treating lower back pain with MBST

Lower back pain is a global health challenge, being the primary source of disability and one of the costliest medical conditions worldwide. Yet, current treatment options focus mostly on symptom management, including pain medication and surgery, which come with their own drawbacks.

However, there’s a breakthrough on the horizon. Biomedical engineers from the University of Technology Sydney (UTS), have recently introduced a tool they refer to as an intervertebral disc-on-a-chip.  In this blog, we’ll explore this latest cutting-edge advancement in back pain research.

Disc-on-a-Chip: The latest in lower back pain research

For the first time ever, a team of researchers have successfully created an innovative, physiologically relevant model called a disc-on-a-chip for researching lower back pain. This sophisticated device is specifically designed for studying lower back pain

The human intervertebral disc, the key component they’re mimicking, is extremely intricate. It’s a flexible, load-bearing structure with a gel-like core enveloped by layers of collagen fibres. The developed model is a 3D-printed microfluidic device that faithfully replicates these complexities, marking a breakthrough in overcoming the obstacles to simulating the disc’s structure and function in lab settings.

The disc-on-a-chip offers a controlled environment to mimic the degradation process of a healthy disc. Alternatively, it can be configured to represent a degenerated disc for testing new treatment approaches like pharmaceuticals or cell therapy. This innovation presents a faster and more cost-effective method for lab experiments, promising to enhance the relevance of experimental data and potentially improve clinical outcomes.

What causes lower back pain?

Lower back pain is a common condition that can be triggered by various factors. One of the most common causes is mechanical issues and soft tissue injuries, which can result from improper lifting, sudden awkward movements, or structural problems like disc degeneration or ruptures. Conditions such as arthritis, osteoporosis, and certain infections, can also contribute to lower back pain.

Sometimes, the source of pain could be the muscles and ligaments around the spine, strained by heavy physical work, incorrect posture, or lack of exercise. Stress can also play a role, as tension leads to muscle stiffness and pain. In rare cases, lower back pain may be a symptom of a more serious condition, such as a spinal infection or cancer.

Despite the many potential triggers, it’s crucial to note that in many cases, lower back pain doesn’t have an obvious cause. However, it can still be effectively managed with the right treatment and lifestyle changes.

MBST for lower back pain relief

MBST is a non-invasive treatment option that has shown promising results in relieving lower back pain. It uses magnetic resonance, like what you find in MRI technology, to stimulate the body’s cells and encourage natural healing processes.

In the context of lower back pain, MBST targets the cells in the degenerating intervertebral discs or strained muscles, prompting them to regenerate and recover. The therapy is painless and has no reported side effects, making it a viable option for those who want to avoid surgery or regular use of pain medications.

It’s important to note that while MBST can significantly improve symptoms and quality of life, it’s often most effective when combined with other interventions such as physical therapy and lifestyle changes. As with any treatment, it’s best to discuss this option with a healthcare professional to determine if it’s suitable for your specific circumstances.

Book an appointment with MBST London today to determine if MBST could be the answer to your lower back pain.

treating chronic pain with MBST

Pain, an experience as universal as it is unique, varies dramatically in its qualities, intensities, and characteristics. When we speak of acute pain, we refer to a temporary, localised discomfort, often a body’s response to injury or illness. On the other hand, pain that persists over time, evolving into chronic pain, can become an independent medical condition.

Chronic pain, yet to be universally defined, is a deeply personal experience, perceived differently by everyone. It’s not always linked to a clear physical ailment and can greatly influence quality of life. In England, an estimated 34% of the population, or roughly 15.5 million people, live with chronic pain. Among them, approximately 5.5 million people grapple with chronic pain that significantly affects their ability to carry out daily activities.

So, what is pain and what triggers it? Discover everything you need to know in this in-depth blog.

What is pain?

