Atp injection for horses

ATP Explosion Oral Gel 1000mg/30ml tube

Dosage and Administration: Administer ml by mouth hours prior to hard work to delay fatigue. You can also therapeutically treat overly fatigued horses, post-hard work, with the same dosage. Energy is defined as the capacity to do work. Athletic performance requires the efficient utilization of extreme amounts of energy transformed by metabolic pathways from chemical to kinetic energy for muscle contraction. This kinetic energy is in the form of adenosine triphosphate… or ATP. The muscles are capable of storing limited amounts of ATP for muscle contraction, but all athletic events need a constant flow of this energy source. The way the horse creates more ATP is through the metabolism of fuel stores in the body. There are three main fuel sources utilized for the production of ATP in all athletes, including the horse. These include:. Carbohydrates Fats Proteins Carbohydrates are stored mainly in the muscles and liver as glycogen. Glucose is also present in the blood, and it contributes energy during initial exercise. Through a process called glycogenolysis, muscle and liver glycogen is broken down to produce ATP. Fats are stored in the muscle and in adipose tissue as a complex called a triglyceride, which is made up of three fatty acids and one glycerol molecule. Proteins are the building blocks of the muscle structure. They are made up of amino acids linked together by different bonds. Overall, proteins contribute very little to the production of ATP for work. Equine athletes are dependent on the production of ATP to run, jump or pull. The two main ways that the muscle utilizes fuel stores are anaerobic and aerobic metabolism. Anaerobic metabolism is not dependent on oxygen to break down fuel stores and it provides a rapid means of producing a limited supply of energy. In the absence of oxygen, only carbohydrates may be metabolized for ATP production. The end products of anaerobic metabolism are lactate and heat. Horses that utilize anaerobic metabolism usually have heart rates of greater than beats per minute during exercise, meaning the intensity of the performance is high. Any event that lasts less than one minute at high intensities strictly uses anaerobic metabolism to produce ATP. Quarter Horses are capable of sprinting yards in less than 20 seconds…a good example of muscles using anaerobic metabolism. These statements have not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease. At RacehorseMeds. Our oral supplement solutions are dispensed under a sterile hood, through a 0. We continue these high standards for sterility, quality and the longevity of our oral supplement solution product line. The health and care of your horse is our number one priority and our attention to excellence is our commitment to you. ATP Why use ATP? These include: Carbohydrates Fats Proteins Carbohydrates are stored mainly in the muscles and liver as glycogen. Search Our Products Search for: Search. We Proudly Accept:.

Dynacleine


ATP is critical for top athletic performance. The higher the level of ATP production, the better an athlete can achieve optimal performance. A horses performance is dependent on a number of factors including health, nutrition and environmental temperature. Energy is defined as the capacity to do work. The amount of energy available for muscular work is the most important factor in a horses performance. Athletic performance requires the efficient utilization of extreme amounts of energy transformed by metabolic pathways from chemical to kinetic energy for muscle contraction. This kinetic energy is in the form of adenosine triphosphate or ATP. The muscles are capable of storing limited amounts of ATP for muscle contraction, but all athletic events need a constant flow of this energy source. There are three main fuel sources utilized for the production of ATP in all athletes, including the horse. Carbohydrates are stored mainly in the muscles and liver as glycogen. Glucose is also present in the blood, and it contributes energy during initial exercise. Through a process called glycogenolysis, muscle and liver glycogen is broken down to produce ATP. Fats are stored in the muscle and in adipose tissue as a complex called a triglyceride, which is made up of three fatty acids and one glycerol molecule. Proteins are the building blocks of the muscle structure. They are made up of amino acids linked together by different bonds. Overall, proteins contribute very little to the production of ATP for work. Equine athletes are dependent on the production of ATP to run, jump or pull. However, ATP production is dependent on the muscles ability to utilize fuel stores in the body, which is dependent on oxygen availability. The two main ways that the muscle utilizes fuel stores are anaerobic and aerobic metabolism. Anaerobic metabolism is not dependent on oxygen to break down fuel stores and it provides a rapid means of producing a limited supply of energy. In the absence of oxygen only carbohydrates may be metabolized for ATP production. The end products of anaerobic metabolism are lactate and heat. Horses that utilize anaerobic metabolism usually have heart rates of greater than beats per minute during exercise, meaning the intensity of the performance is high. Any event that lasts less than one minute at high intensities strictly uses anaerobic metabolism to produce ATP. Quarter Horses are capable of sprinting yards in less than 20 seconds a good example of muscles using anaerobic metabolism. These statements have not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease. The way the horse creates more ATP is through the metabolism of fuel stores in the body. Search Our Products Search for: Search. We Proudly Accept:.

