Reliability and Validity of a Clinical Assessment Tool for Measuring Scapular Motion in All 3 Anatomical Planes

CONTEXT: A single clinical assessment device that objectively measures scapular motion in each anatomical plane is not currently available. The development of a novel electric goniometer affords the ability to quantify scapular motion in all three anatomical planes. OBJECTIVE: Investigate the reliability and validity of an electric goniometer to measure scapular motion in each anatomical plane during arm elevation. DESIGN: Cross-sectional. SETTING: Laboratory setting. PATIENTS OR OTHER PARTICIPANTS: Sixty participants (29 females, 31 males) were recruited from the general population. INTERVENTION(S): An electric goniometer was used to record clinical measurements of scapular position at rest and total arc of motion (excursion) during active arm elevation in two testing sessions separated by several days. Measurements were recorded independently by two examiners. In one session, scapular motion was recorded simultaneously with a 14-camera three-dimensional optical motion capture system. MAIN OUTCOME MEASURES: Reliability analysis included examination of clinical measurements for scapular position at rest and excursion during each condition. Both the intra-rater reliability between testing sessions and the inter-rater reliability recorded within the same session were assessed using Intraclass Correlation Coefficients (ICC2,3). The criterion-validity was examined by comparing the mean excursion values of each condition recorded by the electric goniometer to the 3D optical motion capture system. Validity was assessed by evaluating the average difference and root mean square error (RMSE). RESULTS: The between session intra-rater reliability was moderate to good (ICC2,3: 0.628-0.874). The within session inter-rater reliability was moderate to excellent (ICC2,3: 0.545-0.912). The average difference between the electric goniometer and 3D optical motion capture system ranged from -7° to 4° and the RMSE was between 7-10°. CONCLUSIONS: The reliability of scapular measurements is best when a standard operating procedure is used. The electric goniometer provides an accurate measurement of scapular excursions in all three anatomical planes during arm elevation

Spinal Mobilisation for Low Back Pain

This thesis reports a series of studies investigating the use of one form of spinal manipulative therapy: mobilisation treatment for low back pain. A number of treatment dose parameters such as ‘force characteristics’, ‘spinal level treated’ and ‘mobilisation technique used’ have been investigated in order to gain a better understanding of mobilisation treatment. The first study describes the development and evaluation of an instrumented plinth (called the Sydney Instrumented Plinth or SIP) capable of measuring the forces used during manual treatment (Chapter 2). The SIP was found to be highly reliable in measuring forces in three directions. Importantly, the SIP measures the force-time data without interfering with the normal treatment protocol and is portable enough to permit data collection in treatment clinics

How a Diverse Research Ecosystem Has Generated New Rehabilitation Technologies: Review of NIDILRR’s Rehabilitation Engineering Research Centers

Over 50 million United States citizens (1 in 6 people in the US) have a developmental, acquired, or degenerative disability. The average US citizen can expect to live 20% of his or her life with a disability. Rehabilitation technologies play a major role in improving the quality of life for people with a disability, yet widespread and highly challenging needs remain. Within the US, a major effort aimed at the creation and evaluation of rehabilitation technology has been the Rehabilitation Engineering Research Centers (RERCs) sponsored by the National Institute on Disability, Independent Living, and Rehabilitation Research. As envisioned at their conception by a panel of the National Academy of Science in 1970, these centers were intended to take a “total approach to rehabilitation”, combining medicine, engineering, and related science, to improve the quality of life of individuals with a disability. Here, we review the scope, achievements, and ongoing projects of an unbiased sample of 19 currently active or recently terminated RERCs. Specifically, for each center, we briefly explain the needs it targets, summarize key historical advances, identify emerging innovations, and consider future directions. Our assessment from this review is that the RERC program indeed involves a multidisciplinary approach, with 36 professional fields involved, although 70% of research and development staff are in engineering fields, 23% in clinical fields, and only 7% in basic science fields; significantly, 11% of the professional staff have a disability related to their research. We observe that the RERC program has substantially diversified the scope of its work since the 1970’s, addressing more types of disabilities using more technologies, and, in particular, often now focusing on information technologies. RERC work also now often views users as integrated into an interdependent society through technologies that both people with and without disabilities co-use (such as the internet, wireless communication, and architecture). In addition, RERC research has evolved to view users as able at improving outcomes through learning, exercise, and plasticity (rather than being static), which can be optimally timed. We provide examples of rehabilitation technology innovation produced by the RERCs that illustrate this increasingly diversifying scope and evolving perspective. We conclude by discussing growth opportunities and possible future directions of the RERC program