Feeling pain is an essential trait of living organisms, acting as a critical survival tool. It serves as an alarm system that warns us against harm, protecting us from injury, illness, and even death. In fact, about 80% of all nerve fibres outside the brain and spinal cord are associated with this pain-detection system. Pain receptors are present in almost every part of our body, except for the brain and liver tissues.

Pain is detected by specialised nerve fibres called nociceptors, found throughout our bodies. These nociceptors pick up various signals, including mechanical forces, temperature changes, and certain chemical substances that are released during injuries or infections.

They then send these signals via the spinal cord to the brain, where they’re interpreted as pain.

Acute pain plays a vital role in our survival. Typically, its source can be pinpointed with precision. The physical responses that follow aim to facilitate the resting and recovery of injured or afflicted body parts, thereby thwarting additional harm.

Chronic pain, meanwhile, can drastically reduce an individual’s quality of life, leading to far-reaching repercussions. Impaired work capabilities, even to the extent of premature retirement, can negatively impact a person’s lifestyle. The significant amount of sick leave taken due to chronic pain also carries an economic significance.

What causes pain?

There are various manifestations of pain and pain syndromes. The most prevalent types include:

  • Headaches
  • Toothaches
  • Backaches
  • Cancer-related pain
  • Joint pain (as seen in rheumatism and osteoarthritis)
  • Throat and ear pain
  • Menstrual pain
  • Nerve pain

In older patients, pain often results from conditions like osteoarthritis, osteoporosis, fractures, rheumatism, tumours, and diabetes mellitus. The existence of moderate to severe pain can be risk factors for the development of chronic pain after surgery.

Treating chronic pain with MBST

MBST presents a promising avenue for managing chronic pain. This non-invasive method stimulates the natural healing processes in the body, targeting the root cause of the issue rather than just the symptoms.

By regenerating cells at the site of pain, MBST encourages the body’s innate ability to heal, restoring normal function and reducing pain. This therapeutic approach can be particularly effective for conditions like osteoarthritis, osteoporosis, and rheumatism, which are common sources of chronic pain.

It’s important to remember that MBST is not a quick fix. It’s a therapy that works gradually, aiming to offer sustainable relief from chronic pain over time. As with any treatment, results can vary from person to person, but many patients have reported significant improvement in their pain levels and overall quality of life after undergoing MBST treatment.

To determine if MBST is right for you, call 020 3282 7553 to schedule an appointment with MBST London.

sports injury treatment

According to a new large-scale study, one third of those who have experienced a sports-related injury report long-term effects. Due to a lack of knowledge on injury prevention, some have even been left with a permanent disability.

In this blog, we’ll delve into the findings of the most recent research and how you can prevent long-term issues arising after a sports injury.

Long-term effects impact a third of those who suffer sporting injuries

A study conducted by the charity Podium Analytics, revealed that 40% of respondents had incurred a sports-related injury at some point in their lives. Approximately 34% still grapple with lingering effects.

A considerable number of participants confessed having a lack of knowledge on injury prevention strategies. Alarmingly, the survey discovered that 9% of the 18-24 age group, who had suffered a sports injury, reported enduring a permanent disability as an outcome.

Considering these findings, Podium Analytics suggests several changes be made to more accurately assess the risks faced by athletes. They also recommend implementing safeguards to mitigate the risks.

Changes proposed to identify risk factors

The first recommendation made by Podium Analytics, is to thoroughly investigative injuries experienced by young players involved in sports. Currently, there is no obligation for schools to maintain injury records. This is a situation Podium believes should be addressed by the Department for Education. Likewise, National Governing Bodies (NGBs) are urged to develop guidelines for documenting injuries at the grassroots level among adults.

Treating sporting injuries with MBST

MBST, or Magnetic Resonance Therapy, offers a unique approach to treating sports injuries and potentially decreasing the risk of lasting impacts. This cutting-edge technology operates on the principles of magnetic resonance, like those used in MRI scanning. However, it’s focused on stimulating the body’s cells to enhance their natural repair and regeneration processes.

