Low-intensity Vibration therapy is a type of whole-body vibration therapy. The vibrations pass up through the body from the feet, improving bone health, circulation and muscle strength.
Not all vibration therapy is the same. The Marodyne Low-intensity Vibration device is safe and has no known contraindications or side effects, distinguishing it from high-intensity vibration devices which often exceed forces of 1.0g. This level of intensity is unsuitable for many users, particularly those with osteoporosis.
The Marodyne LiV device is precisely calibrated to an intensity of 0.4g at 30hz. The research found this to be the optimum intensity for increasing bone mineral density whilst causing no harm.
Low-intensity Vibration therapy is a type of whole-body vibration therapy. The vibrations pass up through the body from the feet, improving bone health, circulation and muscle strength.
Not all vibration therapy is the same. The Marodyne Low-intensity Vibration device is safe and has no known contraindications or side effects, distinguishing it from high-intensity vibration devices which often exceed forces of 1.0g. This level of intensity is unsuitable for many users, particularly those with osteoporosis.
The Marodyne LiV device is precisely calibrated to an intensity of 0.4g at 30hz. The research found this to be the optimum intensity for increasing bone mineral density whilst causing no harm.
Bone is dynamic, constantly being formed and reabsorbed. The two main cells responsible for this everchanging architecture are called osteoblasts and osteoclasts.
Osteoblasts control the formation of new bone through a process known as osteogenesis. Osteoclasts break down bone tissue – a process known as bone resorption – by secreting acid and enzymes called collagenases. Bone resorption is important for regulating the amount of calcium in the blood.
In young and healthy individuals, the balance between formation and resorption is maintained. Ageing and some medical conditions can disrupt the complex messaging processes between these cells, creating an imbalance. This can lead to more bone being reabsorbed than created.1
Mesenchymal Stem Cells (MSCs) are found in bone marrow and have the potential to transform into other cell types, including bone, cartilage, or fat.
Cells respond to the challenges given to them. Which cells MSCs change into depends on how they are stimulated. Without regular stimulation, MSCs produce more fat and less bone. This reduces bone density and increases the risk of individuals developing osteoporosis.
Regular mechanical loading is required to stimulate the MSCs and increase their bone-building potential. The cells respond by producing more osteoblasts, leading to increased bone production.
Low-intensity Vibration therapy offers a natural way to activate the body’s stem cells. Professor Clinton Rubin identified a precise signal of 0.4g at 30hz that encourages the mesenchymal stem cells to produce more osteoblasts. This directly increases bone density and leads to stronger bones.2,3
Bone is dynamic, constantly being formed and reabsorbed. The two main cells responsible for this everchanging architecture are called osteoblasts and osteoclasts.
Osteoblasts control the formation of new bone through a process known as osteogenesis. Osteoclasts break down bone tissue – a process known as bone resorption – by secreting acid and enzymes called collagenases. Bone resorption is important for regulating the amount of calcium in the blood.
In young and healthy individuals, the balance between formation and resorption is maintained. Ageing and some medical conditions can disrupt the complex messaging processes between these cells, creating an imbalance. This can lead to more bone being reabsorbed than created.1
Mesenchymal Stem Cells (MSCs) are found in bone marrow and have the potential to transform into other cell types, including bone, cartilage, or fat.
Cells respond to the challenges given to them. Which cells MSCs change into depends on how they are stimulated. Without regular stimulation, MSCs produce more fat and less bone. This reduces bone density and increases the risk of individuals developing osteoporosis.
Regular mechanical loading is required to stimulate the MSCs and increase their bone-building potential. The cells respond by producing more osteoblasts, leading to increased bone production.
Low-intensity Vibration therapy offers a natural way to activate the body’s stem cells. Professor Clinton Rubin identified a precise signal of 0.4g at 30hz that encourages the mesenchymal stem cells to produce more osteoblasts. This directly increases bone density and leads to stronger bones.2,3
During any weight-bearing exercise, such as walking, muscles contract and pull on the bones. This resistance strengthens the muscles.
Individual muscle cells in most muscle groups do not provide a sustained pull, they only apply a quick ‘twitch’. The constant pull is created by the brain activating groups of muscle cells within a muscle in a rapid, repeating pattern. The frequency of these can range from 10 to 100 cycles per second.
The Marodyne LiV device works similarly. As the platform vibrates, groups of muscles contract to stabilise the body. This series of contractions activates and strengthens the muscle cells. Vibration therapy also enhances the effectiveness of other exercises, making the stem cells more responsive, further increasing bone and muscle growth.4
The vibrations are gentle and accessible, giving people with reduced mobility a natural and effective way to improve muscle strength at home.
