Overview
SCIENTIFIC SCORE
Possibly Effective
Based on 16 Researches
7.6
USERS' SCORE
Good
Based on 11 Reviews
8.1
Supplement Facts
Serving Size: 1 Softgel
Amount Per Serving
%DV
Coenzyme Q10 (CoQ10)
100 mg
**
Top Medical Research Studies
9
We investigated how coenzyme Q10 might help with heart function after a heart attack, particularly focusing on its role in heart remodeling. In a well-structured study involving 55 patients with left ventricular dysfunction following an acute myocardial infarction, we compared the effects of coenzyme Q10 to a placebo over a 24-week period.
Through careful measurements using echocardiography, we observed notable improvements in the walls of the heart and overall heart mass for those taking coenzyme Q10. Specifically, the thickness of the heart walls decreased, and the left ventricular mass was reduced more significantly than in those receiving the placebo.
Additionally, coenzyme Q10 appeared to maintain heart shape and prevent worsening of heart function compared to the placebo group. Our results also highlighted a significant drop in angiotensin-converting enzyme (ACE) levels in the coenzyme Q10 group, suggesting beneficial effects on heart remodeling and function during recovery from a heart attack.
Through careful measurements using echocardiography, we observed notable improvements in the walls of the heart and overall heart mass for those taking coenzyme Q10. Specifically, the thickness of the heart walls decreased, and the left ventricular mass was reduced more significantly than in those receiving the placebo.
Additionally, coenzyme Q10 appeared to maintain heart shape and prevent worsening of heart function compared to the placebo group. Our results also highlighted a significant drop in angiotensin-converting enzyme (ACE) levels in the coenzyme Q10 group, suggesting beneficial effects on heart remodeling and function during recovery from a heart attack.
Read More
9
We explored how coenzyme Q10 (CoQ10) impacts heart damage caused by a lack of blood flow, known as ischemia, followed by the restoration of blood flow, which can lead to further injury. In our study, we utilized a rat model divided into three groups: a control group that did not undergo any induced heart injury, a group that experienced ischemia and reperfusion, and a group pre-treated with CoQ10 before the injury.
The results indicated that CoQ10 treatment significantly reduced signs of myocardial cell death, often associated with heart attacks. Specifically, we observed a decrease in apoptotic DNA, which is a marker of cell death, and an increase in the production of nitric oxide, a vital molecule for heart health. This suggests that CoQ10 not only helps combat oxidative stress but also enhances the heart's resilience against damage caused during ischemia and subsequent reperfusion.
Overall, our findings align with previous research highlighting CoQ10's potential to protect heart tissue during critical injury phases. By regulating gene expression linked to cell survival, CoQ10 appears to offer a protective effect that could be valuable in heart attack treatments.
The results indicated that CoQ10 treatment significantly reduced signs of myocardial cell death, often associated with heart attacks. Specifically, we observed a decrease in apoptotic DNA, which is a marker of cell death, and an increase in the production of nitric oxide, a vital molecule for heart health. This suggests that CoQ10 not only helps combat oxidative stress but also enhances the heart's resilience against damage caused during ischemia and subsequent reperfusion.
Overall, our findings align with previous research highlighting CoQ10's potential to protect heart tissue during critical injury phases. By regulating gene expression linked to cell survival, CoQ10 appears to offer a protective effect that could be valuable in heart attack treatments.
Read More
8
We embarked on a study to explore how Coenzyme Q10 (CoQ10) might aid in recovering cardiac function following a heart attack, or myocardial infarction (MI). By measuring the effects of CoQ10 on both patients and mice, we aimed to understand its role in promoting heart health post-MI.
Our research included a comparison between MI patients receiving CoQ10 and those who did not. We conducted evaluations at one and three months after treatments to assess heart function. In the animal model, we observed that mice receiving CoQ10 showed improved heart performance compared to those that did not, suggesting significant benefits for heart recovery.