When an injury occurs, it often disrupts the normal functioning of the cells within the affected area. MBST targets these cells, providing them with the energy needed to recover and regenerate more effectively. This can result in faster healing times, reduced inflammation, and lessened pain, providing athletes with a quicker and smoother return to sport.

By promoting optimal health and function of cells, MBST may also help in mitigating the long-term effects of sports injuries. For instance, it can aid in the recovery of damaged cartilage, a common issue in joint injuries, which if left untreated, can progress to chronic conditions like osteoarthritis. By addressing these injuries at the cellular level, MBST not only manages the immediate symptoms, but also contributes to the overall long-term health of the athlete. This potentially reduces the risk of chronic issues down the line.

Discover if MBST could help treat your sporting injury by booking a consultation with MBST London today.

osteoarthritis and sport

According to new research, being a top-level athlete can increase the chances of getting osteoarthritis, a common type of arthritis that affects your joints, later in life. In fact, the study found that one in four retired Olympic athletes have been diagnosed with the condition.

Here, we look at what the latest research revealed, and why MBST can be an effective treatment option for those suffering with Osteoarthritis.

Largest study of its kind reveals risks of high-performance sports

The latest research is the biggest global survey to study osteoarthritis in retired athletes from various Olympic sports. The team of researchers interviewed 3,357 retired Olympians, who were on average 45 years old. They asked about past injuries and their bone, joint, muscle, and spine health. They also asked if they were currently experiencing joint pain or had been diagnosed with osteoarthritis.

To draw meaningful comparisons, the same survey was also conducted with 1,735 participants, averaging 41 years of age, from the general population. Statistical models were used to determine the occurrence of osteoarthritis and related pain in the spine, upper limb, and lower limb between retired Olympians and the general population.

Various influencing factors such as recurrent injuries, age, gender, and obesity were considered. The research showed that the knees, lumbar spine, and shoulders were the most common injury sites among Olympians, which also turned out to be the primary areas for osteoarthritis and pain.

Upon sustaining a joint injury, Olympians were found to be more susceptible to developing osteoarthritis compared to their counterparts in the general population with similar injuries.

Despite the heightened risk of pain following an injury, this was on par with what the general population experienced. The Olympians, who represented a diverse range of 57 sports, also showed an increased risk of lower back pain in general, and shoulder osteoarthritis following a shoulder injury.

Findings could lead to new injury prevention approach

Researchers are optimistic that these findings will aid in the development of innovative strategies for injury prevention. This would contribute to the well-being of athletes, both during their careers, and into retirement.

There’s a clear link between high-performance sports and an increased risk of sports-related injuries. There is also growing evidence indicating that retired elite athletes are prone to post-traumatic osteoarthritis at higher rates. This research sheds new light on the specific factors contributing to pain and osteoarthritis in retired elite athletes. It also pinpoints unique differences in these factors that are particularly relevant to Olympians.

What is osteoarthritis?

Osteoarthritis is a degenerative joint disorder, characterised by the gradual breakdown and eventual loss of the protective cartilage lining the ends of bones in a joint. It is associated with a spectrum of symptoms, including persistent joint pain, stiffness, and swelling, which can lead to reduced mobility and function over time.

Despite mostly impacting the knees, hips, lower back, and neck, osteoarthritis can affect any joint in the body. The condition often develops slowly and worsens over time. While it cannot be reversed, treatments are available to manage symptoms and improve quality of life.

One of the newest joint treatments is MBST, a ground-breaking method that can slow down the degeneration caused by osteoarthritis. It utilises the body’s own energy to repair cartilage damage, improving mobility and eliminating pain associated with arthritis.

To find out if MBST is a good treatment option for you, book an appointment with MBST London today.

treatment options for lower back pain

According to the NHS, lower back pain is the leading cause of disability within the UK, accounting for 11% of the total disability in the population. However, despite how common and debilitating the condition is, there has been limited research into how it can be best managed.

