1. Field
The example embodiments in general are directed to a rotational exercise system, more particularly to a system adapted for warm-up/activation before and recovery after exercise, rehabilitation from injury, functional training, and performance, the system additionally adapted to reduce the likelihood of incontinence in a user's body, and further adapted to enhance a user's range of motion.
2. Related Art
Various types of conventional exercise and/or therapy devices have been developed to provide an effective means for supplying resistance and movement to a person's body for keeping fit by working out against a given resistance, either self-imposed, with an external force, or via rotation. Typically, these conventional exercise devices are configured so as to exercise or rehabilitate different parts of the human body using some type of force, sometimes in the form of weights and/or energy creating resistance. Movable belt devices also create a stationary running platform.
Device 10 further includes a tensioning mechanism 50 consisting of an upper coated tensioning cable 62, held close to a hand rail 76 by one or more cable retaining straps 66, an upper tensioning cable retaining bracket 68, notched tensioning adjustment mechanism 72, and tensioning adjustment mechanism handle 74. A safety feature for device 10 is served by the hand rail 76 and the removable stationary step platform 82.
When the tensioning adjustment mechanism handle 74 is placed in the notch at a position furthest away from the upper tensioning cable retaining bracket 68, the greatest amount of tension is placed upon base 12 at the distal end of the tensioning mechanism 50. Accordingly, base 12 is essentially set motionless at this setting, allowing the user to safely move onto and off the removable stationary step platform 82, as well as onto and off, the rotatable exercise and therapy platform (base 12).
The inventor's own patent (U.S. Pat. No. 7,909,747, issued Mar. 22, 2011 and entitled “Exercise Device and Method”, hereafter the “'747 patent”) in general is directed to a method and device for exercise of the gluteus medius and gluteus minimus muscle complex against resistance in internal rotation, the tibialis posterior in internal rotation and inversion, the piriformis muscle and its synergists in external rotation, and the peroneal muscles in external rotation and eversion.
The device 200 further includes a back support 222 that is selectively positioned horizontally, toward and away from the base 212, and handrails 220 connected to the base 212. Accordingly, device 200 provides internal and external resistance to isolate and exercise the gluteus medius and gluteus minimus muscle complex or the piriformis and synergists while the user is in a standing position, and also provides internal and external resistance to exercise the tibialis posterior and the peroneals in either the standing or seated position.
In the '747 patent, only one muscle area complex is actually addressed, that which is key in providing gains to the hips and lower back. Additionally, the back support 222 described in the '747 patent is an essential part of the exercise program. Further, device 200 employs a generally cumbersome means 236 of providing a smooth resistance and release of resistance. Specifically, rotational resistance is supplied in both directions of rotation via a system of tension springs, coil springs, hydraulic or pneumatic cylinders, a system of cams and springs, or a system of disks and brakes to provide rotating resistance to the rotatable foot plate 216. Moreover, front foot support plate 224 serves as an integral part of the exercise protocol.
Consequently, in light of some of the limitations described above, there is a significant need for a rotational resistance device which does not require a back support and/or a front foot support plate as an integral part of the exercise protocol, and which does not require the above-noted cumbersome means of providing smooth resistance and release of resistance. Further, there is a need for a device that provides the user an ability to exercise most if not all the muscles in the body, including but not limited to muscles in an around the lower back, hips, core, knees, ankles, shoulders, elbows, and wrist.
An example embodiment is directed to a rotational resistance system. The system includes one or more rotational resistance devices arranged on one of a vertical or horizontal planar surface. Each of the one or more rotational resistance devices includes a rotatable plate thereon and internal resistance means therein for providing resistance and release of resistance against rotation of the plate. Each plate is adapted so that a user, with one of a corresponding foot or hand on of the one or more rotational resistance devices, is enabled to perform a given exercise to active selected under active muscles and release selected overactive muscles.
Another example embodiment is directed to a rotational resistance system comprising a pair of rotational resistance devices arranged in spaced, adjacent relation on a horizontal planar surface. Each device further includes a base having a support structure therein, a rotatable plate serving as a contact surface of the support structure, the plate inclined at an upward angle relative to horizontal as taken from the rear of the base to the front thereof, and internal resistance means within the support structure for providing resistance and release of resistance against rotation of the plate. Each plate is adapted so that a user, with one of a corresponding foot or hand on the rotational resistance devices, is enabled to perform a given exercise to active selected under active muscles and release selected overactive muscles.
Another example embodiment is directed to a rotational resistance system which includes a base having a plurality of legs designed to come into flush contact with a vertical planar surface when held in contact thereto by a user, a rotatable plate on the base, and a handle attached to the plate. The system further includes internal resistance means within the base for providing resistance and release of resistance against rotation of the plate so that a user is enabled to perform a given exercise to active selected under active muscles and release selected overactive muscles in the forearm, shoulder and back.