An interesting finding was that CoQ10 appears to inhibit certain inflammatory responses in the heart, specifically by affecting a pathway associated with macrophages, which are immune cells that can contribute to inflammation. By preventing these macrophages from accumulating in the heart and activating pro-inflammatory signals, CoQ10 may help to reduce the harmful effects of inflammation following a heart attack.
Overall, our results indicate that CoQ10 can be a valuable addition to treatment plans for individuals recovering from heart attacks, potentially speeding up recovery and improving heart function.
Our research included a comparison between MI patients receiving CoQ10 and those who did not. We conducted evaluations at one and three months after treatments to assess heart function. In the animal model, we observed that mice receiving CoQ10 showed improved heart performance compared to those that did not, suggesting significant benefits for heart recovery.
An interesting finding was that CoQ10 appears to inhibit certain inflammatory responses in the heart, specifically by affecting a pathway associated with macrophages, which are immune cells that can contribute to inflammation. By preventing these macrophages from accumulating in the heart and activating pro-inflammatory signals, CoQ10 may help to reduce the harmful effects of inflammation following a heart attack.
Overall, our results indicate that CoQ10 can be a valuable addition to treatment plans for individuals recovering from heart attacks, potentially speeding up recovery and improving heart function.
Read More
Most Useful Reviews
9
Tachycardia relief
7 people found this helpful
I had frequent tachycardia attacks and didn’t think the recommended Q10 would help. However, after taking it, the attacks disappeared. Believe it or not!
Read More
9
Remarkable recovery
1 people found this helpful
After giving this to a friend post-chemo with a severely damaged heart, her ejection fraction improved remarkably. I take it for overall health, and my husband used it while on those dreadful statins that deplete CoQ10.
Read More
7.5
Heart function improvement
6 people found this helpful
This product is immensely beneficial! If you're taking statins or blood pressure medications, it's essential to consider this supplement. It helps protect heart function when taken regularly. I've seen marked improvement in my father, who had two heart attacks and stents, and I highly recommend it based on the positive change I've witnessed.
Read More
Medical Researches
SCIENTIFIC SCORE
Possibly Effective
Based on 16 Researches
7.6
- All Researches
9
We explored the connection between acute heart attacks and potential liver and kidney complications, specifically focusing on the role of coenzyme Q10 (Q10). In our study, we examined male rats divided into groups—some receiving normal saline and others pretreated with Q10 for 28 days, followed by an induced heart attack using isoprenaline (ISO).
Our findings revealed that ISO administration increased oxidative stress and negatively affected liver and kidney health. However, those pretreated with Q10 showed notable protection against both biochemical and tissue changes linked to these complications. We observed significantly improved antioxidant levels and a reduction in harmful liver and kidney enzymes. Furthermore, the histopathological examination indicated less severe damage in the tissues of the rats given Q10 compared to those that received ISO alone.
Overall, this study suggests that coenzyme Q10 may help shield the liver and kidneys during recovery from a heart attack by counteracting oxidative stress and reducing fibrotic changes. This finding highlights the potential of Q10 as a supportive treatment during critical cardiac events.
Our findings revealed that ISO administration increased oxidative stress and negatively affected liver and kidney health. However, those pretreated with Q10 showed notable protection against both biochemical and tissue changes linked to these complications. We observed significantly improved antioxidant levels and a reduction in harmful liver and kidney enzymes. Furthermore, the histopathological examination indicated less severe damage in the tissues of the rats given Q10 compared to those that received ISO alone.
Overall, this study suggests that coenzyme Q10 may help shield the liver and kidneys during recovery from a heart attack by counteracting oxidative stress and reducing fibrotic changes. This finding highlights the potential of Q10 as a supportive treatment during critical cardiac events.
Read More
9
We explored the effectiveness of coenzyme Q10 (CoQ10) when used alongside epigallocatechin gallate (EGCG) in protecting heart cells after a myocardial infarction (MI). The study focused on liposome nanoparticles made with distearyl phosphatidylcholine (DSPC) to deliver these compounds effectively. By doing this, we aimed to see whether this combination could reduce oxidative stress and cell death in heart tissue.
