Looking to Wayne slow and build ltr

Added: Tashara Neary - Date: 11.12.2021 22:25 - Views: 43865 - Clicks: 7064

Athletes who engage in super-slow strength training in effect carry out their workouts in slow motion, with a heavy emphasis on coordination, form and control rather than speed. Proponents contend that this technique has a greater impact on strength and muscle size than traditional weight trainingas well as promoting the more effective loss of body fat.

In addition, super-slow training is said to provide a higher-quality aerobic workout than conventional weight work. As one might expect, videos and even special training equipment have been marketed successfully to the general public. However, the scientific research on super-slow training has been rather scant.

charter spectrum hook up

In fact, some exercise physiologists have been quite sceptical about the merits of super-slow training. As some of these heretics point out, the energy cost associated with a specific strength workout is influenced primarily by the amount of work performed during the session and the relative intensity the percent of the one-repetition max at which it is performed. Resting energy expenditure can increase after a strength workout, but the magnitude of this increase also seems to depend on the volume and intensity of the strength work carried out during the session.

In a super-slow workout, both volume and intensity of work are likely to be fairly low. Think, for example, about the maximum amount of weight you can bench-press — and then think about trying to hold and lift this weight for a full 10 seconds; you will immediately realise why super-slow training must be linked with modest intensities, ie resistances well below the one-rep max.

Thus, it is somewhat hard to see how super-slow training would spur metabolism in an exceptional way and lead to greater-than-usual fat loss. Until recently, these arguments have been essentially theoretical in nature, with very little research evidence either way. Now, however, scientists from the University of Alabama have stepped in to fill the information gap with a study comparing the metabolic effects of super-slow and traditional strength training in seven young men who had been engaged in strength training for at least one year.

cons of dating a libra man

All of the subjects had stable body weights, averaging 79kg, and routinely carried out weight training with a combination of free weights and exercise machines. In this study, each athlete completed two workouts deed to train all of their major muscle groups, one using a traditional-training technique and the other the super-slow method. The workouts were separated by a three-day interval and the subjects were randomly ased to a treatment order — either super-slow training first or traditional training first.

The actual exercises performed included leg extensions, bench presses, biceps curls, leg curls, French curls, bent rows, reverse curls, military presses, upright rows and squats. Heart rates and minute-by-minute oxygen-consumption rates were recorded during each workout and for 15 minutes after the sessions as well; blood- lactate levels were measured immediately after the training ended. On the morning after each workout following a hour overnight fastthe rate of resting energy expenditure was measured in each athlete.

The super-slow session involved one set of eight repetitions of each exercise, with 10 seconds of concentric and five seconds of eccentric action for each rep. In their pilot work that preceded the study, the Alabama researchers quickly learned about an important — and potentially very limiting — aspect of super-slow training.

The Alabama researchers wanted to make sure that the traditional workout took the same amount of time as the super-slow session. Obviously, given this constraint, the of reps could not be equivalent, since each traditional rep could be completed more quickly than a super-slow repetition.

No instructions were given on how long each traditional rep should take; the subjects were simply instructed to exercise in a natural way. As it turned out, however, the athletes usually required one second to complete the concentric phase of each traditional rep and one second to finish the eccentric portion. Thus, when the subjects completed two sets of eight repetitions of every exercise in the traditional workout, with a one-minute rest after each exercise, the total workout took 29 minutes — the same amount of time needed for the super-slow session.

india's best online dating site

As you have probably already realized, the actual amount of time spent exercising differed between the two workouts, even though workout duration was the same. Although less Looking to Wayne slow and build ltr time was spent actually exercising during the traditional workout, oxygen-consumption and heart rates were much higher during and after the workout than for its super-slow variant.

For example, average heart rate during the traditional workout was beats per minute, compared with just beats per minute during super-slow activity; average recovery heart rate with traditional training recorded during the 15 minutes after the workout ended was beats per minute, compared with just 95 beats per minute with super-slow.

In effect, the recovery heart rate associated with traditional training was greater than the working rate during super-slow exercise! Data on net energy expenditure also failed to reveal any advantages for super-slow training. For example, during the workout and minute recovery period, traditional athletes expended a total of calories compared with a paltry kcals for the super-slow folks.

Even post-exercise lactate levels favored traditional training, with lactate soaring to 7. It is important to note that this lactate elevation would not increase the risk of muscle soreness in the traditional trainers since, contrary to popular belief, lactate is not linked with post-exercise muscular distress.

Thus, contrary to the claims made by advocates of super-slow training, there were actual metabolic disadvantages associated with super-slow efforts. As the Alabama researchers pointed out, the amount of energy expended by the super-slow athletes during their minute workouts was actually less than one would expect to burn during leisurely minute-per-mile walking over the same time period, while oxygen consumption was too low to hike aerobic fitness.

In addition, the greater resistances used for traditional training allow for the completion of more total muscular work than during super-slow sessions, even though the latter involve longer contraction times and more time spent lifting and lowering weight. In the Alabama study, four times as much muscular work was performed during the traditional session than during the super-slow workout, even though the muscle-contraction time advantage favored super-slow effort by almost seconds vs seconds. How about strength, though? Does super-slow work, in which the duration of individual contractions is dramatically increased, confer special strength benefits?

