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From Essentials: Improve Flexibility with Research-Supported Stretching ProtocolsJun 18, 2026

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Essentials: Improve Flexibility with Research-Supported Stretching ProtocolsJun 18, 2026 — starts at 0:00

Welcome to Huberan Lab Essentials, where we revisit past episodes for the most potent and actionable science based tools for mental health, physical health and performance. Hi I' Andrew Hberan and I'm a professor of neurobiology and ophthalmology at Stanford School of Medicine. Today, we are going to discuss the science and practice of flexibility and stretching The important thing that I'd like you to know is that flexibility and the process of stretching and getting more flexible involves three major components. neeural meaning of the nervous system, muscular, muscles, and connective tissue Connective tissue is the stuff that surrounds neural stuff and the muscular stuff, although it's all kind of weaved together and braided together in complicated ways Here's a key thing that everyone should know whether or not you're talking about flexibility or not. Your nervous system controls your muscles It's what gets your muscles to contract Within your spinal cord, you have a category of neurons, nerve cells, that are called motor neurons Those neurons release a chemical. That chemical is called acetylcholine. The release of acetylcholine from these nerve cells, these neurons onto the muscles, causes the muscles to contract when muscles contract They're able to move limbs by way of changing the length of the muscle. adjusting the function of connective tissue like tendons and ligaments in the muscles themselves There are nerve connections And these are nerve connections that arise from a different set of neurons in the spinal cord that we call sensory neurons These Bindo connections within the muscle that wrap around the muscle fibers sense the stretch of those muscle fibers. So now we have two parts to the system that I've described. You've got motor neurons that can cause muscles to contract and shorten And we have these spindles within the muscles themselves that wrap around the muscle fibers and that information is sent from the muscle to the spinal cord. It's a form of sensing what's going on in the muscle. Why would that be useful Well, what this does is it creates a situation where if a muscle or is stretching too much because the range of motion of a limb is increased too much thenen the muscle will contract to bring that limb range of motion into a safe range again Okay so just to clarify, this whole thing looks like a loop. And the essential components of the loop are motor neurons, contract muscles Sensory neurons that we call spindles are sensing stretch within the muscles And if a given muscle is elongating because of the increased range of motion of a limb Those sensory neurons send an electrical signal into the spinal cord such that There is an activation of the motor neuron, which by now should make perfect sense as to why that's useful. It then shortens up muscle, it actually doesn't really shorten the muscle, but contracts the muscle that brings the limb back into a safe range of motion. So that's one basic mechanism that we want to hold in mind. this idea of a spindle that senses stretch and can activate contraction of the muscles and shorten the muscles. The next mechanism I want to describe Once again, there are only two that you need to hold in mind for this episode has to do with sensing loads. So at the end of each muscles, you have tendons typically And There are neurons that closely associated with those tendons. that are called goolgi tendon organs, right? These are neurons that are sensory neurons that sense how much load is on a given muscle right. So if you're lifting up something very, very heavy, these neurons are going to fire, meaning they're going to send electrical activity into the spinal cord. And then those neurons have the ability to shut down not activate, but shut down motor neurons and to prevent the contraction of a given muscle. So for instance, if you were to walk over and try and pick up a weight that is much too heavy for you, meaning you could not do it without injuring yourself. There are a number of reasons why you might not be able to lift it, but let's say you start to get it a little bit off the ground or you start to get some force generated that would allow it to move But The force that you're generating could potentially rip your muscles or your tendons off of the bone, right? that it could disrupt the joints, it could tear ligaments Well, you have a safety mechanism in place. It's these Gulgi tendon organs, these GTOs, as they're called, that get activated and shut down the motor neurons and make it impossible for those muscles to contract There are also mechanisms that arrive to the neuromuscular system from higher up in the nervous system, from the brain Those mechanisms involve a couple of different facets that are really interesting. And I think that we should all know about. In fact, today, I'm going to teach you about a set of neurons that I'm guessing, ninety nine point nine percent of you have never heard of, including all you neuroscientists out there, if you're out there And I know you're out there that seem uniquely enriched in humans and probably perform essential roles in our ability to regulate our physiology and our emotional state So within the brain we have the ability to sense things in the external world, something we call exteroseception, and we have the ability to sense things in our internal world, within our body called interoseception. Intteroception can be the volume of food in your gut, whether or not you're experiencing any organ pain or discomfort, whether or not you feel good in your gut and in your organs. The main brain area that's associated with interpreting what's going