Now that the holidays are creeping around the corner, you may have to break up with your regularly scheduled sweat sessions, at least temporarily. And though the most wonderful time of the year may interfere with your fave spin class or butt-kicking bootcamp routine, it’s completely possible to stay fit—all you need is an Internet connection and a little living room space. (OK, and maybe a few props here and there.) And it’s all thanks to these seriously excellent, totally free workout videos. We’ve rounded up the best YouTube workouts—we’re talking everything from traditional aerobics to ballet to high-intensity interval training routines—so you can keep your physique in tip-top shape this season and beyond.
This is the first study that has followed older adults instructed to perform MCT or HIIT over a one-year period, collected data from each exercise session they performed and provided important knowledge about their exercise patterns. This novel information may help researchers and clinicians to develop tailored exercise programs in an ageing population.
There’s a simple way to get your body back in fat-blasting mode: Temporarily ditch your go-to moves. "When you change up your workout, your body works harder because it’s in unfamiliar territory," explains Amy Dixon, a Santa Monica, California–based trainer and exercise physiologist. "That’s what causes it to burn more calories and build more muscle."
Environmental approaches appear promising: signs that encourage the use of stairs, as well as community campaigns, may increase exercise levels. The city of Bogotá, Colombia, for example, blocks off 113 kilometers (70 mi) of roads on Sundays and holidays to make it easier for its citizens to get exercise. Such pedestrian zones are part of an effort to combat chronic diseases and to maintain a healthy BMI.
Zumba Fitness-Concert Live. Ever been to a concert and just danced around with abandon? This Zumba video is the next best thing and it’ll count as a workout! In addition to the cardio burn, you’ll feel all the electricity from the crowd during this 70-minute latin dance workout. The video features 16 high-energy, calorie-blasting routines that you can do all at once, or pause and break up into intervals.
Keep that resistance band handy for this waist-toning move. Sit with your legs a little more than hip-distance apart. Hold the band between your hands and raise your arms overhead. Exhale as you turn to one side, using the muscles in your waist. Inhale as you reach the arms out and back, keeping the hips in place. Exhale and return to starting position. Alternate for a total of four sets on each side.
Jump up ^ Hubal MJ, Gordish-Dressman H, Thompson PD, Price TB, Hoffman EP, Angelopoulos TJ, Gordon PM, Moyna NM, Pescatello LS, Visich PS, Zoeller RF, Seip RL, Clarkson PM; Gordish-Dressman; Thompson; Price; Hoffman; Angelopoulos; Gordon; Moyna; Pescatello; Visich; Zoeller; Seip; Clarkson (June 2005). "Variability in muscle size and strength gain after unilateral resistance training". Medicine & Science in Sports & Exercise. 37 (6): 964–972. PMID 15947721.
Sample characteristics are presented as mean ± standard deviation for continuous variables and proportions for categorical variables. Pearson Chi-square test and independent samples t-test were used to assess potential sex differences. For BMI and weight, a non-parametric test (Mann-Whitney U) was conducted due to the lack of normal distribution. Data from the exercise logs are presented as proportions of the total number of exercise logs. Pearson Chi-square tests were run to assess the associations between frequency, intensity, type, location and social setting of exercise with sex and training group. The results were considered statistically significant if the p-value was less than 0.05. All statistical analyses were performed with SPSS 22 (Statistical Package for Social Science, Chicago, IL, USA).
