Reviewed By
Overview
SCIENTIFIC SCORE
Moderately Effective
Based on 4 Researches
8.5
USERS' SCORE
Good
Based on 6 Reviews
8.3
Supplement Facts
Serving Size: 1 Softgel
Amount Per Serving
%DV
Zinc (from 150 mg Zinc Bisglycinate) (TRAACS™)
30 mg
273%
Pumpkin Seed Oil (Cold Pressed)
250 mg
†
Top Medical Research Studies
9
We explored the potential benefits of zinc oxide nanoparticles (ZnONPs) in preventing heart damage caused by cisplatin, a powerful chemotherapy drug known for its efficacy but also for its side effects, particularly cardiotoxicity.
In our study, rats were divided into several groups, including control groups and those receiving different doses of ZnONPs. We specifically looked at a range of health markers such as lipid levels, antioxidant activity, and inflammation in heart tissues to see how ZnONPs could help soften the impact of cisplatin on heart health.
As we gradually increased the dosage of ZnONPs to 50 mg/kg, we observed significant improvements across the various health parameters examined. Notably, at this optimal dose, the rats' heart health markers showed a remarkable recovery, aligning closely with those in the healthy control group. This suggests that ZnONPs effectively protect heart tissue from oxidative stress and inflammation associated with cisplatin treatment.
Overall, our findings highlight the promising role of zinc oxide nanoparticles in mitigating heart damage linked to cancer treatments, paving the way for further research in this arena.
In our study, rats were divided into several groups, including control groups and those receiving different doses of ZnONPs. We specifically looked at a range of health markers such as lipid levels, antioxidant activity, and inflammation in heart tissues to see how ZnONPs could help soften the impact of cisplatin on heart health.
As we gradually increased the dosage of ZnONPs to 50 mg/kg, we observed significant improvements across the various health parameters examined. Notably, at this optimal dose, the rats' heart health markers showed a remarkable recovery, aligning closely with those in the healthy control group. This suggests that ZnONPs effectively protect heart tissue from oxidative stress and inflammation associated with cisplatin treatment.
Overall, our findings highlight the promising role of zinc oxide nanoparticles in mitigating heart damage linked to cancer treatments, paving the way for further research in this arena.
Read More
8
We explored the connection between zinc supplementation and heart health, particularly in the context of obesity. Our research focused on how zinc affects cardiac remodeling, a process that can lead to serious heart issues when influenced by factors like high-fat diets. In our study, obese mice were examined after being fed a high-fat diet, allowing us to observe changes in their heart structures and inflammation levels.
Notably, we found that zinc appeared to counteract some of the harmful effects associated with obesity. For instance, when zinc was administered, it helped boost the levels of metallothionein, a protein known to protect the heart. This was significant as mice lacking this protein exhibited increased heart inflammation and structural changes when exposed to high-fat diets compared to their counterparts who received adequate zinc.
Ultimately, we concluded that zinc plays a crucial role in maintaining heart health, especially in conditions of obesity. This suggests that zinc could be a useful supplement for individuals struggling with weight-related heart problems, promoting better overall heart function and reducing inflammation.
Notably, we found that zinc appeared to counteract some of the harmful effects associated with obesity. For instance, when zinc was administered, it helped boost the levels of metallothionein, a protein known to protect the heart. This was significant as mice lacking this protein exhibited increased heart inflammation and structural changes when exposed to high-fat diets compared to their counterparts who received adequate zinc.
Ultimately, we concluded that zinc plays a crucial role in maintaining heart health, especially in conditions of obesity. This suggests that zinc could be a useful supplement for individuals struggling with weight-related heart problems, promoting better overall heart function and reducing inflammation.
Read More
8
We analyzed the relationship between trace mineral intake, specifically zinc, and the risk of coronary artery disease (CAD) in middle-aged and older adults. The participants, totaling 895 residents from Shika town in Japan, were selected carefully to exclude those with a genetic predisposition to high cholesterol levels.
