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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT06287281
Other study ID # Heel01
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date December 15, 2023
Est. completion date February 28, 2024

Study information

Verified date February 2024
Source Manusapiens
Contact Saverio Colonna, MD
Phone +393356213419
Email saverio.colonna@libero.it
Is FDA regulated No
Health authority
Study type Observational [Patient Registry]

Clinical Trial Summary

At a postural level, many doctors, physiotherapists and chiropractors are convinced that lower back pain induced by heels is due to an increase in lumbar lordosis associated with an anterior pelvic tilt; this thought is even shared by the American Chiropractic Association and the American Physical Therapy Association. Furthermore, in most of the websites consulted, even by non-experts, the reason for the onset of spinal pain is attributed to hyperlordosis and pelvic anteversion. However, this thought is not entirely in agreement with other scientific publications. Therefore it is necessary to pay attention to online searches which often answer these questions without taking EBM into account. None of the studies reported above take into consideration the time factor. In fact, all the studies have evaluated the immediate changes brought about by heel raising. Women who complain of lower back pain when wearing high-heeled shoes rarely experience pain as soon as they start wearing them. The objective of the research arises from these considerations. The aim of this study (primary outcome) is to investigate whether wearing high-heeled shoes for at least 2 hours modifies the spinopelvic parameters compared to the barefoot condition and as soon as the shoes are worn. The secondary outcome will be to verify in the sample analyzed whether there are different behaviors between the subgroups of those who have complained in their anamnesis and those who have never complained of lower back pain when using high-heeled shoes for a few hours.


Description:

A three-dimensional analysis of the posterior surface will be performed with the Formetric 4D® rasterstereographic device (Diers International GmbH, Schlangenbad, Germany). Participants will be given a questionnaire which investigates: - Age, weight, height of the participants; - Any pain in the spine (measured by NPS) usually reported by subjects after using high-heeled shoes; - Type of profession; - Frequency with which the subjects wear the heeled shoe (how many hours per week); - Heel height of the shoe with which they participate in the clinical study; - Any spinal pain (measured by NPS) after wearing heeled footwear for the study period. This last data will be filled in at the end of the evaluation. For the evaluation of the secondary outcome, on the basis of the data from the medical history sheet, the sample will be divided into two groups: 1. The first group (group A, ASYMPTOMATIC) includes subjects who during daily life do not report spinal pain after wearing high-heeled shoes; 2. The second group (group S, SYMPTOMATIC) is made up of participants who usually complain of more or less intense pain after using the shoe. The subjects will be asked to bring their own pair of shoes with a heel that is at least 8.7 cm, the average height reported by the work of Schroeder and Hollander, where average height means the difference between the height of the heel and the height of the raised part at the forefoot level (plateau). A particular heel width will not be required, because it seems that the height of the heel influences muscle activation, in particular the paravertebral muscles, while the width of the heel has no significant effects on them. Conversely, amplitude has a greater influence on balance when standing and while walking. Three evaluation will be performed: 1. first evaluation in neutral position with bare feet (T0) 2. second evaluation in neutral position wearing shoes (T1); 3. third evaluation like the previous one but at least 2 hours apart, in which it will be required to remain standing still or walk (T2). Statistic analysis A descriptive analysis of the population will be performed to determine the mean values and standard deviations (SD) of both the combined group and the subgroups A and S. T-tests for independent data will be used to verify whether there are any significant differences between the two subgroups . The distribution of the data will be verified using graphical representation. If the distribution is normal (p <0.05) for the comparison between T1 vs T2 the t-test for paired data will be used and between the subgroups (T1S vs T1A and T2S vs T2A) t-test for independent data with statistical significance accepted for p values <0.05. ANOVA will be used to simultaneously compare the pre and post of both groups. If the data does not have a normal distribution (p >0.05) the Wilcoxon test will be used for the comparison between the T1 vs T2 data of the total group and the Mann-Whitney U test for the comparison between subgroups (T1S vs T1A and T2S vs T2A). The Friedman test will be used to simultaneously compare the pre and post of both groups.