Aerospace Medicine and Biology: A continuing bibliography with indexes (supplement 133)

This special bibliography lists 276 reports, articles, and other documents introduced into the NASA Scientific and Technical Information System in September 1974

Ekonomicky dostupný aktivní exoskeleton pro dolní končetiny pro paraplegiky

After a broad introduction to the medical and biomechanical background and detailed review of orthotic devices, two newly developed lower limbs exoskeletons for paraplegics are presented in this study. There was found out the main challenges of designing devices for paraplegic walking can be summarized into three groups, stability and comfort, high efficiency or low energy consumption, dimensions and weight. These all attributes have to be moreover considered and maintained during manufacturing of affordable device while setting a reasonable price of the final product. A new economical device for people with paraplegia which tackles all problems of the three groups is introduced in this work. The main idea of this device is based on HALO mechanism. HALO is a compact passive medial hip joint orthosis with contralateral hip and ankle linkage, which keeps the feet always parallel to the ground and assists swinging the leg. The medial hip joint is equipped with one actuator in the new design and the new active exoskeleton is called @halo. Due to this update, we can achieve more stable and smoother walking patterns with decreased energy consumption of the users, yet maintain its compact and lightweight features. It was proven by the results from preliminary experiments with able-bodied subjects during which the same device with and without actuator was evaluated. Waddling and excessive vertical elevation of the centre of gravity were decreased by 40% with significantly smaller standard deviations in case of the powered exoskeleton. There was 52% less energy spent by the user wearing @halo which was calculated from the vertical excursion difference. There was measured 38.5% bigger impulse in crutches while using passive orthosis, which produced bigger loads in upper extremities musculature. The inverse dynamics approach was chosen to calculate and investigate the loads applied to the upper extremities. The result of this calculation has proven that all main muscle groups are engaged more aggressively and indicate more energy consumption during passive walking. The new @halo device is the first powered exoskeleton for lower limbs with just one actuated degree of freedom for users with paraplegia.První část práce je věnována obsáhlému úvodu do zdravotnické a biomechanické terminologie a detailnímu souhrnnému představení ortopedických pomůcek. Následně jsou představeny dva nově vyvinuté exoskelety aplikovatelné na dolní končetiny paraplegiků. Bylo zjištěno, že hlavní úskalí konstrukčního návrhu asistenčních zařízení pro paraplegiky lze shrnout do tří hlavních skupin, jako první je stabilita a komfort, druhá je vysoká účinnost a nízká energetická náročnost uživatele a do třetí lze zahrnout rozměry a hmotnost zařízení. Toto všechno je navíc podmíněno přijatelnou výslednou cenou produktu. Nový ekonomicky dostupný exoskelet pro paraplegiky, který řeší problematiku všech tří zmíněných skupin je představen v této práci. Hlavní myšlenka tohoto zařízení je postavena na mechanismu HALO ortézy. HALO je kompaktní pasivní ortéza s mediálním kyčelním kloubem umístěným uprostřed mezi dolními končetinami. Speciální mediální kyčelní kloub je kontralaterálně propojen s kotníkem soustavou ocelových lanek což zajištuje paralelní polohu chodidla se zemí v každém okamžiku chůze a navíc asistuje zhoupnutí končetiny. Tento mediální kyčelní kloub je redesignován a v novém provedení je vybaven jedním aktuátorem, nové řešení aktivního exoskeletu dostalo název @halo. Díky tomuto vylepšení lze dosáhnout stabilnější a plynulejší chůze s výrazně redukovanou energetickou náročností uživatele přičemž dochází k zachování nízké hmotnosti a kompaktnosti zařízení. Toto bylo dokázáno během předběžných experimentů se zdravými subjekty, během kterých byla testována aktivní chůze se zařízením vybaveným odnímatelnou pohonnou jednotkou a pasivní chůze se stejným zařízením bez této aktivní jednotky. Nadměrné naklánění se během chůze ze strany na stranu a nadměrná výchylka pohybu těžiště těla ve vertikálním směru byly sníženy o necelých 40% s velmi významně menšími standardními odchylkami v případě chůze s pohonem. Z rozdílu výchylky pohybu těžiště těla ve vertikální poloze bylo vypočítáno snížení energetické náročnosti uživatele o 52% při chůzi s aktivní konfiguraci @halo. Při pohybu s pasivní ortézou byl naměřen o 38,5% větší reakční silový impuls v berlích, což znamená nárůst zátěže pro svalový aparát horních končetin. Pro podrobné vyšetření zátěže ramenních kloubů byl aplikován model inverzní dynamiky. Výsledek tohoto výpočtu jednoznačně indikuje agresivnější a hlubší zapojení všech svalových skupin ramenního kloubu a tím vyšší spotřebu energie uživatelem během pasivní chůze. Nové asistenční zařízení @halo je prvním exoskeletem svého druhu pro paraplegiky s jediným poháněným stupněm volnosti.354 - Katedra robotikyvyhově