Our results showed that these liposome nanoparticles, referred to as CE-LNPs, were well-tolerated by cells and were taken up efficiently by macrophages. These nanoparticles successfully lowered harmful reactive oxygen species (ROS) in heart cells under stress, lessened cell death, and helped maintain the health and growth of those cells. We validated these positive outcomes through various tests that confirm their anti-apoptotic properties, or their ability to prevent cell death.
In a mouse model of MI, the CE-LNPs significantly reduced scar tissue formation, aiding in cardiac recovery and enhancing heart function. These findings suggest that using CoQ10 in conjunction with EGCG within DSPC liposomes can provide protective effects against heart damage following a heart attack. However, since these two were tested together, we note that isolating the specific impact of CoQ10 alone remains challenging. Overall, we have evidence of a promising approach for heart protection using these formulations.
Our results showed that these liposome nanoparticles, referred to as CE-LNPs, were well-tolerated by cells and were taken up efficiently by macrophages. These nanoparticles successfully lowered harmful reactive oxygen species (ROS) in heart cells under stress, lessened cell death, and helped maintain the health and growth of those cells. We validated these positive outcomes through various tests that confirm their anti-apoptotic properties, or their ability to prevent cell death.
In a mouse model of MI, the CE-LNPs significantly reduced scar tissue formation, aiding in cardiac recovery and enhancing heart function. These findings suggest that using CoQ10 in conjunction with EGCG within DSPC liposomes can provide protective effects against heart damage following a heart attack. However, since these two were tested together, we note that isolating the specific impact of CoQ10 alone remains challenging. Overall, we have evidence of a promising approach for heart protection using these formulations.
Read More
9
We investigated how coenzyme Q10 might help with heart function after a heart attack, particularly focusing on its role in heart remodeling. In a well-structured study involving 55 patients with left ventricular dysfunction following an acute myocardial infarction, we compared the effects of coenzyme Q10 to a placebo over a 24-week period.
Through careful measurements using echocardiography, we observed notable improvements in the walls of the heart and overall heart mass for those taking coenzyme Q10. Specifically, the thickness of the heart walls decreased, and the left ventricular mass was reduced more significantly than in those receiving the placebo.
Additionally, coenzyme Q10 appeared to maintain heart shape and prevent worsening of heart function compared to the placebo group. Our results also highlighted a significant drop in angiotensin-converting enzyme (ACE) levels in the coenzyme Q10 group, suggesting beneficial effects on heart remodeling and function during recovery from a heart attack.
Through careful measurements using echocardiography, we observed notable improvements in the walls of the heart and overall heart mass for those taking coenzyme Q10. Specifically, the thickness of the heart walls decreased, and the left ventricular mass was reduced more significantly than in those receiving the placebo.
Additionally, coenzyme Q10 appeared to maintain heart shape and prevent worsening of heart function compared to the placebo group. Our results also highlighted a significant drop in angiotensin-converting enzyme (ACE) levels in the coenzyme Q10 group, suggesting beneficial effects on heart remodeling and function during recovery from a heart attack.
Read More
9
We explored how coenzyme Q10 (CoQ10) impacts heart damage caused by a lack of blood flow, known as ischemia, followed by the restoration of blood flow, which can lead to further injury. In our study, we utilized a rat model divided into three groups: a control group that did not undergo any induced heart injury, a group that experienced ischemia and reperfusion, and a group pre-treated with CoQ10 before the injury.
The results indicated that CoQ10 treatment significantly reduced signs of myocardial cell death, often associated with heart attacks. Specifically, we observed a decrease in apoptotic DNA, which is a marker of cell death, and an increase in the production of nitric oxide, a vital molecule for heart health. This suggests that CoQ10 not only helps combat oxidative stress but also enhances the heart's resilience against damage caused during ischemia and subsequent reperfusion.