on in our body is called the insula, INSULA. It's a very interesting brain region. It's got two major parts. The front of it is mainly concerned with thingsings like smell and To some extent vision, like if you smell something good to approach it, or if you smell something bad, to avoid it posterior insula, the back of the insula, that is has a very interesting and distinct set of functions Posterior insula is mainly concerned with what's going on with your somatic experience How do you feel internally? mainly batches information into yum. I want to keep doing this or approach this thing. continue down some path of movement or eating or staying in a temperature environment, etceter or yuck, I need to get out of here. I don't want any moreore of this. I don't want to keep doing this. This is painful or reversive or stressful in your posterior insula You have a very interesting population of very large neurons. These are exceptionally large neurons. called Than economone neurons Neurons that are again, unbeknownst to most neuroscientists and they seem uniquely enriched in humans Why is that Interesting. Well, these van e konomone neurons have the unique property of integrating O Knowledge about our body movements. Our sense of pain and discomfort and can drive motivational processes that allow us to lean into discomfort and indeed to overcome any discomfort if we decide that the discomfort that we are experiencing is good for us or directed toward a specific goal. And then there's the other really interesting aspect of these van economo neurons, which is that these van eonomo neurons are connected to a number of different brain areas that can shift our internal state from one of so called sympathetic activation. So this is a pattern of alertness and even stress sometometimes even panic, but typically alertness and stress to one of so called parasympathetic activation to one of relaxation Oftentimes you'll hear that Stretching should be done by relaxing into the stretch Well what does it actually mean to relax into the stretch Well, these van economo neurons sit at this junction where they're able to evaluate what's going on inside our body. And allow us to access neural circuitries by which we can shift our relative level of alertness down a bit or our relative level of stress down a bit. and thereby to increase so called parasympathetic activation and to literally override some of those spindle mechanisms Even the GTO mechanisms, but especially the spindle mechanisms neuromuscular and muscular spinal junction. I'll give you a brief example of this that you've already done in your life and that we all have the capacity for. What I'm referring to is the monosynaptic stretch reflex This is something that every first year neuroscience graduate student learns, which is that if you were to step on a sharp object with a barefoot You would not need to make the decision to retract your foot. You would automatically do that, provided you have a healthy nervous system There are mechanisms in place that cause the retraction of that limb by way of ensuring that the proper muscles contract and other muscles do not contract. In fact that they fully relax. Okay? So in the case of stepping on a sharp object, like a piece of glass or a nail or a tack You would essentially activate the hip flexor to lift up your foot as quickly as possible In doing so same neural circuit would activate a contralateral meaning opposite side of the body circuit to ensure that the leg, the foot, that's not stepping on the sharp object, would do exactly the opposite and would extend to make sure that you don't fall over All of that happens reflexively. It does not require any thought or decision making. Your life depended on walking across some sharp objects, let's say, let's make it a little less dramatic. So it's not like the die Hard movie or something where you has to run barefoot across the glass Although that's a good example of what I'm describing here. But let's say you had to walk across some very hot stones to get away from something that you wanted to avoid you could override that stretch reflex by way of a decision made with your upper motor neurons, your insula and your cognition, and almost certainly those van eonome neurons, which would be screaming, Don't do this, don't do this, don't do this. could shuttle that information to brain areas that would allow you to override the reflex and essentially push through the pain And maybe even, in fact even not experience the pain to the same degree or even at all So these vaniconomo neurons sit at a very important junction within the brain. They pay attention to what's going on in your body, pain, pleasure etcer And that includes what's going on with your limbs and your limb range of motion They also are paying attention and can control the amount of activation, kind of alertness or calmness that you are able to Create within your body in response to a given sensory experience. And As I mentioned before, they seem to be uniquely enriched in humans. They seem to be related to the aspects of our evolution that allow us to make decisions about what to do with our body in ways that other animals just simply can't. I'd like to take a quick break and acknowledge one of our sponsors, Element. Element is an electrolyte drink that has everything you need and nothing you don't That means the electrolytes, sodium, magnesium, and potassium in the correct amounts, but no sugar. Proper hydration is critical for optimal brain and body function Even a slight degree of dehydration can diminish cognitive and physical performance. It's also important that you get adequate electrolytes. The electrolytes, sodium, magnesium, and potassium, are vital for functioning of all the cells in your body, especially your neurons or your nerve cells Drinking element dissolved in water makes it very easy to ensure that you're getting adequate hydration and adequate