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1. DYNAMIC HINDFOOT AND FOREFOOT BIOMECHANICS OF CHILDREN WITH CLUBFOOT

Author

Kotajarvi, BR, Jouve, JL, Shaughnessy, WJ, Kitaoka, HB, and Kaufman, KR

Subjects
Physical therapy -- Research
Abstract

PURPOSE: Clubfoot is a congenital foot deformity occurring in about 1 in 1000 births in which the navicular and calcaneus are displaced medially around the talus. In most cases this condition is managed with surgical treatment usually between the ages of 4-18 months. Previous gait analysis studies have evaluated the pediatric foot as one rigid segment. The purpose of this investigation was to assess the ability of a recently developed three-segment model to detect abnormalities in the pediatric foot during gait. SUBJECTS: A sample of 7 healthy normal subjects (2 males, 5 females, mean age=7 years, range 5-9) and 6 subjects (2 males, 4 females, mean age=7 years, range 6-8) who had a single stage posteromedial release for unilateral clubfoot participated in this study. METHODS AND MATERIALS: Eleven retro-reflective markers were placed over bony landmarks on the distal tibia, malleoli, calcaneus, and first and fifth metatarsals to identity three segments: tibia, hindfoot, and forefoot. A six-camera motion analysis system (Motion Analysis Corporation, Santa Rosa, CA) and custom software were used to determine joint kinematics during level walking between the hindfoot-tibial (Cal-Tib) and forefoot-hindfoot (Met-Cal) segments in the sagittal, coronal, and transverse planes. ANALYSES: Unpaired t-tests were used to determine if differences in kinematic parameters exist between normals and children with clubfoot. The significance level was set at p [is less than] .05. RESULTS: Children with clubfoot had a statistically significantly reduction in Cal-Tib dorsiflexion throughout all of stance and decreased total Cal-Tib range of motion in the sagittal plane. Additionally, Met-Cal segment analysis revealed greater dorsiflexion and inversion, and significantly less abduction of the forefoot relative to the hindfoot. CONCLUSIONS: The kinematic data reveals that restricted hindfoot motion is compensated for by an increase in forefoot motion to achieve balanced global motion. These findings suggest that three-dimensional motion analysis has value in detecting abnormal foot segment motion in pediatric gait., Kotajarvi BR, Jouve JL, Shaughnessy WJ, Kitaoka HB, Kaufman KR. Orthopedic Biomechanics Laboratory, Mayo Foundation, Rochester. MN, [...]

Published
2001

2. GAIT ANALYSIS OF PATIENTS WITH POSTERIOR TIBIAL TENDON DYSFUNCTION

Author

Kotajarvi, BR, Uchiyama, E, Kitaoka, HB, and Kaufman, KR

Subjects
Gait -- Analysis, Ankle -- Movements, Foot -- Movements, Walking -- Physiological aspects
Abstract

PURPOSE: Whole-body three dimensional gait analysis has been studied extensively in both children and adults, but little information has been gathered regarding the complex motions of the foot and ankle during ambulation. The purpose of this investigation was to measure the three-dimensional motion of the foot and ankle during the stance phase of gait with a three segment model of the foot and ankle. Resulting measurements would be compared in both normal subjects and those with a flatfoot deformity secondary to posterior tibial tendon dysfunction. SUBJECTS: A sample of 10 healthy normal subjects (5 males, 5 females,) with a normal bony arch index (.21-.27) and 7 subjects (4 males, 3 females, mean age =52, range =27-69) with pes planus as indicated by a low BAI ([is less than] .21) and with a diagnosis of posterior tibial tendon dysfunction participated in this study. METHODS AND MATERIALS: Eleven retro-reflective markers were placed over bony landmarks on the distal tibia, malleoli, calcaneus, and first and fifth metatarsals to identify three segments; tibia, hindfoot, and midfoot. The motion analysis system consists of a six camera Expert Vision system (Motion Analysis Corporation, Santa Rosa, CA) which provided three dimensional trajectory data of the markers using AMASS software (ADTECH, Gaithersburg, MD). Custom software was used to determine joint kinematics (motion in degrees) during level walking between the calcaneal and tibial segments (Cal-Tib) and metatarsal-calcaneal segments (Met-Cai) in the sagittal, coronal, and transverse planes. Subjects walked at a self-selected pace for a minimum of five trials. ANALYSES: Total joint range of motion and the mean joint angle of the calcaneal-tibial and metatarsal-calcaneal segments in all three planes of motion were compared to normal values. Two sample t-tests were performed to determine if these parameters differed significantly between normals and subjects with posterior tibial tendon dysfunction, with significance set at p=0.05. RESULTS: There was no statistically significant difference between the two groups for mean joint angles during stance. There were statistically significant differences in total joint excursion for both calcaneal-tibial motion in the sagittal and frontal planes, and metatarsal-calcaneal motion in the transverse plane. CONCLUSIONS: The results reflect the inadequacy of referencing kinematic data to a static weightbearing posture in subjects with a deformity. Future work will focus on developing a procedure by which a correction factor can be applied so motion can be referenced to a subtalar neutral position., Kotajarvi BR, Uchiyama E, Kitaoka HB, Kaufman KR: Orthopedic Biomechanics Laboratory, Mayo Foundation, Rochester, MN, [...]

Published
2000

3. GAIT ANALYSIS OF PATIENTS WITH TIBIAL ROTATIONPLASTY

Author

Kotajarvi, BR, Shin, DS, Sim, FH, and Kaufman, KR

Subjects
Osteosarcoma -- Care and treatment, Limb salvage -- Methods, Tibia, Physical therapy -- Research
Abstract