During any weight-bearing exercise, such as walking, muscles contract and pull on the bones. This resistance strengthens the muscles.
Individual muscle cells in most muscle groups do not provide a sustained pull, they only apply a quick ‘twitch’. The constant pull is created by the brain activating groups of muscle cells within a muscle in a rapid, repeating pattern. The frequency of these can range from 10 to 100 cycles per second.
The Marodyne LiV device works similarly. As the platform vibrates, groups of muscles contract to stabilise the body. This series of contractions activates and strengthens the muscle cells. Vibration therapy also enhances the effectiveness of other exercises, making the stem cells more responsive, further increasing bone and muscle growth.4
The vibrations are gentle and accessible, giving people with reduced mobility a natural and effective way to improve muscle strength at home.
The veins in the legs play a crucial role in circulation. The heart is unable to pump blood effectively around the body by itself; it is assisted by the calf muscles which perform what is sometimes called the ‘second heart’ function.
The same mechanisms which improve muscle mass and strength, improve circulation. As the muscles contract to stabilise and support the body during a Low-intensity Vibration session, two key things happen.
Blood flow increases to fuel the muscles with nutrients and oxygen, and the muscle fibres themselves strengthen due to the stimulation. This enhances circulation and increases the ability of the calf muscles to perform their second heart role.
Studies have established that vibration therapy improves circulation for people with spinal cord injuries.5 This demonstrates the potential Low-intensity Vibration therapy has for rehabilitative programmes and for people whose conditions impede their movement.
The veins in the legs play a crucial role in circulation. The heart is unable to pump blood effectively around the body by itself; it is assisted by the calf muscles which perform what is sometimes called the ‘second heart’ function.
The same mechanisms which improve muscle mass and strength, improve circulation. As the muscles contract to stabilise and support the body during a Low-intensity Vibration session, two key things happen.
Blood flow increases to fuel the muscles with nutrients and oxygen, and the muscle fibres themselves strengthen due to the stimulation. This enhances circulation and increases the ability of the calf muscles to perform their second heart role.
Studies have established that vibration therapy improves circulation for people with spinal cord injuries.5 This demonstrates the potential Low-intensity Vibration therapy has for rehabilitative programmes and for people whose conditions impede their movement.
Conditions that weaken muscle and bone strength, such as osteoporosis, can increase fall risk. Thirty percent of falls result in an injury requiring medical attention and 10% result in a fracture.6 Minimising falls is vital for improving patient wellbeing and reducing costs to healthcare providers.
By improving muscle strength, several studies have established that Low-intensity Vibration therapy improves balance and coordination, thereby reducing falls.7
Conditions that weaken muscle and bone strength, such as osteoporosis, can increase fall risk. Thirty percent of falls result in an injury requiring medical attention and 10% result in a fracture.6 Minimising falls is vital for improving patient wellbeing and reducing costs to healthcare providers.
By improving muscle strength, several studies have established that Low-intensity Vibration therapy improves balance and coordination, thereby reducing falls.7
Users of the Marodyne LiV device have reported many other additional benefits. These are of great interest though are currently not supported by clinical evidence. These include:
Users of the Marodyne LiV device have reported many other additional benefits. These are of great interest though are currently not supported by clinical evidence. These include:
Low-intensity Vibration therapy is natural, safe and has no known contraindications or side effects. It is effective as a standalone therapy or can be used in conjunction with other treatments. Whilst the primary therapeutic target is osteoporosis, research has established that Low-intensity Vibration therapy delivers many additional health benefits.
Substantiated results are increasing, and the growing use of the Marodyne LiV as a clinical tool highlights the potential the device has to be a key part of future clinical guidelines. The Marodyne LiV device is certified by the British Standards Institute as a class IIa medical device and is Europe’s only recognised certified Low-intensity Vibration device.
Low-intensity Vibration therapy is natural, safe and has no known contraindications or side effects. It is effective as a standalone therapy or can be used in conjunction with other treatments. Whilst the primary therapeutic target is osteoporosis, research has established that Low-intensity Vibration therapy delivers many additional health benefits.
Substantiated results are increasing, and the growing use of the Marodyne LiV as a clinical tool highlights the potential the device has to be a key part of future clinical guidelines. The Marodyne LiV device is certified by the British Standards Institute as a class IIa medical device and is Europe’s only recognised certified Low-intensity Vibration device.
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