factors in a timed, efficient manner. This modification not only led to better survival of the transplanted cells but also promoted stable formation of new blood vessels at the site of injury.
We observed that the infused hADSCs improved overall heart function and electrical activity, suggesting a robust response to the proteins we introduced. The results indicate that the combination of these engineered stem cells and the proteins could substantially enhance recovery after a heart attack, paving the way for new treatments for heart diseases caused by ischemia.
8
Vitamin E reduces heart attack risk
We explored the effects of dietary vitamin E on heart attack and overall health by analyzing data from over 39,000 participants in the NHANES survey from 2003 to 2018. Our findings indicated that a higher intake of vitamin E was linked to a lower risk of cardiovascular disease and reduced all-cause mortality.
Specifically, those consuming more than 9.86 mg of vitamin E had significantly lower odds of developing cardiovascular issues, including heart attacks. However, the impact on cardiovascular mortality wasn't as strong. This suggests that while vitamin E-rich diets could enhance heart health, further research is necessary for clearer conclusions.
Specifically, those consuming more than 9.86 mg of vitamin E had significantly lower odds of developing cardiovascular issues, including heart attacks. However, the impact on cardiovascular mortality wasn't as strong. This suggests that while vitamin E-rich diets could enhance heart health, further research is necessary for clearer conclusions.
9
We explored how an innovative hydrogel enhanced heart repair after a heart attack. This injectable hydrogel includes α-tocopherol, a form of vitamin E. In our study using a rabbit model, we implanted the hydrogel after inducing a heart attack.
Four weeks later, the results were promising. We noticed improved heart function and reduced damage to heart tissue. This suggests that the hydrogel, enriched with vitamin E, plays a vital role in helping the heart recover better after an injury.
Four weeks later, the results were promising. We noticed improved heart function and reduced damage to heart tissue. This suggests that the hydrogel, enriched with vitamin E, plays a vital role in helping the heart recover better after an injury.
2
We explored the relationship between vitamin E and heart attack risk through a two-sample mendelian randomization study. Using genetic variations from nearly 8,000 individuals of European descent, we dug into whether higher levels of vitamin E could protect against coronary artery disease (CAD) and myocardial infarction (MI).
Contrary to some previous beliefs about its benefits, our results suggested that increased vitamin E levels were actually associated with a higher risk of both CAD and MI. This means it's time to rethink the safety and effectiveness of vitamin E supplements for heart health.
Contrary to some previous beliefs about its benefits, our results suggested that increased vitamin E levels were actually associated with a higher risk of both CAD and MI. This means it's time to rethink the safety and effectiveness of vitamin E supplements for heart health.
We conducted a double-blinded, placebo-controlled clinical trial to investigate how colchicine—a drug known for its anti-inflammatory properties—affects patients after an acute myocardial infarction (AMI), commonly known as a heart attack. Our study included 161 eligible participants from three hospitals in East Java, Indonesia, where they were randomly assigned to receive either colchicine or standard treatment over a 30-day period.
Throughout the trial, we measured key inflammatory markers and cardiac health indicators. While colchicine did lower NT-proBNP, a protein associated with heart failure, and also significantly reduced levels of Caspase-1, TGF-β, and Galectin-3—markers indicating inflammation and fibrosis—there was no notable improvement in echocardiography parameters measuring heart function.
This finding illustrates that while colchicine may help reduce certain inflammatory responses following a heart attack, it did not lead to measurable improvements in heart function as assessed through echocardiography. Thus, we conclude that the effects of colchicine could be beneficial for mitigating inflammation post-AMI, but it does not significantly enhance cardiac function in the short term.
Throughout the trial, we measured key inflammatory markers and cardiac health indicators. While colchicine did lower NT-proBNP, a protein associated with heart failure, and also significantly reduced levels of Caspase-1, TGF-β, and Galectin-3—markers indicating inflammation and fibrosis—there was no notable improvement in echocardiography parameters measuring heart function.
This finding illustrates that while colchicine may help reduce certain inflammatory responses following a heart attack, it did not lead to measurable improvements in heart function as assessed through echocardiography. Thus, we conclude that the effects of colchicine could be beneficial for mitigating inflammation post-AMI, but it does not significantly enhance cardiac function in the short term.
