Instrument-Assisted Soft Tissue Mobilization (IASTM) is a manual therapy technique used in physical therapy to treat soft tissue injuries and dysfunction. It involves the use of specialized tools, such as stainless steel instruments, to apply controlled pressure and friction to the affected area. The instruments are used to detect and treat adhesions, scar tissue, and fascial restrictions in the muscles, tendons, and ligaments. The therapist uses the instruments to glide over the skin, creating a therapeutic effect that helps to break down scar tissue, improve blood flow, and promote tissue healing.
There are several benefits of using IASTM in physical therapy. Firstly, it can help to reduce pain and inflammation by breaking down scar tissue and adhesions that may be causing discomfort. Secondly, it can improve range of motion and flexibility by releasing tight muscles and fascia. Thirdly, it can enhance tissue healing and regeneration by increasing blood flow to the affected area. Additionally, IASTM can help to improve overall function and performance by addressing underlying soft tissue dysfunction. It is also a non-invasive and drug-free treatment option, making it a safe and effective choice for many patients.
In this episode, Erson is joined by Dr. Hannah Cox who recently attended one of his live TMJ Seminars. Upon leaving, she felt prepared to take on the TMJ world! Until that is two days later, she had a patient with high fear avoidance and complaints of open lock TMJ, headaches and neck issues. Luckily, Erson was able to instill her confidence over an online mentoring session and all worked out great over 3 sessions only! Untold Physio Stories is sponsored byHelix Pain Creams - I use Helix Creams in my practice and patients love them! Perfect in combination with joint mobs, IASTM and soft tissue work. Get your sample and start an additional revenue stream for your practice. Click here to get started. https://modmt.com/helixCheck out EDGE Mobility System's Best Sellers - Something for every PT, OT, DC, MT, ATC or Fitness Minded Individual https://edgemobilitysystem.comCurv Health - Start your own Virtual Clinic Side Hustle for FREE! Create your profile in 3 minutes, set your rates, and Curv will handle the rest! From scheduling to payments, messaging, charting, and a full exercise library that allow for patient/clinician tracking, it's never been easier! Click to join Dr. E's new Virtual Clinic Collective to help promote best online practices. Keeping it Eclectic... This article was originally posted on Modern Manual Therapy Blog
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Posted by on 2023-05-08
Erson follows up with the difficult lumbar lateral shift patient from this episode a few weeks back. As in the past, he's doing much better and this time Erson takes care not to flare him up! Interestingly enough using the Activforce 2 handheld dynamometer reveals some significant hip and trunk rotation strength percentage differences that could be key to better prevention. Untold Physio Stories is sponsored byHelix Pain Creams - I use Helix Creams in my practice and patients love them! Perfect in combination with joint mobs, IASTM and soft tissue work. Get your sample and start an additional revenue stream for your practice. Click here to get started.Check out EDGE Mobility System's Best Sellers - Something for every PT, OT, DC, MT, ATC or Fitness Minded IndividualCurv Health - Start your own Virtual Clinic Side Hustle for FREE! Create your profile in 3 minutes, set your rates, and Curv will handle the rest! From scheduling to payments, messaging, charting, and a full exercise library that allow for patient/clinician tracking, it's never been easier! Click to join Dr. E's new Virtual Clinic Collective to help promote best online practicesKeeping it Eclectic... This article was originally posted on Modern Manual Therapy Blog
Posted by on 2023-05-04
Introduction SummaryLow back pain (LBP) is a prevalent and costly health problem that affects a significant portion of the global population. Pain developers (PDs) are individuals who are considered a pre-clinical LBP population at risk of developing clinical LBP, which can exact great social and economic costs. Prolonged standing has been identified as a risk factor for LBP, and it is necessary to investigate the risk factors of standing-induced LBP in PDs comprehensively. By identifying these risk factors, appropriate preventive measures can be planned, which may reduce the incidence of standing-induced LBP and its associated costs.This study1 used a systematic review and meta-analysis approach to investigate the distinctive characteristics and risk factors of standing-induced LBP in PDs. The study aimed to identify statistically significant differences between PDs and non-pain developers (NPDs) in demographics, biomechanical, and psychological outcomes and to determine the pooled effect sizes of these differences. The study’s findings have important implications for preventing and managing standing-induced LBP in PDs and for future research investigating the association of these distinctive characteristics to standing-induced LBP and interventions that may modify them.Characteristics of Pain Developers and Non-Pain DevelopersThe systematic review and meta-analysis identified 52 papers and theses involving 1070 participants (528 PDs and 542 NPDs) that were eligible for inclusion. The studies used a prolonged standing duration greater than 42 minutes to classify adult PDs and NPDs without a history of LBP.Significant differences were found between PDs and NPDs in terms of movement patterns, muscular, postural, psychological, structural, and anthropometric variables. PDs exhibited altered motor control in the anterior hip abduction (AHAbd) test and displayed higher lumbar lordosis in individuals over 25 years old. These factors were found to have a statistically significant association with standing-induced LBP.Muscular differences were also identified between PDs and NPDs. PDs had a higher level of co-activation between gluteus medius and the erector spinae muscles, which can lead to increased lumbar loading and potentially contribute to the development of LBP.In terms of postural characteristics, PDs had less trunk control and increased trunk sway during standing compared to NPDs, which may suggest a lack of postural stability.Psychological characteristics were also found to differ between PDs and NPDs. PDs had higher levels of pain catastrophizing, which is the tendency to magnify the threat value of pain and to feel helpless in the face of it, and is associated with increased pain intensity and disability.Finally, anthropometric and structural differences were found between PDs and NPDs. PDs tended to have higher body mass index (BMI) and shorter stature compared to NPDs, which may result in altered spinal loading during standing.These findings suggest that PDs have distinct biomechanical and psychological characteristics that may predispose them to standing-induced LBP. Altered motor control displayed in AHAbd test and higher lumbar lordosis in individuals over 25 years seem to be probable risk factors for standing-induced LBP. The study’s findings have important implications for preventing and managing standing-induced LBP in PDs and for future research investigating the association of these distinctive characteristics to standing-induced LBP and interventions that may modify them.Risk Factors for Standing-Induced Low Back PainThe systematic review and meta-analysis identified several factors that were found to have a statistically significant association with standing-induced LBP:Lumbar fidgets – Participants with PDs displayed more lumbar fidgets, defined as small voluntary or involuntary movements of the lumbar spine, which are indicative of discomfort or pain. This factor was found to have a significant negative effect size (Hedge’s g − 0.72).Lumbar lordosis in participants over 25 years – Participants with PDs had higher lumbar lordosis, defined as the natural curvature of the lumbar spine, in individuals over 25 years old. This factor was found to have a significant positive effect size (Hedge’s g 2.75).AHAbd test – Participants with PDs displayed altered motor control in the AHAbd test, which measures the ability to control the hip and pelvis while lifting one leg. This factor was found to have a significant positive effect size (WMD 0.7).Gluteus medius co-activation – Participants with PDs had higher levels of co-activation between the gluteus medius and erector spinae muscles. This factor was found to have a significant positive effect size (Hedge’s g 4.24).Pain catastrophizing – Participants with PDs had higher levels of pain catastrophizing, which is associated with increased pain intensity and disability. This factor was found to have a significant positive effect size (WMD 2.85).These risk factors suggest that altered motor control, higher lumbar lordosis, increased gluteus medius co-activation, and pain catastrophizing may predispose individuals to standing-induced LBP. The findings may help identify individuals at risk of developing standing-induced LBP and plan appropriate preventive measures.Future research should investigate the association of the reported distinctive characteristics to standing-induced LBP and whether they are manipulable through various interventions. Such interventions may include physical therapy, posture correction, and mindfulness-based stress reduction, among others. Identifying modifiable risk factors may lead to the development of effective interventions for preventing and managing standing-induced LBP in individuals with pre-clinical LBP.Implications for Future ResearchThe systematic review and meta-analysis identified several distinct characteristics and risk factors for standing-induced LBP in PDs compared to NPDs. However, the study authors note that the identified risk factors do not necessarily prove causality or provide a complete understanding of the mechanisms underlying standing-induced LBP. As such, future research should investigate these factors in greater detail, and identify modifiable risk factors that can be targeted for preventive interventions.The study authors recommend that future research should investigate the following areas:Association with standing-induced LBP – Further research should investigate the association of the identified distinctive characteristics and risk factors to standing-induced LBP. Studies should investigate whether these factors are predictive of standing-induced LBP and whether they are specific to standing-induced LBP or generalizable to other types of LBP.Mechanisms underlying standing-induced LBP – Future