electrolytes. To make sure that I'm getting proper amounts of hydration and electrolytes I dissolve one packet of element in about sixteen to thirty two ounces of water when I first wake up in the morning, and I drink that basically first thing in the morning I'll also drink element dissolved in water during any kind of physical exercise that I'm doing, especially on hot days when I'm sweating a lot and losing water and electrolytes. Element has a bunch of great tasting flavors I love the raspberry, I love the citrus flavor. Right now, Element has a limited edition lemonade flavor that is absolutely delicious. I hate to say that I love one more than all the others, but this lemonade flavor is right up there with my favorite other one, which is raspberry or watermelon. Again, I can't pick just one flavor. I love them all If you'd like to try element, you can go to drink element. com slash Hubberman, spelled drinklmNT dot com slash hubberan to claim a free element sample pack with a purchase of any element drink mix. Again, that's drink element d. com slash Hubberan to claim a free sample pack. There are a number of different types of stretching. methods of stretch broadly defined We can describe these as dynamic Ballistic. static and what's called PNF stretching PNF stands for proprioceptive neuromuscular facilitation. The first two that I mention, dynamic and ballistic stretching, both involve some degree of momentum and can be distinguished from static and PNF type stretching Now to distinguish Dynamic stretching from ballistic stretching like like to focus on this element of momentum Both involve moving a limb through a given range of motion In dynamic stretching, however It tends to be more controlled, less use of momentum, especially towards the end range of motion. Whereas in ballistic stretching, there tends to be a bit more swinging of the limb. or use of momentum. But again, dynamic and ballistic strtching both involve movement So we have to generate some force in order to create that movement. Ballistic stretching involving a bit more momentum or sometimes a lot more momentum, especially at the end range of motion. Now both of those are highly distinct from static stretching, which involves holding the end range of motion, so minimizing the amount of momentum that's used. Static stretching can be further subdivided into active or passive Right? There are different names for these kinds of approaches. You can hear about the Anderson approach or the Joonda approach. You can look these sorts of things up online. There's also passive static stretching in which it's more of a relaxation into a further range of motion. And that can be a subtle distinction. and nonetheless, static stretching involves those types of elements active and passive, but is really about eliminating momentum. And then there's the PNF, the proprioceptive neuromuscular facilitation. and proprioception several different meanings in the context of neuroscience and physiology, to just keep it really simple for today. Pprioception involves both a knowledge and understanding of where our limbs are in space and relative to our body, typically relative to the midline. So the brain is often trying to figure out where are our limbs relative to our midline down the center of b and if your goal is to increase your hamstring flexibility and the flexibility and range of motion of other related muscle systems, you might put a strap around your ankle on Oh that muscle or I should say, excuse me, that limb toward you, you're not going to pull the muscle towards. You're going to pull that lim, your ankle towards you, try and get it sort of back over your head and then progressively relaxing into that or maybe even putting some additional force to push the end range of motion and then relaxing it and then actually trying to stretch that same limb or increase the lim range of motion without the strap There's a huge range of PNF protocols. Those protocols can be done both by oneself, with or without straps, with machines, with actual weights, or with training partners. So specific exercises to target specific muscle groups aside, we've now established that there are four major categories of stretching or at least those are the four major categories 'm defining today, but in terms of increasing limb range of motion in the long term, truly becoming more flexible as opposed to transiently more flexible, static stretching, which includes PNF, appears to be the best route to go. So whether or not you want to maintain, reestablish or Gain limb range of motion, static stretching of holds of thirty seconds appear to be best. Now the question is, How long should you do that? and how many sets should you do that? and how many times a week should you do that To answer those questions, I'm going to turn to what I think is a really spectacular review. The title of the paper is the relation between stretching, typology and stretching Duration, the effects on range of motion First of all, and I quote, All stretching typologies showed range of motion improvements over a long term period. However, the static protocols showed significant gains with a P value less in z zo five, which means a probability that cannot be explained by chance alone. when compared to ballistic or PNF protocols. So again, what we're hearing is that static stretching is the preferred mode for increasing limb range of motion. although here they make the additional point Static stretching might even be superior not just to ballistic stretching, but also to PNF protocols. The authors go on to say, Time spent stretching per week seems fundamental to eicit range of movement improvements when stretches are applied for at least or more than five minutes. Okay, this is critical. This is not five minutes per stretch. Remember? thirty seconds per static stretch, but at least five minutes per week. So what this means is that we should probably be doing anywhere