Now, thanks to a new study, the best medications for lower back pain have been revealed. Here, we look at what the study found and other treatment options available to help alleviate the pain.

What are the best medications for lower back pain?

The latest study, published in the Journal of Orthopaedic Research, identified the most effective analgesics for lower back pain that lasts less than 12 weeks. An analysis of 18 randomised clinical trials was conducted, examining the efficiency of three types of pain relievers – acetaminophen, nonsteroidal anti-inflammatory drugs (NSAIDs), and aspirin. NSAIDs are a common type of pain relief that includes drugs like ibuprofen, celecoxib, and naproxen.

Researchers also looked at the benefits of muscle relaxers. Unlike aspirin and acetaminophen which can be purchased over the counter, these require a prescription.

The most effective medication for acute lower back pain was found to be a mixture of NSAIDs and a muscle relaxer. This combination demonstrated the greatest effectiveness in reducing pain and disability within one week of treatment.

It’s important to note that the study’s findings only apply to acute lower back pain and not chronic pain. The ongoing use of pain medications can cause potentially serious side effects so this needs to be addressed when looking at the best course of treatment.

The dangers of pain medication

While pain medications are the most common treatment for acute lower back pain, they can cause a range of nasty side effects.

NSAIDs for example, have several potential side effects including diarrhoea, indigestion, dizziness, allergic reactions, and headaches. In rare cases, long-term use of NSAIDs can also lead to problems with the heart, kidneys, liver, and circulation. The UK National Health Service also notes that using NSAIDs for an extended period may lead to stomach ulcers, which can cause anaemia and internal bleeding.

Alternative treatment options for lower back pain

Those looking to avoid the potentially dangerous side effects of medication should consider alternative treatment options such as Magnetic Resonance Therapy (MBST).

MBST is a non-invasive and painless treatment that uses a low-frequency magnetic field to stimulate and regenerate damaged cells within the body. The treatment is customised to each patient and can be targeted to specific areas of the body, such as the back.

This innovative therapy has shown promising results in treating various types of back pain, including degenerative disc disease, facet joint pain, and herniated discs. It is particularly useful for patients who have not responded well to other treatment options such as physical therapy, medication, or surgery.

MBST is non-invasive, painless, and has no known side effects, making it a safe and effective treatment option for many patients. To learn more about this effective treatment option for lower back pain and determine if you are an ideal candidate, book an appointment with MBST London today.

cartilage preservation with MBST

A torn meniscus can be a devastating injury for young athletes, as once the cartilage has been damaged, it will not repair itself. Up until recently, this meant the only option was to undergo surgery to remove the damaged area of the meniscus. In many cases this led to a significant drop in performance, if not the end of an athlete’s career.

Now, cartilage preservation options are available, helping young athletes to avoid surgery and get back to the sport they love. Here, we look at the preservation options available and the research carried out into the different techniques.

Research shows surgery worsens cartilage degeneration

A recent 5-year study conducted by the Osaka Metropolitan University Graduate School of Medicine, examined cartilage degeneration in 41 young patients with lateral disc meniscus injuries. They received various treatments, and a follow up with patients who were initially 15 years old or younger was carried out. It compared the subtotal resection group, where more than half of the meniscus was removed, to the plastic suture group, in which the torn margin of the meniscus was sutured, resulting in a smaller resection.

Total meniscectomies resulted in a greater likelihood of cartilage degeneration. This was particularly evident in cases where the posterior segment was dissected. The study also revealed that preserving the meniscus with sutures was more effective in protecting cartilage from future damage in younger patients, even in cases where there was more extensive damage to the meniscus.

What is meniscus-sparing surgery?

There are several meniscus sparing procedures that aim to preserve as much of the cartilage as possible. The first is a partial meniscectomy, which removes the damaged portion of the meniscus while preserving as much of the healthy tissue as possible.