ATP INJECTION


Cordex as a diagnostic and therapeutic drug for the management of cardiac bradyarrhythmias. Extracellular ATP exerts multiple effects in various cell types by activating cell-surface receptors known as P2 receptors. In the heart, ATP suppresses the automaticity of cardiac pacemakers and atrioventricular AV nodal conduction via adenosine, the product of its degradation by ecto-enzymes, as well as by triggering a cardio-cardiac vagal reflex. ATP, given as a rapid intravenous bolus injection, has been used since the late s as a highly effective and safe therapeutic agent for the acute termination of reentrant paroxysmal supraventricular tachycardia PSVT involving the AV node. In addition, preliminary studies have shown that ATP can also be used as a diagnostic agent for the identification of several cardiac disorders including sinus node dysfunction sick sinus syndromedual AV nodal pathways, long QT syndrome, and bradycardic syncope. ATP is released into the extracellular space under physiologic and pathophysiologic conditions [ 1 ]. Extracellular ATP is an autocrine and paracrine signaling molecule that activates cell surface purinergic P2 receptors P2R [ 1 ]. P2R are divided into two main families: P2Y, G protein-coupled receptors and P2X, trans-cell membrane cationic channels [ 2 ]. In the heart, ATP exerts a pronounced negative chronotropic effect on cardiac pacemakers and negative dromotropic effect on atrioventricular nodal AVN conduction, and a positive relaxation lusitropic effect on the coronary vasculature [ 34 ]. The potent but transient inhibition of AVN conduction constitutes the rationale for the use of ATP as an anti-arrhythmic drug for the acute termination of reentrant paroxysmal supraventricular tachycardia PSVT involving the AV node. Indeed, rapid bolus injections of liquid formulations of ATP have been used since the late s for the acute termination of PSVT and restoration of sinus rhythm [ 7 ]. In addition to its therapeutic i. ATP has also been evaluated as a diagnostic tool in the management of patients with neurally mediated syncope NMS as well as in evaluation of syncope of unknown origin SUO [ 15 ]. Because it is a natural compound that is found in every cell of the human body in relatively large amounts, ATP has been administered to human subjects on an empirical basis as a drug candidate for the treatment of multiple ailments since its discovery in In view of the fact that the mechanisms of PSVT were not known at that time, the hypothesis that a systemic shock, albeit a mitigated one, could benefit a patient with PSVT was indeed unfounded. Yet, Dr. Early reports on the use of ATP in the acute management of PSVT clearly indicate that the users were not familiar with the mechanism that mediated its beneficial effect. The most common mechanisms of PSVT were only proposed in the mid s based on experimental studies and confirmed subsequently in the clinical setting in the early s [ 1617 ]. Accordingly, in both types, acute termination of the tachycardia can be achieved by the induction of a transient complete AVN conduction block. However, the mechanism of the negative dromotropic action of ATP and adenosine is not identical. InFlammang et al. InBrignole et al. They found that the depressant effect of ATP on the AV node was more pronounced than that on the sinus node, and the latter was similar in healthy subjects and patients with NMS. Subsequently, Flammang et al. Characteristics of the ATP test employed by Flammang et al. Although the results of their initial study led Brignole et al. A detailed discussion of the discrepancy between the approaches of the two groups mentioned above and their contrasting views regarding the utility of the ATP test is beyond the scope of this paper. However, it should be noted here that several studies have shown that in a specific cohort of syncope patient, in whom the ATP test was positive based on cardiac pause duration, pacemaker therapy was highly beneficial in preventing syncope recurrence [ 30 — 32 ]. The stability of a given liquid formulation of ATP has direct relevance to its potency. Analysis of data obtained in these patients has indicated that the clinical endpoint has been reached considering historical control data, i. Specifically, 10 out of the 47 The design of the latter could parallel that of a recent European multi-center study [ 32 ]. National Center for Biotechnology InformationU. Journal List Purinergic Signal v. Purinergic Signal. Published online Nov 6. Amir Pelleg1, 2 Steven P.

