A case of dystrophic epidermolysis bullosa: surgical treatment for hand contracture using abdominal skin flap

OBJECTIVE: To describe a new method for measuring lateral neck flexion range of motion (ROM), document the reliability of the method and present estimates of normal. SUBJECTS: One hundred thirty-five subjects ranging in age from 14-95 yr. Two physical therapists with 13 and 2 yr of experience, respectively, served as testers. INTERVENTION: Measurement of active lateral neck flexion ROM using a universal goniometer modified by the placement of a portion of a small paper clip through the axis. The goniometer arms were aligned with the subject's nose, and the free-swinging paper clip (pendulum) was used as a marker. The more experienced therapist measured lateral flexion of 100 subjects to establish intratester reliability and estimates of normal. Both therapists measured 35 subjects to determine intertester reliability. MAIN OUTCOME MEASURE: Degrees of lateral neck flexion. RESULTS: Intraclass correlation coefficients for intratester reliability exceeded 0.90. Coefficients for intertester reliability were 0.86 and 0.65. ROM decreased with increasing age. CONCLUSION: The modified goniometer is inexpensive, easy to use and can yield high intratester reliability and satisfactory intertester reliability. The estimates of normal provide preliminary values with which a patient's lateral neck flexion ROM can be compared.     

Measurements of scapular position and rotation: a reliability study

Smooth motion of the scapula and humerus with respect to the thorax is essential for shoulder function and abnormalities may indicate clinical entities. Recent studies have made an attempt to devise simple, practical means of quantifying scapular position. The aim of this study was to examine the intra-tester and inter-tester reliability of two methods and to determine if significant differences existed between the dominant versus non-dominant extremity. Seventeen healthy volunteers (4 M; 13 F) were examined by two testers. The tape measurements consisted of the classic methods of Kibler and DiVeta in three sitting postures, expanded by the measurement of the linear distance from the medial border to the thoracic mid-line, and the scapular size measure. The SAS software package was used for data analysis. The Intraclass Correlation Coefficient (ICC) intra-tester reliability ranged between 0.96-0.8 for both methods without significant differences, whereas the ICC for inter-tester reliability ranged between 0.42-0.9 with higher values (moderate and good) for the Kibler technique. In the additional tests high values were also obtained for ICC intra-tester, except for the measurements of the linear distance of the medial border of the scapula to the thoracic mid-line and the distance of the inferior process of the acromion to the third vertebra, both in 90 degrees abduction and internal rotation. The ICC for inter-tester was only acceptable for the DiVeta measurement on 45 degrees abduction. Significant differences were noted between both testers on the following measures: Kibler in 45 degrees abduction, DiVeta in 45 degrees abduction and 90 degrees abduction and the scapular size measure. The comparison of dominant versus non-dominant extremity revealed larger but not significantly different means for the dominant extremity in the classic methods. Significant differences occurred for Tester 1 in the measurement of the distance of the medial border to the thoracic mid-line and Tester 2 in DiVita in 45 degrees abduction. The SEM values never exceeded 1 cm. We believe that the Kibler technique holds promise for further studies, has the advantage of measuring in three positions and with some familiarisation can be reliable. Further research is necessary in patients with pathological conditions.     

Stretchability of the rectus femoris muscle: investigation of validity and intratester reliability of two methods including X-ray analysis of pelvic tilt

Validity and intratester reliability of two test methods designed to identify stretchability of the rectus femoris muscle (RFM) was investigated, combined with x-ray analysis of pelvic tilt in the sagittal plane. The first method is commonly used in clinical practice. The second is a new technique supposed to tilt the pelvis posteriorly and thus further separate the origin and insertion of the muscle. Investigation of validity and intratester reliability of the two methods was made by testing and retesting a random sample of 71 persons. The tests were performed with an equipment that automatically recorded the angle of knee flexion from a previously determined applied torque, indicating the end point of motion for that particular subject. Angle of knee flexion and subjective estimation of pain sensation due to stretch were recorded at each measurement. The pelvic tilt-analysis consisted of test-retest reliability of x-ray measurements, comparison between the methods in both starting and final position, and x-ray and electronic goniometer measurements. All applied torques were measured with a strain gauge. Two out of three criteria of validity favored the new method and the third pointed out the two methods as equal. The two methods as well as the x-ray measurements showed high reliability, and the hypothesis of a more posterior tilted pelvis in the new method was confirmed. The electronic goniometer was less sensitive than x-ray, but proposed to analyse pelvic tilt clinically. Methodology procedures for joint angle measurements are discussed.     