This procedure is typically performed using arthroscopic surgery, which requires only two small incisions a few millimetres in size, on the anterior side of the knee. A camera and surgical instruments are inserted through these incisions, allowing the surgeon to visualise and operate on the meniscus while monitoring the procedure on a screen. By using arthroscopic techniques, the risk of complications and recovery time can be minimised compared to traditional open surgery.

Another option, which the recent study assessed, is suturing the meniscus. This technique has shown a lot of promise compared to traditional surgical techniques, and it involves suturing the damaged parts of the meniscus together.

Cartilage preservation using MBST

While suturing the meniscus has shown a lot of promise, there are alternatives that don’t require any surgery at all. MBST is renowned for its ability to regenerate damaged cartilage.

This non-invasive technology uses electromagnetic fields to promote self-healing in damaged tissues, including the meniscus. When the electromagnetic field is applied to the damaged area, it causes the molecules within the tissue to vibrate and generate energy.

This energy stimulates the metabolic processes within the cells, leading to increased blood flow, oxygenation, and nutrient supply to the affected area.

In the case of a damaged meniscus, MBST therapy can help to promote tissue regeneration and reduce inflammation, pain, and swelling. It can also improve joint mobility and reduce the risk of further degeneration.

MBST is safe, painless, and non-invasive. It can be used as a standalone treatment, or in combination with other conservative or surgical treatments. To find out more, call 020 3282 7553 to book a consultation with MBST London. Our experts will first assess whether MBST is a suitable option for you.

MBST for Osteoporosis

A recent study has highlighted a concerning association between increased air pollution levels and a faster rate of bone loss in individuals with osteoporosis.

Osteoporosis is a chronic skeletal disorder characterised by fragile bones more prone to breaking. The risk of developing the condition increases with age, especially among postmenopausal women.

The latest study’s findings highlight the potential dangers of air pollution to the respiratory system and musculoskeletal health. Here, we look at the latest research and what patients can potentially do to limit the risk.

Understanding the latest Osteoporosis research

The latest research examined the bones of more than 9,000 women residing in four different areas of the United States. Each participant underwent a bone scan three times over a six-year period. The data was subsequently analysed in relation to the quality of the air they were exposed to. Results showed that, on average, air pollution was responsible for a twofold increase in the speed of bone loss.

The researchers utilised home addresses to estimate levels of air pollutants, including nitric oxide, sulphur dioxide, nitrogen dioxide, and PM10 particulate matter. The results indicated that as the levels of air pollution increased, the bone mineral density across all body areas, including the neck, spine, and hip, decreased.

Findings showed there was a particular link between nitrogen pollution and the spine. A rise of 10% in this type of pollution over three years was associated with an average yearly loss of 1.22% in lumbar spine bone mineral density – double the amount calculated from normal ageing.

The researchers hypothesise that bone cell death may be the cause, resulting from oxidative stress, where harmful environmental molecules cause harm to the body.

Further research is necessary to confirm these findings and explore possible interventions to mitigate the impact of air pollution on bone health.

WHO and ESCEO collaborate for better bone health

The World Health Organization (WHO) and the European Society for Clinical and Economic Aspects of Osteoporosis, Osteoarthritis and Musculoskeletal Diseases (ESCEO) have collaborated for better bone health.

Both organisations have entered into a five-year agreement to develop a strategic roadmap on bone health and ageing to help prevent fractures in older individuals. The agreement includes the development of a public health strategy and an action plan to prevent fractures and improve health services coverage.

The collaboration between WHO and ESCEO aims to develop global estimates on fractures and osteoporosis, review evidence-based interventions, and create an economic model for investment in fracture prevention.

Treating Osteoporosis with MBST

Magnetic Resonance Therapy (MBST) is a non-invasive medical technology that utilises low-frequency electromagnetic fields to stimulate the regeneration and repair of bones. MBST treatment is designed to improve bone cell metabolism and collagen production, leading to increased bone density and improved bone quality.