Aerospace Medicine and Biology: A continuing bibliography with indexes (supplement 258)

This bibliography lists 308 reports, articles and other documents introduced into the NASA scientific and technical information system in April 1984

CHRONIC ANKLE INSTABILITY AND AGING

Lateral ankle sprains are the most common musculoskeletal injury among the general population and U.S. military personnel. Despite the common perception of being a minor injury, at least 1 out of 3 individuals with a previous ankle sprain will develop chronic ankle instability (CAI). This clinical phenomenon creates a significant barrier for patients to return to their prior level of physical function. Specifically, CAI is associated with reductions in physical activity level, leading to decreases in lower health-related quality of life and increase risk of developing of post-traumatic ankle osteoarthritis. Current evidence has largely focused on characterizing the mechanical and sensorimotor insufficiencies associated with CAI in adolescent and young-adult populations, with little attention on middle- and older-aged adults. This restricts our understanding of how these insufficiencies associated with CAI that develop in early adulthood progress over time and contribute to other chronic diseases such as post-traumatic osteoarthritis. Therefore, the overall objective of this study was to compare self-reported and physical function between three age groups: 1) young, 2) middle-aged, and 3) older-aged adults with and without CAI. We hypothesized participants with CAI would have age-related changes in self-reported and physical function compared to non-injured individuals across the lifespan. The objective of this dissertation was to compare regional and global health- related quality of life (HRQoL), static and dynamic balance, spinal reflex excitability of the soleus muscle, open- and closed-kinetic chain dorsiflexion range of motion and spatiotemporal gait parameters between those with and without CAI across the lifespan. Her callIt was hypothesized that all self-reported and physical characteristics would be decrease with age, but significantly more in those with CAI compare to non-injured individuals. Results from the first study demonstrated participants with CAI had worse regional HRQoL compared to healthy-controls as evidenced by the lower Foot and Ankle Disability Index scores. Likewise, participants with CAI reported having worse overall physical function and pain interference during activity compared to healthy-controls. There was no significant interaction for Injury (CAI and healthy-control) and Age group (young, middle, and old) for any dependent variable. In the second, it was determined that static and dynamic balance, spinal reflex excitability, ankle (dorsiflexion and plantarflexion) and hip extension torque were all lower in the older-aged participants compared to the younger-aged adults. In addition, it was determined that participants with CAI had decreased dorsiflexion range of motion, ankle (dorsiflexion and plantar flexion) and hip extension peak isometric torque compared to the healthy-control group. However, no significant interaction was found for Injury (CAI & healthy-control) and Age (young, middle, old) for any dependent variable. In the third study, there were no differences in spatiotemporal gait parameters between groups (CAI vs. healthy-controls) or age categories. It can be concluded from this dissertation that regardless of the age, individuals with CAI have worse region-specific HRQoL, lower overall physical function, greater pain interference, limited dorsiflexion range of motion, and decreased ankle and hip peak isometric torque compared to healthy-controls. Several age-related observations were found including decreased static and dynamic balance, ankle and hip strength, and spinal reflex excitability. Though no relationship was found between CAI and age, several interactions were found to be trending towards significance. Therefore, future work is needed to better understand the consequences of CAI on middle- and older-aged adults