Overall, our findings align with previous research highlighting CoQ10's potential to protect heart tissue during critical injury phases. By regulating gene expression linked to cell survival, CoQ10 appears to offer a protective effect that could be valuable in heart attack treatments.
The results indicated that CoQ10 treatment significantly reduced signs of myocardial cell death, often associated with heart attacks. Specifically, we observed a decrease in apoptotic DNA, which is a marker of cell death, and an increase in the production of nitric oxide, a vital molecule for heart health. This suggests that CoQ10 not only helps combat oxidative stress but also enhances the heart's resilience against damage caused during ischemia and subsequent reperfusion.
Overall, our findings align with previous research highlighting CoQ10's potential to protect heart tissue during critical injury phases. By regulating gene expression linked to cell survival, CoQ10 appears to offer a protective effect that could be valuable in heart attack treatments.
Read More
8
Coenzyme Q10 may aid heart recovery
We explored the effects of coenzyme Q10 in conjunction with lisinopril as a treatment for patients suffering from ventricular septal rupture (VSR) following a heart attack. This rare complication can lead to severe issues and is typically treated with surgery. However, not all hospitals have the facilities for immediate surgical intervention, making alternative treatments essential.
In a recent case, a 74-year-old woman was admitted with late-onset myocardial infarction and subsequently diagnosed with VSR and pulmonary hypertension. As her condition worsened, traditional treatment with vasopressors was initiated. To enhance her recovery, doctors introduced lisinopril and coenzyme Q10, which reportedly supported her heart function and stability over three months.
While the findings suggest that the combination of these two treatments could improve energy production and tissue healing, it is crucial to note the difficulty in isolating the effects of coenzyme Q10 alone from lisinopril. This limitation makes it hard to draw definitive conclusions about how effective coenzyme Q10 is on its own for managing heart attack complications.
In a recent case, a 74-year-old woman was admitted with late-onset myocardial infarction and subsequently diagnosed with VSR and pulmonary hypertension. As her condition worsened, traditional treatment with vasopressors was initiated. To enhance her recovery, doctors introduced lisinopril and coenzyme Q10, which reportedly supported her heart function and stability over three months.
While the findings suggest that the combination of these two treatments could improve energy production and tissue healing, it is crucial to note the difficulty in isolating the effects of coenzyme Q10 alone from lisinopril. This limitation makes it hard to draw definitive conclusions about how effective coenzyme Q10 is on its own for managing heart attack complications.
Read More
User Reviews
USERS' SCORE
Good
Based on 11 Reviews
8.1
- All Reviews
- Positive Reviews
- Negative Reviews
9
Tachycardia relief
7 people found this helpful
I had frequent tachycardia attacks and didn’t think the recommended Q10 would help. However, after taking it, the attacks disappeared. Believe it or not!
Read More
9
Remarkable recovery
1 people found this helpful
After giving this to a friend post-chemo with a severely damaged heart, her ejection fraction improved remarkably. I take it for overall health, and my husband used it while on those dreadful statins that deplete CoQ10.
Read More
7.5
Heart function improvement
6 people found this helpful
This product is immensely beneficial! If you're taking statins or blood pressure medications, it's essential to consider this supplement. It helps protect heart function when taken regularly. I've seen marked improvement in my father, who had two heart attacks and stents, and I highly recommend it based on the positive change I've witnessed.
Read More
7.5
Vital for heart
2 people found this helpful
This product is essential for those with heart-related issues, CHF, or PCOS. My daughter and I find it beneficial for heart function and overall health.
Read More
9
Heart surgery benefits
1 people found this helpful
Fantastic value for money with acceptable ingredients, apart from ubiquinone. My son underwent heart surgery years ago, and the doctors were astonished by his heart's condition. He has been taking CoQ10 and K2 for 10 years.
Read More
Frequently Asked Questions
9
Tachycardia relief
7 people found this helpful
I had frequent tachycardia attacks and didn’t think the recommended Q10 would help. However, after taking it, the attacks disappeared. Believe it or not!