MBST is often used as a complementary therapy to other treatments for osteoporosis, such as medication and exercise. However, it is essential to note that it may not be suitable for all patients. Therefore, it is best to consult a healthcare professional to determine if it suits your specific case of osteoporosis.

The latest research findings show that the risk air pollution poses to patients with Osteoporosis needs to be addressed as a matter of priority. In the meantime, treatments such as MBST may help slow its progression.

To determine if MBST could be an ideal treatment option for your osteoporosis, book an appointment with MBST London today.

managing osteoarthritis pain

Osteoarthritis is a common musculoskeletal condition that can affect any joint. However, it is most likely to affect the joints that bear weight, such as the knees and feet. Around 8.5 million people in the UK are affected by osteoarthritis, and the symptoms can significantly impact a person’s quality of life.

In this blog, you will discover practical and effective ways to manage the pain frequently associated with Osteoarthritis.

Study shows exercise may be just as effective as medication

Recent research suggests exercise could be as effective as medication in treating osteoarthritis pain.

Over 46,000 studies were initially identified, but only 152 randomised controlled trials that compared exercise therapy with oral NSAIDs and paracetamol on osteoarthritis pain or function were included. Studies that investigated post-operative pain or had less than a week of follow-up were excluded, as were secondary analyses and studies that used a cross-over design.

According to the analysis of these studies, exercise was found to have similar effects as oral NSAIDs and paracetamol in managing osteoarthritis pain. It also improved function during short, medium, and long-term follow-up.

Although the benefits of exercise on pain control and function gradually decreased over time, these effects were not significantly different from those observed in the pharmacotherapy groups.

However, it is essential to note that the study only included knee or hip osteoarthritis patients. Nonetheless, the findings provide further support for the potential benefits of exercise in managing the condition, including its ability to rival the functional and analgesic effects of pharmacotherapy.

The best ways to manage Osteoarthritis pain

Although there is currently no cure for Osteoarthritis, various management strategies can help individuals minimise pain, maintain physical activities, preserve a good quality of life, and remain mobile. Here are some of the best pain management tips you can follow…

Exercise

Although challenging, exercise can boost energy levels, strengthen muscles and bones, and increase joint flexibility. Resistance training can be especially beneficial in building stronger muscles that protect and support the joints affected by arthritis. However, avoiding exercise during flare-ups is essential until the pain subsides.
Weight loss

Excess weight places additional stress on weight-bearing joints like the hips, knees, spine, ankles, and feet, exacerbating arthritis symptoms. Weight loss can help alleviate these symptoms. Making small changes each day, such as eating smaller portions and burning more calories, can be helpful in shedding pounds and keeping them off.

MBST for osteoarthritis pain

Magnetic Resonance Therapy (MBST) is a non-invasive medical technology that uses low-frequency electromagnetic fields to stimulate the regeneration and repair of bones. MBST treatment effectively reduces pain, improves mobility, and increases bone density in individuals with osteoarthritis.

MBST treatment can also help improve joint mobility, allowing osteoarthritis patients to engage in physical activities with greater ease and comfort.

To learn more about using MBST to treat Osteoarthritis, book a consultation with MBST London today.

MBST for slipped disc

The NHS has released a list of the most painful conditions, and it’s no surprise that conditions such as arthritis and frozen shoulder were featured. Arthritis affects millions of people in the UK alone and is a leading cause of pain and disability. Frozen shoulder is another common condition that can cause severe pain and stiffness, often affecting people over the age of 40.

Both of these conditions, alongside many others on the list can be difficult to treat and decrease a patient’s quality of life. Here, we look at some of the conditions featured on the list, and why MBST might be the best treatment option.

The most painful conditions according to the NHS

While many different conditions can cause pain and suffering to patients, there are some that are much more painful than others. The NHS has compiled a list of the most debilitating conditions that prevent those who suffer with them from being able to complete even the most basic daily tasks.

