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Case Upon - The Science of Post-Workout Supplementation
Among the many kinds of contact lenses you can buy are: novelty, colored, crazy, Halloween, special effects, theatrical, costume, scary, glow in the dark, wild eyes, mirrored, black, white, and red. Before you buy contact lenses from anyone other than your eye care professional, it pays to be a wise consumer. Contact lens sales are regulated by the FDA (Food And Drug Administration) and the FTC (Federal Trade Commission.)There are 75 million contact lens wearers worldwide and 31 million in the U.S. alone. If you've always wanted to change your eye color, color contact lenses can provide baby blues, gorgeous greens, heavenly hazels -- even various patterns and designs.Bifocal correction is possible with both soft and rigid lenses. Keep in mind contact lenses are often more complex than appears to be. Disposable lenses don't come with instructions for cleaning and
Other factors demonstrate the superiority of meal-replacements over whole food in the post-exercise condition. Often athletes are fatigued and do not have the energy to prepare food or do not have the appetite for whole-food. Finally, the access to food may be limited, especially when other priorities demand time and energy and limit the time the athlete has to return to work or home while still consuming adequate calories.
References
Burke, L.M. Nutrition for post-exercise recovery. Aus. J. Sci. & Med. 29: 3-10, 1996.
Burke, L.M., G.R. Collier, and M. Hargreaves. Muscle glycogen storage after prolonged
exercise: effect of the glycemic index on carbohydrate feedings. J. Appl. Physiol. 75: 1019-1023, 1993.
Costell, D.L., D.D. Pascoe, W.J. Fink, R.A. Robergs, S.I. Barr, and D. Pearson. Impaired
muscle glycogen re-synthesis after eccentric exercise. J. Appl. Physiol. 69: 46-50, 1990.
Ivy, J.L., M.C. Lee, J.T. Brozinick, Jr., and M.J. Reed. Muscle glycogen storage after
different amounts of carbohydrate ingestion. J. Appl. Physiol. 65: 2018-2023, 1988.
MacDougall, J.D. et al. The time course for elevated muscle protein synthesis following
heavy resistance exerci
Doctors often prescribe medicine to treat allergies. But taking medicine has caused some allergy suffers to endure unnatural effects such as drowsiness and headaches. With growing concern of chemicals and pills, alternative approaches to treating pollen and springtime allergies are becoming more popular.Interestingly, alternative medicine is being considered even by the mainstream. Approximately 40% of all Americans have tried some form of alternative medicine including some of the ones listed below.Acupuncture is an age-old procedure that places or inserts needles to certain points in the body. To people who have never heard of this procedure, it might sound hard to believe that needles help someone with allergy prevention. However, a rising number of patients claim that acupuncture has helped them with their allergy problems.In an acupuncture sessi
A post-workout drink is optimal for providing a balance of protein and carbohydrates plus it provides the added bonus of an improved hydration state. The continuous presence of calories will fuel muscle growth and recovery by supporting protein and glycogen synthesis. Periods of more than 3-4 hours without food can result in a post-absorptive catabolic state.
Muscles are catabolized ("broken down") for energy, essentially robbing you and your muscles of all the hard work and growth previously accomplished. Immediate post-exercise energy consumption prevents a delay in the delivery of energy substrates to the depleted muscle cell and is therefore an important method to remain anabolic.
Post-exercise feeding can reduce protein degradation and increase protein synthesis. Post-exercise caloric intake is also necessary to restore liver and muscle glycogen (energy stores). The benefits of a post-workout drink occur through the hormonal response to insulin and an increase in amino acid uptake by muscles is also due to an increase in insulin.
Carbohydrates should not be left out of the post-exercise drink because these are necessary to provide the insulin "spike" and are an essential source of energy for the recovery process. Ingesting a mixed carbohydrate-protein drink after training is much more anabolic than consuming only a protein shake. This is also an optimal period for creatine supplementation.
Protein provides the building blocks for muscle growth. Protein synthesis increases 50% 4 hours and 109% 24 hours post-training (MacDougall et al., 1995). The nutrient intake within this time period thus has important implications on the adaptations to training. The protein recommendation for experienced strength athletes is ~1.7 g/kg while novice trainers may need more.
Requirements may transiently increase if intensity or volume of activity is increased (up to ~ 2g/kg) and especially for athletes involved in both strength and speed activities. Endurance exercise also creates an increase in protein requirements of up to 1.6 g/kg/day because of the increased catabolism of protein during exercise. To assist in meeting these requirements, supplements should contain at least 20 grams of protein per serving.