Serratus anterior dysfunction. Recognition and treatment

Recognition of scapular winging may be difficult, and potential errors in treatment can result. Such treatment errors may cause morbidity for the patient. In addition, electrical evidence of long thoracic nerve injury usually is required to confirm the etiology of scapular winging as being caused by serratus anterior dysfunction. Although various conditions may result in scapular winging, primary serratus anterior dysfunction can be treated effectively by transfer of the pectoralis major tendon; however, this surgical approach sometimes may given an unacceptable cosmesis, and there may be local morbidity to the donor site of the iliotibial band graft that is used to augment the tendon transfer. The authors report eight patients with primary chronic scapulothoracic winging refractory to conservative treatment. Five of these patients had an incorrect diagnosis, and this resulted in 17 surgical procedures without resolution of their pain or improvement of function. Of the eight patients who required additional surgery to stabilize the scapula, only five patients had an electromyographic study that showed long thoracic nerve palsy, although all patients had profound scapulothoracic winging. All patients underwent a modified pectoralis major transfer with autogenous semitendinosus and gracilis tendon augmentation using two small incisions. Although one patient had a postoperative infection develop, the remaining seven patients had resolution of their winging, improved function, and satisfactory cosmesis.     

Induction chemotherapy, surgery, and concomitant chemoradiotherapy for carcinoma of the esophagus: a long-term analysis

OBJECTIVE: To examine intrarater reliability in measurements of active range of motion and passive range of motion of shoulder flexion and abduction when motions are assessed in sitting, as compared with supine. DESIGN: Thirty adult subjects were measured eight times, in random order, for each of the two shoulder motions: two passive and two active measurements while sitting, and two passive and two active measurements while supine. Data were analyzed to determine intraclass correlation coefficients (ICCs) and paired t values between trials 1 and 2 for measurements in the same position, and between sitting and supine trials for each type of measurement. SETTINGS: Rehabilitation facility and university. STUDY POPULATION: Volunteer sample: 11 rehabilitation inpatients; 19 university students. RESULTS: ICCs between trials 1 and 2 on comparable measurements in the same position indicated high intrarater reliability for active and passive measurements, regardless of testing position. ICCs between comparable measurements in the two testing positions indicated only a moderate level of agreement. Paired t tests between comparable readings taken in sitting versus supine revealed no significant differences for flexion, but significantly higher measurements of abduction when testing in the supine position. CONCLUSIONS: Measurements in sitting or supine yield similarly high intrarater reliability. Lowered reliability between measurements taken in different positions indicates that test position should be routinely recorded, and repeated clinical measures of individual subjects should be administered in a consistent position.     

Reliability of F-scan in-shoe measurements of plantar pressure

Research by our group and others indicates that many amputations of the lower limb occur after foot ulceration in patients with diabetes. It has been proposed that diabetic foot ulcers are mainly caused by repetitive trauma in areas of high plantar pressure during walking. Recent technology permits in-shoe measurement of plantar pressure. We assessed the reliability of the F-Scan in-shoe system for measurement of plantar pressure (Tekscan Inc., Boston, MA) in 51 subjects from a cohort of 977 diabetic veterans enrolled in a prospective study of risk factors for foot ulceration and amputation (the Seattle Diabetic Foot Study). Subjects were tested twice, wearing their own shoes. We used the coefficient of variation (CV) and the intra-class correlation coefficient (ICC) to estimate the reliability of F-Scan measurements of pressure. Peak pressure over the metatarsal heads proved to have the best indices of reliability, with CVs of 0.150 and 0.155, and ICCs of 0.755 and 0.751. Coefficients of variation for the heel, whole foot, and hallux ranged from 0.148 to 0.240, with ICCs ranging from 0.493 to 0.832. By published standards, peak pressures over the metatarsal heads and right hallux met the criteria for excellent reliability. Our ICCs for high pressures under the foot, heel, metatarsal heads, and hallux, and for peak pressures under the heel and left hallux represented fair-to-good reliability. No F-Scan plantar measurements could be judged by these criteria as having poor reliability. This clinical study found that for elderly patients with diabetes who were wearing their own shoes and were tested on two different days with different insoles, the F-Scan insole system was generally reliable for measurements of high pressure and peak pressure.     