Another example embodiment is directed to a rotational resistance adapted for a user so as to facilitate exercise of muscles throughout upper and lower extremities of the user's body. The system includes one or more rotational resistance devices arranged on one of a vertical or horizontal planar surface. Each device further includes a rotatable plate thereon and internal resistance means therein for providing resistance and release of resistance against rotation of the plate. Performance of various exercise protocols by the user with the system activates selected under active muscles of the user and releases selected overactive muscles thereof to inherently effect myofascial balance therebetween.
Example embodiments will become more fully understood from the detailed description given herein below and the accompanying drawings, wherein like elements are represented by like reference numerals, which are given by way of illustration only and thus are not limitative of the example embodiments herein.
In the following description, certain specific details are set forth in order to provide a thorough understanding of various example embodiments of the disclosure. However, one skilled in the art will understand that the disclosure may be practiced without these specific details. In other instances, well-known structures associated with manufacturing techniques have not been described in detail to avoid unnecessarily obscuring the descriptions of the example embodiments of the present disclosure.
Unless the context requires otherwise, throughout the specification and claims that follow, the word “comprise” and variations thereof, such as “comprises” and “comprising,” are to be construed in an open, inclusive sense, that is, as “including, but not limited to.”
Reference throughout this specification to “one example embodiment” or “an embodiment” means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment. Thus, the appearances of the phrases “in one example embodiment” or “in an embodiment” in various places throughout this specification are not necessarily all referring to the same embodiment. Further, the particular features, structures or characteristics may be combined in any suitable manner in one or more example embodiments.
As used in this specification and the appended claims, the singular forms “a,” “an,” and “the” include plural referents unless the content clearly dictates otherwise. The term “or” is generally employed in its sense including “and/or” unless the content clearly dictates otherwise.
As used in the specification and appended claims, the terms “correspond,” “corresponds,” and “corresponding” are intended to describe a ratio of or a similarity between referenced objects. The use of “correspond” or one of its forms should not be construed to mean the exact shape or size. In the drawings, identical reference numbers identify similar elements or acts. The size and relative positions of elements in the drawings are not necessarily drawn to scale.
In general, an example rotational resistance system (“system 300”) as to be described in more detail hereafter is adapted, in one example, for use against a horizontal, flat planar surface such as a ground surface or floor. Not only does the wall assist with balance and support for the user, but it also serves as a brace so that the user may selectively add sufficient resistance to the rotation of the device while maintaining their trunk and core stable (which cannot be accomplished otherwise). Example target areas which may be exploited by a user of the example rotational resistance device for exercise may include but are not limited to the muscles in and around the lower back, hips, core, spine, knees, ankles, shoulders, elbows, and wrists. The example rotational resistance system 300 is specifically adapted to the user based on physiology and biomechanics principles in order to facilitate injury prevention and rehabilitation after injury. Additionally, the example rotational resistance system 300 may be employed away from the wall to work shoulder, upper back, trunk, hip and leg muscles, as well as to increase the overall range of motion of the user's body. Further, and as will be described in further detail below, the system 300 may be employed to assist a user thereof as an incontinence reduction measure.
Before discussing the example embodiments in detail, an understanding of the skeletal muscles in the body is provided. Skeletal muscle is made up of bundles of individual muscle fibers called myocytes. Each myocyte contains many myofibrils, which are strands of proteins (actin and myosin) that can grab on to each other and pull. This shortens the muscle and causes muscle contraction. Muscle contractions occur when a muscle fiber or group of fibers is activated by a nerve to increase the tension within the muscle.
The human muscles are made of bundles of muscle fibers that contain thousands of smaller structures called myofibrils, where the actual contraction occurs. Within myofibrils, there are two types of filaments, called actin and myosin. The sliding filament theory explains that when a muscle is activated and movement occurs, these two interlocking filaments can grab onto each other and pull, which causes the myofibril to shorten. This shortening is called a muscle contraction.
There are three ways a muscle fiber can be activated, e.g., three types of muscle contractions. Two allow for movement in the muscle and one simply creates tension, without joint movement. The three contraction types include: concentric muscle contraction (shortening); eccentric muscle contraction (lengthening); and isometric muscle contraction (static). It is generally accepted that muscle fiber types may be broken down into two main types: (a) slow twitch (Type I) muscle fibers; and (b) fast twitch (Type II) muscle fibers. Fast twitch fibers can be further categorized into Type IIa and Type IIb fibers.
A slow-twitch or Type I muscle fiber can be understood as a muscle fiber that develops less tension more slowly than a fast-twitch fiber. The slow-twitch fiber is usually fatigue resistant and has adequate oxygen and enzyme activity. Studies indicate that world-class endurance runners apparently have high percentages of slow-twitch fibers, known as “red muscle” due to the abundance of capillaries serving the fiber muscle. This muscle type also has high amounts of the protein myoglobin, which functions to store oxygen inside the muscle cell. This, slow-twitch muscles are more efficient at using oxygen to generate more fuel (known as “ATP”) for continuous, extended muscle contractions over a long period of time. Slow-twitch fibers fire more slowly than fast-twitch fibers and can go a long time before fatigue. Accordingly, slow-twitch fibers are great at helping athletes run marathons or bicycle for hours.