The carbohydrate component should consist of simple, high-glycemic carbohydrates because of their fast absorption into the bloodstream and quick delivery to muscle cells (Burke et al., 1993). The increased cellular sensitivity to insulin post-exercise provides for the rapid delivery and intra-cellular transport of glucose and creatine.
Carbohydrate has also been shown to have anabolic properties by helping to prevent protein breakdown through the insulin-stimulated response. The increased insulin levels post-exercise will not result in increased fat storage because skeletal muscle is the primary consumer of nutrients at this time.
Carbohydrates cause glycogen re-synthesis and replace the fuel source previously depleted by your resistance training (Ivy et al., 1988). The dose of post-exercise carbohydrate should be 0.7-1g/kg (Burke et al., 1996). Glycogen synthesis can be impaired by eccentric muscle damage (Costell et al., 1990) but fortunately most resistance training programs incorporate several rest days before the same muscle group is trained again, therefore glycogen depletion is not a big issue in strength training. The highest rates of glycogen re-synthesis occur following energy intake that is within 2 hours of training (Ivy et al., 1988).
Perhaps even more important is the fact that 1g of carbohydrate per kg body weight has been shown to prevent post-exercise protein breakdown (Roy et al., 1997). Therefore optimal energy intake occurs A.S.A.P. (within 30-minutes of training may be best) in order to raise insulin levels (an anti-catabolic hormone). This is extremely important if a second training session is scheduled within 24 hours, such as for individuals training related muscle groups and athletes involved in tournament play.
Individuals that often complain of the inability to gain weight simply do not consume enough calories. A large portion of the sedentary American population has mastered weight gain through inactivity and constant snacking. Although fat weight is not desired, this scenario can be applied to hard-gainers. Work hard, rest harder, and stay anabolic. Post-exercise supplementation is essential for enhancing the anabolic environment and limiting the potential for exercise-induced catabolism. These extra calories are welcomed by the hard-gainer for use in growth and repair.
A post-exercise drink also prevents dehydration as any weight loss following training is due to water loss. A post-exercise drink or meal-replacement can contribute to the recommended intake of 10 cups of non-caffeinated fluids per day. Because there is no difference in energy replenishment between a liquid and solid food source (Burke, 1996), a liquid meal-replacement appears to be most beneficial post-exercise.
Other factors demonstrate the superiority of meal-replacements over whole food in the post-exercise condition. Often athletes are fatigued and do not have the energy to prepare food or do not have the appetite for whole-food. Finally, the access to food may be limited, especially when other priorities demand time and energy and limit the time the athlete has to return to work or home while still consuming adequate calories.
References
Burke, L.M. Nutrition for post-exercise recovery. Aus. J. Sci. & Med. 29: 3-10, 1996.
Burke, L.M., G.R. Collier, and M. Hargreaves. Muscle glycogen storage after prolonged
exercise: effect of the glycemic index on carbohydrate feedings. J. Appl. Physiol. 75: 1019-1023, 1993.
Costell, D.L., D.D. Pascoe, W.J. Fink, R.A. Robergs, S.I. Barr, and D. Pearson. Impaired
muscle glycogen re-synthesis after eccentric exercise. J. Appl. Physiol. 69: 46-50, 1990.
Ivy, J.L., M.C. Lee, J.T. Brozinick, Jr., and M.J. Reed. Muscle glycogen storage after
different amounts of carbohydrate ingestion. J. Appl. Physiol. 65: 2018-2023, 1988.
MacDougall, J.D. et al. The time course for elevated muscle protein synthesis following
heavy resistance exercis
An intellectual is a man who takes more words than necessary to tell more than he knows. Dwight D. EisenhowerHave you ever thought what makes one manager better than another? It might start with his or her credibility. Good values give leaders credibility. Today’s politicians argue about God’s political affiliation. Politicians promote values like they were Nike shoes. As a result, Americans are now cynical their leaders.Let’s examine this matter closer. In 1998, President Clinton was caught in a vicious sex scandal. Clearly, it was a national disgrace. There was a circle of low character issues, including adultery, lies, and betrayal. His opponents gleamed at the possible political advantages. However, the results were different than expected.A character train wreck pursued. Speaker of the House Newt Gingrich resigned, and his replacement
Carbohydrates should not be left out of the post-exercise drink because these are necessary to provide the insulin "spike" and are an essential source of energy for the recovery process. Ingesting a mixed carbohydrate-protein drink after training is much more anabolic than consuming only a protein shake. This is also an optimal period for creatine supplementation.