Evaluation of behavioural effects of neural melanocortin receptor antagonists injected ICV and in VTA in rats

The purpose of this study was to examine intratester, intertester, and interdevice reliability of range of motion measurements of the elbow and forearm. Elbow flexion and extension and forearm pronation and supination were measured on 38 subjects with elbow, forearm, or wrist disease by 5 testers. Standardized test methods and a randomized order of testing were used to test groups of patients with universal standard goniometers, a computerized goniometer, and a mechanical rotation measuring device. Intratester reliability was high for all 3 measuring devices. Meaningful changes in intratester range of motion measurements taken with a universal goniometer occur with 95% confidence if they are greater than 6 degrees for flexion, 7 degrees for extension, 8 degrees for pronation, and 8 degrees for supination. Intertester reliability was high for flexion and extension measurements with the computerized goniometer and moderate for flexion and extension measurements with the universal goniometer. Meaningful change in interobserver range of motion measurements was expected if the change was greater than 4 degrees for flexion and 6 degrees for extension with the computerized goniometer compared with 10 degrees and 10 degrees, respectively, if the universal goniometer was used. Intertester reliability was high for pronation and supination with all 3 devices. Meaningful change in forearm rotation is characterized by a minimum of 10 degrees for pronation and 11 degrees for supination with the universal goniometer. Reliable measurements of elbow and forearm arm movement are obtainable regardless of the level of experience when standardized methods are used. Measurement error was least for repeated measurements taken by the same tester with the same instrument and most when different instruments were used.     

Posterior labrocapsular periosteal sleeve avulsion complicating locked posterior shoulder dislocation

This case presents the imaging features of a posterior shoulder dislocation complicated by a rare but surgically relevant lesion of the posterior labrum. Due to the attachment of the posterior capsule to the posterior portion of the labrum, which in itself is attached to the posterior scapular periosteum, stripping of the labrum by the posterior capsule resulted in a posterior labrocapsular periosteal sleeve avulsion.     

Energy substrates and amino acids provided during in vitro maturation of bovine oocytes alter acquisition of developmental competence

Clinicians commonly include an assessment of leg length inequality (LLI) as a component of a musculoskeletal examination. Little research is available, however, documenting reliability and validity of clinical methods for assessing LLI. The purpose of this study was to determine the reliability and validity of assessing functional LLI using a pelvic leveling device. Subjects were 19 women and 13 men between the ages of 18 and 55 who reported having a diagnosed or suspected LLI. Clinical determination of LLI was made by placing rigid lifts under the suspected shorter lower extremity until the leveling device indicated that the iliac crests were level. This measurement was made twice by one investigator and once by a second investigator. Standing radiographic measurements of LLI using rigid lifts were used to establish validity of the clinical method. Intraclass correlation coefficients [ICC(2,1)] and absolute difference values were computed to assess reliability and validity. The mean absolute difference between the two clinical measurements of LLI by the same investigator was 0.29 cm (+/- 0.52), with an ICC = 0.84. The mean absolute difference between clinical measurements of LLI by the two investigators was 0.49 cm (+/- 0.46), with an ICC = 0.77. The ICC and mean absolute difference reflecting agreement between radiographic measurements and clinical measurements of LLI was 0.64 and 0.58 cm (+/- 0.58), respectively, for one investigator and 0.76 and 0.55 cm (+/- 0.37), respectively, for the second investigator. The intratester reliability, intertester reliability, and validity assessments included instances in which paired observations disagreed regarding which lower extremity was the shorter lower extremity. Factors that may be associated with the unacceptable reliability and validity of the clinical assessment method include asymmetric positioning of the ilia, body composition of the patient, and design of the clinical instrument. The authors discuss clinical implications related to assessment of LLI.     

