Effects of Pilates Exercises on Laxity in Pregnant Women

Not Applicable

Completed

• Conditions: Pregnancy; Pilates Exercise; Laxity of Ligament

• Registration Number: NCT06684002
• Lead Sponsor: Selcan Suicmez

Brief Summary

The goal of this clinical trial is to investigate whether Pilates exercises can help manage musculoskeletal laxity in pregnant women. It will also examine the safety of Pilates exercises during pregnancy. The primary questions this trial aims to answer are:

Does Pilates exercise reduce the level of laxity in pregnant women? What physical issues do participants experience while performing Pilates exercises during pregnancy?

Participants will:

Engage in Pilates exercises tailored for pregnancy, under the supervision of trained physiotherapists, for a period of 8 weeks.

Attend monthly checkups to monitor progress and record physical health changes. The intention is to determine whether Pilates exercises are effective in improving joint stability and reducing the laxity caused by hormonal changes during pregnancy.

Detailed Description

Pregnancy is a physiological process that lasts approximately 40 weeks, during which the embryo completes its development, from fertilization to birth. During this process, significant changes occur in the mother's anatomy, physiology, psychology, and social aspects to maintain maternal homeostasis and ensure optimal fetal growth. The changes during pregnancy are due to four main factors: hormonal-induced changes in collagen tissue and smooth muscle, increased blood volume to enhance circulation to the uterus and kidneys, expansion and displacement of the uterus due to fetal growth, and, lastly, changes in the center of gravity and posture due to weight gain and adaptations. As a result of these changes, pregnant women may experience increases in body weight, ligament laxity, and lumbar lordosis, as well as a decrease in neuromuscular control and abdominal muscle strength, changes in body biomechanics, and a forward shift in the center of gravity. These changes significantly affect the musculoskeletal system, particularly women's bodies. If the body does not adapt to these changes appropriately, potential health problems that threaten the mother's and fetus's health may arise.

Studies have shown that hormonal changes play a role in musculoskeletal system changes from the very beginning of pregnancy. Estrogen, progesterone, endogenous cortisol, and relaxin hormones play significant roles in these changes. Relaxin levels increase until the 12th week of pregnancy, decrease until the 17th week, and stabilize. The increase in relaxin causes tissue relaxation, leading to increased mobility and instability of the pelvic complex and peripheral joints. Estrogen increases in the third trimester and alters bone, cartilage, and ligament structure. Progesterone peaks in the 15th week and induces relaxation effects on muscle structures. These hormonal changes cause physiological relaxation of the pelvic ligaments to facilitate the passage of the fetus through the birth canal. Due to increased levels of relaxin and progesterone, weakened abdominal muscles and an expanding abdomen result in muscle stretching. All of these lead to postural changes, dysfunction in the lumbar and pelvic regions, and weakness in the abdominal muscles. Studies have highlighted that musculoskeletal disorders and increased pain in various joints, such as the knee, observed during pregnancy may be related to laxity.

Regular physical activity has significant benefits for pregnancies that are not complicated by medical or obstetric issues and are classified as low-risk. Therefore, increasing the level of physical activity during pregnancy and performing regular exercises are recommended by the American College of Obstetricians and Gynecologists in their guidelines for physical activity and exercise during pregnancy and the postpartum period. The benefits of regular physical activity and exercise during pregnancy include maintaining and improving physical fitness, preventing excessive gestational weight gain, reducing the risk of pre-eclampsia and preterm birth, decreasing the prevalence of back pain, improving sleep quality, reducing anxiety and depressive symptoms, and enhancing health perception and body image. Due to these beneficial effects, engaging in at least 30 minutes of moderate aerobic exercise five days a week is recommended. However, it has been reported that approximately 15% of women during pregnancy meet the minimum physical activity recommendation (at least 150 minutes of moderate physical activity per week).

Pilates is an exercise method developed by Joseph Hubertus Pilates that activates all the muscular functions of the body, increasing the endurance, flexibility, and strength of all body muscles, particularly the core, and improving balance systems. It also enhances dynamic postural control. The core is the center of the kinetic chain and is responsible for power transfer between the upper and lower body. All movements begin with the contraction of the muscles in the core, and the power generated by these contractions is transferred to the limbs. The core muscles are described as an anatomical box comprising several muscle groups. Over time, the demand for physical therapy to develop the core has increased. Pilates and core exercises, which have proven effectiveness, are among the interventions used for this purpose.

