Animal Pump's (by Animal) ability to improve muscular endurance is rated as 1.66 out of 3. This rating means the evidence is mixed on the product's ability to deliver on this claim. While some of the evidence supports its use, other evidence does not. Using Animal Pump to improve muscular endurance may lead to positive results. This rating is different from the product's overall rating and is based on what peer reviewed journal articles conclude on its ability to perform this one claim. This page contains an indepth analysis on how this claim-rating was calculated.
Note: The ratings on this page only deal with Animal Pump's ability to improve muscular endurance. To view the product's overall rating, visit the product's main page: Animal Pump.
Table of Contents
- Simple Report
- Detailed Report
- References
Simple Report
Detailed Report
The detailed report is an in-depth analysis on how Animal Pump's rating for this particular claim was calculated.
Claim Effectiveness Ratings
Each supplement product is a blend of ingredients. The database uses peer reviewed journal articles to rate the ingredients. These ratings are also used to rate how well products perform overall as well as on individual claims.
The supplement ingredients listed in table below are identified as affecting Animal Pump's ability to improve muscular endurance. The rating next to the ingredient describes the ingredient's ability to improve muscular endurance. These ratings are averaged together and provide the product's overall ability to deliver on the same claim.
| Ingredients |
Improve Muscular Endurance Rating |
| Magnesium |
1 out of 3
|
| Creatine Monohydrate |
2 out of 3
|
| Creatine Magnesium Chelate |
3 out of 3
|
| L-Arginine Alpha Ketoglutarate |
1 out of 3
|
| Citrulline Malate |
2.3 out of 3
|
| Caffeine Anhydrous |
1.6 out of 3
|
| Fenugreek |
1 out of 3
|
| Creatine Monohydrate |
2 out of 3
|
| L-Arginine Alpha Ketoglutarate |
1 out of 3
|
| Beta Alanine |
1.8 out of 3
|
| Citrulline Malate |
2.3 out of 3
|
| Caffeine Anhydrous |
1.6 out of 3
|
| Fenugreek |
1 out of 3
|
| Product's Claim Effectiveness Rating |
1.66 out of 3
|
Claim Research Ratings
The research rating describes how well an ingredient's ability to perform a certain claim (such as improve muscular endurance) has been researched. This rating is based on the amount of studies contained in the database on a particular ingredient and claim. Ingredient research ratings are averaged together to from the product's research rating for this specific cliam.
This rating is important because we need to know if there is enough research to make a valid conclusion on a product's worthiness. Ratings above 80 are ideal. Anything below 60 means there is not enoguh research to make a valid conclusion one way or another on a product's ability to deliver on this particular claim.
| Ingredients |
Improve Muscular Endurance Research Rating |
| Magnesium |
|
| Creatine Monohydrate |
|
| Creatine Magnesium Chelate |
|
| L-Arginine Alpha Ketoglutarate |
|
| Citrulline Malate |
|
| Caffeine Anhydrous |
|
| Fenugreek |
|
| Creatine Monohydrate |
|
| L-Arginine Alpha Ketoglutarate |
|
| Beta Alanine |
|
| Citrulline Malate |
|
| Caffeine Anhydrous |
|
| Fenugreek |
|
| Product's Claim Research Rating |
|
References
| Title |
| Effects of Zinc Magnesium Aspartate (ZMA) Supplementation on Training Adaptations and Markers of Anabolism and Catabolism |
| Effects of creatine supplementation on the onset of neuromuscular fatigue threshold and muscle strength in elderly men and women (64 - 86 years) |
| Effects of Coffee and Caffeine Anhydrous Intake During Creatine Loading |
| Effects of creatine loading on muscular strength and endurance of female softball players |
| Mg2+-creatine chelate and a low-dose creatine supplementation regimen improve exercise performance |
| Mg2+-creatine chelate and a low-dose creatine supplementation regimen improve exercise performance |
| Acute L-arginine alpha ketoglutarate supplementation fails to improve muscular performance in resistance trained and untrained men |
| Citrulline Malate Enhances Athletic Anaerobic Performance and Relieves Muscle Soreness |
| Effects of supplemental citrulline malate ingestion during repeated bouts of lower-body exercise in advanced weightlifters |
| Effects of Supplemental Citrulline-Malate Ingestion on Blood Lactate, Cardiovascular Dynamics, and Resistance Exercise Performance in Trained Males |
| The acute effects of a caffeine-containing supplement on strength, muscular endurance, and anaerobic capabilities |
| Acute ingestion of sugar-free red bull energy drink has no effect on upper body strength and muscular endurance in resistance trained men |
| Acute Specific Effects of Caffeine-containing Energy Drink on Different Physical Performances in Resistance-trained Men |
| Caffeine ingestion acutely enhances muscular strength and power but not muscular endurance in resistance-trained men |
| The effects of supplementation with P-Synephrine alone and in combination with caffeine on resistance exercise performance |
| The effect of ephedra and caffeine on maximal strength and power in resistance-trained athletes |
| Effects of Coffee and Caffeine Anhydrous Intake During Creatine Loading |
| Acute caffeine ingestion enhances strength performance and reduces perceived exertion and muscle pain perception during resistance exercise |
| The effects of a commercially available botanical supplement on strength, body composition, power output, and hormonal profiles in resistance-trained males |
| Effects of creatine supplementation on the onset of neuromuscular fatigue threshold and muscle strength in elderly men and women (64 - 86 years) |
| Effects of Coffee and Caffeine Anhydrous Intake During Creatine Loading |
| Effects of creatine loading on muscular strength and endurance of female softball players |
| Mg2+-creatine chelate and a low-dose creatine supplementation regimen improve exercise performance |
| Acute L-arginine alpha ketoglutarate supplementation fails to improve muscular performance in resistance trained and untrained men |
| β-alanine supplementation improves isometric endurance of the knee extensor muscles |
| Effects of β-Alanine on Body Composition and Performance Measures in Collegiate Women |
| β-Alanine supplementation augments muscle carnosine content and attenuates fatigue during repeated isokinetic contraction bouts in trained sprinters |
| Beta-alanine supplementation improves isometric, but not isotonic or isokinetic strength endurance in recreationally strength-trained young men |
| Citrulline Malate Enhances Athletic Anaerobic Performance and Relieves Muscle Soreness |
| Effects of supplemental citrulline malate ingestion during repeated bouts of lower-body exercise in advanced weightlifters |
| Effects of Supplemental Citrulline-Malate Ingestion on Blood Lactate, Cardiovascular Dynamics, and Resistance Exercise Performance in Trained Males |
| The acute effects of a caffeine-containing supplement on strength, muscular endurance, and anaerobic capabilities |
| Acute ingestion of sugar-free red bull energy drink has no effect on upper body strength and muscular endurance in resistance trained men |
| Acute Specific Effects of Caffeine-containing Energy Drink on Different Physical Performances in Resistance-trained Men |
| Caffeine ingestion acutely enhances muscular strength and power but not muscular endurance in resistance-trained men |
| The effects of supplementation with P-Synephrine alone and in combination with caffeine on resistance exercise performance |
| The effect of ephedra and caffeine on maximal strength and power in resistance-trained athletes |
| Effects of Coffee and Caffeine Anhydrous Intake During Creatine Loading |
| Acute caffeine ingestion enhances strength performance and reduces perceived exertion and muscle pain perception during resistance exercise |
| The effects of a commercially available botanical supplement on strength, body composition, power output, and hormonal profiles in resistance-trained males |