The posterior deltoid-splitting approach to the shoulder

Since 1980, the authors have used a posterior approach to the glenohumeral joint in which the posterior deltoid is split caudally in line with its fibers from the posterior acromion to the upper border of the teres minor. The extent of this deltoid splitting approach exceeds that of a similar anterior approach because of the distal emergence of the axillary nerve from the quadrilateral space. This technique gives complete access to the infraspinatus and teres minor muscles and tendons, posterior capsule, and posterior glenoid. Unlike traditional posterior approaches to the shoulder joint that detach a portion or all of the origin of the deltoid, this technique preserves the deltoid origin from the scapular spine and posterior acromion. Over the past 11 years, this posterior approach has been performed in 35 patients (42 shoulders): 31 for posterior instability, one for posterior glenohumeral fracture-dislocation, eight for infection, and two for removal of foreign bodies. The median age of the patients was 33.8 years (range, 13-65 years). The mean duration of follow-up contact was 20 months (range, one month to 11.4 years). Two patients died of unrelated causes and three were lost to follow-up examination. The posterior deltoid-splitting approach is advocated for any procedure requiring posterior access to the glenohumeral joint because it provides excellent exposure, has been associated with no complications, and preserves the strength and function of the posterior deltoid.     

Fractures of the acromion and the lateral scapular spine

We studied 37 fractures lateral to the spinoglenoidal notch to evaluate the validity of collectively handling these fractures as an acromion fracture and to ascertain the mechanism of injury. We divided them into three groups according to the location of the fracture line. Fracture of the anatomic acromion or the extremely lateral scapular spine (groups I and II, 28 fractures) was frequently associated with fracture of the coracoid base, acromioclavicular joint injury, or both. The mechanism of injury in most cases was presumed to be indirect force brought to bear on the shoulder from the lateral direction. Fracture descending to the spinoglenoidal notch (group III, nine fractures) was seldom associated with other shoulder injuries, and surgery was rarely needed. The mechanism was assumed to be direct force brought to bear on the shoulder from the posterior direction. Therefore fractures of the anatomic acromion and the extremely lateral scapular spine may be managed collectively. However, fracture descending to the spinoglenoidal notch should be managed separately. We advocate that these fractures should be classified into two types in terms of clinical consideration: type I fractures, comprising those of the anatomic acromion and the extremely lateral scapular spine, and type II fractures, located in the more medial spine and descending to the spinoglenoidal notch.     

Shoulder joint kinetics during the push phase of wheelchair propulsion

The purpose of this investigation was to quantify the forces and moments at the shoulder joint during free, level wheelchair propulsion and to document changes imposed by increased speed, inclined terrain, and 15 minutes of continuous propulsion. Data were collected using a six-camera VICON motion analysis system, a strain gauge instrumented wheel, and a wheelchair ergometer. Seventeen men with low level paraplegia participated in this study. Shoulder joint forces and moments were calculated using a three-dimensional model applying the inverse dynamics approach. During free propulsion, peak shoulder joint forces were in the posterior (46 N) and superior directions (14 N), producing a peak resultant force of 51 N at an angle of 185 degrees (180 degrees = posterior). Peak shoulder joint moments were greatest in extension (14 Newton-meters [Nm]), followed by abduction (10 Nm), and internal rotation (6 Nm). With fast and inclined propulsion, peak vertical force increased by greater than 360%, and the increase in posterior force and shoulder moments ranged from 107% to 167%. At the end of 15 minutes of continuous free propulsion, there were no significant changes compared with short duration free propulsion. The increased joint loads documented during fast and inclined propulsion could lead to compression of subacromial structures against the overlying acromion.     

Anatomy and biomechanics of the shoulder in throwing, swimming, gymnastics, and tennis

As the most mobile joint in the body, the shoulder is structurally insecure. The ball-shaped humeral head rotates and glides on a shallow scapular cup. A limited amount of passive stability is provided by the glenoid labrum, which slightly deepens the scapular cup, and by ligaments reinforcing the capsule on its superior and anterior surfaces. At peak maturity ligamentous restraint equals 50 to 80 kg. These structural limitations indicate that the primary source of joint stability must be balanced muscle control. Joint compression is the major factor. This is supplemented by active tangential restraint, which selectively opposes anterior, posterior, or superior displacement. The large external muscles used for purposeful motion and speed often create subluxating shear forces in addition to the desired actions. Impingement and attrition syndromes are common consequences. To counter this, as well as to provide selective rotation, there are the four muscles that constitute the rotator cuff. Joint compression is the major force generated by the supraspinatus and infraspinatus. The latter (accompanied by the teres minor) also provides a downward pull to oppose the upward displacement of early deltoid action. Anterior protection against excessive external rotation or extension is offered by the subscapularis. Athletic who use the arm for a propelling force strain the extremes of joint range in their drive for maximum performance. The threat of injury can be minimized by two actions, namely, modifying motion patterns, which may avoid impingement or make it a less frequent experience, and active protection, which is gained through specific strengthening of the rotator cuff muscles.     