OBJECTIVE EVALUATION OF FUNCTIONAL ANKLE INSTABILITY AND BALANCE EXERCISE TREATMENT

Functional ankle instability (FAI) is a poorly defined entity but commonly used to describe patients who sustain multiple ankle injuries with slight or no external provocation and have a subjective feeling of ankle "giving way". There have been conflicting results reported in literature regarding the role of suggested etiological factors of FAI including deficit in joint proprioception, strength, and stiffness (laxity). Diagnosis of FAI has been mainly relied on a subjective reporting, so is the assessment of FAI treatments. In spite of controversies regarding FAI factors, balance training has been widely used in sports medicine clinics for patients with FAI. Most of past studies reported its effect for FAI, but strong evidence with definitive result is still missing. Furthermore, the mechanism that explains the effect of balance training on FAI is still unclear. Recently, it was suggested that altered threshold to the unloading reaction may be behind ankle giving way episodes in patients with ankle instability. Therefore, we wanted to duplicate this finding in individuals with FAI during sudden ankle inversion test and examine the effects of a four-week balance training program on unloading reactions in individuals with FAI. Twenty four recreationally active individuals with unilateral FAI were evaluated for unloading reactions on the involved and uninvolved limbs using a sudden ankle inversion test. In seven out of twenty-four subjects, we observed a drastic reaction (hyper-reactivity) in that they were unable to maintain upright standing position when a combination of dynamic ankle stretching and nociceptive stimuli was applied on their affected ankles. The subjects were then randomized to either a control or intervention group. Subjects in the intervention group were trained on the affected limb with static and dynamic components using a Biodex balance stability system for 4-weeks. The control group received no intervention. The results suggested that balance training may desensitize the hyper-reactivity to unloading reaction in FAI subjects, suggesting a possible mechanism for reducing the ankle "giving way" episodes. In addition, balance training was found to improve the subjective self-reported ankle instability and passive ankle joint position sense. No effect was observed on isometric and isokinetic peroneal muscle strength and ankle stiffness (laxity). In summary, this dissertation work provides evidence that balance training is effective in patients with FAI, however a further study with more sample size and additional outcome measures is required to better understand the mechanism of balance training in these individuals. The findings of this work have implications for research/rehabilitation of not only individuals with FAI but also in individuals with functional joint instability, such as functional knee instability which shares many common symptoms with FAI