research should also investigate the underlying mechanisms of standing-induced LBP, such as the interplay between motor control, muscle activation, and posture. Understanding the mechanisms underlying standing-induced LBP can help identify modifiable risk factors and develop effective interventions.Intervention strategies – Future research should investigate the efficacy of various interventions for preventing and managing standing-induced LBP in individuals with pre-clinical LBP. Such interventions may include physical therapy, posture correction, mindfulness-based stress reduction, and other strategies aimed at reducing risk factors identified in this study.Generalizability of findings – Finally, future research should investigate the generalizability of the study findings to other populations, such as individuals with clinical LBP or those with different occupational or lifestyle factors. This will help to determine the applicability of the findings to a broader population and inform the development of preventive measures for standing-induced LBP.ConclusionIn summary, this systematic review and meta-analysis found that pain developers (PDs) – individuals with a history of low back pain (LBP) – have distinct characteristics compared to non-pain developers (NPDs) when exposed to prolonged standing. These characteristics include altered movement patterns, muscular, postural, psychological, structural, and anthropometric variables. The study also identified several risk factors associated with standing-induced LBP, including lumbar fidgets, higher lumbar lordosis in participants over 25 years, AHAbd test, GMed co-activation, and higher scores on the Pain Catastrophizing Scale.These findings have important implications for preventing and managing standing-induced LBP, particularly in individuals with a history of LBP. The study suggests that altered motor control displayed in the AHAbd test and higher lumbar lordosis in individuals over 25 years old are probable risk factors for standing-induced LBP. Therefore, future interventions may focus on improving motor control and reducing excessive lumbar lordosis. Additionally, the study highlights the importance of addressing psychological factors, such as pain catastrophizing, as a potential risk factor for standing-induced LBP.Overall, the study emphasizes the need for a comprehensive approach to preventing and managing standing-induced LBP, including a focus on biomechanical, psychological, and other factors. Future research should investigate the association of these distinctive characteristics to standing-induced LBP and whether they are manipulable through various interventions. By identifying and addressing these risk factors, it may be possible to reduce the prevalence of LBP and improve the quality of life for individuals with a history of LBP.This study emphasizes the importance of developing appropriate preventive measures for standing-induced low back pain (LBP) in pain developers (PDs). PDs are individuals with a history of LBP and are considered a pre-clinical population at risk of developing clinical LBP, which can lead to significant social and economic costs. The study found that PDs have distinct characteristics compared to non-pain developers (NPDs) when exposed to prolonged standing, which suggests that targeted interventions may be necessary to prevent standing-induced LBP in this population.The development of appropriate preventive measures requires a thorough understanding of the risk factors associated with standing-induced LBP in PDs. This study identified several risk factors, including lumbar fidgets, higher lumbar lordosis in participants over 25 years, AHAbd test, GMed co-activation, and higher scores on the Pain Catastrophizing Scale. These risk factors suggest that interventions targeting motor control, lumbar lordosis, and psychological factors may be effective in preventing standing-induced LBP in PDs.In addition to identifying risk factors, the study highlights the importance of comprehensive interventions that address biomechanical, psychological, and other factors associated with standing-induced LBP. These interventions may include postural education, physical therapy, and cognitive-behavioural therapy. By addressing these factors, it may be possible to reduce the prevalence of LBP and improve the quality of life for individuals with a history of LBP.Overall, the study underscores the importance of developing appropriate preventive measures for standing-induced LBP in PDs. Identifying risk factors and developing targeted interventions may help reduce the burden of LBP in this population and improve their overall health and well-being.Dynamic Disc DesignsDynamic Disc Designs offers dynamic anatomical models that musculoskeletal healthcare workers (chiropractors, medical doctors, physiotherapists, osteopaths) can use to help explain how the spine is impacted when one stands, for example. The models are designed to simulate the spinal movement dynamically, allowing various spinal specialists to better illustrate to patients the impact that standing can have on the spine.Using the dynamic disc model, a healthcare worker can demonstrate how the intervertebral discs are compressed when standing due to the force of gravity on the spine. They can show how the discs lose water content and height throughout the