Joseph Pilates, who developed over 600 exercises suitable for various levels and body types, aimed to improve the stabilization of the core muscles-multifidus, transversus abdominis, pelvic floor, and diaphragm muscles, which represent the powerhouse in Pilates-and to improve the strength, endurance, and flexibility of the muscles, ligaments, and fascia that transmit the power generated by these muscles throughout the body, thus promoting overall body health.

Craig Phillips, a physiotherapist and former ballet dancer, led the establishment of the Australian Physiotherapy and Pilates Institute (APPI) and worked to modify Pilates exercises to be more suitable for body biomechanics. Today, modified Pilates, performed by physiotherapists, has emerged as clinical Pilates. This allows physiotherapists to apply Pilates exercise programs tailored to individuals based on clinical Pilates and scientific foundation principles, including for pregnant women.

Clinical Pilates positively affects both maternal health and the health of the fetus. Clinical Pilates is adequate during pregnancy in controlling breathing, improving spinal stabilization, pelvic floor control, and developing proper posture. It also increases muscle tone and strength. Strengthened and developed muscles improve women's activity levels, coordination, and balance. Those who practice Pilates daily experience increased energy throughout the day. Pilates during pregnancy helps restore the balance sense disturbed by postural and hormonal changes, increases joint range of motion and flexibility, and improves strength. It allows women to adapt more comfortably to the temporary body changes that come with pregnancy and move freely with their bodies. Therefore, clinical Pilates is considered an ideal form of exercise for pregnancy.

Considering the changes occurring during pregnancy and the positive effects of Pilates exercises on body systems during pregnancy, it is thought that the effect of Pilates exercises on laxity in pregnant women should be investigated. Therefore, the aim of our study is to examine the effect of the Pilates exercise method on laxity.

In line with our objectives, our hypotheses are as follows:

H0: Pilates exercises have no effect on laxity in pregnant women. H1: Pilates exercises have an effect on laxity in pregnant women.

Study Timeline

• Study First Submitted: 2024-11-09
• Study First Submitted QC: 2024-11-09
• Study First Posted: 2024-11-12
• Study Start: 2024-11-15
• Primary Completion: 2025-01-15
• Study Completion: 2025-01-15
• Status Verified: 2025-02
• Last Update Submitted: 2025-02-19
• Last Update Posted: 2025-02-21

Recruitment & Eligibility

• Status: COMPLETED
• Sex: Female
• Target Recruitment: 20

Inclusion Criteria

• Aged between 18-35 years
• In the 20th-24th week of pregnancy (Cherni et al., 2019)
• Body Mass Index (BMI) < 30
• Under regular prenatal care with an obstetrician
• Voluntary participation in the study

Exclusion Criteria

• Multiple pregnancies
• Current or past inflammatory joint diseases affecting the musculoskeletal system
• Presence of hypermobility syndromes such as Ehlers-Danlos or Marfan Syndrome
• Significant hemodynamic heart diseases, restrictive lung diseases, and chronic conditions such as diabetes and hypertension
• Medical complications (bleeding, preeclampsia, placenta previa)
• Issues that would prevent cooperation with the physiotherapist's exercise instructions
• Contraindications for exercise (severe musculoskeletal diseases, high-risk pregnancies, balance disorders)
• Participation in any current exercise program

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Primary Outcome Measures

Name	Time	Method
Laxity of ligament	10 minutes	The anterior tibial translation of the knee will be considered as representative of the anterior laxity of the knee of women measured with an arthrometer ® (bilateral examination repeated 3 times on each knee).The degree of laxity will be evaluated thanks to the international classification IKDC: Grade A 0 to 2 mm = normal Grade B 3 to 5 mm = almost normal Grade C 6 to 10 mm = abnormal Grade D \> 10 mm = severely abnormal

Secondary Outcome Measures

Name	Time	Method
Posture	10 minutes	With this rating chart, postural changes that may occur in 13 different parts of the body are monitored and scored. The 13 body alignment segments include posterior views of the head, shoulders, spine, hip, feet, and arches, and lateral (left side) views of the neck, chest, shoulders, upper back, trunk, abdomen, and lower back. In this original version, each body segment was scored 5 (correct posture), 3 (slight deviation), or 1 (pronounced deviation). The total score obtained at the end of the test is maximum 65 and minimum 13
Pain Level	1 minutes	The Visual Analog Scale (VAS) pain score is a simple and effective method used to measure patients' pain levels. This method is typically represented by a line ranging from 0 to 10, where 0 indicates no pain and 10 indicates the most severe pain. Patients are asked to mark a point on the line that corresponds to their level of pain.

Trial Locations

Locations (1)

Ankara Medipol University; 🇹🇷 Ankara, Altindag, Turkey