A fast-twitch or Type II muscle fiber can be understood as a muscle fiber that develops high tension rapidly. It is usually innervated by a single alpha neuron and has low fatigue resistance, low capillary density, low levels of aerobic enzymes, and low oxygen availability. Fast-twitch fibers are used in activities such as sprinting, jumping, and weight-lifting.
These distinctions seem to influence how muscles respond to training and physical activity, and each fiber type is unique in its ability to contract in a certain way. Human muscles contain a genetically determined mixture of both slow and fast fiber types. On average, humans have about 50 percent slow-twitch and 50 percent fast-twitch fibers in most of the muscles used for movement.
A human's muscle fiber type may influence what sports they naturally excel at or whether one is fast or strong. Olympic athletes tend to fall into sports that match their genetic makeup. Olympic sprinters have been shown to possess about 80% fast-twitch fibers, while those who excel in marathons tend to have 80% slow-twitch fibers.
As to be described hereafter, the example system 300 and associated exercise protocols therewith is designed specifically to activate and strengthen Type II muscle groups and its surrounding fasciae while simultaneously inhibiting and releasing Type I muscle groups and its surrounding fasciae. As research, literature and muscle biopsy reveals, skeletal muscles, i.e., the muscles that move joints, can be divided into two distinct categories. Each category can be referred to correctly with any of the following terms, relative to each other: (a) Type I—also described as tonic, postural, overactive, red muscle, slow-twitch. These have a tendency to be short relative to its Type II counterpart; these Type I muscles may be considered “Mechanically Advantaged”; and (b) Type II—also described as phasic, powerful mover, under active, white muscle, fast-twitch. These have a tendency to be long relative to its Type 1 counterpart; these Type II muscles may be considered “Mechanically Disadvantaged”.
As to be described hereafter, the example system 300 and associated exercise protocols therewith is designed to activate and strengthen Type II muscles, or under active and mechanically disadvantaged muscles, and their surrounding fasciae, while simultaneously inhibiting and releasing Type I muscles, or overactive and mechanically advantaged muscles, and their surrounding fasciae. Type I muscles are mechanically advantaged over their counterpart Type II muscles, e.g., hip flexor muscles are highly mechanically advantaged over hip extensors. The same is true of shoulder flexors and shoulder extensors. Unless specific action is taken to activate and strengthen mechanically disadvantaged muscles, such as hip extensors, hip internal rotators, shoulder extensors, shoulder external rotators, shoulder depressors, ankle internal rotators, ankle flexors, trunk rotators, etc., joints will be controlled predominately by the mechanically advantaged Type I muscles and joints will lose motion in all other axes except those controlled by the mechanically advantaged muscles.
As example, the muscles that move the shoulder include pectoralis major (shoulder protractor), which is mechanically advantaged over the rhomboids (shoulder retractors); upper trapezius and elevator scapulae (shoulder elevators), which are mechanically advantaged over serratus anterior, pectoralis minor and lower trapezius (shoulder depressors); and latissimus dorsi, subscapularis, teres major (shoulder internal rotators), which are mechanically advantaged over the infraspinatus and teres minor (shoulder external rotators).
If allowed to follow a natural progression set up by anatomical makeup and lifestyle, the shoulders will develop a forward, upward and inward rotated position. This position is a fertile environment for strain and injury to the muscles around the shoulder and the shoulder joint itself. This poor position is also the major contributor to a forward head position and issues of the neck and cervical spine. In the United States, this faulty shoulder position is pandemic.
As to shoulder girdle and shoulder joint muscles, a position on hands and knees allows the overactive Muscles (Type I) to completely relax while the under active muscles (Type II) are strongly activated and strengthened. Example Type II muscles in the shoulder girdle and joint that may be strongly activated and strengthened using system 300 and an associated external shoulder rotation exercise protocol include infraspinatus, teres minor, serratus anterior, lower trapezius, posterior deltoid, pectoralis minor and rhomboids. Example Type I muscles in the shoulder girdle and joint that may be inhibited and released using system 300 and an associated external shoulder rotation exercise protocol include pectoralis major, upper trapezius, elevator scapula, latissimus dorsi, subscapularis, teres major, and anterior deltoid. This exercise, to be described in more detail hereafter in accordance with use of system 300, has proved beneficial in returning the shoulder girdle and shoulder joint to a normal position and helpful in maintaining that position.
With regard to foot and ankle muscles, in a position on system 300, leaning against a flat wall, a squat exercise protocol enables the overactive Type I muscles to completely relax while the under active Type II muscles are strongly activated and strengthened. Example Type II muscles which may strongly activated and strengthened include tibialis anterior, tibialis posterior, peroneus longus, quadratus plantae. Example Type I muscles in the foot and ankle that may be inhibited and released using system 300 and an associated squat exercise protocol include the gastrocnemius and soleus, which serves to release the Achilles tendon. This exercise, to be described in more detail hereafter in accordance with use of system 300, has proven beneficial with balance, calf/ankle/foot injury reduction, Achilles injury reduction, and rehabilitation of all muscles and joints associated with the foot, ankle, calf and knee.