9
Remarkable recovery
1 people found this helpful
After giving this to a friend post-chemo with a severely damaged heart, her ejection fraction improved remarkably. I take it for overall health, and my husband used it while on those dreadful statins that deplete CoQ10.
7.5
Long-term heart support
I’ve taken this CoQ10 for over 10 years to aid my heart function. It works wonders, and the new smaller size maintains the same active ingredient amount.
7.5
Daily heart support
1 people found this helpful
A daily dosage of 100 mg of CoQ10 is effective for heart health and is recommended to be taken alongside carnitine for enhanced benefits.
7.5
Vital for heart
2 people found this helpful
This product is essential for those with heart-related issues, CHF, or PCOS. My daughter and I find it beneficial for heart function and overall health.
9
Heart surgery benefits
1 people found this helpful
Fantastic value for money with acceptable ingredients, apart from ubiquinone. My son underwent heart surgery years ago, and the doctors were astonished by his heart's condition. He has been taking CoQ10 and K2 for 10 years.
8
We embarked on a study to explore how Coenzyme Q10 (CoQ10) might aid in recovering cardiac function following a heart attack, or myocardial infarction (MI). By measuring the effects of CoQ10 on both patients and mice, we aimed to understand its role in promoting heart health post-MI.
Our research included a comparison between MI patients receiving CoQ10 and those who did not. We conducted evaluations at one and three months after treatments to assess heart function. In the animal model, we observed that mice receiving CoQ10 showed improved heart performance compared to those that did not, suggesting significant benefits for heart recovery.
An interesting finding was that CoQ10 appears to inhibit certain inflammatory responses in the heart, specifically by affecting a pathway associated with macrophages, which are immune cells that can contribute to inflammation. By preventing these macrophages from accumulating in the heart and activating pro-inflammatory signals, CoQ10 may help to reduce the harmful effects of inflammation following a heart attack.
Overall, our results indicate that CoQ10 can be a valuable addition to treatment plans for individuals recovering from heart attacks, potentially speeding up recovery and improving heart function.
Our research included a comparison between MI patients receiving CoQ10 and those who did not. We conducted evaluations at one and three months after treatments to assess heart function. In the animal model, we observed that mice receiving CoQ10 showed improved heart performance compared to those that did not, suggesting significant benefits for heart recovery.
An interesting finding was that CoQ10 appears to inhibit certain inflammatory responses in the heart, specifically by affecting a pathway associated with macrophages, which are immune cells that can contribute to inflammation. By preventing these macrophages from accumulating in the heart and activating pro-inflammatory signals, CoQ10 may help to reduce the harmful effects of inflammation following a heart attack.
Overall, our results indicate that CoQ10 can be a valuable addition to treatment plans for individuals recovering from heart attacks, potentially speeding up recovery and improving heart function.
8
Coenzyme Q10 may aid heart recovery
We explored the effects of coenzyme Q10 in conjunction with lisinopril as a treatment for patients suffering from ventricular septal rupture (VSR) following a heart attack. This rare complication can lead to severe issues and is typically treated with surgery. However, not all hospitals have the facilities for immediate surgical intervention, making alternative treatments essential.
In a recent case, a 74-year-old woman was admitted with late-onset myocardial infarction and subsequently diagnosed with VSR and pulmonary hypertension. As her condition worsened, traditional treatment with vasopressors was initiated. To enhance her recovery, doctors introduced lisinopril and coenzyme Q10, which reportedly supported her heart function and stability over three months.
While the findings suggest that the combination of these two treatments could improve energy production and tissue healing, it is crucial to note the difficulty in isolating the effects of coenzyme Q10 alone from lisinopril. This limitation makes it hard to draw definitive conclusions about how effective coenzyme Q10 is on its own for managing heart attack complications.