PURPOSE: Treatment of osteosarcoma of the distal femur usually consists of above knee amputation, or, in extreme cases, hip disarticulation. As the survival rate for these patients has improved due to advances in chemotherapy, limb salvage techniques such as tibial rotationplasty have been developed to improve the patient's functional ability. In this relatively rare procedure, the tumor is resected by removing the knee joint, distal femur, and proximal tibia and fibula. The remaining tibia is then rotated 180 [degrees] and fused to the femur. The rotated ankle joint is then able to flex and extend the knee joint of a special prosthesis. The purpose of this study was to investigate the functional results of this treatment using gait analysis. SUBJECTS: Five subjects (3 males, 2 females, mean age = 19, range = 9-26) who had undergone tibial rotationplasty were compared to normal control subjects (n=15, 9 females, 6 males, mean age = 31, range = 17-42). METHODS AND MATERIALS: Fifteen retroreflective markers were placed over bony landmarks on the pelvis, femur, tibia, ankle, and feet. The motion analysis system consists of a six camera Expert Vision[R] system (Motion Analysis Corporation, Santa Rosa, CA) which provided three dimensional trajectory data of the markers using AMASS software (ADTECH, Gaithersburg, MD) at a sampling rate of 60 frames/second. Orthotrack 4.1 software (Motion Analysis Corp., Santa Rosa, CA) was used to calculate relative joint motion of the pelvis, hip, knee, and ankle in the sagittal, frontal, and transverse planes. ANALYSES: Temporal factors and sagittal plane kinematics (total joint excursion and mean joint angle) of the pelvis, hip, knee, and ankle of the rotationplasty limb during a gait cycle were compared to normal values. Two sample t-tests were performed to determine if these parameters differed significantly between rotationplasty and normal subjects, with significance set at p=0.05. RESULTS: While there were statistically significant differences between normal and the rotationplasty subjects for velocity and cadence, there was no difference for stride length and single limb support time of the rotationplasy extremity. No statistical difference was found for total joint excursion or mean joint angle in the sagittal plane for all joints except the ankle. CONCLUSIONS: A reduced total joint excursion value for the ankle was expected since the rotationplasty prosthesis has a solid ankle. Normal knee, hip, and pelvis function suggest that this procedure is a viable alternative to above knee amputation., Kotajarvi BR, Shin DS, Sim FH, Kaufman KR; Orthopedic Biomechanics Lab, Mayo Foundation, Rochester, MN, [...]

Published
2000

12. Complicated hypertension related to the abuse of ephedrine and caffeine alkaloids.

Author

Berman JA, Setty A, Steiner MJ, Kaufman KR, and Skotzko C

Abstract

Ephedra containing products (ECPs), which most often contain additional sources of caffeine alkaloids, may be an under-recognized cause of hypertension. ECPs, especially when used in combination or at higher than recommended doses, can cause life-threatening cardiovascular and neurological complications. We present a case of hypertensive encephalopathy with new onset generalized tonic-clonic seizure secondary to concomitant use of two OTC supplements containing a mixture of ephedrine and caffeine alkaloids. [ABSTRACT FROM AUTHOR]

Published
2006
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13. Depression, chronic fatigue syndrome, and fibromyalgia: an update.

Author

Kaufman KR and Goodnick PJ

Abstract

Centers for Disease Control criteria for chronic fatigue syndrome (CFS) specifically recognize that patients can have both CFS and depression. The clinician's challenge is to judge for each individual patient whether the complaint of fatigue is primarily depression, physical illness, such as CFS, or a combination of both. This review differentiates CFS and fibromyalgia, discussed as 'chronic fatigue syndrome and related immune deficiency syndromes' (CFIDS), from depression in terms of physical signs, symptoms, biological parameters, brain imaging, immunology, and treatment. The review focuses on practical applications of research findings with a further focus on future ability to show clear biologic separation and specific treatment. When depressive symptoms exist with those of CFS, accurate differentiation can usually be accomplished by focusing on diagnostic criteria. Presence of multiple physical signs and symptoms of CFIDS may be of great value. In terms of laboratory testing, a single helpful test may be measuring the plasma cortisol, which is usually high in depression and low in CFS. Future research should focus on the combination of plasma cortisol with an index of serotonin function, which is high in CFIDS and low in depression. Additional research should focus on neuroimaging and immune differentiation. Combination of multiple tests should result in a significant and clinically useful separation between CFIDS and major depressive disorder (MDD). In treating patients with significant depression or MDD with CFIDS, one should think of the noradrenergic approach using bupropion or low-dose tricyclic antidepressants in combination with a selective serotonin reuptake inhibitor, especially sertraline, to aid improvement of global, pain, and immunologic parameters. Alternatively, serotonin norepinephrine reuptake inhibitors (venlafaxine and duloxetine) should be considered. Future treatment research should focus on larger placebo-controlled, double-blind trials of these and other antidepressants as well as the evaluation of psychostimulants, electroconvulsive therapy (ECT) and repetitive transcranial magnetic stimulation (rTMS). [ABSTRACT FROM AUTHOR]

Published
2006
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14. Surgical treatment of femoroacetabular impingement: evaluation of the effect of the size of the resection. Surgical technique.

Author

Mardones RM, Gonzalez C, Chen Q, Zobitz M, Kaufman KR, Trousdale RT, Mardones, Rodrigo M, Gonzalez, Carlos, Chen, Qingshan, Zobitz, Mark, Kaufman, Kenton R, and Trousdale, Robert T

Abstract

Background: In patients with symptomatic hip impingement, surgical resection of the femoral head-neck junction may improve the range of motion and relieve pain. A risk of this procedure is fracture. We evaluated the amount of resection of the anterolateral aspect of the femoral head-neck junction that can be done safely.Methods: Cadaveric proximal femoral specimens (fifteen matched pairs) were divided into three groups: 10%, 30%, or 50% of the diameter of one femoral neck was removed, and the contralateral femoral neck was left intact to serve as the control. A compressive load was applied directly to the femoral head. Peak load, stiffness, and energy to fracture were compared among the groups.Results: The energy to fracture differed significantly (p = 0.0015) among the 10%, 30%, and 50% resection groups. The peak load after the 50% resection was significantly less (p = 0.0025) than that after the 10% or 30% resection. With the numbers available, there was no significant difference in peak load between the 10% and 30% resections.Conclusions: Resection of up to 30% of the anterolateral quadrant of the head-neck junction did not significantly alter the load-bearing capacity of the proximal part of the femur. However, a 30% resection significantly decreased the amount of energy required to produce a fracture. Thirty percent should be considered to be the greatest feasible amount of resection because of the change in the pattern of the femoral head-neck response to axial loads that we observed. [ABSTRACT FROM AUTHOR]

Published
2006

15. Chronic fatigue syndrome in children and adolescents.

Author

Oleske JM, Friedman KJ, Kaufman KR, Palumbo D, Sterling J, and Evans TL

Abstract

Objective: An overview of the unique aspects of Chronic Fatigue Syndrome in children and adolescents (CACFS) is herein provided for healthcare professionals who may be called upon to diagnose and/or treat this illness. Young age of onset, puberty, and interactions with peers and the educational system provide greater diagnostic and treatment challenges than found with adult onset CFS. Method: A review of diagnostic procedures and treatment protocols found in the contemporary literature is coupled with the professional experiences of the authors in treating CACFS to delineate the roles and responsibilities of family, healthcare providers and educators in diagnosing, treating and supporting the CACFS patient. Results: Areas discussed include: pathogenesis, patient evaluation, clinical evaluation, laboratory evaluation, treatment options, psychological issues, role of schools, and the roles of primary and tertiary care providers. Conclusion: CACFS can be diagnosed and treated with varying levels of success if all the professionals involved in the treatment program have a clear understanding of their roles and responsibilities. Primary care physicians, pediatricians, other subspecialists, family members, social workers and educators, may all be called upon to participate in the treatment program of CACFS. While it is best to have one, compassionate physician in charge of care, the CACFS may benefit from the inclusion of specialized treatment options available from or through a tertiary care provider. To the extent possible, socialization, education and psychological support of the CACFS should be provided. [ABSTRACT FROM AUTHOR]

Published
2006
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19. The 'yips' in golf: a continuum between a focal dystonia and choking.