Amyotrophic lateral sclerosis : exercise and disease progression

Amyotrophic Lateral Sclerosis (ALS) belongs to a group of neurological disorders known as motor neuron diseases, which are caused by gradual degeneration and consequent death of motor neurons. In general, the disease begins in one of two fundamental ways: with involvement of the muscles of the bulbar region; or with loss of muscle strength of the upper or lower limbs - spinal form. Although other rare forms of manifestation are also cited in the literature, such as: respiratory (when respiratory muscles are initially affected); axial (initially affecting the cervical and paraspinal muscles) and the diffuse form (generalized onset of the disease). These forms of presentation determine the initial symptoms. Patients may initially develop muscle weakness in the limbs resulting in various clinical conditions with paresis, speech problems with dysarthria, dysphagia, and respiratory symptoms with dyspnea, and evolve to complete loss of body movements control. The degree of functional disability and dependence resulting from ALS lead the patient to gradually needing a caregiver for all their activities of daily life. The mean survival for ALS is around 3 - 5 years from first symptoms, and the fatal event usually occurs due to respiratory failure or infection. Although there is no effective treatment to halt disease progression, the clinical management has evolved positively in last years. The technological advance of medical interventions has contributed to a longer survival and higher quality of life. The monitoring of non-invasive ventilation has been very helpful for the clinical follow up and to decrease the anxiety experienced by caregivers. Unfortunately, the aerobic exercise is not a usual therapeutic option for ALS patients in the clinical management yet. Physical exercise has been suggested to promote growth factor delivery in experimental animal models of ALS. However, the aerobic exercise is understudied in ALS patients due the suspicious that the exercise could be harmful for this population. Meeting the recommendations from the last Cochrane review about Therapeutic exercise in ALS, we have analyzed the impact of aerobic exercise in the ALS progression. This thesis has 2 main contributions: 1 - To study the efficacy of moderated and accurate defined exercise program on the evolution and survival of ALS, and, 2 - to assess the feasibility to performing exercise monitored remotely from home in ALS patients. In addition, this thesis includes results from additional contributions, which are related to relevant issues always present during disease progression such as management of the respiratory failure (sub-chapters 5.2 and 5.3), the support for ALS caregivers (Chapter 6), and the potential impact of clinical management on disease progression in an environment with lack of resources (Chapter 7). In the sub-chapter 5.2 we present a work which describe the lack of consensus for the ideal timing to start NIV and about the use of alternative respiratory support. We address the impact of NIV and tracheostomy on family and / or informal caregivers, especially how it can affect quality of life. The importance of assessing the emotional, physical, social and psychological capacity of the caregiver is reinforced in order to cope with the increasing care needs of these patients. The sub-chapter 5.3 presents results on the importance of a careful management in the use and configuration of Non-Invasive Ventilation (NIV) parameters, in particular the role of ventilation and adherence adjustments in functional decline and survival of ventilated patients. A wide range of data recorded from the software used in ventilators, nocturnal pulse oximetry measurements and respiratory function tests were analyzed. Our results suggest that the variables that affect the respiratory comfort of the patient are relevant for adherence to NIV and positively affect survival in ALS. The Chapter 6 presents results of a feasibility study about a training program for caregivers. The uncertain progression of the disease and long-term care, as well as the insufficient number of skilled health professionals, determine that the admission of these patients to hospitals or to continuing care units is a complex option. Initiatives that allow better management of the disease at home can be an alternative solution. The functional disability of patients can promote significant financial constraints, and exposes their families to high levels of stress, which can compromise the provision of adequate health care, leading to the hospitalization of these patients. In this project, we identified an excellent level of participation as well as a good result in the evaluation of learning (above 70%). The main limiting factor for participation in the training program was the absence of a secondary caregiver. The Chapter 7 describes results from2 studies conducted with ALS patients in the African continent, which present data on disease progression in an environment with limited resources for clinical management. The Chapter 8 present a general discussion and conclusion of all works included in this Thesis. All the papers presented in this thesis aim to contribute to a broader view of the clinical management of ALS, where the role of exercise associated with more careful respiratory support, and the presence of a well-informed and trained caregiver, can together be an important contribution for the survival and quality of life of the patient with ALS. We hope our work presented in this thesis may contribute to a wider understanding on the clinical management of ALS. In particular demonstrating that controlled exercise associated with careful respiratory support, and the presence of a well-informed and trained caregiver, may be an added value in the survival and quality of life for ALS patient