In a recent case, a 74-year-old woman was admitted with late-onset myocardial infarction and subsequently diagnosed with VSR and pulmonary hypertension. As her condition worsened, traditional treatment with vasopressors was initiated. To enhance her recovery, doctors introduced lisinopril and coenzyme Q10, which reportedly supported her heart function and stability over three months.
While the findings suggest that the combination of these two treatments could improve energy production and tissue healing, it is crucial to note the difficulty in isolating the effects of coenzyme Q10 alone from lisinopril. This limitation makes it hard to draw definitive conclusions about how effective coenzyme Q10 is on its own for managing heart attack complications.
9
We explored how coenzyme Q10 (CoQ10) impacts heart damage caused by a lack of blood flow, known as ischemia, followed by the restoration of blood flow, which can lead to further injury. In our study, we utilized a rat model divided into three groups: a control group that did not undergo any induced heart injury, a group that experienced ischemia and reperfusion, and a group pre-treated with CoQ10 before the injury.
The results indicated that CoQ10 treatment significantly reduced signs of myocardial cell death, often associated with heart attacks. Specifically, we observed a decrease in apoptotic DNA, which is a marker of cell death, and an increase in the production of nitric oxide, a vital molecule for heart health. This suggests that CoQ10 not only helps combat oxidative stress but also enhances the heart's resilience against damage caused during ischemia and subsequent reperfusion.
Overall, our findings align with previous research highlighting CoQ10's potential to protect heart tissue during critical injury phases. By regulating gene expression linked to cell survival, CoQ10 appears to offer a protective effect that could be valuable in heart attack treatments.
The results indicated that CoQ10 treatment significantly reduced signs of myocardial cell death, often associated with heart attacks. Specifically, we observed a decrease in apoptotic DNA, which is a marker of cell death, and an increase in the production of nitric oxide, a vital molecule for heart health. This suggests that CoQ10 not only helps combat oxidative stress but also enhances the heart's resilience against damage caused during ischemia and subsequent reperfusion.
Overall, our findings align with previous research highlighting CoQ10's potential to protect heart tissue during critical injury phases. By regulating gene expression linked to cell survival, CoQ10 appears to offer a protective effect that could be valuable in heart attack treatments.
8
CoQ10 improves heart recovery markers
We conducted a study to see how coenzyme Q10 (CoQ10) might help patients recovering from a heart attack, specifically those experiencing ST-elevation myocardial infarction (STEMI) and undergoing primary percutaneous coronary intervention (PPCI). In this randomized trial, seventy patients were split into two groups: one received standard treatments along with CoQ10, while the other received standard treatment plus a placebo.
We measured various markers in the patients' blood to assess oxidative stress—this refers to the imbalance between antioxidants and harmful reactive molecules in the body. While the changes in these markers at 6 and 24 hours were similar for both groups, we saw significant benefits for the CoQ10 group at the 72-hour mark. Specifically, those taking CoQ10 had higher levels of protective antioxidants like superoxide dismutase and catalase, and lower levels of the harmful substance malondialdehyde.
Overall, this suggests that CoQ10 could play a valuable role in reducing oxidative stress and may help with heart muscle recovery after reperfusion, the process following a heart attack when blood supply is restored. However, it's worth noting that the plasma activity of another antioxidant, glutathione peroxidase, didn’t show significant differences between the two groups.
We measured various markers in the patients' blood to assess oxidative stress—this refers to the imbalance between antioxidants and harmful reactive molecules in the body. While the changes in these markers at 6 and 24 hours were similar for both groups, we saw significant benefits for the CoQ10 group at the 72-hour mark. Specifically, those taking CoQ10 had higher levels of protective antioxidants like superoxide dismutase and catalase, and lower levels of the harmful substance malondialdehyde.
Overall, this suggests that CoQ10 could play a valuable role in reducing oxidative stress and may help with heart muscle recovery after reperfusion, the process following a heart attack when blood supply is restored. However, it's worth noting that the plasma activity of another antioxidant, glutathione peroxidase, didn’t show significant differences between the two groups.