Shoulder muscle moment arms during horizontal flexion and elevation

The instantaneous muscle moment arms of 10 shoulder muscles including the three portions of the deltoid and the rotator cuff and scapulohumeral muscle groups during four specified glenohumeral motions were calculated. Moment arm values were derived from a plot of tendon excursion versus glenohumeral joint rotation angle during horizontal flexion along the 90 degrees elevation plane and elevation in the sagittal, scapular, and coronal planes. The deltoid had the largest moment arm in elevation. The anterior deltoid has a larger moment arm in the anterior planes, whereas the midportion is greater in the scapular and coronal planes. The muscles with the largest depressor (adductor) moment arms are the pectoralis major, latissimus dorsi, and teres major. Contrary to the findings of other investigators, the supraspinatus and infraspinatus have a smaller potential elevation torque in the scapular plane than has been previously reported. Furthermore the subscapularis may potentially be a more important elevator in the scapular plane than either the supraspinatus or infraspinatus, especially in the latter phases of motion. The pectoralis major has the largest horizontal flexion moment arm with the humerus elevated 90 degrees, whereas the posterior deltoid and infraspinatus have the largest horizontal extension moment arms in this plane.     

Reliability of spinal displacement analysis of plain X-rays: a review of commonly accepted facts and fallacies with implications for chiropractic education and technique

BACKGROUND: Current medical, biomechanical, and chiropractic literature indicates that X-ray line drawing analysis for spinal displacement is reliable, with high Interclass Correlation Coefficients (ICCs) found in most studies. Normal sagittal spinal curvatures are being accepted as important clinical outcomes of care; however, just the opposite is taught in many chiropractic college radiology courses. OBJECTIVE: To review the current literature on X-ray line drawing reliability and abnormal static lateral positions. DATA SOURCES: Searches were performed on Medline, Chiro-LARS, MANTIS, and CINAHL on X-ray reliability, normal spinal position, and sagittal spinal curvatures as clinical outcomes. RESULTS: X-ray line drawing analysis for spinal displacement was found to have high reliability with a majority of ICCs in the .8-.9 range. The reliability for determining X-ray pathology was found to be only fair to good by both medical doctors and chiropractors and by both chiropractic and medical radiologists, with a majority of ICCs in the range .40-.75. Muscle spasms, facet hyperplasia, short pedicles and patient positioning errors have not been shown to alter sagittal plane alignment. The sagittal spinal curves are desirable clinical outcomes of care in surgery, physical therapy, rehabilitation and chiropractic. These results contradict common claims found in the indexed literature. CONCLUSION: X-ray line drawing is reliable. Normal values for the sagittal spinal curvatures exist in the literature. The normal sagittal spinal curvatures are important clinical outcomes of care. Patient positioning and postural radiographs are highly reproducible. When these standardized procedures are used, the pre-to-post alignment changes are a result of treatment procedures applied. Chiropractic radiology education and publications should reflect the recent literature, provide more support for X-ray line drawing analyses and applications of line drawing analyses for measuring spinal displacement on plain radiographs.     

Trusting problem gamblers: Reliability and validity of self-reported gambling behavior.

The retest reliability and validity of self-reported gambling behavior were assessed in 2 samples of problem gamblers. Days gambled and money spent gambling over a 6-month timeframe were reliable over a 2- to 3-week retest period using the timeline follow-back interview procedure (N=35; intraclass correlation coefficients [ICCs] ranged from .61 to .98). Gamblers did, however, report significantly more gambling at the 2nd interview. Agreement with collaterals was fair to good overall (ICCs ranged from .46 to .65) with no clear pattern of either over- or underreporting by gamblers. Spouses did not show greater agreement with gamblers compared with nonspouses, and greater agreement was not found for collaterals who were more versus less confident in their reports. The results are generally supportive of the use of self-reported gambling in studies of problem gamblers, assessed face to face and by telephone, although suggestions for further research are provided. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Posture in patients with shoulder overuse injuries and healthy individuals