Turning now to the drawings, the example rotational resistance system 300, as shown by reference to
Referring to
The support structure 320 within base 310 in general includes a pair of post supports 323, a plurality of support ribs 324 with connected sidewalls (
Plate 330 includes a smooth top surface for receiving a hand or foot, and an underside having a plurality of structural ribs 331, a pair of stop ramps 332, a series of alignment stubs 333 formed thereon, each stub 333 further having a formed catch 334 in adjacent relation thereto. Device 305 includes an internal resistance means for providing resistance and release of resistance against rotation of the plate 330. The internal resistance means may be composed of a “Lazy Susan” turntable 340 with bearing plate 345 thereon connected to an underside of the plate 330, with the spring 326 providing a counter tension to rotation of the plate 330 in either direction by way of one of its spring tine ends 329 coming into connect with a respective stop ramp 332 on the underside of plate 330, as best shown in
As noted, the spring 326 is actuated to impart tension (and hence resistance to rotation of plate 330) via contact with a given stop ramp 332 upon plate 330 rotation in either direction. As best shown in
Each example device 305 of system 300 may be manufactured with a pre-set 11 angle of inclination from horizontal for the top surface 322 and rotatable plate 330 (via forms of the support ribs 324 with connected sidewalls of the support structure 320). This puts certain muscles at a mechanical disadvantage, allowing their functionally opposite muscles to attain greater activation and an increased range of motion. Variable elevations for the top surface 322 of base 310 from 6° to 26° are available to provide different levels of exercise; lower elevations provide a less difficult exercise and higher elevations are more strenuous.
Through extensive testing, the inventor has discovered that elevation changes to the device 305 dramatically affect the difficulty level in order for a user to rotate the turntable 340. As the top surface 322 and rotatable plate 330 (based on the internal supports of support structure 320) can be variably adjusted to elevations from 6° to 26°, testing has shown that angles of inclination greater than or equal to 20° is exponentially more difficult than an inclination set of 11°. Employing a simple wedge which is the exact same size as that of the base 310 would enable further addition or subtraction to this range of elevation. This is a much simpler and superior means in which to add or reduce tension. Also as shown in
In general, the housing of device 305, inclusive of base 310, support structure 320, rotatable plate 330, and turntable 340 may be formed by an injection molding process from a medium or heavy gauge impact plastic such as acrylonitrile butadiene styrene (ABS). ABS is an easily machined, tough, low-cost, rigid thermoplastic material with medium to high impact strength, and is a desirable material for turning, drilling, sawing, die-cutting, shearing, etc.
ABS is merely one example material; equivalent materials include various thermoplastic and thermoset materials that have characteristics similar to ABS. For example, polypropylene, high-strength polycarbonates such as GE Lexan, and/or blended plastics may be used instead of, or in addition with ABS. The materials comprising the devices 305 of system 300 (plastic such as ABS, rubber and lightweight metal materials) provide a light yet durable device 305. An exemplary injection molding system for forming molded plastic articles included in device 305 may be the Roboshot® injection machine from Milacron-Fanuc. The Roboshot is one of many known injection molding machines for forming plastic injection molds.
Proper use of system 300 enhances alignment, explosion and durability for the user. For example, system 300 may be particularly applicable to users who cannot body squat to a parallel position, by enabling them to achieve a full squat after just a few days of use of the system 300 with the suggested exercise protocols. This is significant, as the inability to perform a deep squat is generally a top injury predictor in many college and professional sports.
System 300 also is adapted to help a user dramatically increase their hip, ankle and shoulder ranges of motion. Specific muscles activated by the example system 300 for an internal hip rotation exercise may include but are not limited to the gluteus medius, tensor fascia lata, adductor magnus, semimembranosis, rectus abdominis, gluteus maximus, hamstrings, internal abdominal oblique, transverse abdominis, tibialis anterior, and tibialis posterior muscles. Specific muscles released by the example system 300 for internal hip rotation may include but are not limited to the piriformis, gemellus superior, gemellus inferior, obturator internus, obturator externus, quadratus femoris, external abdominal oblique, lower paraspinal muscles, and peroneus longus muscles.
Specific muscles activated by the example system 300 for a squat exercise may include but are not limited to the tibialis anterior, tibialis posterior, and peroneus longus muscles. Specific muscles and tendons released by the example system 300 for a squat exercise may include, but are not limited to the gastrocnemius and soleus muscles, and the Achilles tendon. Specific muscles activated by the example system 300 for an external shoulder rotation exercise may include but are not limited to the rhomboids, infraspinatus, teres minor, posterior deltoid, serratus anterior, lower trapezius, serratus posterior inferior, and pectoralis minor muscles. Specific muscles released for external shoulder rotation may include but are not limited to the latissimus dorsi, subscapularis, teres major, upper trapezius, serratus posterior superior, and pectoralis major muscles.