8
We conducted a thorough investigation into how coenzyme Q10 affects heart attack risks, using a systematic review and meta-analysis of various clinical trials. Our research included data from a significant number of participants, which allowed us to draw more definitive conclusions about this supplement's benefits.
The findings indicate that coenzyme Q10 supplementation can be beneficial in reducing the risk of heart-related issues. Specifically, we observed a decrease in all-cause mortality events associated with its use. This means that incorporating coenzyme Q10 into one’s health regimen could potentially lead to a healthier heart and a longer life.
However, it’s important to note that while coenzyme Q10 shows promise, the overall context matters. Not every micronutrient contributes positively in all areas, and the balance between different nutrients is crucial for promoting cardiovascular health. Thus, while coenzyme Q10 may help, it's essential to consider it as part of a broader approach to heart health.
The findings indicate that coenzyme Q10 supplementation can be beneficial in reducing the risk of heart-related issues. Specifically, we observed a decrease in all-cause mortality events associated with its use. This means that incorporating coenzyme Q10 into one’s health regimen could potentially lead to a healthier heart and a longer life.
However, it’s important to note that while coenzyme Q10 shows promise, the overall context matters. Not every micronutrient contributes positively in all areas, and the balance between different nutrients is crucial for promoting cardiovascular health. Thus, while coenzyme Q10 may help, it's essential to consider it as part of a broader approach to heart health.
We investigated whether coenzyme Q10 (CoQ10) could help prevent kidney injury caused by contrast dye during heart procedures in patients experiencing a type of heart attack known as STEMI. In our study, 150 patients undergoing primary percutaneous coronary intervention (PCI) were divided into two groups. One group received CoQ10 alongside standard intravenous hydration, while the other received a placebo.
CoQ10 was given orally, starting with a 400 mg dose before the procedure, followed by 200 mg twice a day for three days post-procedure. We closely monitored serum creatinine levels and assessed kidney function at various points after the procedure. Additionally, we measured levels of certain antioxidants and markers of oxidative stress before and after the PCI.
Our findings suggested that supplementing with CoQ10 may be beneficial for preventing contrast-induced acute kidney injury. Thus, it appears that CoQ10 can serve as a useful addition to hydration strategies in protecting the kidneys during critical cardiac interventions.
CoQ10 was given orally, starting with a 400 mg dose before the procedure, followed by 200 mg twice a day for three days post-procedure. We closely monitored serum creatinine levels and assessed kidney function at various points after the procedure. Additionally, we measured levels of certain antioxidants and markers of oxidative stress before and after the PCI.
Our findings suggested that supplementing with CoQ10 may be beneficial for preventing contrast-induced acute kidney injury. Thus, it appears that CoQ10 can serve as a useful addition to hydration strategies in protecting the kidneys during critical cardiac interventions.