LUMBAR SPINE MOBILIZATION: MEASUREMENT AND EFFECTS

Low Back Pain (LBP) is the second most common cause of disability in the United States, and it is associated with abnormal high activity of Erector Spinae (ES) and low activity of Lumbar Multifidus (LM) muscles. This abnormal activity of muscles has shown to be associated with pain and dysfunction in people with LBP. Lumbar mobilization is a common physical therapy intervention for LBP. Yet, there is a lack of knowledge about the effects of lumbar mobilization on the activity of back muscles in both healthy subjects and in people with LBP. Investigating such effect of mobilization on the activity of back muscles may lead to a better understanding of the physiological effects of mobilization, and a better application of mobilization to normalize the abnormal activity of back muscles in LBP. This may improve the intervention outcomes and decrease the disability in people with LBP. Furthermore, there is a need to measure lumbar mobilization in clinical settings due to the inconsistency in applying mobilization, which may affect the intervention outcomes. Current laboratory methods like Optotrak and force plate to measure mobilization are expensive and not portable. Inertial Measurement Unit (IMU) is a potential device to measure the clinician’s hand movement during mobilization. IMU is inexpensive and portable. However, the validity and reliability of IMU in measuring mobilization need to be determined before its application is considered in clinical and research settings. In chapters two and three, the effect of mobilization on the activity/contraction of back muscle was investigated. Ultrasound imaging and surface electromyogram (EMG) were used to measure LM contraction and activity of ES respectively at low isometric contraction (arm lift task). In chapter two, the effect of lumbar mobilization on both LM and ES muscles in healthy subjects was investigated. Healthy subjects received three intervention sessions (no intervention, placebo, and grade IV mobilization) on different days. Contraction of LM and the EMG amplitude of ES activity were measured at two time points (before and immediately after the intervention) in each session. The only significant effect of lumbar mobilization was found on LM contraction compared to the placebo effect (the mobilization increased the LM contraction), whereas there was no significant effect of mobilization on LM contraction compared to no intervention. In chapter three, the effect of lumbar mobilization on both LM and ES muscles in people with LBP was investigated. LBP subjects were randomly assigned into two groups (grade III mobilization or placebo/light touch group). Subjects received intervention based on their assigned group and for two sessions. Contraction of LM, the activity amplitude and the activity onset of ES were measured at two time points (before and immediately after the intervention) in each session. Compared to the placebo group, there were significant effects of lumbar mobilization on the activity amplitude and the activity onset of ES, and on LM contraction. The mobilization decreased both activity amplitude and activity onset of ES, and increased the contraction of LM. The findings support the use of lumbar mobilization to decrease the activation impairment of back muscles and decrease the disability in people with LBP In chapter four, the validity and reliability of IMU in measuring clinician’s hand displacement during mobilization were investigated. Healthy subjects received four different amplitudes of lumbar mobilization by two clinicians in two sessions. The validity of IMU was tested by comparing the IMU measurements (displacement) to the measurements of Optotrak (displacement), and calculating the correlation between IMU measurements (displacement) and the force plate measurement (force). The reliability of IMU was tested by comparing the IMU measurements between two clinicians (inter-rater reliability) and between two sessions (intra-rater reliability). Our results showed that IMU had high agreement with Optotrak and high correlation with force plate. Therefore, IMU was found to be a valid device to measure the amplitude of displacement of clinicians’ hand during lumbar mobilization. The reliability of IMU was moderate (both inter-reliability and intra-reliability), which can be due to inconsistency in applying mobilization between sessions and between clinicians. The findings suggest that lumbar mobilization may change the activity/contraction of back muscle in people with LBP but not in healthy subjects during the arm lift task used to collect outcomes. That might be because healthy subjects do not have an impairment in activity/ contraction of back muscle to be corrected by mobilization. Therefore, the findings further support the use of mobilization as an integral intervention for people with LBP, and emphasize a new therapeutic effect of lumbar mobilization to normalize back muscle impairment in LBP. Though IMU was found as a valid device to measure lumbar mobilization, the reliability of IMU needs to be tested with more accurate methods of replicating the mobilization between sessions and between clinicians