System 300 and its associated exercise protocols are specifically tailored to addressing factors related to pain and stiffness, including but not limited to muscle and fascial balance, flexibility and range of motion, back and hip pain, and shoulder and neck pain. There are all kinds of reasons for pain and stiffness, but muscle imbalance outranks all others combined. Every muscle and group of muscles in the body has an opposite muscle, or set of muscles. When one set of muscles, like the lower back muscles, are short and too tight, and the opposite set will be long and weak, like the abdominals. This is referred to as muscle imbalance. The same is true of the fasciae which covers all the muscles throughout the body.
One large problem muscle imbalance causes is that it creates a constant strain on the group of muscles that are long and weak, which causes both discomfort and inflexibility-when a muscle is too long, and it is stretched further, the body will tighten even more to keep it from tearing. If dramatic enough, short muscles on one side of a joint, such as the hip or the shoulder, will cause the joint to be very tight, will limit movement in that joint and, given enough time in that poor position, will cause the joint to deteriorate, needlessly.
System 300 and its associated exercise protocols help to restore muscle and fascial balance. Every exercise recommended to be performed on system 300 relaxes short muscles, while creating a strong contraction of the long and weak muscles, helping to correct imbalances of length and strength in muscles. Just one use on system 300 will begin to create more muscle and fascial balance. Using system 300 diligently will help to permanently balance muscles and fasciae and will help restore flexibility and mobility.
Good flexibility is simply being able to move through a complete range of motion in all directions. Lack of flexibility can be due to many things, but the top reason is muscle imbalance. A common misunderstanding about flexibility and range of motion is that they have only to do with the length of muscles. Actually, flexibility and range of motion are much more dependent on the length and strength ratios from one set of muscles to the other.
System 300 and its associated exercise protocols are built upon achieving the proper length and strength between muscles that tend to be short and overactive, in relation to their opposite muscles, which tend to be too long and underactive. When this is achieved, flexibility and range of motion improve immediately in about 85% of the population. Even in the other 15%, extra strength added to weak muscles will create more stability and balance in the body.
It is the inventor's position that strong glutes and balanced hips have more to do with a healthy back than any other factor. There are many different reasons for lower back and hip pain that cannot be addressed by system 300 and its protocols. However, system 300 does help correct muscle imbalance which, by far, is the number one cause of hip and lower back pain and stiffness.
In the majority of the population, lower back and hip pain and stiffness may be resolved by a diligent program of balancing the muscles around them. Especially in the active and athletic populations, most people are prone to have a forward tilted pelvis, which compresses the lower back and puts undue stress on the hips. Simply temporarily correcting that position brings immediate relief in most cases, and correcting it permanently usually completely resolves the problem.
System 300 and its associated exercise protocols are designed to correct problems of lower back and hip position. There are three main components of the problem and system 300 addresses all three, and helps correct them all at the same time, and in a very short time. Each exercise, while using system 300, takes less than a minute. This is accomplished by strengthening every long and under active muscle in and around the hips and lower back, and by relaxing each short and overactive muscle, all at the same time. This creates a more stable and relaxed body position.
It is the inventor's position that strong, balanced shoulders have more to do with a healthy neck than any other factor. Most of the muscles that support the neck originate from the shoulders. Balancing the shoulder muscles in all three planes, from front to back, side to side, and in rotation, offers more permanent relief for the neck than any other factor, technique, exercise or modality. Most active people carry their shoulders in a poor position. Because of our lifestyle and work patterns, we tend to carry our shoulders upward, forward, and rotated inward. These positions not only put stress on the shoulder itself, they also put undue stress on the neck because the position of the neck is a mirror of the position of the shoulders.
The shoulder program implemented with system 300 works to correct these positions, relieving tension on the shoulder and the neck. This is accomplished by balancing the muscles of the shoulders—strengthening the groups of muscles that are long and under active, and relaxing the ones that are short and overactive.
The example system 300 may be employed in the following activities: warm-up/activation before and recovery after exercise, rehabilitation from injury, functional training, and performance. For warm-up, moving freely, without restriction, in any sport, exercise or activity is a joy. Movement through a complete range of motion in all planes of motion is essential to superior performance. System 300 and its associated exercise protocols specifically strengthen many muscles which tend to be long and weak, and simultaneously relax those muscles that are too short, in the overwhelming amount of athletes. Research articles, such as one by Matthew F. Kritz, et al. entitled Static Posture Assessment Screen of Athletes: Benefits and Considerations—Strength and Conditioning Journal October 2008—Volume 30—Issue 5—pp. 18-27, state that about 85% of athletes have the same muscle imbalance issues. System 300 has been designed to correct these specific muscle imbalances. This immediately increases flexibility and range of motion, allowing the body to move more freely and dynamically, and with a reduced chance of injury.
For recovery, the key to consistent, sustained performance is getting the body back into the same position as it was before the activity, every time, after strenuous exercise. If not, two things will suffer—the body and performance. While it is important to replenish the body with the proper nutrition and fluids for recovery after sport and exercise, it is actually as important to return it back to its best structural position—a neutral position. This allows the body to relax, by reducing inflammation caused by exercise and taking needless stress off muscles and joints.