Author

Smith AM, Adler CH, Crews D, Wharen RE, Laskowski ER, Barnes K, Bell CV, Pelz D, Brennan RD, Smith J, Sorenson MC, and Kaufman KR

Abstract

The definition of the 'yips' has evolved over time. It is defined as a motor phenomenon of involuntary movements affecting golfers. In this paper, we have extended the definition to encompass a continuum from the neurologic disorder of dystonia to the psychologic disorder of choking. In many golfers, the pathophysiology of the 'yips' is believed to be an acquired deterioration in the function of motor pathways (e.g. those involving the basal ganglia) which are exacerbated when a threshold of high stress and physiologic arousal is exceeded. In other golfers, the 'yips' seems to result from severe performance anxiety. Physically, the 'yips' is manifested by symptoms of jerks, tremors or freezing in the hands and forearms. These symptoms can result in: (i) a poor quality of golf performance (adds 4.9 strokes per 18 holes); (ii) prompt use of alcohol and beta-blockers; and (iii) contribute to attrition in golf. Golfers with the 'yips' average 75 rounds per year, although many 'yips'-affected golfers decrease their playing time or quit to avoid exposure to this embarrassing problem. While more investigation is needed to determine the cause of the 'yips', this review article summarises and organises the available research. A small study included in this paper describes the 'yips' phenomenon from the subjective experience of 'yips'-affected golfers. The subjective experience (n = 72) provides preliminary support for the hypothesis suggesting that the 'yips' is on a continuum. Based on the subjective definitions of 72 'yips'-affected golfers, the 'yips' was differentiated into type I (dystonia) and type II (choking). A theoretical model provides a guide for future research on golfers with either type I or type II 'yips'. [ABSTRACT FROM AUTHOR]

Published
2003
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20. A pilot study of the continuous glucose monitoring system: clinical decisions and glycemic control after its use in pediatric type 1 diabetic subjects.

Author

Kaufman KR, Gibson LC, Halvorson M, Carpenter S, Fisher LK, Pitukcheewanont P, Kaufman, F R, Gibson, L C, Halvorson, M, Carpenter, S, Fisher, L K, and Pitukcheewanont, P

Abstract

Objective: To determine whether the continuous glucose monitoring system (CGMS) (MiniMed, Sylmar, CA) could be used to make clinical decisions and whether it has an impact on glycemia in pediatric type 1 diabetic subjects.Research Design and Methods: Pediatric subjects were recruited if they had HbA(1c) >8.0% with management problems (n = 35) or episodes of severe or nocturnal hypoglycemia or hypoglycemia unawareness associated with HbA(1c) < or =8.0% (n = 12). A total of 47 patients with a mean HbA(1c) value of 8.6 +/- 1.6% (mean age 11.8 +/- 4.6 years, youngest 2.7 years, and diabetes duration 5.5 +/- 3.5 years) on three to four insulin injections/day (n = 24) or insulin pump therapy (n = 23) were followed with the CGMS for a mean of 69.5 +/- 28 h. Comparisons were made between the number of high (>150 mg/dl) and low (<70 mg/dl) glucose patterns discerned with the sensor or the logbook, and HbA(1c) levels were evaluated.Results: In patients on injection therapy, 30 high or low glucose patterns were discerned with the logbook records and 120 patterns with the CGMS. Specific alterations of the diabetes regimen were made. An overall significant change in HbA(1c), from 3 months before wearing the sensor to 6 months after (analysis of variance 0.04), was found in the subjects. Post hoc analysis showed a significant change in HbA(1c) from 8.6 +/- 1.5% at baseline to 8.4 +/- 1.3% at 3 months (paired Student's t test 0.03).Conclusions: The CGMS can be used by pediatric patients to detect abnormal patterns of glycemia. The information that was obtained could be used to alter the diabetes regimen and impact glycemic outcome. [ABSTRACT FROM AUTHOR]

Published
2001
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21. Fate of the ACL-injured patient: a prospective outcome study.

Author

Daniel DM, Stone ML, Dobson BE, Fithian DC, Rossman DJ, and Kaufman KR

Abstract

We followed 292 patients who had sustained an acute traumatic hemarthrosis for a mean of 64 months. The KT-1000 arthrometer measurements within 90 days of injury revealed the injured knee was stable in 56 patients and unstable in 236. Forty-five unstable patients had an ACL reconstruction within 90 days of injury. Surgical procedures performed >90 days after injury included ligament reconstruction in 46 patients. Factors that correlated with patients who had late surgery for a meniscal tear or an ACL reconstruction (P<0.05) were preinjury hours of sports participation, arthrometer measurements, and patient age. Follow-up data are presented for the patients divided into four groups: I, early stable, no reconstruction; II, early unstable, no reconstruction; III, early reconstruction; and IV, late reconstruction. No patient changed occupation because of the knee injury. Hours per year of sports participation and levels of sports participation decreased in all groups. Joint arthrosis was documented by radiograph and bone scan. Joint surface injury abnormalities observed at surgery and meniscal surgery showed greater abnormalities by radiograph and bone scan scores (P<0.05). Reconstructed patients had a higher level of arthrosis by radiograph and bone scan. [ABSTRACT FROM AUTHOR]

Published
1994
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22. Dynamic joint forces during knee isokinetic exercise.

