The Relationship of the Sit and Reach Test to Criterion Measures of Hamstring and Back Flexibility in Adult Males and Females

Langford, Nancy Jane

08 1900

The purpose of this study was to examine the criterion-related validity of the sit and reach test as a measure of hamstring and low back flexibility in adult males and females. Subjects were 52 males and 52 females, 20 to 45 years of age. Hamstring flexibility was measured using a goniometer. Spinal flexibility was measured using a tape measure and an inclinometer. The sit and reach test was performed according to the AAHPERD Health Related Fitness Test Manual. Data were analyzed using correlations and appropriate descriptive statistics. Conclusions of the investigation were: 1) in adult males 20 to 45, the sit and reach test is a valid measure of hamstring flexibility but has questionable validity as a measure of low back flexibility, 2) in adult females 20 to 45, the sit and reach test is a moderately valid measure of hamstring flexibility and is not a valid measure of low back flexibility.

sit and reach test

hamstring flexibility

spinal flexibility

Knee.

Spine.

Hamstring muscle.

Desenvolvimento de um goniômetro indutivo com bobinas ortogonais para aplicações biomédicas / Development of an inductive goniometer with orthogonal coils for biomedical applications

Turqueti, Carlos Augusto D'Orazio

31 August 2017

Esta dissertação descreve o desenvolvimento de um goniômetro de enlace indutivo para medição de ângulos articulares. O goniômetro tem por objetivo medições de ângulos até 360° e a possibilidade de medição em articulações com mais de um grau de liberdade. Para isto utiliza como base o trabalho de Laskoski (2010) e os sistemas de navegação aeronáuticas. O experimento realizado por Laskoski (2010) efetua medições até 180° as bobinas precisam estar alinhadas. Os sistemas utilizados em navegações aeronáuticas utilizam a bússola eletrônica e o automatic direction finder, estes sistemas trabalham com grandezas na ordem de quilômetros. Este experimento visa adaptar os sistemas de navegação utilizando o campo magnético para poder efetuar medições de ângulo em pequenas distâncias. Os testes foram satisfatórios comparando os erros encontrados com os resultados dos experimentos de Laskoski (2010) e Carbonaro et al. (2014). O erro máximo em uma distância de 7,5 cm é de 10,6°e o desalinhamento entre a bobinas de +20° e -20° gera um erro de no máximo 1,71°. / This dissertation describes the development of an inductive goniometer for the measurement of joint angle. The goniometer aims to measure angles up to 360 ° and the possibility of measurement in joints with more than one degree of freedom. For this it uses as base the work of Laskoski (2010) and aeronautical navigation systems. The experiment performed by Laskoski (2010) makes measurements up to 180 ° and the coils need to be aligned. The systems used in aeronautical navigations use the electronic compass and the automatic direction finder, that systems work with magnitudes in the order of kilometers. This experiment aims to adapt the navigation systems using the magnetic field to be able to measure angles at small distances. The tests were satisfactory comparing the errors found with the results of the experiments of Laskoski (2010) and Carbonaro et al. (2014). The maximum error over a distance of 7.5 cm is 10.6 ° and the misalignment between the coils of + 20 ° and -20 ° generates an error of at most 1.71 °.

CNPQ::ENGENHARIAS::ENGENHARIA BIOMEDICA

Engenharia biomédica

Indução eletromagnética

Joints - Hypermobility - Measurement

Biomedical engineering

Electromagnetic induction

Engenharia Biomédica

Kinematic joint measurements using radiostereometric analysis (RSA) and single-plane x-ray video fluoroscopy

Ioppolo, James

January 2006

[Truncated abstract] Measuring the kinematics of joints and implants following orthopaedic surgery is important since joint motion directly influences the functional outcome of the patient and the longevity of the implant. Radiostereometric Analysis (RSA) has been used to assess the motion over time of various joints and implant designs following corrective orthopaedic and joint replacement surgery for more than 20 years in more than 10,000 patients around the world. While the use of RSA reduces the risk of implanting potentially inferior prostheses on a large scale, conventional methodological procedures are based on the acquisition of static, stereographic x-ray images that are not suitable for measuring skeletal kinematics in a dynamic manner. The purpose of this thesis was to design, validate and test a novel technique for dynamically assessing the skeletal motion of human subjects using RSA and single-plane digital x-ray video fluoroscopy. The validation procedure utilised two in-vitro phantom models of human joints capable of simulating normal kinematic motion. These phantom models were supplied with realistic spatial displacement protocols derived from cadaveric specimens. The spatial positions of a series of tantalum markers that were implanted in each skeletal segment were measured using RSA. Skeletal motion was determined in x-ray fluoroscopy images by minimising the difference between the markers measured and projected in the single image plane. Accuracy was determined in terms of bias and precision by analysing the deviation between the applied displacement protocol and measured pose estimates. ... The RSA and low dose single-plane fluoroscopy technique developed, validated and tested in this thesis is capable of dynamically measuring the kinematics of any joint in the human body, following the implantation of small metallic markers in the surrounding bone during corrective orthopaedic surgery. The kinematics of joints with replacement prostheses, such as the total knee replacement (TKR), can be analysed in addition to the kinematics of joints without replacement prostheses, such as the sacroiliac joint. The technique may be used in the future on groups of human subjects enrolled in controlled trials that are designed to analyse the kinematics of the shoulder, spine, hip, knee, patella or ankle joints for the purposes of quantitatively comparing the kinematics of different prosthesis designs and various corrective orthopaedic procedures.

Kinematics

Joints -- Range of motion -- Measurement

Knee -- Range of motion -- Measurement

Radiostereometric analysis

Joint kinematics

Digital x-ray video fluoroscopy

Motion estimation

Joint implant assessment

Image analysis