from two to four sets thirty second static hold stretches, five days per week So what would effective stretching protocol look like We're all trying to improve limb range of motion for different limbs and different muscle groups. Let's talk about hamstrings for the time being could of course be applied to other muscle groups Let's say you want to improve hamstring flexibility and limb range of motion about and around the hamstring and involving the hamstring you would want to do Three sets Static stretching for the hamstring You would do that by holding the stretch for thirty seconds, resting some period of time, and doing it again, holding for thirty seconds, resting some period of time, and then holding it for thirty seconds. That would be one training session for the hamstrings. I have to imagine that you'd probably want to stretch other muscle groups as well in that same session. Th sets of thirty seconds each get ninety seconds And he would do that idedeally, five times a week. or maybe even more One thing that did show up in my exploration of the peer reviewed research, is this notion of warming up for all this. We haven't talked about that yet. In general, to avoid injury, it's a good idea to raise your core body temperature a bit before doing these kinds of stretches Even these static stretches, which we can sort of ease into and don't involve ballistic movement by definition and The basic takeaway that I was able to find was that if we are already warm from running or from weight training or from some other activity that doing the static stretching Practice at the end of that weight training or cardiovascular or other physical session would allow us to go immediately into the stretching session because we're already warm, so to speak. Otherwise raaising one's core body temperature by a bit. by doing fiveive to seven, maybe even ten minutes of easy cardiovascular exercise or calisenic movements, provided you can do those without getting injured seems to be an ideal way to warm up the body for stretching. We should be warm or warm up to stretch, although those warm upps don't have to be extremely extensive And then just by way of logic, doing the static stretching after Resistance training or cardiovascular training seems to be most beneficial. In fact, And unfortunately we don't have time to go into this in too much detail today. I was able to find a number of papers that makeake the argument that static stretching prior to cardiovascular training and maybe even prior to resesistance training can limit our performance in running and resistance training. I realize that's a controversial area. You have those who say no, it's immensely beneficial. You have those who say, no, it inhibits performance and those that say, no, it's a matter of how exactly you perform that static stretching and which muscle groups and how you're doing this and how much time in between static stretching and performance. But to leave all that aside, doing static stretching after some other form of exercise and If not after some form of exercise after a brief warm upp to raise your core body temperature, definitely seems like the right way to go. I'd like to take a quick break and acknowledge our sponsor, Eight Sleep. Eight sleep makes smart mattress covers with cooling, heating, and sleep tracking capacity. One of the best ways to ensure you get a great night's sleep is to make sure that the temperature of your sleeping environment is correct And that's because in order to fall asleep and stay deeply asleep Your body temperature actually has to drop by about one to three degrees. and in order to wake up feeling refreshed and energized, your body temperature actually has to increase by about one to three degrees. Eight sleep automatically regulates the temperature of your bed throughout the night according to your unique needs. 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I'm guessing that most people are not doing five days a week of dedicated static stretch range of motion training. But it does appear that frequency about the week, getting those repeated sessions, even if they are short for an individual muscle group turns out to be important. They're going to offset the age related losses in flexibility for sure if one is dedicated about these practices. Some of you may be familiar with the so called Anderson method. It's been around for a long time. Anderson has an interesting idea and principle, which has thread through a lot of his teachings that I think are very much in keeping with the study that I'm about to describe next where He emphasizes to yes to stretch to the end of the range of motion. but not to focus so much on where that range of motion happens to be that day So for instance, not thinking, oh, I can always touch my toes, for instance. And therefore, that's the starting place for my flexibility training today. But rather take the entirety of your system into account each day and understand that, okay, provided you're warmed up appropriately that you're now going to stretch your hamstrings, for instance, and you're going to reach down for your toes that your range of motion might be adjusted that day by way of tension and stress or by way of ambient temperature in the room. And to basically define the end range of motion as the place where you can feel the stretch in the relevant muscle groups. So what does this mean? This means feel the muscles as you stretch them. donon't just go through the motions. And this means don't get so attached to being able to always achieve, for instance, a stretch of a given distance on a within a given session, you might actually find that by Just finding the place where you can't get much further and holding the static stretch there. that on the second and third set that you happen to be doing that day, that your range of motion will be increased considerably. Now Along these lines, there's this even more nebulous