Author

Kaufman KR, An K, Litchy WJ, Morrey BF, and Chao EYS

Abstract

This study analyzed forces in the tibiofemoral and patellofemoral joints during isokinetic exercise using an analytical biomechanical model. The results show that isokinetic exercise can produce large loads on these joints, especially during extension exercises. The tibiofemoral compressive force (4.0 body weight) is approximately equal to that obtained during walking but it occurs at 55 degrees of knee flexion. Anterior shear forces (resisting force to anterior drawer) exist during extension exercise at less than 40 degrees of knee flexion, with a maximum of 0.3 body weight. Posterior shear forces (resisting force to posterior drawer) exist during extension exercise at knee joint angles greater than 40 degrees and during the flexion portion of isokinetic exercise. The maximum posterior shear force is 1.7 body weight. The patellofemoral joint can encounter loads as high as 5.1 body weight which are 10 times higher than during straight leg raises. These results suggest that isokinetic exercise should be used cautiously in patients with knee lesions. [ABSTRACT FROM AUTHOR]

Published
1991

29. New method of measuring wrist joint position sense avoiding cutaneous and visual inputs.

Author

Gay A, Harbst K, Kaufman KR, Hansen DK, Laskowski ER, Berger RA, Gay, Andre, Harbst, Kimberly, Kaufman, Kenton R, Hansen, Diana K, Laskowski, Edward R, and Berger, Richard A

Abstract

Background: Aspects of afferent inputs, generally termed proprioception, are being increasingly studied. Extraneous factors such as cutaneous inputs can dramatically interfere while trying to design studies in order to determine the participation of the different structures involved in proprioception in the wrist position sense. We tried to determine validity and repeatability of a new wrist joint position measurement device using methodology designed to minimize extraneous factors and isolate muscle and joint inputs.Methods: In order to test the reliability of the system, eighty young-adult subjects without musculoskeletal or neurologic impairments affecting the right upper extremity were tested using a custom made motion tracking system. Testing consisted of two conditions: active reproduction of active placement and passive reproduction of passive placement. Subjects performed two repetitions of each target position (10, 20, and 30 degrees of flexion and extension) presented in a random order. Test- retest reliability was then tested.Results: The average constant error in the passive condition was -0.7 degrees +/- 4.7 degrees as compared to the active condition at 3.7 degrees +/- 5.1 degrees. Average absolute error in the passive condition was 4.9 degrees +/- 2.9 degrees compared to the active condition in which absolute error was 5.9 degrees +/- 3.5 degrees.Discussion: Test-retest repeatability in both conditions was less than the 5 degrees magnitude typical of clinical goniometry. Errors in the active condition (less than 2 degrees ) were slightly smaller than the passive condition, and the passive condition was also associated with poorer consistency between apparatus sensors and skin sensors.Conclusions: The current system for measurement of wrist joint proprioception allows the researcher to decrease extraneous influences that may affect joint position sense awareness, and will help in future study aiming to determine precisely the role of the different structure involved in proprioception. [ABSTRACT FROM AUTHOR]

Published
2010
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31. Significant reduction in risk of falls and back pain in osteoporotic-kyphotic women through a spinal proprioceptive extension exercise dynamic (SPEED) program.

Author

Sinaki M, Brey RH, Hughes CA, Larson DR, and Kaufman KR

Abstract

OBJECTIVE: To determine the outcome of intervention with a spinal weighted kypho-orthosis (WKO) and a spinal proprioceptive extension exercise dynamic (SPEED) program on the risk of falls in ambulatory community-dwelling persons older than 60 years with osteoporosis-kyphosis at risk for falls. SUBJECTS AND METHODS: The study had 3 stages. At stage 1 (baseline), the 12 women in the kyphotic group were compared with 13 healthy controls to assess the risk of falls and balance disorder in the kyphotic group. At stage 2, the 12 kyphotic women began the SPEED program with a WKO (2 supervised sessions in an outpatient clinic and a 4-week, daily home-based training program). At stage 3, baseline and follow-up data of the kyphotic group were compared to determine the effect of intervention. RESULTS: At baseline, there were significant differences between the osteoporotic-kyphotic group and the control group in balance (P=.002), gait (P<.05), and strength (P<.05). After a 4-week intervention, comparison of the kyphotic group's baseline and follow-up results showed a significant change in balance (P=.003) and several gait parameters (P<.05). Mean back extensor strength improved significantly from baseline (144.0-46.5 N) to follow-up (198.6+/-55.2 N; P<.001). Lower extremity muscle strength was not changed significantly, except for improved left ankle plantar flexors (P=.02). Back pain decreased significantly (P=.001). CONCLUSION: Balance, gait, and risk of falls improved significantly with the 4-week SPEED program. [ABSTRACT FROM AUTHOR]

Published
2005

32. The effect of seat position on wheelchair propulsion biomechanics.

Author

Kotajarvi BR, Sabick MB, An K, Zhao KD, Kaufman KR, and Basford JR

Abstract

This study examined the effect of seat position on handrim biomechanics. Thirteen experienced users propelled a wheelchair over a smooth level floor at a self-selected speed. Kinetic and temporal-distance data were collected with the use of an instrumented rim and a motion analysis system. A custom-designed axle was used to change the seat position. We used repeated measures analysis of variance to evaluate if differences existed in the temporal-distance and kinetic data with change in seat position. Results showed that a shorter distance between the axle and shoulder (low seat height) improved the push time and push angle temporal variables (p < 0.0001). Tangential force output did not change with seat position. Axial and radial forces were highest in the lowest seat position (p < 0.001). Propulsion efficiency as measured by the fraction of effective force did not significantly change with seat position. [ABSTRACT FROM AUTHOR]

Published
2004
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35. Age-related changes in gait, balance, and strength parameters: A cross-sectional study.

Author

Rezaei A, Bhat SG, Cheng CH, Pignolo RJ, Lu L, and Kaufman KR

Subjects
Humans, Female, Male, Cross-Sectional Studies, Middle Aged, Aged, Hand Strength physiology, Muscle Strength physiology, Aged, 80 and over, Postural Balance physiology, Gait physiology, Aging physiology
Abstract

Background: Longevity is increasing worldwide due to improvements in healthcare and living standards. Aging is often associated with disability and multiple health concerns. To address these challenges, effective interventions are essential. This study investigated potential age-related declines in gait, balance, and strength. We also sought to assess any relationships between these three parameters and explore potential differences between women and men., Methods: Healthy individuals over 50 years of age were recruited for this cross-sectional study. Upper extremity (grip) strength and lower extremity (knee) strength of the dominant side were measured. Static balance was performed on the force plate in different situations each for 30 seconds: bilateral stance with eyes open, bilateral stance with eyes closed, as well as dominant leg and non-dominant leg unilateral stance with eyes open. Gait was measured during level walking using an optical motion capture system. Additionally, the dynamic stability margin (DSM) was calculated for the level walking trials., Results: The study results indicated that gait parameters were not significantly affected by age (p≥0.12), while knee and grip strength, along with several balance parameters, showed a significant decline with age. All individuals were able to maintain their bipedal balance, but their center of pressure movement increased significantly by age (p≤0.028). Z-scores were calculated to compare significant age parameters. Unipedal stance time was found to be the most affected by age compared to other contributing factors (p≤0.001). The duration of unipedal balance showed the most significant change per decade (non-dominant: -0.62 SDs; dominant: -0.53 SDs), while strength measures exhibited the lowest amount of change per decade (grip strength: -0.34 SDs; knee strength: -0.26 SDs). Sex differences were observed exclusively in strength parameters, with no discernible impact on the decline in balance parameters., Conclusions: These findings suggest that the duration of unipedal stance can serve as a reliable and gender-independent measure of neuromuscular aging for both elderly male and female subjects., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Rezaei et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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36. Specific tension of human muscle in vivo: a systematic review.