Here’s just some of the conditions featured on the list:

  • Pain after surgery
  • Arthritis
  • Frozen shoulder
  • Slipped Disc
  • Cluster Headaches
  • Migraines
  • Complex Regional Pain Syndrome
  • Gout

Each of these conditions can leave patients in agony, and they often require a multitude of different treatment methods.

Seeking pain relief with MBST treatment

Magnetic Resonance Therapy (MBST) is a non-invasive medical treatment that uses low-frequency magnetic fields to kickstart the body’s natural healing processes. MBST technology works by creating a magnetic field around the affected area, which can help to increase blood flow and stimulate the metabolism of cells.

In terms of pain relief, MBST can help to reduce inflammation and swelling, which can be a source of pain in conditions such as arthritis. Additionally, it can help to increase the production of collagen, which is a key component of bone tissue. By increasing collagen production, MBST may be able to help repair damaged tissue and promote healing, which can further lead to a reduction in pain.

Not everyone is a good candidate for Magnetic Resonance Therapy (MBST). For example, individuals with certain types of metallic implants or medical devices, such as pacemakers, may not be able to safely undergo the treatment due to the magnetic fields used. Patients with certain medical conditions, such as epilepsy or severe migraines, may also need to avoid MBST as it may trigger their symptoms.

If you are interested in MBST treatment, it’s important to undergo a thorough medical evaluation to determine if you are a good candidate. Book an appointment with MBST London today to weigh the potential benefits and risks of MBST and determine if it is the best course of treatment for your individual needs.

MBST for osteoporosis

Osteoporosis, a condition characterised by weakened bones, affects millions of people worldwide, particularly women over the age of 50. It can lead to fractures, chronic pain, and decreased quality of life.

While there are several treatments available for osteoporosis, including medications and lifestyle changes, researchers have recently discovered a promising new approach.

According to a recent study, a new experimental drug has been found to reverse osteoporosis in mice, raising the possibility of a similar effect in humans. If confirmed, this breakthrough could revolutionise the treatment of the condition, improving the lives of millions of people.

Here, we will explore the implications of this new research, and what it means for the future of osteoporosis treatment.

Understanding the latest study

The recent study was led by researchers from FIU’s Herbert Wertheim College of Medicine, in collaboration with the National Center for Advancing Translational Sciences (NCATS) and the University of Arkansas for Medical Sciences. It managed to identify a potential new method for reversing osteoporosis.

The team discovered a receptor that could be activated by a specific chemical compound to help bone-producing cells create more bone. The NCATS team used robots to screen for small molecules, testing more than 80,000 different compounds before finding the right match.

When tested on mouse models in the lab, the compound interestingly improved bone density. The discovery raises the possibility of a similar effect in humans, potentially improving the treatment of osteoporosis.

What is Osteoporosis?

Osteoporosis is a condition in which the bones become weak and brittle due to a loss of mass and density. This can increase the risk of fractures, particularly in the hip, spine, and wrist.

The condition is most common in postmenopausal women, but it can also affect men too. It often has no symptoms until a fracture occurs, which can cause chronic pain and disability.

Risk factors for osteoporosis include age, gender, genetics, lifestyle factors such as a sedentary lifestyle or smoking, and certain medical conditions or medications.

MBST treatment for Osteoporosis

Magnetic Resonance Therapy (MBST) is a medical treatment that uses low-frequency magnetic fields to stimulate the body’s natural healing processes. MBST works by applying a focused magnetic field to the affected area, which stimulates the metabolism of bone cells and increases the production of collagen, a key component of bone tissue.

The potential benefits of using MBST to treat osteoporosis include an increase in bone density and a reduction in the risk of fractures. By stimulating bone cell metabolism and collagen production, MBST may be able to help strengthen bones and reduce the risk of fractures associated with osteoporosis.

As MBST is a non-invasive treatment that does not involve surgery or medication, it is an attractive option for those who may not be able to tolerate other treatments. However, it does have its limitations.

If you want to determine if MBST could be an ideal treatment for your Osteoporosis, book an appointment with MBST London.