References
- Chen Q, Yu Y, Tong L, Weiss RM, Wei SG. Targeted delivery of TAPI-1 via biomimetic nanoparticles ameliorates post-infarct left ventricle function and remodeling. Cardiovasc Res. 2025. doi:10.1093/cvr/cvaf039
- Wu H, Jiang X, Fan H, Li J, Li Y, et al. Inhibition of circALPK2 enhances proliferation and therapeutic potential of human pluripotent stem cell-derived cardiomyocytes in myocardial infarction. Stem Cell Res Ther. 2025;16:107. doi:10.1186/s13287-025-04230-8
- Lai J, Li L, Liu J, Yan Q, Xu Z, et al. CELF1 Promotes Post-myocardial Infarction Cardiac Remodeling Via Suppression of FMO2. Cardiovasc Toxicol. 2025;25:441. doi:10.1007/s12012-024-09951-5
- Stephan JK, Knerr T, Gu Z, Li H, Brittian KR, et al. Neutrophil-secreted CHI3L1 exacerbates cardiac dysfunction and inflammation after myocardial infarction. FASEB J. 2025;39:e70422. doi:10.1096/fj.202401654R
- Tan X, Wang X, Xu S, Zeng Y, Zhang G, et al. Identification of Cardiometabolic Protein Biomarkers for Acute Myocardial Infarction Using Olink Proteomics. J Inflamm Res. 2025;18:2629. doi:10.2147/JIR.S495784
- Li K, Luo R, Yu X, Dong W, Hao G, et al. Enhanced human adipose-derived stem cells with VEGFA and bFGF mRNA promote stable vascular regeneration and improve cardiac function following myocardial infarction. Clin Transl Med. 2025;15:e70250. doi:10.1002/ctm2.70250
- Astiawati T, Rohman MS, Wihastuti T, Sujuti H, Endharti AT, et al. Efficacy of Colchicine in Reducing NT-proBNP, Caspase-1, TGF-β, and Galectin-3 Expression and Improving Echocardiography Parameters in Acute Myocardial Infarction: A Multi-Center, Randomized, Placebo-Controlled, Double-Blinded Clinical Trial. J Clin Med. 2025;14. doi:10.3390/jcm14041347
- Zeng Q, Liao M, Li Y, She F, Zhang P. Association between dietary vitamin E intake and incident cardiovascular disease, cardiovascular, and all-cause mortality: A prospective cohort study using NHANES 2003-2018 data. Int J Cardiol Cardiovasc Risk Prev. 2025;24:200340. doi:10.1016/j.ijcrp.2024.200340
- Zhang F, Zhang Y, Qian S, Qian X, Jiao J, et al. Injectable and Conductive Nanomicelle Hydrogel with α-Tocopherol Encapsulation for Enhanced Myocardial Infarction Repair. ACS Nano. 2024;18:10216. doi:10.1021/acsnano.4c00509
- Wang T, Xu L. Circulating Vitamin E Levels and Risk of Coronary Artery Disease and Myocardial Infarction: A Mendelian Randomization Study. Nutrients. 2019;11. doi:10.3390/nu11092153
- Pongkan W, Takatori O, Ni Y, Xu L, Nagata N, et al. β-Cryptoxanthin exerts greater cardioprotective effects on cardiac ischemia-reperfusion injury than astaxanthin by attenuating mitochondrial dysfunction in mice. Mol Nutr Food Res. 2017;61. doi:10.1002/mnfr.201601077
- Loffredo L, Perri L, Di Castelnuovo A, Iacoviello L, De Gaetano G, et al. Supplementation with vitamin E alone is associated with reduced myocardial infarction: a meta-analysis. Nutr Metab Cardiovasc Dis. 2015;25:354. doi:10.1016/j.numecd.2015.01.008
- Shukla SK, Sharma SB, Singh UR. Pre-treatment with α-tocopherol and Terminalia arjuna ameliorates, pro-inflammatory cytokines, cardiac and apoptotic markers in myocardial infracted rats. Redox Rep. 2015;20:49. doi:10.1179/1351000214Y.0000000104
- Rodrigo R, Hasson D, Prieto JC, Dussaillant G, Ramos C, et al. The effectiveness of antioxidant vitamins C and E in reducing myocardial infarct size in patients subjected to percutaneous coronary angioplasty (PREVEC Trial): study protocol for a pilot randomized double-blind controlled trial. Trials. 2014;15:192. doi:10.1186/1745-6215-15-192
- Vardi M, Blum S, Levy AP. Haptoglobin genotype and cardiovascular outcomes in diabetes mellitus - natural history of the disease and the effect of vitamin E treatment. Meta-analysis of the medical literature. Eur J Intern Med. 2012;23:628. doi:10.1016/j.ejim.2012.04.009
- Rautiainen S, Akesson A, Levitan EB, Morgenstern R, Mittleman MA, et al. Multivitamin use and the risk of myocardial infarction: a population-based cohort of Swedish women. Am J Clin Nutr. 2010;92:1251. doi:10.3945/ajcn.2010.29371
- Blum S, Vardi M, Brown JB, Russell A, Milman U, et al. Vitamin E reduces cardiovascular disease in individuals with diabetes mellitus and the haptoglobin 2-2 genotype. Pharmacogenomics. 2010;11:675. doi:10.2217/pgs.10.17
- Punithavathi VR, Prince PS. Pretreatment with a combination of quercetin and alpha-tocopherol ameliorates adenosine triphosphatases and lysosomal enzymes in myocardial infarcted rats. Life Sci. 2010;86:178. doi:10.1016/j.lfs.2009.11.021