Author

Persad LS, Wang Z, Pino PA, Binder-Markey BI, Kaufman KR, and Lieber RL

Subjects
Humans, Biomechanical Phenomena physiology, Muscle Contraction physiology, Muscle Tonus physiology, Tendons physiology, Torque, Muscle, Skeletal physiology
Abstract

The intrinsic force production capability of human muscle can be expressed as "Specific Tension," or, the maximum force generated per cross-sectional area of muscle fibers. This value can be used to determine, for example, whether muscle quality changes during exercise, atrophy, disease, or hypertrophy. A value of 22.5 N/cm 2 for mammalian muscle has generally become accepted based on detailed studies of small mammals. Determining the specific tension of human muscle is much more challenging as almost all determinations are indirect. Calculation of human muscle specific tension requires an understanding of that muscle's contribution to joint torque, its activation magnitude, tendon compliance, and joint moment arm. Determining any of these parameters is technically challenging in humans and thus, it is no surprise that human specific tension values reported vary from 2 to 73 N/cm 2 . In this systematic review, we screened 1,506 published papers and identified the 30 studies published between 1983 and 2023 that used appropriate methods and which reported 96 human specific tension values. We weighted each parameter based on whether it was directly measured, estimated, or calculated based on the literature, with decreasing weighting used, the more indirect the methods. Based on this exhaustive review of the relevant human literature, we suggest that the most accurate value that should be used for human muscle specific tension is 26.8 N/cm 2 .

Published
2024
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37. Dynamical systems theory applied to short walking trials.

Author

Bhat SG and Kaufman KR

Abstract

Human walking is an extremely complex neuromuscular activity whose simplicity disappears when an attempt is made to provide a quantitative description of the process. The dynamical systems theory provides a framework for analyzing the stability and chaotic nature of dynamical systems, employing Floquet multipliers (FM) and long and short-term Lyapunov exponents (LE), respectively. This report compares FM and LE from three methods: method A (false nearest neighbors and numerical approximation), method B (false nearest neighbors and semi-analytical technique) and method C (singular value decomposition and semi-analytical technique). Data from 33 healthy older adults with no history of falls were used to explain the dynamic system. A surrogate center of mass trajectory was calculated for the analysis of sway in the transverse plane. Results revealed methodological differences in LE and FM calculations with semi-analytical solutions providing closer approximations to observed gait behavior. The long-term LE from Methods A and B were similar, but other LE pairings differed. Method A's short-term LE indicated chaotic gaits for all subjects, while long-term LE from Methods A and B indicated chaos for half the subjects. Method C showed non-chaotic gait for most subjects. Method B's FM indicated over 30% of subjects had unstable gait. Method C yielded values of LE and FM that most closely matched the subjects' gait patterns. This study offers a methodological foundation for gait analysis using short time-series data, facilitating deeper insights into both stability and chaos within gait dynamics., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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38. Design and Development of a Powered Myoelectric Elbow Orthosis for Neuromuscular Injuries.

Author

Vignola C, Bhat SG, Hollander K, Kane P, Miller E, Martin WB, Shin AY, Sugar TG, and Kaufman KR

Subjects
Humans, Neuromuscular Diseases physiopathology, Neuromuscular Diseases rehabilitation, Elbow Joint physiopathology, Elbow Joint physiology, Elbow physiopathology, Orthotic Devices standards, Equipment Design standards
Abstract

Introduction: Recovering from neuromuscular injuries or conditions can be a challenging journey that involves complex surgeries and extensive physical rehabilitation. During this process, individuals often rely on orthotic devices to support and enable movement of the affected limb. However, users have criticized current commercially available powered orthotic devices for their bulky and heavy design. To address these limitations, we developed a novel powered myoelectric elbow orthosis., Materials and Methods: The orthosis incorporates 3 mechanisms: a solenoid brake, a Bowden cable-powered constant torque elbow mechanism, and an extension limiter. The device controller and battery are in a backpack to reduce the weight on the affected arm. We performed extensive calculations and testing to ensure that the orthosis could withstand at least 15 Nm of elbow torque. We developed a custom software effectively control the orthosis, enhancing its usability and functionality. A certified orthotist fitted a subject who had undergone a gracilis free functioning muscle transfer surgery with the device. We studied the subject under Mayo clinic IRB no. 20-006849 and obtained objective measurements to assess the orthosis's impact on upper extremity functionality during daily activities., Results: The results are promising since the orthosis significantly improved elbow flexion range of motion by 40° and reduced compensatory movements at the shoulder (humerothoracic joint) by 50°. Additionally, the subject was able to perform tasks which were not possible before, such as carrying a basket with weights, highlighting the enhanced functionality provided by the orthosis., Conclusion: In brief, by addressing the limitations of existing devices, this novel powered myoelectric elbow orthosis offers individuals with neuromuscular injuries/conditions improved quality of life. Further research will expand the patient population and control mechanisms., (© The Association of Military Surgeons of the United States 2024. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site–for further information please contact journals.permissions@oup.com.)

Published
2024
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39. Creation of a Limb Loss and Preservation Registry for Improving the Quality of Patient Care in the United States.

Author

Kaufman KR, Bernhardt K, Murphy S, Archer M, Brandt JM, Bowman L, and Phillips B

Abstract

Objective: To describe the development of a national Limb Loss and Preservation Registry (LLPR) designed to collect, standardize, and report patient outcomes data on limb loss and limb difference in the United States., Design: Clinical Data Registry., Setting: The LLPR was developed through consensus of key stakeholders from academia, industry, patient advocacy, and payers as well as the available scientific evidence. Data are collected from multiple sources, including hospitals, providers, and patients., Participants: Data are collected from all 50 states., Interventions: Not applicable., Main Outcome Measures: More than 1100 trigger codes are used to identify patients who have limb difference or have received a limb preservation or amputation procedure. Once a patient is identified, all subsequent episodes of care are collected for the life of the patient. An integrated model is used for collecting, validating, cleaning, transforming, aggregating, and storing the data received from all sources. The information contained is then provided in a thorough and easily comprehensible manner., Results: To date, the LLPR has captured data from >435,000 patients and >11.5 million episodes of care., Conclusions: The LLPR creates opportunities to apply large-data analytical methodologies to provides caregivers, researchers, manufacturers, payers, and policy makers the tools needed to improve the quality of clinical care, quantify patient-centric outcomes, develop clinical practice guidelines, assess patient quality of life, identify appropriate technology, and guide creation of national policies to allocate scarce sources appropriately., Competing Interests: None., (© 2024 The Authors.)