Our findings indicated interesting interactions between dyslipidaemia and various trace minerals like zinc, copper, and manganese. We observed that lower intakes of these minerals were notably associated with a higher occurrence of CAD among individuals with dyslipidaemia. For instance, zinc was highlighted as a significant factor, with a lower risk ratio for CAD when intake was sufficient.
While our study emphasizes the importance of trace minerals, especially zinc, in relation to heart disease, it also underlines the complexity of these relationships. The study suggests that addressing low mineral intake could be part of a strategy to manage heart disease in affected individuals. However, further research over a longer duration is essential to fully understand these dynamics and their potential impact on heart health.
Our findings indicated interesting interactions between dyslipidaemia and various trace minerals like zinc, copper, and manganese. We observed that lower intakes of these minerals were notably associated with a higher occurrence of CAD among individuals with dyslipidaemia. For instance, zinc was highlighted as a significant factor, with a lower risk ratio for CAD when intake was sufficient.
While our study emphasizes the importance of trace minerals, especially zinc, in relation to heart disease, it also underlines the complexity of these relationships. The study suggests that addressing low mineral intake could be part of a strategy to manage heart disease in affected individuals. However, further research over a longer duration is essential to fully understand these dynamics and their potential impact on heart health.
Read More
Most Useful Reviews
9
Supports heart health
2 people found this helpful
A highly effective source of zinc glycinate for prostate health. Zinc aids in sex hormone synthesis and spermatogenesis, crucial for improving sexual health and prostate function while protecting against diseases and supporting anabolic hormone production.
Read More
9
Boosts immunity
A reliable manufacturer. Zinc strengthens immunity and reduces the risk of infectious diseases, crucial for overall health.
Read More
9
Mitigates heart disease
Zinc bisglycinate is a chelate that stimulates cell division, growth, and metabolism and is essential for bone formation and taste perception. It has an immunomodulatory effect, strengthening immunity. I take it two hours before or after lunch, adhering to the daily limit. Up to 50 mg can significantly reduce acne breakouts, and zinc intake is vital given its role in heart disease.
Read More
Medical Researches
SCIENTIFIC SCORE
Moderately Effective
Based on 4 Researches
8.5
- All Researches
9
We explored the fascinating relationship between heart health, atrial natriuretic peptide (ANP), and zinc (Zn) in the context of ischemia/reperfusion (I/R) injury, a condition that occurs when blood supply returns to the heart after a period of being blocked. Our research utilized a range of models, including isolated heart experiments in rats and ANP knockout mice, along with clinical investigations involving plasma samples from 216 patients suffering from ischemia-related diseases.
During our experiments, we observed that levels of ANP significantly increased during reperfusion, which, in turn, promoted zinc accumulation in the heart tissue. This uptick in zinc led to protective effects on the heart, primarily by reducing injury during the reperfusion phase. Interestingly, when we applied a zinc chelator, we found that it negated the beneficial impacts of both ANP and zinc, highlighting the crucial role zinc plays in conjunction with ANP.
Furthermore, we discovered that ANP modulates zinc levels by downregulating a specific transporter known as ZnT8 through a pathway called PI3K signaling. While the interplay between ANP and zinc is evident, the study suggests that zinc alone's effectiveness in treating heart conditions cannot be fully isolated due to these combined effects. Overall, our findings point to a complex relationship in heart protection strategies, where both ANP and zinc play essential, interlinked roles.
During our experiments, we observed that levels of ANP significantly increased during reperfusion, which, in turn, promoted zinc accumulation in the heart tissue. This uptick in zinc led to protective effects on the heart, primarily by reducing injury during the reperfusion phase. Interestingly, when we applied a zinc chelator, we found that it negated the beneficial impacts of both ANP and zinc, highlighting the crucial role zinc plays in conjunction with ANP.
Furthermore, we discovered that ANP modulates zinc levels by downregulating a specific transporter known as ZnT8 through a pathway called PI3K signaling. While the interplay between ANP and zinc is evident, the study suggests that zinc alone's effectiveness in treating heart conditions cannot be fully isolated due to these combined effects. Overall, our findings point to a complex relationship in heart protection strategies, where both ANP and zinc play essential, interlinked roles.