variable, this even more kind of subjective thing of How much effort to put into it? shouldhould you push into the stretch? Would you even want to bounce a tiny bit? Would you want to reach into that end pointint and try and extend it within a given set and session. And for that reason, I was excited to find this paper entitled The compomarison of T stretching mododalities on lower limb range of motion measurements in Recreational dancers. It's a six week intervention program that compared low intensity stretching, which they call micro stretching. but to be very clear micro stretching in the case of this manuscript is low intensity stretching, and they compared that with moderate intensity static stretching on an active and passive ranges of motion. Basically what they found was that a six week training program using very low intensity stretching had a greater positive effect on lower limb range of motion than did moderate intensity static stretching. Here I'm quoting them The most interesting aspect of the study was the greater increase in active range of motion compared to passive range of motion by the microstretching group. So this relates to what we were just talking about a few moments ago as it relates to the Anderson method, which is that veryery low intensity stretching meananing effort that feels not painful And in fact, might even feel easy or at least not straining to exceed a given range of motion turns out to not just be as effective but more effective than moderate intensity stretching. So what is low intensity static stretching? Well, they defineed this as the stretches were completed at an intensity of thirty to forty percent where one hundred percent equals the point of pain Right? So thirtycent to forty percent in these individuals. And again, I'm paraphrasing induced a relaxed state within the individual and the specific muscle. And here they were holding these static stretches, I should mention for one minute. thirty seconds Now the control group was doing the exact same overall protocol, so daily stretching for six weeks. same exercises holding each set for sixty seconds We're using an intensity of stretch of eighty percent where again, a hundred represents the point of pain. person would want to stop stretching. I find these data incredibly interesting for, I think what on to be obvious reasons If you're going to embark on a flexibility and stretching training program You don't need to push to the point of pain. In fact It seems that even just approaching the point of pain is going to be less effective than operating at this thirtycent to forty percent of intensity prior to reaching that pain threshold, the pain threshold being one hundred percent. Now of course, this is pretty subjective, but I think all of us should be able to register within ourselves to whether given range of motion or extending a given range of motion brings us to that threshold of pain or near pain. And according to this study at least operating or performing stretching at an intensity that's quite low, that's very relaxing turns out to be more beneficial in increasing range of motion then is doing exercise is aimed at increasing range of motion at a higher intensity. Okay, so lower intensity stretching I should say lower intensity static stretching appears to be the most beneficial way to approach streching. And I think that's a relief U probably to many of us, because it also suggests that the injury risk is going to be lower than if one we werere pushing into the pain zone, so to speak. I want to just briefly return to this idea of whether or not to do ballistic or static stretching. four some sort of skill training or weight training any kind of sport or even cardiovascular exercise like running There are instances For example where an individual might want to do some static stretching to increase limb range of motion prior to doing weight training even if It's going to inhibit that person's ability to lift as much weight. Why would you want to do that? Well, for instance If somebody has a tightness or a limitation in their neuromuscular connective tissue system, somepl in their body, and system that prevents them from using proper form that they can overcome by doing some static stretching Well, that would be a great idea. There are instances where people are trying to overcome injuries, where they're trying to back from a repairative surgery or something of that sort coming back from a layoff where some Additional static stretching prior to cardiovascular or weight training or skill training or sport of some kind is going to be useful because it's going to put us in a position of greater safety and confidence and performance overall, even if it's adjusting down our speed or the total amount of loads that we use. Similarly There are a lot of data pointing the fact that doing some dynamic or even ballistic stretching prior to skill training or cardiovascular weight training can be beneficial in part to warm up the relevant neural circuits, joints, and connective tissue and muscles and as well to perhaps improve range of motion or ability to perform those movements more accurately with more stability and therefore with more confidence I'd like to take a quick break and acknowledge our sponsor, AG Wan. 