If a recovery program takes too long, the chances are a person will not do it consistently. Using system 300 in accordance with its associated exercise protocols takes approximately one and a half (1.5) minutes to balance most major muscles used in sports and exercise, immediately bringing it to a more neutral position.
Rehabilitation is the job of a specialist, such as a physical therapist, athletic trainer, chiropractor, or neuromuscular therapist. It implies an injury that needs serious and professional attention. System 300 is believed to be an excellent tool in a professional's clinic for a host of athletic type injuries. Used with the professional's own protocols, system 300 may be beneficial in rehabilitating and further preventing the following injuries: sports hernia, low ankle, high ankle, ACL, knee, patella-femoral tendonitis, hamstring, hip, lower back, shoulder, elbow, wrist, and spine.
Injury prevention is an in-exact science and is dependent on many factors. No matter how much effort is put into preventing injury, high force/high speed impact, as in football or a car accident, will cause damage to the body. System 300 and its associated exercise protocols are designed to prevent needless injury to the body. Used within a solid training program, it has proved to be beneficial in preventing the following injuries: Sports Hernias, ankle, knee, hamstring, hip, lower back, shoulder, and elbow. System 300 further is unique in that it takes so little time to use; thus people actually may use it daily. This helps to keep the body in a consistently neutral position—the optimal position to resist and prevent injury.
The example system 300 may be intended for use by an individual or family to insert into their existing fitness program, and may prove to be a valuable asset for active individuals, novice and elite athletes, healthcare professionals, athletic coaches and trainers, and mobile service personnel (such as military, fire, and police). The example system 300 may be particularly suitable for use by college athletic teams and athletes in their weight rooms and on travel by select teams within their systems.
As an example, football, basketball, soccer, and volleyball are sports that demand many different kinds of movement; hence these sports require strength in all the muscles of the body, not only the ones that produce force. When the same muscles are used over and over to produce the same movement pattern, such as sprinting, jumping, blocking, tackling, cutting, kicking, etc, those muscles will become stronger and shorter than other important muscles. This creates a muscle imbalance that leads to strain, stiffness, pain, and eventual injury.
System 300 and its associated exercise protocols are specifically designed to relax these force producing muscles while simultaneously demanding a strong contraction from their opposite muscles—the ones that reduce force (in other words, to help stop the action rather than to create it). When used for warm-up and recovery, system 300 and its associated exercise protocols immediately returns the body back to a more neutral position, making it more “opened up” and “ready for action”. This neutral position is also the best for consistent performance, reducing needless inflammation, and greatly cutting down on the incidence of several sport related injuries—sports hernia, ankle, calf/Achilles, knee, hamstrings, hip, oblique, groin, lower back, shoulder, and elbow.
As another example, predominantly rotational sports like golf, baseball, tennis, and any other swinging or throwing sports have special considerations. Unlike other sports where the rotational muscles are merely stabilizers, now the rotators become the ones that actually create the movement, so they must be strengthened and trained to do so.
System 300 and its associated exercise protocols effectively strengthen the muscles that generate the power, create the speed, and as importantly, stop the rotational speed before it damages the joints, even in the most gifted athletes. Used for warm-up, system 300 brings the body to a more neutral position which promotes consistent performance, and provides more available range of motion (useable flexibility). When used directly after sport or exercise, the body returns to a position which reduces inflammation and promotes faster healing—this is called recovery. Also, a body free of stiffness and pain is much less likely to be injured, one of the biggest advantages of system 300 for reducing the incidence of lower back, ankle, calf/Achilles, knee, hamstring, groin, oblique, shoulder, elbow, and sports hernia/lower abdominal Injury.
As a further example, sports such as track, swimming, and cycling are basically straight ahead actions, except for flip turns in swimming (which most resemble the action of a gymnast or diver, as discussed in more detail below), and all have a basic “stroke”—either a stride in track, a stroke in swimming or a revolution in cycling. Since the body is going straight forward, the rotational muscles act primarily as stabilizers, but also to create a quick stop to the rotation of the hips and trunk to keep the body from wasting energy by allowing it to turn needlessly.
System 300 does provide the muscles which stabilize movement with ample strength to keep the body moving directly forward. However, the exercises performed on system 300 also create more range of motion for the ankles, hips, spine and shoulders, which help athletes to generate a more fluid stride, stroke or revolution.
Sports like gymnastics, diving, high jump, pole vault, discus, shot put, hammer throw, etc, require combined power of jumping and thrusting, and speed of full body rotation. System 300 and its associated exercise protocols address all those requirements for these athletes. While there are other individual exercises that may help to develop more power, thrust and speed, system 300 targets them all at once in a few exercises that take literally one minute each for warm-up and recovery, and which help prevent injury to the most often injured areas of the body in these sports. Inherent to the fundamental exercise on system 300, it dramatically reduces oblique, groin, hamstrings, ankle, lower back and shoulder injuries, as well as sports hernia.