Protein provides the building blocks for muscle growth. Protein synthesis increases 50% 4 hours and 109% 24 hours post-training (MacDougall et al., 1995). The nutrient intake within this time period thus has important implications on the adaptations to training. The protein recommendation for experienced strength athletes is ~1.7 g/kg while novice trainers may need more.
Requirements may transiently increase if intensity or volume of activity is increased (up to ~ 2g/kg) and especially for athletes involved in both strength and speed activities. Endurance exercise also creates an increase in protein requirements of up to 1.6 g/kg/day because of the increased catabolism of protein during exercise. To assist in meeting these requirements, supplements should contain at least 20 grams of protein per serving.
The carbohydrate component should consist of simple, high-glycemic carbohydrates because of their fast absorption into the bloodstream and quick delivery to muscle cells (Burke et al., 1993). The increased cellular sensitivity to insulin post-exercise provides for the rapid delivery and intra-cellular transport of glucose and creatine.
Carbohydrate has also been shown to have anabolic properties by helping to prevent protein breakdown through the insulin-stimulated response. The increased insulin levels post-exercise will not result in increased fat storage because skeletal muscle is the primary consumer of nutrients at this time.
Carbohydrates cause glycogen re-synthesis and replace the fuel source previously depleted by your resistance training (Ivy et al., 1988). The dose of post-exercise carbohydrate should be 0.7-1g/kg (Burke et al., 1996). Glycogen synthesis can be impaired by eccentric muscle damage (Costell et al., 1990) but fortunately most resistance training programs incorporate several rest days before the same muscle group is trained again, therefore glycogen depletion is not a big issue in strength training. The highest rates of glycogen re-synthesis occur following energy intake that is within 2 hours of training (Ivy et al., 1988).
Perhaps even more important is the fact that 1g of carbohydrate per kg body weight has been shown to prevent post-exercise protein breakdown (Roy et al., 1997). Therefore optimal energy intake occurs A.S.A.P. (within 30-minutes of training may be best) in order to raise insulin levels (an anti-catabolic hormone). This is extremely important if a second training session is scheduled within 24 hours, such as for individuals training related muscle groups and athletes involved in tournament play.
Individuals that often complain of the inability to gain weight simply do not consume enough calories. A large portion of the sedentary American population has mastered weight gain through inactivity and constant snacking. Although fat weight is not desired, this scenario can be applied to hard-gainers. Work hard, rest harder, and stay anabolic. Post-exercise supplementation is essential for enhancing the anabolic environment and limiting the potential for exercise-induced catabolism. These extra calories are welcomed by the hard-gainer for use in growth and repair.
A post-exercise drink also prevents dehydration as any weight loss following training is due to water loss. A post-exercise drink or meal-replacement can contribute to the recommended intake of 10 cups of non-caffeinated fluids per day. Because there is no difference in energy replenishment between a liquid and solid food source (Burke, 1996), a liquid meal-replacement appears to be most beneficial post-exercise.
Other factors demonstrate the superiority of meal-replacements over whole food in the post-exercise condition. Often athletes are fatigued and do not have the energy to prepare food or do not have the appetite for whole-food. Finally, the access to food may be limited, especially when other priorities demand time and energy and limit the time the athlete has to return to work or home while still consuming adequate calories.
References
Burke, L.M. Nutrition for post-exercise recovery. Aus. J. Sci. & Med. 29: 3-10, 1996.
Burke, L.M., G.R. Collier, and M. Hargreaves. Muscle glycogen storage after prolonged
exercise: effect of the glycemic index on carbohydrate feedings. J. Appl. Physiol. 75: 1019-1023, 1993.
Costell, D.L., D.D. Pascoe, W.J. Fink, R.A. Robergs, S.I. Barr, and D. Pearson. Impaired
muscle glycogen re-synthesis after eccentric exercise. J. Appl. Physiol. 69: 46-50, 1990.
Ivy, J.L., M.C. Lee, J.T. Brozinick, Jr., and M.J. Reed. Muscle glycogen storage after
different amounts of carbohydrate ingestion. J. Appl. Physiol. 65: 2018-2023, 1988.