In a recent investigation, the gains in strength associated with 10 weeks of traditional resistance training were compared with those resulting from 10 weeks of super-slow training 5. The subjects were 14 women, aged years, who were randomly ased to either regular or super-slow groups. Both groups trained three times a week during the study period, performing leg presses, leg curls, leg extensions, anterior lateral pull-downs, bench presses, seated rows, biceps curls, and triceps extensions.

korean dating application

As expected, the super-slow group used a second-concentric and five-second-eccentric contraction sequence; the traditional exercisers employed two seconds of concentric and four seconds of eccentric action for each rep. Both groups completed one set of reps to muscular fatigue for each Looking to Wayne slow and build ltr.

Both groups took a second rest between exercises and, as they grew stronger over the course of the study, resistance was increased in 2. Both groups improved endurance, as measured on a cycle ergometer, to the same extent, and neither achieved a ificant improvement in body composition. Thus, in this study super-slow training offered no advantages at all over conventional resistance work.

A separate study carried out by super-slow advocate Wayne Westcott and colleagues, however, provided evidence to support the use of super-slow workouts. In this investigation, carried out in Quincy, Massachusetts, 82 ly untrained men and women carried out regular-speed strength training times a week for weeks, while 65 others undertook super-slow training with the same frequency over the same period. Both groups performed a exercise Nautilus circuit, completing one set of each exercise per workout. The regular-speed participants finished reps of each exercise, with two seconds of lifting, one second of pause and four seconds of eccentric lowering; super-slow lifters performed reps per exercise with 10 seconds of lifting and four seconds of lowering per rep.

At the end of the study, the regular-speed people were tested for their rep maximum 10RMwhile the super-slow subjects were tested for 5RM. Basically, the super-slow trainers improved 5RM by about kg, while the regular-speed trainers boosted theirs by just kg. As Westcott and his group noted, super-slow training seemed to be an effective way for ly untrained, middle-aged and older adults to increase strength. Note, though, that the two groups were not checked for the same characteristic: 1RM was not assessed, and the traditional athletes were evaluated for 10RM, while the super-slow individuals were tested for 5RM.

It may be that it is easier to increase 5RM by a large amount of weight than it is to inflate 10RM by the same amount; if that is the case, the differences between the groups would simply be an artifact of the response variables used in the study, instead of reflecting true differences between regular and super-slow training.

Some super-slow training advocates contend that this kind of work ultimately produces superior muscle hypertrophy over extended periods of training than traditional efforts. This is an intriguing concept, since growth in muscle size is usually linked with gains in strength. In addition, for each 1lb gain in muscle tissue which accrues from strength training, there is usually a kcal increase in daily energy expenditure, an effect which could enhance fat-burning and further magnify whole-body leanness.

The bottom line? A good strength-training workout is supposed to elevate resting energy expenditure for hours after the training session ends, an effect which can simultaneously spur fat burning and muscle rebuilding. Unfortunately, there is no evidence to suggest that super-slow training offers athletes such metabolic boosting.

In addition, there is little evidence to suggest that super-slow training would help athletes in a truly functional way. Always remember that gains in strength are speed-specific, and the movements associated with super-slow training bear little resemblance to the rapid motions involved in competitive sports.

Andrew Sheaff explains why and how blood flow restriction training can provide the benefits of high-intensity training with low-intensity loading MORE. New research suggests a less rigid approach to setting training lo during strength training could provide athletes with greater benefits MORE. Sports Performance Bulletin looks at new research on how the volume and frequency of strength training can be manipulated for superior MORE. New research on in-season strength training suggests that athletes and coaches might need to rethink the traditional approach to yearly training structure MORE.

Female athletes suffer more sports injuries than their male counterparts. SPB looks at brand new research on inspiratory muscle training, and why more athletes should consider adding it their training routines MORE. The latest triathlon research and best practice findings, covering Looking to Wayne slow and build ltr technique, strength and conditioning, and endurance nutrition. The latest findings from running science with practical advice showing you how you can run further and faster whilst staying in peak health.

e4 falling in love with your dating expert

Strength training: does slow training increase muscle mass? For example, in a simple strengthening exercise such as the biceps curl, the lifting of the dumbbell to the shoulder the concentric phase would take 10 seconds, while the slow dropping of the dumbbell to the starting position the eccentric phase would take seconds. By comparison, traditional strength training recommendations often involve a two-second concentric phase, a one-second pause and a four-second eccentric phase; and in practice many athletes abbreviate these phases to just one second each.

Oxygen consumption followed the same pattern. The net oxygen uptake during the traditional workout was 23 litres, compared with 15ltrs during super-slow effort. Similarly, during recovery after a traditional workout, the athletes burned 8. Share this Share. The Science of Triathlon The latest triathlon research and best practice findings, covering improving technique, strength and conditioning, and endurance nutrition MORE Buy. The Frontiers of Running The latest findings from running science with practical advice showing you how you can run further and faster whilst staying in peak health MORE Buy.

Follow us.

Looking to Wayne slow and build ltr

email: [email protected] - phone:(558) 740-7940 x 2751

Strength training: does slow training increase muscle mass?