As one example exercise protocol for the pelvic tilt, the user 375 will move their tailbone/pelvic area 373 down and forward (see top arrow of
Referring to
The pelvic tilt exercise protocol is designed and has been shown, using vaginal sensor probe EMG, to strongly activate the Type II muscles of the pelvic floor, while inhibiting and relaxing their surrounding opposite Type I muscles. The pelvic floor muscles are responsible for control of bladder and assist in urinary and fecal continence, aid in sexual orgasm, stabilize connecting joints and act as a venous and lymphatic pump for the pelvis. Of note, the sacrum, the base of the pelvis, is the skeletal anchor of the thoracolumbar fascia which is the largest and most centralized part of the fascial system of the body and also the entire connective tissue system.
The pelvic floor Type II muscles strongly activated by the exercise performed on system 300 as described with regard to
In a controlled environment at Woman's Hospital in Baton Rouge, La., a pilot study was conducted on three healthy nurses who teach and perform pelvic floor activation and incontinence reduction measures, including Kegel exercises, to patients on a daily basis. Subjects were evaluated pre- and post-study using a vaginal sensor and the Pathway MR-20 biofeedback unit. It is important to note that these initial results were obtained from a small population of healthy nurses who have been teaching pelvic floor exercises and performing them daily for many years. Therefore, it was agreed beforehand that any gain in pelvic floor activation among these nurses would be considered significant.
The results from the three-week pilot study revealed:
To Make significant gains in restoring muscle and fascial balance, it is imperative that the overactive Type I muscles be forced to relax, while the under active Type II muscles be strongly activated and strengthened. Electromyography (EMG) is a diagnostic procedure to assess the health of muscles and the nerve cells that control them (motor neurons). Motor neurons transmit electrical signals that cause muscles to contract. A formal EMG study and controlled range of motion studies have shown that by “unloading” or “relaxing” the body on a flat wall or floor while performing exercises (such as inward hip rotations), the overactive muscles are allowed to relax. This creates a much greater ratio of activation to relaxation between under active to overactive muscle types, respectively.
Use of system 300 with the inward hip rotation exercise protocol has consistently yielded great gains in joint ranges of motion, instantaneously, which increases measurably over time. For example, in a controlled eight (8) week study performed at Louisiana Tech University, it was proven that college golfers increased total hip rotation on an average of 40.8 degrees, using no other exercise, modality, or stretching method than the inward hip rotation protocol on the devices 305 of system 300.
In one example exercise protocol for the squat, the user 375 pushes each heel down onto the back/lower part of a corresponding foot plate 330 as hard as they can do so; toes up. They will then slowly inch down the wall 380 (a squat) until they feel a stretch in the back of their calves and Achilles, then stop. With their knees pointing straight forward, the user 375 then rotates the toes of each foot inward toward each other, pushes the heels down even harder, and holds the squat position for 10 seconds (such as is shown in
This is repeated a third time, down at a deeper squat and opposite foot rotation, held for 10 seconds. During the entire 30 second exercise, the user 375 never returns to the starting position, so as to maintain the squat gain they have achieved. The user 375 then returns feet 391 forward, lifts up, dismounts the devices 305, and walks around in a rest period to feel the effects of the squat exercise. Optionally, vibration of the foot plates 330 during the above exercise protocol may be added so as to activate the muscles which are contracting, thereby providing more action potentials during the time the muscles are being exercised. A summary of the squat protocol is provided in Table 2 below.
Accordingly, in the range of motion protocol, the trunk 374 is rotated maximally and held statically, the hips 371 are turned inward maximally and held for 5 seconds, and then the hips 371 are permitted to turn back to a neutral position but the trunk 374 is held in its position of rotation, and then the trunk 374 is rotated further in the same direction, gaining even more rotation. This routine is repeated until the trunk 374 cannot gain any more rotation.
Initial testing has shown an individual may increase rotational trunk and hip range of motion by as much as 50° immediately with this exercise, and increase as much as 30 degrees permanently within three weeks, using only this exercise. The immediate effects are beneficial for warm-up/activation before exercise, injury prevention and recovery/reactivation after exercise. The permanent gains are beneficial for all activities of daily living, as well as sport and exercise.
This is a relatively new term in sport and all aspects of it are not well understood, such as, which systems of the body produce the effect. The premise is that if certain muscles are stressed to the greatest degree, there is a short term benefit (from about 5-30 minutes in duration post-exercise) in dynamic and explosive capacity. An example is one that was used in the most recent 2015 NFL Combine in Indianapolis, Ind. in an effort to increase vertical jump and 40-yard dash scores. The athletes performed a deep squat with heavy weights, just prior to testing, and doing so did improve their scores.
The range of motion exercise protocol described above, under post-isometric relaxation exercises, has been tested with the reigning 2014 Golf Long Drive World Champion and a former kicker for the New Orleans Saints football team, to determine if it provides Post Activation Potentiation. In both cases, swing speed and leg speed were increased to a capacity to allow for about 8 mph greater swing speed in the long driver and, repeatedly, an extra 10 yards of field goal distance in the NFL kicker.