Read More
9
We explored the potential benefits of zinc oxide nanoparticles (ZnONPs) in preventing heart damage caused by cisplatin, a powerful chemotherapy drug known for its efficacy but also for its side effects, particularly cardiotoxicity.
In our study, rats were divided into several groups, including control groups and those receiving different doses of ZnONPs. We specifically looked at a range of health markers such as lipid levels, antioxidant activity, and inflammation in heart tissues to see how ZnONPs could help soften the impact of cisplatin on heart health.
As we gradually increased the dosage of ZnONPs to 50 mg/kg, we observed significant improvements across the various health parameters examined. Notably, at this optimal dose, the rats' heart health markers showed a remarkable recovery, aligning closely with those in the healthy control group. This suggests that ZnONPs effectively protect heart tissue from oxidative stress and inflammation associated with cisplatin treatment.
Overall, our findings highlight the promising role of zinc oxide nanoparticles in mitigating heart damage linked to cancer treatments, paving the way for further research in this arena.
In our study, rats were divided into several groups, including control groups and those receiving different doses of ZnONPs. We specifically looked at a range of health markers such as lipid levels, antioxidant activity, and inflammation in heart tissues to see how ZnONPs could help soften the impact of cisplatin on heart health.
As we gradually increased the dosage of ZnONPs to 50 mg/kg, we observed significant improvements across the various health parameters examined. Notably, at this optimal dose, the rats' heart health markers showed a remarkable recovery, aligning closely with those in the healthy control group. This suggests that ZnONPs effectively protect heart tissue from oxidative stress and inflammation associated with cisplatin treatment.
Overall, our findings highlight the promising role of zinc oxide nanoparticles in mitigating heart damage linked to cancer treatments, paving the way for further research in this arena.
Read More
8
We explored the connection between zinc supplementation and heart health, particularly in the context of obesity. Our research focused on how zinc affects cardiac remodeling, a process that can lead to serious heart issues when influenced by factors like high-fat diets. In our study, obese mice were examined after being fed a high-fat diet, allowing us to observe changes in their heart structures and inflammation levels.
Notably, we found that zinc appeared to counteract some of the harmful effects associated with obesity. For instance, when zinc was administered, it helped boost the levels of metallothionein, a protein known to protect the heart. This was significant as mice lacking this protein exhibited increased heart inflammation and structural changes when exposed to high-fat diets compared to their counterparts who received adequate zinc.
Ultimately, we concluded that zinc plays a crucial role in maintaining heart health, especially in conditions of obesity. This suggests that zinc could be a useful supplement for individuals struggling with weight-related heart problems, promoting better overall heart function and reducing inflammation.
Notably, we found that zinc appeared to counteract some of the harmful effects associated with obesity. For instance, when zinc was administered, it helped boost the levels of metallothionein, a protein known to protect the heart. This was significant as mice lacking this protein exhibited increased heart inflammation and structural changes when exposed to high-fat diets compared to their counterparts who received adequate zinc.
Ultimately, we concluded that zinc plays a crucial role in maintaining heart health, especially in conditions of obesity. This suggests that zinc could be a useful supplement for individuals struggling with weight-related heart problems, promoting better overall heart function and reducing inflammation.
Read More
8
We analyzed the relationship between trace mineral intake, specifically zinc, and the risk of coronary artery disease (CAD) in middle-aged and older adults. The participants, totaling 895 residents from Shika town in Japan, were selected carefully to exclude those with a genetic predisposition to high cholesterol levels.
Our findings indicated interesting interactions between dyslipidaemia and various trace minerals like zinc, copper, and manganese. We observed that lower intakes of these minerals were notably associated with a higher occurrence of CAD among individuals with dyslipidaemia. For instance, zinc was highlighted as a significant factor, with a lower risk ratio for CAD when intake was sufficient.