Recruitment information / eligibility

Status Recruiting
Enrollment 34
Est. completion date February 28, 2024
Est. primary completion date February 15, 2024
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Female
Age group 20 Years to 40 Years
Eligibility Inclusion Criteria: - female subjects aged between 20 and 40 years - Usual users of shoes with heels at least 7 cm high, with a frequency of at least twice a week and/or less than 3 hours/week Exclusion Criteria: - structural or neurological anomalies that may prevent you from remaining weight-bearing, for approximately 2 hours, with shoes having a heel (difference between the heel and the plateau) of at least 7 cm high;

Study Design


Related Conditions & MeSH terms


Intervention

Other:
heel hight shoes
stand upright for 2 hours wearing your own shoes with heels at least 7 cm high

Locations

Country Name City State
Italy Spine Center Bologna

Sponsors (1)

Lead Sponsor Collaborator
Manusapiens

Country where clinical trial is conducted

Italy, 

References & Publications (10)

Dai M, Li X, Zhou X, Hu Y, Luo Q, Zhou S. High-heeled-related alterations in the static sagittal profile of the spino-pelvic structure in young women. Eur Spine J. 2015 Jun;24(6):1274-81. doi: 10.1007/s00586-015-3857-6. Epub 2015 Mar 10. — View Citation

de Lateur BJ, Giaconi RM, Questad K, Ko M, Lehmann JF. Footwear and posture. Compensatory strategies for heel height. Am J Phys Med Rehabil. 1991 Oct;70(5):246-54. — View Citation

de Oliveira Pezzan PA, Joao SM, Ribeiro AP, Manfio EF. Postural assessment of lumbar lordosis and pelvic alignment angles in adolescent users and nonusers of high-heeled shoes. J Manipulative Physiol Ther. 2011 Nov;34(9):614-21. doi: 10.1016/j.jmpt.2011.09.006. — View Citation

Franklin ME, Chenier TC, Brauninger L, Cook H, Harris S. Effect of positive heel inclination on posture. J Orthop Sports Phys Ther. 1995 Feb;21(2):94-9. doi: 10.2519/jospt.1995.21.2.94. — View Citation

Gerber SB, Costa RV, Grecco LA, Pasini H, Marconi NF, Oliveira CS. Interference of high-heeled shoes in static balance among young women. Hum Mov Sci. 2012 Oct;31(5):1247-52. doi: 10.1016/j.humov.2012.02.005. Epub 2012 Jun 27. — View Citation

Han D. Muscle activation of paraspinal muscles in different types of high heels during standing. J Phys Ther Sci. 2015 Jan;27(1):67-9. doi: 10.1589/jpts.27.67. Epub 2015 Jan 9. — View Citation

Kwon YJ, Song M, Baek IH, Lee T. The effect of simulating a leg-length discrepancy on pelvic position and spinal posture. J Phys Ther Sci. 2015 Mar;27(3):689-91. doi: 10.1589/jpts.27.689. Epub 2015 Mar 31. — View Citation

Lee CM, Jeong EH, Freivalds A (2001) Biomechanical effects of wearing high-heeled shoes. Int J Indust Ergonom 28:321-326

Russell BS. The effect of high-heeled shoes on lumbar lordosis: a narrative review and discussion of the disconnect between Internet content and peer-reviewed literature. J Chiropr Med. 2010 Dec;9(4):166-73. doi: 10.1016/j.jcm.2010.07.003. Epub 2010 Oct 14. — View Citation