^ Jump up to: a b Wilkinson DJ, Hossain T, Limb MC, Phillips BE, Lund J, Williams JP, Brook MS, Cegielski J, Philp A, Ashcroft S, Rathmacher JA, Szewczyk NJ, Smith K, Atherton PJ (October 2017). "Impact of the calcium form of β-hydroxy-β-methylbutyrate upon human skeletal muscle protein metabolism". Clinical Nutrition (Edinburgh, Scotland). doi:10.1016/j.clnu.2017.09.024. PMID 29097038. Ca-HMB led a significant and rapid (<60 min) peak in plasma HMB concentrations (483.6 ± 14.2 μM, p < 0.0001). This rise in plasma HMB was accompanied by increases in MPS (PA: 0.046 ± 0.004%/h, CaHMB: 0.072 ± 0.004%/h, p < [0.001]) and suppressions in MPB (PA: 7.6 ± 1.2 μmol Phe per leg min−1, Ca-HMB: 5.2 ± 0.8 μmol Phe per leg min−1, p < 0.01). ... During the first 2.5 h period we gathered postabsorptive/fasted measurements, the volunteers then consumed 3.42 g of Ca-HMB (equivalent to 2.74 g of FA-HMB) ... It may seem difficult for one to reconcile that acute provision of CaHMB, in the absence of exogenous nutrition (i.e. EAA's) and following an overnight fast, is still able to elicit a robust, perhaps near maximal stimulation of MPS, i.e. raising the question as to where the additional AA's substrates required for supporting this MPS response are coming from. It would appear that the AA's to support this response are derived from endogenous intracellular/plasma pools and/or protein breakdown (which will increase in fasted periods). ... To conclude, a large single oral dose (~3 g) of Ca-HMB robustly (near maximally) stimulates skeletal muscle anabolism, in the absence of additional nutrient intake; the anabolic effects of Ca-HMB are equivalent to FA-HMB, despite purported differences in bioavailability (Fig. 4).
Absolute values for KE MVC torques and maximal EMG RMS are presented Table 3. As EMG RMS of the RF muscle at 60 deg/s pre-exercise values significantly differ between sessions, these data were not analyzed. Planned comparisons to explore main effect of time are presented Table 3. Despite a significant main effect of time for the EMG RMS of the RF muscle at 140 deg/s, planned comparison failed to demonstrate a significant difference between times. Changes in KE MVC torque and KE EMG RMS related to baseline are presented Figs 6 and 7. Isometric KF MVC torque did not change over time (75 ± 31 to 73 ± 27 N·m, P = 0.368).
The results of this study present evidence in favor of this high intensity OLDE protocol to investigate muscle fatigue and muscle endurance. Indeed, this new protocol developed in our laboratory i) presents a lower variability than other high intensity time to exhaustion tests , ii) is not limited by the cardiorespiratory system and iii) allows a quick start of neuromuscular testing to fully appreciate the extent of muscle fatigue induced by the exercise. Therefore, it can provide an interesting tool to isolate the cardiorespiratory and neuromuscular effects of various manipulations supposed to play a role in muscle fatigue and performance during high intensity dynamic endurance exercise (e.g. spinal blockade of afferent feedback from the working muscles).
11. De Vries N. M., van Ravensberg C. D., Hobbelen J. S. M., Olde Rikkert M. G. M., Staal J. B., Nijhuis-van der Sanden M. W. G. Effects of physical exercise therapy on mobility, physical functioning, physical activity and quality of life in community-dwelling older adults with impaired mobility, physical disability and/or multi-morbidity: a meta-analysis. Ageing Research Reviews. 2012;11(1):136–149. doi: 10.1016/j.arr.2011.11.002. [PubMed] [Cross Ref]
I created The Bloom Method with a desire to empower women before, during and after pregnancy. As a Pre & Postnatal Exercise Specialist, Core Rehabilitation Specialist and Pre and Postnatal Holistic Health Coach, I strive to provide women with empowering tools to help support your pregnancy, empower you during birth, prevent common pregnancy-related issues such as Diastasis Recti, Pelvic Floor Incontinence, and Prolapse. My clients that have experienced my methods experience a quicker healing phase post-baby.
But too much rest may do more harm than good. Once prescribed almost universally for back pain, illness, and discomfort of all kinds, bed rest has been shown in studies to be associated with loss of strength and endurance, changes in soft tissue, bone loss, joint disease, high blood pressure, and weakening of the cardiovascular system. It’s one reason falls are a danger for people over 80: The resulting injuries may heal, but the health complications from staying in bed for weeks can be irreversible.
Eight healthy and moderately active (a minimum of 2 h of aerobic activity per week) adults (mean ± SD; age: 22 ± 2 yrs, height: 171 ± 8 cm, weight: 69 ± 8 kg, 5 males and 3 females) volunteered to participate in this study. None of the subjects had any known mental or somatic disorder. Each subject gave written informed consent prior to the study. Experimental protocol and procedures were approved by the local Ethics Committee of the School of Sport and Exercise Sciences, University of Kent at Medway (Ethic clearance Prop97_2013_14). The study conformed to the standards set by the World Medical Association Declaration of Helsinki “Ethical Principles for Medical Research Involving Human Subjects” (2008). All subjects were given written instructions describing all procedures related to the study.