References
- Chidebe EO, Moke EG, Asiwe JN, Ben-Azu B, Demaki WE, et al. Therapeutic effect of coenzyme-Q10 pretreatment on isoprenaline-induced cardiogenic hepatorenal complications in rats. Int J Physiol Pathophysiol Pharmacol. 2024;16:126. doi:10.62347/PFXZ9903
- Intan RE, Balti DR, Nugraha RA, Alkaff FF, Salamah S, et al. Angiotensin converting enzyme inhibitor and coenzyme Q10 as adjunctive treatment for patients with ventricular septal rupture following late onset myocardial infarction: a case report. J Pak Med Assoc. 2024;74:S81. doi:10.47391/JPMA.S6-ACSA-16
- Pan W, Zhou G, Hu M, Li G, Zhang M, et al. Coenzyme Q10 mitigates macrophage mediated inflammation in heart following myocardial infarction via the NLRP3/IL1β pathway. BMC Cardiovasc Disord. 2024;24:76. doi:10.1186/s12872-024-03729-x
- Lei W, Yang J, Wang J, Xiao Z, Zhou P, et al. Synergetic EGCG and coenzyme Q10 DSPC liposome nanoparticles protect against myocardial infarction. Biomater Sci. 2023;11:6862. doi:10.1039/d3bm00857f
- Ahmadimoghaddam D, Talebi SS, Rahmani A, Zamanirafe M, Parvaneh E, et al. Prevention of contrast induced-acute kidney injury using coenzyme Q10 in patients with ST-segment elevation myocardial infarction undergoing primary percutaneous coronary intervention. Eur J Clin Pharmacol. 2023;79:1341. doi:10.1007/s00228-023-03546-9
- Mokhtari B, Badalzadeh R. Mitochondria-targeted combination treatment strategy counteracts myocardial reperfusion injury of aged rats by modulating autophagy and inflammatory response. Mol Biol Rep. 2023;50:3973. doi:10.1007/s11033-023-08318-3
- Li D, Zhang G, Wang Z, Guo J, Liu Y, et al. Idebenone attenuates ferroptosis by inhibiting excessive autophagy via the ROS-AMPK-mTOR pathway to preserve cardiac function after myocardial infarction. Eur J Pharmacol. 2023;943:175569. doi:10.1016/j.ejphar.2023.175569
- Yazdi A, Shirmohammadi K, Parvaneh E, Entezari-Maleki T, Hosseini SK, et al. Effects of coenzyme Q10 supplementation on oxidative stress biomarkers following reperfusion in STEMI patients undergoing primary percutaneous coronary intervention. J Cardiovasc Thorac Res. 2023;15:250. doi:10.34172/jcvtr.2023.31817
- An P, Wan S, Luo Y, Luo J, Zhang X, et al. Micronutrient Supplementation to Reduce Cardiovascular Risk. J Am Coll Cardiol. 2022;80:2269. doi:10.1016/j.jacc.2022.09.048
- Shah IA, Memon M, Ansari S, Kumar R, Chandio SA, et al. Role of Coenzyme Q10 in Prophylaxis of Myocardial Infarction. Cureus. 2021;13:e13137. doi:10.7759/cureus.13137
- Fontaine F, Legallois D, Créveuil C, Chtourou M, Coulbault L, et al. Is plasma concentration of coenzyme Q10 a predictive marker for left ventricular remodelling after revascularization for ST-segment elevation myocardial infarction?. Ann Clin Biochem. 2021;58:327. doi:10.1177/00045632211001100
- Martelli A, Testai L, Colletti A, Cicero AFG. Coenzyme Q: Clinical Applications in Cardiovascular Diseases. Antioxidants (Basel). 2020;9. doi:10.3390/antiox9040341
- Singh RB, Fedacko J, Mojto V, Pella D. Coenzyme Q10 Modulates Remodeling Possibly by Decreasing Angiotensin-Converting Enzyme in Patients with Acute Coronary Syndrome. Antioxidants (Basel). 2018;7. doi:10.3390/antiox7080099
- Khan NA, Abid M, Ahmad A, Abuzinadah MF, Basheikh M, et al. Cardioprotective Effect of Coenzyme Q on Apoptotic Myocardial Cell Death by Regulation of Bcl-2 Gene Expression. J Pharmacol Pharmacother. 2017;8:122. doi:10.4103/jpp.JPP_47_17
- Sharifi MH, Eftekhari MH, Ostovan MA, Rezaianazadeh A. Effects of a therapeutic lifestyle change diet and supplementation with Q10 plus L-carnitine on quality of life in patients with myocardial infarction: A randomized clinical trial. J Cardiovasc Thorac Res. 2017;9:21. doi:10.15171/jcvtr.2017.03
- Mirhashemi SM, Najafi V, Raygan F, Asemi Z. The effects of coenzyme Q10 supplementation on cardiometabolic markers in overweight type 2 diabetic patients with stable myocardial infarction: A randomized, double-blind, placebo-controlled trial. ARYA Atheroscler. 2016;12:158.