Mach Ride Turbo ATP Oral Gel for Horses 35gm


They purport to Increase power. Delay fatigue. Increase stamina. Build muscle. Reduce recovery time. In the past decade or so, there has been a tremendous increase in the array of nutritional supplements marketed for use in horses, as evidenced by the huge number of small buckets, tubs, and tubes that line the shelves of tack shops and feed stores. These supplements might contain a specific nutrient or ingredient, or a mixture of ingredients. In this article, we will consider some of the nutritional supplements that are purported to boost performance in horses. Just how valid are these claims? Are there any risks associated with use of such supplements? Unfortunately, for many of the supplements on the market, it is difficult to judge their effectiveness because there is little or no scientific information available. In many instances, there is no understanding of the function a given supplement might have in the body. Even worse, we cannot be sure that the supplement, when ingested, is absorbed into the bloodstream. As well, results from studies in other species, including humans and rats, often are used in support of a claim regarding the efficacy of a supplement intended for use in horses. Now, I am not suggesting that we discount the claims regarding all supplements just because there is little or no information regarding their use in horses. However, I am suggesting that we apply a healthy level of skepticism to unsubstantiated claims. If the claim seems too good to be true, it likely is! It is important that you, the buyer, educate yourself on the merits of these supplements so that you can make an informed decision regarding their use. Performance Enhancement It is only natural that a horse owner involved in competitive events will search for means beyond sound training methods to give a horse an additional advantage. Pharmacological aids e. Physiological aids e. Nutritional aids e. Of course, most equine sporting bodies regulate the use of drugs and employ testing procedures to detect illicit drug use. Therefore, administration of a drug to enhance performance constitutes illegal drug usage. Similarly, racing authorities Standardbred and Thoroughbred have banned use of sodium bicarbonate. The use of nutritional supplements and nutraceuticals is legal as long as they are administered by mouth, except in some jurisdictions that ban the administration of certain agents by any route after the horse has been entered. Then how can an ergogenic aid enhance performance? To answer this question, it is necessary to consider what limits performance during different types of exercise. During high-speed activities, such as racing, it is generally agreed that a horse tires because of the accumulation of metabolic byproducts—such as lactic acid, ammonia, and heat—in working muscle.

ATP INJECTION

Dosage and Administration: Administer ml by intramuscular I. You can also therapeutically treat overly fatigued horses, post-race, with the same dosage as well as horses exhibiting shock symptoms due to toxemia. Energy is defined as the capacity to do work. Athletic performance requires the efficient utilization of extreme amounts of energy transformed by metabolic pathways from chemical to kinetic energy for muscle contraction. This kinetic energy is in the form of adenosine triphosphate… or ATP. The muscles are capable of storing limited amounts of ATP for muscle contraction, but all athletic events need a constant flow of this energy source. The way the horse creates more ATP is through the metabolism of fuel stores in the body. There are three main fuel sources utilized for the production of ATP in all athletes, including the horse. These include:. Glucose is also present in the blood, and it contributes energy during initial exercise. Through a process called glycogenolysis, muscle and liver glycogen is broken down to produce ATP. They are made up of amino acids linked together by different bonds. The two main ways that the muscle utilizes fuel stores are anaerobic and aerobic metabolism. Anaerobic metabolism is not dependent on oxygen to break down fuel stores and it provides a rapid means of producing a limited supply of energy. In the absence of oxygen only carbohydrates may be metabolized for ATP production. The end products of anaerobic metabolism are lactate and heat. Horses that utilize anaerobic metabolism usually have heart rates of greater than beats per minute during exercise, meaning the intensity of the performance is high. Any event that lasts less than one minute at high intensities strictly uses anaerobic metabolism to produce ATP. Your email address will not be published. Add to Wishlist. Product added! Browse Wishlist. The product is already in the wishlist! Why use ATP injection? Reviews There are no reviews yet.

Should I Give My Horse Joint Injections?



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