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If you would like to try AG one, you can go to drinkagG one dot com slash Hubberman to get a special offer For a limited time, AG one is giving away a free bottle of their new omega three coenzyme Q ten product Omega three and Coenzyme Q ten are known to support cardiovascular health cellular health and energy generally, brain health and much more I personally take them both every day Again, go to drinkagG one d. com slash Hubberman to get a free bottle of the new Omega three cooenzyme Q ten with your first AG one subscription Thus far, we've been talking about stretching for the sake of increasing limb flexibility and range of motion There are other reasons, perhaps to embark on a stretching protocol. That include both our ability to relax and access deep relaxation quickly. I'd like to return to this idea in this place, this real estate within our brain that we call the insular cortex, the insula call way back at the A the beginning of this episode we' talking about the Von economo neurons, that Constantine Von Econnomo, the Austrian scientists discovered And the fact that we are able to make and perform interpretations of our internal landscape pain our dedication to a practice. For instance, whether or not we are in pain because it's a practice that we are doing intentionally and want to improve ourselves or whether or not it's pain that's arriving through some externally imposed demands or situations. The Inula is handling all that. And fortunately, there's a wonderful paper that was published a few years ago now in the journal Cerebral cortex, entitled Insular Cortex Mediates increased pain tolerance in yoga practitioners, this study explored The effects on brain structure volume in yoga practitioners. And for those of you out there that are ficinados in yoga, they they subjects from having backgrounds in the here I'm probably going to mispronounce these different things and forgive me the vinyasa yogas, the Ashtanga yogas, Ynger yogas, the Sinanda yogas, okay. So some people were new to these practices, some were experienced The important takeaways were that they took these yoga practitioners and they didn't explore their brain structure in the context of yoga itself. they looked at things like pain tolerance So they used thermal stimulation. Basically, they put people into conditions where they gave them very hot or very cold stimuli and compared those Yoga practitioners of varying levels of yoga experience to those that had no experience with yoga, so called controls. And they found some really interesting things There a lot of data on this paper, but Here's something I'd like to highlight, the pain tolerance of yoga practitioners was double or more to that of non yoga practitioners. they also found Sificant increases in insular again, the insula, this brain region, gray matter volume. Typically when we talk about gray matter, we're talking about the so called cell bodies, the location in neurons where the genome is housed and where the kind all the housekeeping stuff is there. And then white matter volume tends to be the axons, the wires because they're in sheetss with this stuff that appears white. in MRIs and indeed is white under the microscope and indeed is white. it's actually lipid, which is myelent So increased gray matter volume of the insula is a significant finding because what it suggests is that people that are doing yoga have an increased volume of these areas of the brain that are associated with interacceptive awareness and for being able to make judgments about pain and why one is experiencing pain, not just to lean away from pain, but to utilize or leverage or even overcome pain. And I find this interesting because there are a lot of activities out there Don't create these kind of changes in brain volume, especially within the insula. So it appears that it's not just the performance of the yogic movements, but the overcoming or the kind of pushing into the end ranges of motion and to push through discomfort to some extent We want people doing that in a in a healthy, safe way that allows yoga practitioners to build up the structure and function of these brain areas that allow them to cope with pain better than other individuals and to cope with other kinds of interacceptive challenges, if you will Not just pain, but cold, not just pain, but discomfort of being in a particular position to do that. And again, we wouldn't want people placing themselves into a compromised position literally that would harm them, especially given that earlier we heard that micro stretching of the kind of non painful sort, low intensity sort is actually going to be more effective for increasing end range ofion But this study really emphasizes the extent to which Practitioners of yoga. don't just learn movements. they learn how to control their nervous system in ways that really reshapes their relationship to to flexibility and to the kinds of things that the neuromuscular system was designed to do. So if ever there was a practice that one could embark on that would not only increase flexibility and limb range of motion, but would also allow one to cultivate some improved mental functioning as it relates to pain tolerance and other features of stress management that no doubt wick out into other areas of life. It appears that yoga is a quite useful practice. But of course, yoga isn't only way to increase limb range of motion and flexibility. Up until now we've described a number of different ways to do that. and we've arrived at some general themes and protocols. Again, we can revisit a couple of them now just in summary and synthesis. Static stretching appears to be at least among the more useful forms of stretching. It really does appear that getting att least five minutes per week total of stretching for a given muscle group is important for creating meaningful lasting changes in limb range of motion. and that is best achieved by five day a week or six day a week or even seven day a week protocols, but those can be very short protocols Limited to, say three sets of thirty mayaybe in forty five or sixty seconds of static hold, although thirty seconds seems to be. key threshold there that can get you maximum benefit and of course, to always warm up or to arrive at the stretching session warm. Thank you once again for joining me today for a discussion about the neural and neuromuscular and connective tissue and skeletal aspects of flexibility and stretching As always Thank you for your interest in science

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