Published
2024
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40. Validation of Pelvis and Trunk Range of Motion as Assessed Using Inertial Measurement Units.

Author

Ali F, Hogen CA, Miller EJ, and Kaufman KR

Abstract

Trunk and pelvis range of motion (ROM) is essential to perform activities of daily living. The ROM may become limited with aging or with neuromusculoskeletal disorders. Inertial measurement units (IMU) with out-of-the box software solutions are increasingly being used to assess motion. We hypothesize that the accuracy (validity) and reliability (consistency) of the trunk and pelvis ROM during steady-state gait in normal individuals as measured using the Opal APDM 6 sensor IMU system and calculated using Mobility Lab version 4 software will be comparable to a gold-standard optoelectric motion capture system. Thirteen healthy young adults participated in the study. Trunk ROM, measured using the IMU was within 5-7 degrees of the motion capture system for all three planes and within 10 degrees for pelvis ROM. We also used a triad of markers mounted on the sternum and sacrum IMU for a head-to-head comparison of trunk and pelvis ROM. The IMU measurements were within 5-10 degrees of the triad. A greater variability of ROM measurements was seen for the pelvis in the transverse plane. IMUs and their custom software provide a valid and reliable measurement for trunk and pelvis ROM in normal individuals, and important considerations for future applications are discussed.

Published
2024
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41. Mechanical Method for Rapid Determination of Step Count Sensor Settings.

Author

Lundell S and Kaufman KR

Abstract

With the increased push for personalized medicine, researchers and clinicians have begun exploring the use of wearable sensors to track patient activity. These sensors typically prioritize device life over robust onboard analysis, which results in lower accuracies in step count, particularly at lower cadences. To optimize the accuracy of activity-monitoring devices, particularly at slower walking speeds, proven methods must be established to identify suitable settings in a controlled and repeatable manner prior to human validation trials. Currently, there are no methods for optimizing these low-power wearable sensor settings prior to human validation, which requires manual counting for in-laboratory participants and is limited by time and the cadences that can be tested. This article proposes a novel method for determining sensor step counting accuracy prior to human validation trials by using a mechanical camshaft actuator that produces continuous steps. Sensor error was identified across a representative subspace of possible sensor setting combinations at cadences ranging from 30 steps/min to 110 steps/min. These true errors were then used to train a multivariate polynomial regression to model errors across all possible setting combinations and cadences. The resulting model predicted errors with an R 2 of 0.8 and root-mean-square error (RMSE) of 0.044 across all setting combinations. An optimization algorithm was then used to determine the combinations of settings that produced the lowest RMSE and median error for three ranges of cadence that represent disabled low-mobility ambulators, disabled high-mobility ambulators, and healthy ambulators (30-60, 20-90, and 30-110 steps/min, respectively). The model identified six setting combinations for each range of interest that achieved a ±10% error in cadence prior to human validation. The anticipated range of errors from the optimized settings at lower walking speeds are lower than the reported errors of wearable sensors (±30%), suggesting that pre-human-validation optimization of sensors may decrease errors at lower cadences. This method provides a novel and efficient approach to optimizing the accuracy of wearable activity monitors prior to human validation trials.

Published
2024
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42. Fall Prevention Training for Service Members With an Amputation or Limb Salvage Following Lower Extremity Trauma.

Author

Kaufman KR, Miller EJ, Deml CM, Sheehan RC, Grabiner MD, Wyatt M, Zai CZ, Kingsbury T, Tullos ML, Acasio JC, Mahon CE, Hendershot BD, and Dearth CL

Subjects
Humans, Male, Adult, Female, Postural Balance physiology, Leg Injuries surgery, Leg Injuries prevention & control, Accidental Falls prevention & control, Accidental Falls statistics & numerical data, Amputation, Surgical methods, Amputation, Surgical statistics & numerical data, Military Personnel statistics & numerical data, Limb Salvage methods, Limb Salvage statistics & numerical data, Lower Extremity injuries, Lower Extremity physiopathology
Abstract

Introduction: Recent military conflicts have resulted in a significant number of lower extremity injuries to U.S. service members that result in amputation or limb preservation (LP) procedures. Service members receiving these procedures report a high prevalence and deleterious consequences of falls. Very little research exists to improve balance and reduce falls, especially among young active populations such as service members with LP or limb loss. To address this research gap, we evaluated the success of a fall prevention training program for service members with lower extremity trauma by (1) measuring fall rates, (2) quantifying improvements in trunk control, and (3) determining skill retention at 3 and 6 months after training., Materials and Methods: Forty-five participants (40 males, mean [±SD] age, 34 ± 8 years) with lower extremity trauma (20 with unilateral transtibial amputation, 6 with unilateral transfemoral amputation, 5 with bilateral transtibial amputation, and 14 with unilateral LP procedures) were enrolled. A microprocessor-controlled treadmill was used to produce task-specific postural perturbations which simulated a trip. The training was conducted over a 2-week period and consisted of six 30-minute sessions. The task difficulty was increased as the participant's ability progressed. The effectiveness of the training program was assessed by collecting data before training (baseline; repeated twice), immediately after training (0 month), and at 3 and 6 months post-training. Training effectiveness was quantified by participant-reported falls in the free-living environment before and after training. Perturbation-induced recovery step trunk flexion angle and velocity was also collected., Results: Participants reported reduced falls and improved balance confidence in the free-living environment following the training. Repeated testing before training revealed that there were no pre-training differences in trunk control. The training program improved trunk control following training, and these skills were retained at 3 and 6 months after training., Conclusion: This study showed that task-specific fall prevention training reduced falls across a cohort of service members with diverse types of amputations and LP procedures following lower extremity trauma. Importantly, the clinical outcome of this effort (i.e., reduced falls and improved balance confidence) can lead to increased participation in occupational, recreational, and social activities and thus improved quality of life., (© The Association of Military Surgeons of the United States 2023. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2024
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43. Protecting and promoting editorial independence.

Author

Bhui K, O'Brien A, Upthegrove R, Tsai AC, Soomro M, Newton-Howes G, Broome MR, Forrester A, Casey P, Doherty AM, Lee W, and Kaufman KR

Abstract

We argue that editorial independence, through robust practice of publication ethics and research integrity, promotes good science and prevents bad science. We elucidate the concept of research integrity, and then discuss the dimensions of editorial independence. Best practice guidelines exist, but compliance with these guidelines varies. Therefore, we make recommendations for protecting and strengthening editorial independence.