When shopping, take some extra laps around the store. Instead of making your shopping trip efficient, take your time and stroll around the store a couple times. If that feels too aimless, add an objective of memorizing the store's layout. Or, when grocery shopping, don't group items on your list by type. Instead, randomize the order so that you get one thing from the produce section and then get something from a different section before getting your next produce item.
Endurance performance (i.e. exercise duration > 1 min) is extensively studied in exercise physiology using cycling and/or running exercise (e.g. [1–4]). Despite being close to real competition events by involving the whole-body, the use of cycling and/or running exercise presents some important limitations to understand the role of the central nervous system (CNS) in the regulation of muscle fatigue and endurance performance. Indeed, as whole-body exercise involves greater systemic responses than isolated exercise , it is difficult to interpret some specific experimental manipulations aiming to understand CNS processes regulating muscle fatigue and endurance performance (e.g. manipulation of III-IV muscle afferents [6, 7]). Furthermore, due to the need to transfer the participant from the treadmill/bicycle to the ergometer, the true extent of muscle fatigue at exhaustion is underestimated , leading to inconclusive results on how peripheral (i.e. fatigue produced by changes at or distal to the neuromuscular junction ) and central (i.e. decrease in maximal voluntary activation level ) components of muscle fatigue might interact between each other’s (for review see [2, 9]). Therefore, due to the aforementioned limitations, the development of a new exercise model is required to better investigate the CNS processes regulating endurance performance.
The severity of angina and the effects of therapeutic interventions in patients with coronary artery disease have been assessed by determining changes in both exercise performance and the triple product (TP) of heart rate, systolic pressure, and ejection time occurring at angina. However, the validity of conclusions based on such changes is uncertain since the effects of different exercise protocols on these variables have not been determined. Twelve patients with angina were studied during upright bicycle exercise; repeated bouts of exercise using a standard protocol of 20-w increments every three minutes produced no consistent changes in TP at angina. When exercise began 20 to 60 w above the work load of the standard protocol that produced angina, exercise capacity was reduced (average 1'40'' vs. 4'40'', P < 0.001), and triple product at angina exceeded control anginal values (average 4,840 vs. 4,150, P < 0.001). In the control studies nitroglycerin (TNG) and carotid sinus nerve stimulation (CSNS) enabled patients to exercise to a higher level, although the triple product at angina was unaltered. However, at the higher work load TNG and CSNS exerted only minimal effects on exercise capacity, indicating that if the work load is excessive, a reduction in myocardial oxygen consumption produced by a therapeutic intervention may be comparatively minor so that a potentially salutary effect would be masked. We conclude that work loads causing angina in less than three minutes cannot reliably be used for studying the effects of therapy. However, if progressive work loads are chosen which cause angina in the control studies in three to six minutes, exercise capacity and triple product at angina provide important information about the efficacy and mechanism of action of a therapeutic intervention.
No matter where you are, you have time for 30 seconds of what Haley calls “Anywhere Push-Ups.” “This will target chest and triceps. Find a hard surface like kitchen counter or office desk. With both hands on the surface, walk away so that you’re in an elevated push-up position—the further you walk the more challenging the exercise,” she says. “Lower your body down so elbows and shoulders are at a 90-degree angle, push back up and repeat for ten reps.”
Perception of effort, defined as “the conscious sensation of how hard, heavy, and strenuous exercise is” [23, 24], was measured during the incremental test (at the end of each minute) and during the time to exhaustion tests (at the end of the warm-up and every 30 s) using the 15 points RPE scale (Borg 1998). Standardized instructions for the scale were given to each subject before the warm-up. Briefly, subjects were asked to rate how hard they were driving their leg during the exercise (leg RPE [8, 24, 25]). Subjects were also asked to not use this rating as an expression of leg muscle pain (i.e., the intensity of hurt that a subject feels in his quadriceps muscles only).
Why do we exercise? We all know it's good for our health, but have you ever thought about it? Do you exercise the way you do because you've heard that's the way it should be done? Is it possible that the current way of working out could be good for some parts of our body, but bad for others... are we doing more harm than good? Are we spending more time exercising than we need to?