MacDougall, J.D. et al. The time course for elevated muscle protein synthesis following
heavy resistance exerci
BE IN CHARGERemember women want leadership.TIP #1 - When planning a date, instead of asking the girl what she would like to do, have every detail of the date planned out - the reservations, the movie, and even the parking place. Just tell her when to be ready. Let the rest of the evening be a pleasant surprise.TIP #2 - When you are with a girl, hold the door, take her arm, and show her the way.TIP #3 - At a restaurant, make sure that you are seated at the head of the table or where the waiter will see you first and stand next to you when he comes to take the order. Conduct all of the dealings with the waiter. Ask your date what she would like so that when ordering, you can say, "She will have the...and I will have the...," instead of her giving her own order.TIP #4 - If at all possible, drive your ow
The carbohydrate component should consist of simple, high-glycemic carbohydrates because of their fast absorption into the bloodstream and quick delivery to muscle cells (Burke et al., 1993). The increased cellular sensitivity to insulin post-exercise provides for the rapid delivery and intra-cellular transport of glucose and creatine.
Carbohydrate has also been shown to have anabolic properties by helping to prevent protein breakdown through the insulin-stimulated response. The increased insulin levels post-exercise will not result in increased fat storage because skeletal muscle is the primary consumer of nutrients at this time.
Carbohydrates cause glycogen re-synthesis and replace the fuel source previously depleted by your resistance training (Ivy et al., 1988). The dose of post-exercise carbohydrate should be 0.7-1g/kg (Burke et al., 1996). Glycogen synthesis can be impaired by eccentric muscle damage (Costell et al., 1990) but fortunately most resistance training programs incorporate several rest days before the same muscle group is trained again, therefore glycogen depletion is not a big issue in strength training. The highest rates of glycogen re-synthesis occur following energy intake that is within 2 hours of training (Ivy et al., 1988).
Perhaps even more important is the fact that 1g of carbohydrate per kg body weight has been shown to prevent post-exercise protein breakdown (Roy et al., 1997). Therefore optimal energy intake occurs A.S.A.P. (within 30-minutes of training may be best) in order to raise insulin levels (an anti-catabolic hormone). This is extremely important if a second training session is scheduled within 24 hours, such as for individuals training related muscle groups and athletes involved in tournament play.
Individuals that often complain of the inability to gain weight simply do not consume enough calories. A large portion of the sedentary American population has mastered weight gain through inactivity and constant snacking. Although fat weight is not desired, this scenario can be applied to hard-gainers. Work hard, rest harder, and stay anabolic. Post-exercise supplementation is essential for enhancing the anabolic environment and limiting the potential for exercise-induced catabolism. These extra calories are welcomed by the hard-gainer for use in growth and repair.
A post-exercise drink also prevents dehydration as any weight loss following training is due to water loss. A post-exercise drink or meal-replacement can contribute to the recommended intake of 10 cups of non-caffeinated fluids per day. Because there is no difference in energy replenishment between a liquid and solid food source (Burke, 1996), a liquid meal-replacement appears to be most beneficial post-exercise.
Other factors demonstrate the superiority of meal-replacements over whole food in the post-exercise condition. Often athletes are fatigued and do not have the energy to prepare food or do not have the appetite for whole-food. Finally, the access to food may be limited, especially when other priorities demand time and energy and limit the time the athlete has to return to work or home while still consuming adequate calories.
References
Burke, L.M. Nutrition for post-exercise recovery. Aus. J. Sci. & Med. 29: 3-10, 1996.
Burke, L.M., G.R. Collier, and M. Hargreaves. Muscle glycogen storage after prolonged
exercise: effect of the glycemic index on carbohydrate feedings. J. Appl. Physiol. 75: 1019-1023, 1993.
Costell, D.L., D.D. Pascoe, W.J. Fink, R.A. Robergs, S.I. Barr, and D. Pearson. Impaired
muscle glycogen re-synthesis after eccentric exercise. J. Appl. Physiol. 69: 46-50, 1990.
Ivy, J.L., M.C. Lee, J.T. Brozinick, Jr., and M.J. Reed. Muscle glycogen storage after
different amounts of carbohydrate ingestion. J. Appl. Physiol. 65: 2018-2023, 1988.
MacDougall, J.D. et al. The time course for elevated muscle protein synthesis following
heavy resistance exerci
Cosmetic surgery Costs – How to get world class treatment at lowest cost in IndiaRecently the rise in medical tourism has seen cosmetic surgery costs drop by up to 90%, making world class treatments affordable for everyone and you also get to enjoy a free holiday as well!If you have always wanted a face lift, breast enlargement or another procedure you can now afford the look you have always dreamt about, as cosmetic surgery costs have tumbled.Huge cosmetic surgery cost savingsAn extensive facelift that would cost $20,000 in the U.S would cost under $3,000 in India saving a massive $17,000! Savings are massive across all procedures making cosmetic surgery within the reach of everyone.let’s look at how cosmetic surgery costs have been reduced and the treatments available.What Is Medical Tourism?This is where residents of one cou
Individuals that often complain of the inability to gain weight simply do not consume enough calories. A large portion of the sedentary American population has mastered weight gain through inactivity and constant snacking. Although fat weight is not desired, this scenario can be applied to hard-gainers. Work hard, rest harder, and stay anabolic. Post-exercise supplementation is essential for enhancing the anabolic environment and limiting the potential for exercise-induced catabolism. These extra calories are welcomed by the hard-gainer for use in growth and repair.