While our study emphasizes the importance of trace minerals, especially zinc, in relation to heart disease, it also underlines the complexity of these relationships. The study suggests that addressing low mineral intake could be part of a strategy to manage heart disease in affected individuals. However, further research over a longer duration is essential to fully understand these dynamics and their potential impact on heart health.
Our findings indicated interesting interactions between dyslipidaemia and various trace minerals like zinc, copper, and manganese. We observed that lower intakes of these minerals were notably associated with a higher occurrence of CAD among individuals with dyslipidaemia. For instance, zinc was highlighted as a significant factor, with a lower risk ratio for CAD when intake was sufficient.
While our study emphasizes the importance of trace minerals, especially zinc, in relation to heart disease, it also underlines the complexity of these relationships. The study suggests that addressing low mineral intake could be part of a strategy to manage heart disease in affected individuals. However, further research over a longer duration is essential to fully understand these dynamics and their potential impact on heart health.
Read More
User Reviews
USERS' SCORE
Good
Based on 6 Reviews
8.3
- All Reviews
- Positive Reviews
- Negative Reviews
9
Supports heart health
2 people found this helpful
A highly effective source of zinc glycinate for prostate health. Zinc aids in sex hormone synthesis and spermatogenesis, crucial for improving sexual health and prostate function while protecting against diseases and supporting anabolic hormone production.
Read More
9
Boosts immunity
A reliable manufacturer. Zinc strengthens immunity and reduces the risk of infectious diseases, crucial for overall health.
Read More
9
Mitigates heart disease
Zinc bisglycinate is a chelate that stimulates cell division, growth, and metabolism and is essential for bone formation and taste perception. It has an immunomodulatory effect, strengthening immunity. I take it two hours before or after lunch, adhering to the daily limit. Up to 50 mg can significantly reduce acne breakouts, and zinc intake is vital given its role in heart disease.
Read More
7.5
Helps heart function
2 people found this helpful
Gift for a man for the New Year. We took this zinc when other options were unavailable and based on positive reviews. It helps! My husband's heart sometimes malfunctions, causing night awakenings, and dry skin is a burden. This zinc glycinate with pumpkin seed oil is great (alongside Vitamin D3). My husband is quite pleased!
Read More
7.5
Positive heart impact
2 people found this helpful
Took one pack of zinc glycinate for two, taking one capsule daily. These small, easy-to-swallow capsules benefit the immune system, neurological function, and reproductive health. Adequate zinc intake helps slow age-related chronic diseases, including heart disease. It's essential since we might not always consume sufficient zinc-rich foods.
Read More
Frequently Asked Questions
7.5
Helps heart function
2 people found this helpful
Gift for a man for the New Year. We took this zinc when other options were unavailable and based on positive reviews. It helps! My husband's heart sometimes malfunctions, causing night awakenings, and dry skin is a burden. This zinc glycinate with pumpkin seed oil is great (alongside Vitamin D3). My husband is quite pleased!
7.5
Positive heart impact
2 people found this helpful
Took one pack of zinc glycinate for two, taking one capsule daily. These small, easy-to-swallow capsules benefit the immune system, neurological function, and reproductive health. Adequate zinc intake helps slow age-related chronic diseases, including heart disease. It's essential since we might not always consume sufficient zinc-rich foods.
9
Supports heart health
2 people found this helpful
A highly effective source of zinc glycinate for prostate health. Zinc aids in sex hormone synthesis and spermatogenesis, crucial for improving sexual health and prostate function while protecting against diseases and supporting anabolic hormone production.
9
Boosts immunity
A reliable manufacturer. Zinc strengthens immunity and reduces the risk of infectious diseases, crucial for overall health.
9
Mitigates heart disease
Zinc bisglycinate is a chelate that stimulates cell division, growth, and metabolism and is essential for bone formation and taste perception. It has an immunomodulatory effect, strengthening immunity. I take it two hours before or after lunch, adhering to the daily limit. Up to 50 mg can significantly reduce acne breakouts, and zinc intake is vital given its role in heart disease.