day, resulting in reduced shock absorption and increased pressure on the spinal nerves. This can lead to various symptoms, including low back pain, stiffness, and numbness or tingling in the legs. In this particular research highlighted in this post, a practitioner can explain dynamically what excessive lordosis means and how the facets are approximated in this case. Explore.Want to learn in person? Attend a #manualtherapyparty! Check out our course calendar below!Learn more online - new online discussion group included!Want an approach that enhances your existing evaluation and treatment? No commercial model gives you THE answer. You need an approach that blends the modern with the old school. NEW - Online Discussion GroupLive caseswebinarslectureLive Q&Aover 600 videos - hundreds of techniques and more! Check out MMT InsidersKeeping it Eclectic... This article was originally posted on Modern Manual Therapy Blog
![[RESEARCH REVIEW] The High Cost of Standing: Uncovering Risk Factors for Low Back Pain](https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgXTsCQGpK-PEaVaLh2d-4MDJt3iZYFUMfzgmUKypDoGEjgXskP71pa-s8bMk_XOK-iWRrL8pLt-vIE6tD_i8NbsgluTbBpfCrbP80CWO3oFOoSZauwQ7U375LUV9hsBh7bwaSz6BJiYSFJfEniuRnDbSGa6swxPr0DzfpYmpWkljZ5TeS2P6031Ioh/s16000/Low%20back%20pain.png)
Posted by on 2023-04-27
While IASTM is generally considered safe, there are some risks and side effects associated with the treatment. The most common side effect is temporary bruising or redness in the treated area, which typically resolves within a few days. In rare cases, more serious side effects such as skin irritation or infection may occur. It is important for the therapist to properly assess the patient's condition and use appropriate techniques and tools to minimize the risk of complications. Patients with certain medical conditions, such as open wounds, blood clotting disorders, or skin infections, may not be suitable candidates for IASTM.
IASTM differs from other manual therapy techniques, such as massage or manual stretching, in its specific focus on soft tissue mobilization. While massage and stretching can also provide benefits for soft tissue health, IASTM offers a more targeted approach by using specialized tools to directly address adhesions and scar tissue. The controlled pressure and friction applied during IASTM can help to break down these tissue restrictions more effectively than manual techniques alone. Additionally, IASTM can be used in conjunction with other manual therapy techniques to provide a comprehensive treatment approach.
Yes, IASTM can be used to treat specific conditions or injuries, such as tendinitis or muscle strains. The technique can help to reduce pain and inflammation, improve range of motion, and promote tissue healing in these types of injuries. IASTM can also be beneficial for conditions such as plantar fasciitis, IT band syndrome, and myofascial pain syndrome. However, it is important for the therapist to properly assess the patient's condition and determine if IASTM is the most appropriate treatment option. In some cases, other interventions such as exercise therapy or modalities may be more suitable.
While IASTM is generally safe and well-tolerated, there are certain individuals who should avoid this treatment. Patients with open wounds, skin infections, or blood clotting disorders may not be suitable candidates for IASTM. Additionally, individuals with certain medical conditions, such as cancer or osteoporosis, may require special precautions or modifications to the treatment. It is important for the therapist to conduct a thorough assessment and consider the patient's medical history before recommending IASTM. Patients should also communicate any concerns or medical conditions to their therapist to ensure safe and effective treatment.
The duration of a typical IASTM session can vary depending on the patient's condition and treatment goals. Generally, a session may last between 30 to 60 minutes. The therapist will assess the patient's soft tissue restrictions and use the instruments to perform targeted treatment techniques. The number of sessions required to see results can also vary depending on the individual. Some patients may experience improvement after just a few sessions, while others may require more frequent or prolonged treatment. The therapist will monitor the patient's progress and adjust the treatment plan accordingly to achieve optimal outcomes.
Cupping therapy has been found to have a positive influence on circulation and tissue healing. The application of cups to the skin creates a vacuum, which helps to increase blood flow to the area. This increased blood flow brings more oxygen and nutrients to the tissues, promoting their healing and regeneration. Additionally, cupping therapy can help to release stagnant blood and lymphatic fluid, improving the overall circulation in the body. The suction created by the cups also stimulates the production of collagen and elastin, which are essential for tissue repair and regeneration. Furthermore, cupping therapy has been shown to reduce inflammation and pain, further aiding in the healing process. Overall, cupping therapy provides a holistic approach to improving circulation and tissue healing by enhancing blood flow, releasing stagnant fluids, and promoting the production of essential components for tissue repair.