Accordingly, the example system 300 may provide several benefits. For example, the support structure 320 is adapted to bring major joints to a neutral position; use of the devices 305 of system 300 act to relieve most mechanical-type hip and back pain, and increases power of the core. Additionally, use of the system 300 relaxes overactive muscles, increases hip motion, and improves action of the hips and pelvis. Further, use of the system 300 may increase stability of the ankles, knees, hips, spine, and shoulders, provides pre-exercise activation of all rotational muscles in the entire body, and offers recovery from exercise. Moreover, use of the system 300 may increase strength and stability of the shoulder and of all the small muscles around the spine.
Referring to
Each leg 415 of base 410 includes structural ribs 416 and a rubber or plastic foot 417 provided on the underside at a distal end of each leg 415 for contacting the vertical surface 480. As best shown in
The base 410 includes a cavity 425 containing the internal resistance means 440, the internal resistance means 440 being essentially sandwiched between the base 410 and rotatable plate 430. As best shown in
The internal resistance means 440 further includes a central spring 446 disposed on the outer surface of or otherwise captured by the columnar extrusion 418. Spring 446 terminates in a pair of extended tine ends 447. Internal resistance means 440 further includes a pair of cooperating ramp stops 419 and 435. A first semi-circular ramp stop 419 is formed in the base 430 in spaced relation around the spring 446. As shown, each end of first ramp stop 419 is adapted to be a tensioner for a corresponding tine end 447 of the spring 446. A second semi-circular ramp stop 435 is formed on the internal surface 432 of the plate 430. With the plate 430 engage to internal resistance means 440 and base 410 via the center post 436, each end of the second ramp stop 435 is adapted to bear against a spring tine end 447 depending on the direction of rotation of the plate 430 relative to the base 440. Namely, as the plate 430 is rotated by the hand 477 of user 475, one end of second ramp stop 435 comes into contact with a corresponding spring tine end 447 that is held in tension against a corresponding end of first ramp stop 419; this prevents further rotation in that particular direction (and vice versa in the other direction).
In
The forearm pronation exercise has also shown to strengthen posterior muscles of the shoulder to aid in pulling actions and decelerate strongly when throwing and swinging preventing many rotator cuff type injuries, and to release the latissimus dorsi, which has a large impact on lower back stiffness and pain.
The example embodiments having been described, it is apparent that such have many varied applications. For example, the example embodiments may be applicable but not limited to connection to various devices, structures and articles.
The present invention, in its various embodiments, configurations, and aspects, includes components, systems and/or apparatuses substantially as depicted and described herein, including various embodiments, sub-combinations, and subsets thereof. Those of skill in the art will understand how to make and use the present invention after understanding the present disclosure. The present invention, in its various embodiments, configurations, and aspects, includes providing devices in the absence of items not depicted and/or described herein or in various embodiments, configurations, or aspects hereof, including in the absence of such items as may have been used in previous devices, e.g., for improving performance, achieving ease and\or reducing cost of implementation.
The foregoing discussion of the invention has been presented for purposes of illustration and description. The foregoing is not intended to limit the invention to the form or forms disclosed herein. In the foregoing Detailed Description for example, various features of the invention are grouped together in one or more embodiments, configurations, or aspects for the purpose of streamlining the disclosure. The features of the embodiments, configurations, or aspects of the invention may be combined in alternate embodiments, configurations, or aspects other than those discussed above. This method of disclosure is not to be interpreted as reflecting an intention that the claimed invention requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment, configuration, or aspect. Thus, the following claims are hereby incorporated into this Detailed Description, with each claim standing on its own as a separate preferred embodiment of the invention.
Moreover, though the description of the invention has included description of one or more embodiments, configurations, or aspects and certain variations and modifications, other variations, combinations, and modifications are within the scope of the invention, e.g., as may be within the skill and knowledge of those in the art, after understanding the present disclosure. It is intended to obtain rights which include alternative embodiments, configurations, or aspects to the extent permitted, including alternate, interchangeable and/or equivalent structures to those claimed, whether or not such alternate, interchangeable and/or equivalent structures disclosed herein, and without intending to publicly dedicate any patentable subject matter.
The present application claims the benefit under 35 U.S.C. §120 and is a continuation-in-part of U.S. patent application Ser. No. 14/920,905 to the inventor, filed Oct. 23, 2015, pending, which in turn is a continuation-in-part of U.S. patent application Ser. No. 14/711,539 to the inventor, filed May 13, 2015, pending. The present application and each of the pending '905 and '539 applications additionally claim the benefit under 35 U.S.C. §119(e) of U.S. Provisional Patent Application Ser. No. 62/126,461 to the inventor, filed Feb. 28, 2015, pending. The entire contents of each application is hereby incorporated by reference herein.
Number | Date | Country | |
---|---|---|---|
62126461 | Feb 2015 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 14920905 | Oct 2015 | US |
Child | 15055899 | US | |
Parent | 14711539 | May 2015 | US |
Child | 14920905 | US |