Published
2024
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44. Wrist Motion Assessment in Tennis Players using Three-Dimensional Motion Capture and Dynamic Electromyography.

Author

Israel JS, Loushin SR, Tetzloff SU, Ellenbecker T, Kaufman KR, and Kakar S

Abstract

Background  Tennis players often present with ulnar-sided wrist pain, which may reflect repetitive stress and/or faulty mechanics. There is a role for investigating the biomechanics of tennis strokes and how they may relate to wrist pathology. The purpose of this study was to investigate whether three-dimensional motion capture technology and dynamic electromyography (EMG), when used to study groundstrokes in elite junior tennis players, reveals patterns of upper extremity motion that may correlate with the development of clinically relevant pathology. Case Description  Three-dimensional kinematic and EMG data were collected from two United States Tennis Association-ranked adolescent tennis players during groundstrokes. There were several observed differences in the two players' degree and timing of pronation/supination, ulnar/radial deviation, and flexion/extension during their strokes. Clinical Significance  Advanced motion capture technology facilitates a nuanced understanding of complex movements involved in groundstroke production. This methodology may be useful for identifying athletes who are at risk for injury and guiding rehabilitation for players experiencing pain. Level of Evidence  IV., Competing Interests: Conflict of Interest None declared., (Thieme. All rights reserved.)

Published
2023
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45. Upper extremity asymmetry due to nerve injuries or central neurologic conditions: a scoping review.

Author

Bhat SG, Shin AY, and Kaufman KR

Subjects
Humans, Upper Extremity, Peripheral Nerve Injuries, Cerebral Palsy, Spinal Cord Injuries, Stroke
Abstract

Background: Peripheral nerve injuries and central neurologic conditions can result in extensive disabilities. In cases with unilateral impairment, assessing the asymmetry between the upper extremity has been used to assess outcomes of treatment and severity of injury. A wide variety of validated and novel tests and sensors have been utilized to determine the upper extremity asymmetry. The purpose of this article is to review the literature and define the current state of the art for describing upper extremity asymmetry in patients with peripheral nerve injuries or central neurologic conditions., Method: An electronic literature search of PubMed, Scopus, Web of Science, OVID was performed for publications between 2000 to 2022. Eligibility criteria were subjects with neurological conditions/injuries who were analyzed for dissimilarities in use between the upper extremities. Data related to study population, target condition/injury, types of tests performed, sensors used, real-world data collection, outcome measures of interest, and results of the study were extracted. Sackett's Level of Evidence was used to judge the quality of the articles., Results: Of the 7281 unique articles, 112 articles met the inclusion criteria for the review. Eight target conditions/injuries were identified (Brachial Plexus Injury, Cerebral Palsy, Multiple Sclerosis, Parkinson's Disease, Peripheral Nerve Injury, Spinal Cord Injury, Schizophrenia, and stroke). The tests performed were classified into thirteen categories based on the nature of the test and data collected. The general results related to upper extremity asymmetry were listed for all the reviewed articles. Stroke was the most studied condition, followed by cerebral palsy, with kinematics and strength measurement tests being the most frequently used tests. Studies with a level of evidence level II and III increased between 2000 and 2021. The use of real-world evidence-based data, and objective data collection tests also increased in the same period., Conclusion: Adequately powered randomized controlled trials should be used to study upper extremity asymmetry. Neurological conditions other than stroke should be studied further. Upper extremity asymmetry should be measured using objective outcome measures like motion tracking and activity monitoring in the patient's daily living environment., (© 2023. The Author(s).)

Published
2023
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46. Outcome of bracing vs. surgical treatment in adolescents with idiopathic scoliosis based on device measured daily physical activity: a prospective pilot study.

Author

Chopra S, Larson AN, Milbrandt TA, and Kaufman KR

Subjects
Humans, Adolescent, Prospective Studies, Pilot Projects, Exercise, Treatment Outcome, Scoliosis surgery, Kyphosis
Abstract

Adolescent idiopathic scoliosis (AIS) can be treated with bracing or surgery, which may affect patient's physical activity (PA). However, there are limited objective assessments of PA in patients with AIS. This study aims to compare the outcome of spinal bracing vs. surgery in patients with AIS based on a device that measured daily PA. In total 24 patients with AIS participated, including 12 patients treated with bracing and 12 with spinal surgery. Daily PA was measured throughout 4 consecutive days using four tri-axial accelerometers and patient-reported functional status was reported using the SRS-22 questionnaire. The participants were assessed both before the treatment and after treatment at a 12-month follow-up. Patients with AIS had no significant change in their PA levels at the 12-month follow-up after surgical correction. On the contrary, patients with AIS following a year-long bracing treatment had significantly reduced time spent active ( P  = 0.04) with an average reduction in walking steps by 2137 steps/day ( P  = 0.005). There was no significant difference in function, pain, self-image and mental health domains following both treatments, as reported by the SRS-22. There was a significant improvement in satisfaction for both treatment groups ( P  ≤ 0.02). Significantly reduced PA and increased sedentary time are reported in patients with AIS following bracing treatment. An objective PA assessment is recommended to track the effect of scoliosis treatment on PA. Patients with AIS should be actively encouraged to achieve and maintain their recommended daily PA levels irrespective of the type of treatment. Level of evidence: Level II., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2023
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47. American Society of Biomechanics Journal of Biomechanics Award 2022: Computer models do not accurately predict human muscle passive muscle force and fiber length: Evaluating subject-specific modeling impact on musculoskeletal model predictions.

Author

Persad LS, Binder-Markey BI, Shin AY, Lieber RL, and Kaufman KR

Subjects
Humans, Biomechanical Phenomena, Tendons physiology, Computer Simulation, Muscle, Skeletal physiology, Models, Biological
Abstract

Musculoskeletal models are valuable for studying and understanding the human body in a variety of clinical applications that include surgical planning, injury prevention, and prosthetic design. Subject-specific models have proven to be more accurate and useful compared to generic models. Nevertheless, it is important to validate all models when possible. To this end, gracilis muscle-tendon parameters were directly measured intraoperatively and used to test model predictions. The aim of this study was to evaluate the benefits and limitations of systematically incorporating subject-specific variables into muscle models used to predict passive force and fiber length. The results showed that incorporating subject-specific values generally reduced errors, although significant errors still existed. Optimization of the modeling parameter "tendon slack length" was explored in two cases: minimizing fiber length error and minimizing passive force error. The results showed that using all subject-specific values yielded the most favorable outcome in both models and optimization cases. However, the trade-off between fiber length error and passive force error will depend on the specific circumstances and research objectives due to significant individual errors. Notably, individual fiber length and passive force errors were as high as 20% and 37% respectively. Finally, the modeling parameter "tendon slack length" did not correlate with any real-world anatomical length., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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48. Muscle activation for targeted elbow force production following surgical reconstruction in adults with brachial plexus injury.