Hydrotherapy, also known as aquatic therapy, has been shown to have potential benefits in improving motor function and balance in individuals with Parkinson's disease. This form of therapy involves exercises and movements performed in water, taking advantage of the buoyancy and resistance properties of water to facilitate movement and enhance muscle strength. The hydrostatic pressure exerted by water can help improve blood circulation and reduce swelling, which may contribute to improved motor function. Additionally, the gentle resistance provided by water can help individuals with Parkinson's disease improve their balance and coordination. The repetitive and rhythmic nature of hydrotherapy exercises can also help individuals with Parkinson's disease improve their motor skills and movement control. Overall, hydrotherapy can be a valuable adjunct therapy for individuals with Parkinson's disease, potentially leading to improvements in motor function and balance.
Vibration therapy has been found to offer several benefits in the rehabilitation process following ACL reconstruction. Firstly, it can help improve muscle strength and power by stimulating muscle contractions through the use of mechanical vibrations. This can aid in the restoration of muscle function and prevent muscle atrophy, which is common after surgery. Additionally, vibration therapy has been shown to enhance proprioception, which is the body's ability to sense its position in space. By improving proprioception, individuals can regain better control and stability of their knee joint, reducing the risk of re-injury. Furthermore, vibration therapy can also promote blood circulation and lymphatic drainage, which can aid in reducing swelling and inflammation in the affected area. Overall, incorporating vibration therapy into the rehabilitation program after ACL reconstruction can contribute to faster recovery, improved functional outcomes, and reduced risk of complications.
Proprioceptive neuromuscular facilitation (PNF) is a therapeutic approach that can significantly improve motor function in stroke patients. PNF involves a series of exercises and techniques that aim to enhance proprioception, muscle strength, and coordination. By incorporating specific patterns of movement and stretching, PNF helps retrain the brain and nervous system to regain control over affected muscles and joints. This approach utilizes the principles of motor learning and neuroplasticity, which allow the brain to create new neural pathways and adapt to the changes caused by stroke. PNF also focuses on promoting functional movements and activities, which are essential for stroke patients to regain independence in their daily lives. Additionally, PNF incorporates various sensory inputs, such as touch and resistance, to stimulate the proprioceptors and enhance motor control. Overall, PNF is a highly effective intervention that can improve motor function in stroke patients by targeting specific impairments and facilitating the recovery process.
The Graston Technique offers several advantages for soft tissue mobilization. Firstly, it is a non-invasive and non-surgical approach, making it a safe option for patients. Additionally, it is highly effective in treating various soft tissue conditions such as scar tissue, muscle strains, and tendonitis. The technique utilizes specially designed stainless steel instruments to detect and treat areas of soft tissue dysfunction, allowing for precise targeting and treatment. This targeted approach helps to break down scar tissue, improve blood flow, and promote tissue healing. Moreover, the Graston Technique can be used in conjunction with other therapies, such as exercise and stretching, to enhance overall treatment outcomes. Overall, the Graston Technique provides a unique and effective method for soft tissue mobilization, offering patients a non-invasive and targeted approach to address their specific soft tissue issues.
The principles of tissue healing are essential in guiding treatment interventions. These principles include inflammation, proliferation, and remodeling. In the inflammation phase, the body responds to tissue injury by releasing inflammatory mediators, which attract immune cells to the site of injury. This phase is crucial for removing debris and initiating the healing process. The proliferation phase involves the formation of new blood vessels and the production of collagen, which helps in the formation of new tissue. Finally, the remodeling phase focuses on the reorganization and strengthening of the newly formed tissue. Treatment interventions are guided by these principles, aiming to promote and support each phase of tissue healing. For example, interventions may include the use of anti-inflammatory medications to control excessive inflammation, physical therapy to promote blood flow and tissue regeneration, and exercises to improve tissue strength and flexibility. By understanding and applying these principles, healthcare professionals can optimize treatment interventions and facilitate the healing process.
The McKenzie Method, a widely used approach for the classification and treatment of disc herniation, employs a comprehensive system to assess and manage this condition. The method classifies disc herniation based on its location, size, and direction of protrusion, allowing for a more targeted treatment approach. Treatment typically involves a combination of specific exercises and movements that aim to centralize and alleviate symptoms. These exercises focus on promoting proper spinal alignment, reducing pressure on the affected disc, and improving overall spinal function. Additionally, the McKenzie Method emphasizes patient education and self-management techniques, empowering individuals to take an active role in their recovery and prevent future episodes of disc herniation.