6
Heart health support
Zinc is beneficial for heart health. It should be taken regularly. The quality is good, and it's well absorbed. It helps with immunity in winter and is advisable to assess zinc deficiency before consumption.
8
We explored the connection between zinc supplementation and heart health, particularly in the context of obesity. Our research focused on how zinc affects cardiac remodeling, a process that can lead to serious heart issues when influenced by factors like high-fat diets. In our study, obese mice were examined after being fed a high-fat diet, allowing us to observe changes in their heart structures and inflammation levels.
Notably, we found that zinc appeared to counteract some of the harmful effects associated with obesity. For instance, when zinc was administered, it helped boost the levels of metallothionein, a protein known to protect the heart. This was significant as mice lacking this protein exhibited increased heart inflammation and structural changes when exposed to high-fat diets compared to their counterparts who received adequate zinc.
Ultimately, we concluded that zinc plays a crucial role in maintaining heart health, especially in conditions of obesity. This suggests that zinc could be a useful supplement for individuals struggling with weight-related heart problems, promoting better overall heart function and reducing inflammation.
Notably, we found that zinc appeared to counteract some of the harmful effects associated with obesity. For instance, when zinc was administered, it helped boost the levels of metallothionein, a protein known to protect the heart. This was significant as mice lacking this protein exhibited increased heart inflammation and structural changes when exposed to high-fat diets compared to their counterparts who received adequate zinc.
Ultimately, we concluded that zinc plays a crucial role in maintaining heart health, especially in conditions of obesity. This suggests that zinc could be a useful supplement for individuals struggling with weight-related heart problems, promoting better overall heart function and reducing inflammation.
8
We analyzed the relationship between trace mineral intake, specifically zinc, and the risk of coronary artery disease (CAD) in middle-aged and older adults. The participants, totaling 895 residents from Shika town in Japan, were selected carefully to exclude those with a genetic predisposition to high cholesterol levels.
Our findings indicated interesting interactions between dyslipidaemia and various trace minerals like zinc, copper, and manganese. We observed that lower intakes of these minerals were notably associated with a higher occurrence of CAD among individuals with dyslipidaemia. For instance, zinc was highlighted as a significant factor, with a lower risk ratio for CAD when intake was sufficient.
While our study emphasizes the importance of trace minerals, especially zinc, in relation to heart disease, it also underlines the complexity of these relationships. The study suggests that addressing low mineral intake could be part of a strategy to manage heart disease in affected individuals. However, further research over a longer duration is essential to fully understand these dynamics and their potential impact on heart health.
Our findings indicated interesting interactions between dyslipidaemia and various trace minerals like zinc, copper, and manganese. We observed that lower intakes of these minerals were notably associated with a higher occurrence of CAD among individuals with dyslipidaemia. For instance, zinc was highlighted as a significant factor, with a lower risk ratio for CAD when intake was sufficient.
While our study emphasizes the importance of trace minerals, especially zinc, in relation to heart disease, it also underlines the complexity of these relationships. The study suggests that addressing low mineral intake could be part of a strategy to manage heart disease in affected individuals. However, further research over a longer duration is essential to fully understand these dynamics and their potential impact on heart health.
9
We explored the potential benefits of zinc oxide nanoparticles (ZnONPs) in preventing heart damage caused by cisplatin, a powerful chemotherapy drug known for its efficacy but also for its side effects, particularly cardiotoxicity.
In our study, rats were divided into several groups, including control groups and those receiving different doses of ZnONPs. We specifically looked at a range of health markers such as lipid levels, antioxidant activity, and inflammation in heart tissues to see how ZnONPs could help soften the impact of cisplatin on heart health.
As we gradually increased the dosage of ZnONPs to 50 mg/kg, we observed significant improvements across the various health parameters examined. Notably, at this optimal dose, the rats' heart health markers showed a remarkable recovery, aligning closely with those in the healthy control group. This suggests that ZnONPs effectively protect heart tissue from oxidative stress and inflammation associated with cisplatin treatment.