Author

Bhat SG, Miller EJ, Shin AY, and Kaufman KR

Subjects
Humans, Adult, Elbow surgery, Muscle, Skeletal, Range of Motion, Articular physiology, Treatment Outcome, Retrospective Studies, Brachial Plexus surgery, Brachial Plexus injuries, Elbow Joint surgery, Elbow Joint physiology, Brachial Plexus Neuropathies surgery
Abstract

Nerve transfer or grafting surgery to restore elbow flexion in peripheral nerve injuries has been an effective technique, but alters neuromuscular control compared with healthy individuals. This study compared neuromuscular control in the elbow flexors of 11 unimpaired control subjects and 11 adult patients with traumatic brachial plexus injury who underwent a nerve transfer or grafting procedure to the biceps motor branch to restore elbow flexion. The subjects performed a series of trials to generate a specific percentage of their maximum elbow torque. Each trial had an increasing and decreasing stairstep torque pattern that the subjects were asked to match. The amount of time that the subject's elbow torque was maintained within 5% of the target torque was calculated. The hypothesis was that there was a significant difference in the neuromuscular control between the two groups during elbow isometric torque generation. A secondary hypothesis was that a relationship existed between the neuromuscular control and the torque level for each group. The results demonstrated that neuromuscular control was different between the groups and there were significant differences in how torque levels are generated. The control group more easily modulated their myoelectric activation and achieved greater neuromuscular control variability with varying torque demand. The nerve transfer or grafting group could not modulate their myoelectric activation with changing torque demands. Further studies focusing on the improvement of neuromuscular control are needed to optimize functional outcomes in nerve injury patients., (© 2023 Orthopaedic Research Society. Published by Wiley Periodicals LLC.)

Published
2023
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49. Optimal Distal Tendon Insertion Point for Elbow Flexion in Free-Functioning Gracilis Muscle Transfer for Panbrachial Plexus Injuries: A Cadaveric Study.

Author

Persad LS, Wu KY, Hooke AW, Lieber RL, Shin AY, and Kaufman KR

Abstract

Purpose: Following pan-brachial plexus injuries, restoration of elbow flexion is widely accepted as the reconstructive priority. A gracilis free functioning muscle transfer (FFMT) can be used to restore elbow flexion alone with insertion into the biceps brachii (BIC) or brachioradialis (BRD) tendons or restore combined elbow and finger flexion with a more distal insertion into the flexor digitorum profundus (FDP) tendons. Using cadaveric experiments, we determined the peak instantaneous moment arm for each insertion option., Methods: Six simulated gracilis transfer surgeries were performed using both arms of three fresh-frozen full body cadaveric specimens (age: 79 + 10 years. 2 female). The gracilis muscles from both legs were harvested and transferred to the contralateral upper extremity. The elbow was manually moved through three flexion-extension cycles while the instantaneous moment arm was calculated from measurements of gracilis excursion and elbow joint angle for the three distal insertion sites., Results: Peak instantaneous moment arm for all three insertions occurred at an elbow angle between 83° to 92° with a magnitude ranging from 33 mm to 54 mm. The more distal (FDP/BRD) insertions produced a significantly greater (∼1.5 times) peak elbow flexion instantaneous moment arm compared to the BIC insertion., Conclusions: Based on the instantaneous moment arm, the gracilis FFMT distal insertion locations could result in greater reconstructed elbow flexion strength. In addition, direct measurement of the shape and magnitude of the moment arm curve for differing insertion sites allows high resolution surgical planning and model testing., Clinical Relevance: This study presents the first direct experimental quantification of the gracilis FFMT instantaneous moment arm. The experimental evidence supports the use of FDP/BRD insertion locations by providing a quantitative explanation for the increased elbow flexion torque observed clinically in patients with a gracilis FFMT and distal FDP insertion., (Copyright © 2023 American Society for Surgery of the Hand. Published by Elsevier Inc. All rights reserved.)

Published
2023
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50. Direct intraoperative measurement of isometric contractile properties in living human muscle.

Author

Binder-Markey BI, Persad LS, Shin AY, Litchy WJ, Kaufman KR, and Lieber RL

Subjects
Humans, Animals, Elbow, Biomechanical Phenomena, Muscle, Skeletal physiology, Muscle Fibers, Skeletal physiology, Isometric Contraction
Abstract

Skeletal muscle's isometric contractile properties are one of the classic structure-function relationships in all of biology allowing for extrapolation of single fibre mechanical properties to whole muscle properties based on the muscle's optimal fibre length and physiological cross-sectional area (PCSA). However, this relationship has only been validated in small animals and then extrapolated to human muscles, which are much larger in terms of length and PCSA. The present study aimed to measure directly the in situ properties and function of the human gracilis muscle to validate this relationship. We leveraged a unique surgical technique in which a human gracilis muscle is transferred from the thigh to the arm, restoring elbow flexion after brachial plexus injury. During this surgery, we directly measured subject specific gracilis muscle force-length relationship in situ and properties ex vivo. Each subject's optimal fibre length was calculated from their muscle's length-tension properties. Each subject's PCSA was calculated from their muscle volume and optimal fibre length. From these experimental data, we established a human muscle fibre-specific tension of 171 kPa. We also determined that average gracilis optimal fibre length is 12.9 cm. Using this subject-specific fibre length, we observed an excellent fit between experimental and theorical active length-tension curves. However, these fibre lengths were about half of the previously reported optimal fascicle lengths of 23 cm. Thus, the long gracilis muscle appears to be composed of relatively short fibres acting in parallel that may not have been appreciated based on traditional anatomical methods. KEY POINTS: Skeletal muscle's isometric contractile properties represent one of the classic structure-function relationships in all of biology and allow scaling single fibre mechanical properties to whole muscle properties based on the muscle's architecture. This physiological relationship has only been validated in small animals but is often extrapolated to human muscles, which are orders of magnitude larger. We leverage a unique surgical technique in which a human gracilis muscle is transplanted from the thigh to the arm to restore elbow flexion after brachial plexus injury, aiming to directly measure muscles properties in situ and test directly the architectural scaling predictions. Using these direct measurements, we establish human muscle fibre-specific tension of ∼170 kPa. Furthermore, we show that the gracilis muscle actually functions as a muscle with relatively short fibres acting in parallel vs. long fibres as previously assumed based on traditional anatomical models., (© 2023 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published
2023
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