Assessment of posture is an integral component of patient evaluation with shoulder overuse injuries. However, the professional literature contains relatively few studies that have assessed the relationship between posture, function, and injury. The purpose of this study was to determine the relationship and differences in postural variables within and between subjects with overuse injuries to the shoulder of healthy subjects. Thirty patient subjects and 30 healthy subjects matched for age and gender were recruited. Scapular protraction and rotation, forward head position, midthoracic curvature, and passive humeral elevation in the plane of the scapula were measured randomly in standing. All measurement techniques were standardized and validated. Intrarater and interrater reliability for all clinical measures were established before data collection. Forward head position was significantly greater (p < .001) in the patient group than the healthy group; humeral elevation was significantly greater (p < .001) in the healthy group than in the patient group and in the uninvolved shoulders (p < .01) than the involved shoulders within the patient group. Scapular protraction, rotation, midthoracic curvature, and scapular symmetry were not significantly different between groups. Scapula protraction and rotation were significantly related (p < .05) in the patient group. No other postural variables were related. Conclusions regarding the influence of posture to shoulder injury are inconclusive based on several confounding variables that may have affected the outcome.     

Excessive scapular motion in individuals recovering from painful and stiff shoulders: causes and treatment strategies

BACKGROUND AND PURPOSE: Scapular excursion and the wrist speed were studied before and after instruction and practice designed to achieve symmetrical scapular movement. SUBJECTS: Subjects were 10 female and 6 male patients, aged 44 to 78 years (chi=60.3, SD=11.2), with diagnosed shoulder pathologies. METHODS: Subjects were videotaped performing a reaching task. Pain status was monitored. The subjects were instructed to make the scapular movement symmetrical. They then repeated the task, while being videotaped, to monitor the effect of instruction. RESULTS: Individuals with asymmetric upper-extremity starting positions had excessive vertical motion of the involved scapula, which they controlled after instruction. Peak wrist speed of the involved upper extremity was lower only after instruction. CONCLUSION AND DISCUSSION: Even in the absence of biomechanical factors or pain, excessive scapular vertical motion appears to occur in the involved upper extremities of individuals recovering from unilateral shoulder problems. Improved scapular control can follow simple verbal instruction and practice, with a slight decrement in wrist speed.     

Acute hydrocephalus after subarachnoid hemorrhage

The coracoid process is a part of the scapula and plays an important role in shoulder function. The present case demonstrates bilateral separation of the coracoid processes from the scapular bodies. The cause of this condition was thought to be a failure of fusion of the ossification centers of the coracoid processes with the scapular bodies. Bilateral unfused coracoid processes was identified incidentally in a patient with recurrent dislocation in the left shoulder. However, history of antecedent trauma to the coradoid region was not found. It would be important to distinguish this condition from fracture or nonunion of the coracoid process.     

Reliability of phase-velocity measurements of tibial bone

BACKGROUND AND PURPOSE: The Bone Stiffness Measurement Device-Swing is capable of measuring the propagation velocity of flexural waves in human tibial bone, which relates to bending stiffness. If the interrater and intrarater reliability of measurements obtained with the device are established, it can be used with confidence in assessing changes in bone. The purposes of this study were to detect potential sources of measurement error and to establish the interrater and intrarater reliability of measurements taken with the device. SUBJECTS AND METHODS: In the first part of the study, a random-effects design was used to obtain phase-velocity measurements in subjects without known orthopedic or neurological impairments. The second part of the study consisted of possible applications of the device with mixed designs on subjects with spinal cord injuries. By means of generalizability theory, multiple sources of error (eg, occasion, clinician, repetition) were estimated. For the clinical trial, 17 persons with spinal cord injuries not older than 5 weeks were tested. RESULTS: The standard error of measurement (SEM) for intrarater reliability measurements ranged from 7.3 to 9.8 m x s(-1) . The SEMs for interrater reliability measurements ranged from 5.7 to 9.5 m x s(-1). The SEMs for measurements obtained by a single clinician in a clinical population ranged from 11.9 to 39.7 m x s(-1). CONCLUSION AND DISCUSSION: The reproducibility of measurements obtained with the device is suitably high for the device to be used for evaluation in clinical and research settings.