Overall, our findings highlight the promising role of zinc oxide nanoparticles in mitigating heart damage linked to cancer treatments, paving the way for further research in this arena.
In our study, rats were divided into several groups, including control groups and those receiving different doses of ZnONPs. We specifically looked at a range of health markers such as lipid levels, antioxidant activity, and inflammation in heart tissues to see how ZnONPs could help soften the impact of cisplatin on heart health.
As we gradually increased the dosage of ZnONPs to 50 mg/kg, we observed significant improvements across the various health parameters examined. Notably, at this optimal dose, the rats' heart health markers showed a remarkable recovery, aligning closely with those in the healthy control group. This suggests that ZnONPs effectively protect heart tissue from oxidative stress and inflammation associated with cisplatin treatment.
Overall, our findings highlight the promising role of zinc oxide nanoparticles in mitigating heart damage linked to cancer treatments, paving the way for further research in this arena.
9
We explored the fascinating relationship between heart health, atrial natriuretic peptide (ANP), and zinc (Zn) in the context of ischemia/reperfusion (I/R) injury, a condition that occurs when blood supply returns to the heart after a period of being blocked. Our research utilized a range of models, including isolated heart experiments in rats and ANP knockout mice, along with clinical investigations involving plasma samples from 216 patients suffering from ischemia-related diseases.
During our experiments, we observed that levels of ANP significantly increased during reperfusion, which, in turn, promoted zinc accumulation in the heart tissue. This uptick in zinc led to protective effects on the heart, primarily by reducing injury during the reperfusion phase. Interestingly, when we applied a zinc chelator, we found that it negated the beneficial impacts of both ANP and zinc, highlighting the crucial role zinc plays in conjunction with ANP.
Furthermore, we discovered that ANP modulates zinc levels by downregulating a specific transporter known as ZnT8 through a pathway called PI3K signaling. While the interplay between ANP and zinc is evident, the study suggests that zinc alone's effectiveness in treating heart conditions cannot be fully isolated due to these combined effects. Overall, our findings point to a complex relationship in heart protection strategies, where both ANP and zinc play essential, interlinked roles.
During our experiments, we observed that levels of ANP significantly increased during reperfusion, which, in turn, promoted zinc accumulation in the heart tissue. This uptick in zinc led to protective effects on the heart, primarily by reducing injury during the reperfusion phase. Interestingly, when we applied a zinc chelator, we found that it negated the beneficial impacts of both ANP and zinc, highlighting the crucial role zinc plays in conjunction with ANP.
Furthermore, we discovered that ANP modulates zinc levels by downregulating a specific transporter known as ZnT8 through a pathway called PI3K signaling. While the interplay between ANP and zinc is evident, the study suggests that zinc alone's effectiveness in treating heart conditions cannot be fully isolated due to these combined effects. Overall, our findings point to a complex relationship in heart protection strategies, where both ANP and zinc play essential, interlinked roles.
References
- Ma YT, Laga T, Zhong CN, Zhuang BQ, Quan HL, et al. ANP Increases Zn Accumulation During Reperfusion in Ex Vivo and In Vivo Hearts. Curr Med Sci. 2025;45:35. 10.1007/s11596-025-00019-1
- Al-Lbban AM. Role of zinc oxide nanoparticles supplementation on alleviate side effects of cisplatin induced cardiotoxicity in rats. Braz J Biol. 2025;84:e287764. 10.1590/1519-6984.287764
- Zhang H, Zhou W, Wang X, Men H, Wang J, et al. Exacerbation by knocking-out metallothionein gene of obesity-induced cardiac remodeling is associated with the activation of CARD9 signaling. Int J Biol Sci. 2025;21:1032. 10.7150/ijbs.105513
- Kimura K, Suzuki F, Tsujiguchi H, Hara A, Miyagi S, et al. Relationship between coronary artery disease with dyslipidaemia and trace mineral intake: a cross-sectional analysis of the Shika study. J Nutr Sci. 2024;13:e45. 10.1017/jns.2024.26