Schroder G, Kundt G, Otte M, Wendig D, Schober HC. Impact of pregnancy on back pain and body posture in women. J Phys Ther Sci. 2016 Apr;28(4):1199-207. doi: 10.1589/jpts.28.1199. Epub 2016 Apr 28. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary effect of high-heeled shoes on trunk inclination The aim of this study is to investigate whether wearing high-heeled shoes for at least 2 hours modifies the flexion of the antero-posterior trunk (measured as the angle between the vertical and the line that passes through the prominent cervical vertebra and the line that connects the two dimples) compared to the barefoot condition and as soon as the shoes are worn. 2 hours after wearing high heels
Primary effect of high-heeled shoes on pelvic inclination The aim of this study is to investigate whether wearing high-heeled shoes for at least 2 hours modifies the pelvic inclination angle (the angle between the vertical and the tangent to the lumbosacral junction) compared to the barefoot condition and as soon as the shoes are worn. 2 hours after wearing high heels
Primary effect of high-heeled shoes on lordotic angle The aim of this study is to investigate whether wearing high-heeled shoes for at least 2 hours modifies the lordotic angle (angle measured between the tangents of the thoracolumbar junction and the lumbosacral junction) compared to the barefoot condition and as soon as the shoes are worn. 2 hours after wearing high heels
Primary effect of high-heeled shoes on kyphotic angle The aim of this study is to investigate whether wearing high-heeled shoes for at least 2 hours modifies the kyphotic angle (angle measured between the tangents of the cervicothoracic junction and the thoracolumbar junction) compared to the barefoot condition and as soon as the shoes are worn. 2 hours after wearing high heels
Primary effect of high-heeled shoes on lumbar arrow The aim of this study is to investigate whether wearing high-heeled shoes for at least 2 hours modifies the lumbar arrow (horizontal distance in millimeters of the lumbar spine from the virtual vertical line that passes through the kyphotic apex) compared to the barefoot condition and as soon as the shoes are worn. 2 hours after wearing high heels
Primary effect of high-heeled shoes on cervical arrow The aim of this study is to investigate whether wearing high-heeled shoes for at least 2 hours modifies the cervical arrow (horizontal distance in millimeters of the cervical spine from the virtual vertical line that passes through the kyphotic apex) compared to the barefoot condition and as soon as the shoes are worn. 2 hours after wearing high heels
Secondary different response on trunk inclination between the subgroups (suffering from back pain and asymptomatic) The secondary outcome will be to verify in the sample analyzed whether there are different behaviors of the flexion of the antero-posterior trunk (measured as the angle between the vertical and the line that passes through the prominent cervical vertebra and the line that connects the two dimples) between the subgroups of those who suffer from low-back pain and those who have never complained of low-back pain when using high-heeled shoes for a few hours. 2 hours after wearing high heels
Secondary different response on pelvic inclination between the subgroups (suffering from back pain and asymptomatic) The secondary outcome will be to verify in the sample analyzed whether there are different behaviors of the pelvic inclination angle (the angle between the vertical and the tangent to the lumbosacral junction) between the subgroups of those who suffer from low-back pain and those who have never complained of low-back pain when using high-heeled shoes for a few hours. 2 hours after wearing high heels
Secondary different response on lordotic angle between the subgroups (suffering from back pain and asymptomatic) The secondary outcome will be to verify in the sample analyzed whether there are different behaviors of the lordotic angle (angle measured between the tangents of the thoracolumbar junction and the lumbosacral junction) between the subgroups of those who suffer from low-back pain and those who have never complained of low-back pain when using high-heeled shoes for a few hours. 2 hours after wearing high heels
Secondary different response on kyphotic angle between the subgroups (suffering from back pain and asymptomatic) The secondary outcome will be to verify in the sample analyzed whether there are different behaviors of the kyphotic angle (angle measured between the tangents of the cervicothoracic junction and the thoracolumbar junction) between the subgroups of those who suffer from low-back pain and those who have never complained of low-back pain when using high-heeled shoes for a few hours. 2 hours after wearing high heels
Secondary different response on lumbar arrow between the subgroups (suffering from back pain and asymptomatic) The secondary outcome will be to verify in the sample analyzed whether there are different behaviors of the lumbar arrow (horizontal distance in millimeters of the lumbar spine from the virtual vertical line that passes through the kyphotic apex) between the subgroups of those who suffer from low-back pain and those who have never complained of low-back pain when using high-heeled shoes for a few hours. 2 hours after wearing high heels
Secondary different response on cervical arrow between the subgroups (suffering from back pain and asymptomatic) The secondary outcome will be to verify in the sample analyzed whether there are different behaviors of the cervical arrow (horizontal distance in millimeters of the cervical spine from the virtual vertical line that passes through the kyphotic apex) between the subgroups of those who suffer from low-back pain and those who have never complained of low-back pain when using high-heeled shoes for a few hours. 2 hours after wearing high heels
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