A post-exercise drink also prevents dehydration as any weight loss following training is due to water loss. A post-exercise drink or meal-replacement can contribute to the recommended intake of 10 cups of non-caffeinated fluids per day. Because there is no difference in energy replenishment between a liquid and solid food source (Burke, 1996), a liquid meal-replacement appears to be most beneficial post-exercise.
Other factors demonstrate the superiority of meal-replacements over whole food in the post-exercise condition. Often athletes are fatigued and do not have the energy to prepare food or do not have the appetite for whole-food. Finally, the access to food may be limited, especially when other priorities demand time and energy and limit the time the athlete has to return to work or home while still consuming adequate calories.
References
Burke, L.M. Nutrition for post-exercise recovery. Aus. J. Sci. & Med. 29: 3-10, 1996.
Burke, L.M., G.R. Collier, and M. Hargreaves. Muscle glycogen storage after prolonged
exercise: effect of the glycemic index on carbohydrate feedings. J. Appl. Physiol. 75: 1019-1023, 1993.
Costell, D.L., D.D. Pascoe, W.J. Fink, R.A. Robergs, S.I. Barr, and D. Pearson. Impaired
muscle glycogen re-synthesis after eccentric exercise. J. Appl. Physiol. 69: 46-50, 1990.
Ivy, J.L., M.C. Lee, J.T. Brozinick, Jr., and M.J. Reed. Muscle glycogen storage after
different amounts of carbohydrate ingestion. J. Appl. Physiol. 65: 2018-2023, 1988.
MacDougall, J.D. et al. The time course for elevated muscle protein synthesis following
heavy resistance exerci
Aren't you tired of sitting around waiting for something to finally happen?I just got off the phone talking with my friend James. We spoke about how his business was doing, and I asked what he planned on earning this year. His response surprised me:'Making money's not my focus now. I don't really think this is the right time--I'm planning to just hold on until things get better.'James is usually pretty optimistic and 'survival' is not part of his normal vocabulary, so I started wondering about others I know: my consulting clients, people who take my DYBO business-doubling e-course, people I meet speaking.One client wrote they had 'survived' last year, but had 'done the unpardonable -- cut marketing.' Another told me, 'Well, we made it. But we cut half our sales force.' And a service provider I know reduced her total payroll from 130 to 75 pe
Other factors demonstrate the superiority of meal-replacements over whole food in the post-exercise condition. Often athletes are fatigued and do not have the energy to prepare food or do not have the appetite for whole-food. Finally, the access to food may be limited, especially when other priorities demand time and energy and limit the time the athlete has to return to work or home while still consuming adequate calories.
References
Burke, L.M. Nutrition for post-exercise recovery. Aus. J. Sci. & Med. 29: 3-10, 1996.
Burke, L.M., G.R. Collier, and M. Hargreaves. Muscle glycogen storage after prolonged
exercise: effect of the glycemic index on carbohydrate feedings. J. Appl. Physiol. 75: 1019-1023, 1993.
Costell, D.L., D.D. Pascoe, W.J. Fink, R.A. Robergs, S.I. Barr, and D. Pearson. Impaired
muscle glycogen re-synthesis after eccentric exercise. J. Appl. Physiol. 69: 46-50, 1990.
Ivy, J.L., M.C. Lee, J.T. Brozinick, Jr., and M.J. Reed. Muscle glycogen storage after
different amounts of carbohydrate ingestion. J. Appl. Physiol. 65: 2018-2023, 1988.
MacDougall, J.D. et al. The time course for elevated muscle protein synthesis following
heavy resistance exercise. Can. J. Appl. Physiol. 20: 480-486, 1995.
Roy, B.D., M.A. Tarnopolsky, J.D. MacDougall, J. Fowles, and K.E. Yarasheski. Effect
of glucose supplement timing on protein metabolism after resistance training. J.
Appl. Physiol. 82:1882-1888, 1997.
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