Muscle Function After Childbirth

Study Description

Brief Summary

This study will evaluate lower extremity and trunk neuromuscular control in 78 nulligravid and postpartum women. Participants will attend two experimental sessions, approximately 1 week apart, to assess neuromuscular function. Physical activity levels will also be assessed.

Detailed Description

Stability of the lumbar spine and pelvis is essential to nearly all activities of daily living, and is achieved primarily by muscular stabilization. Recent studies have shown that postpartum women are more fatigable than nulligravid women during fatiguing tasks with the lumbopelvic stabilizing muscles (23%) and the trunk flexor muscles (52%) at six months postpartum. Postpartum women also demonstrate impaired control of force with the trunk flexor muscles; however, it is unknown if force control during a fatiguing task of the lumbopelvic stabilizing muscles is impaired in postpartum women.

This study has 3 purposes: (1) To quantify limb steadiness during fatiguing exercise of the lumbopelvic stabilizing muscles among nulligravid women and postpartum women; (2) to quantify muscle activity in the trunk, test limb and contralateral limb to provide insight into motor control; and (3) to identify possible factors (inter-recti distance (IRD), physical activity, pain, biopsychosocial factors) that contribute to neuromuscular function (fatigability and force control).

This is a novel, translational study that, for the first time, will quantify lower extremity force control in postpartum women. As this has not been studied before, to the best of the investigators' knowledge, this proposal will be a pilot study to establish means to utilize in power analyses for future studies of larger magnitude. Furthermore, neuromuscular function is not typically assessed clinically in postpartum women, and no tests exist to easily assess fatigability of the lumbopelvic stabilizing muscles in clinic settings. This study will also provide further data to highlight the ASLR Fatigue Task as a possible clinical examination tool and outcome measure to assess fatigability of the lumbopelvic stabilizing muscles.

Study Design

Outcome Measures

Primary Outcome Measures

1. Incidence of Posterior Pelvic Pain [up to 10 days]

   The Active Straight Leg Raise (ASLR) test is a well-established clinical test that assesses stability of the lumbar spine/pelvis, posterior pelvic pain severity, and ability to activate the abdominal muscles. It is performed in supine. Participants are instructed to raise one leg, with the knee straight, to a heel height of 20 cm. The leg is held at the top for 5 seconds, then slowly lowered to the ground. The participant is asked to report pain on a 0 to 10 scale (0=no pain; 10=worst possible pain). The test is then repeated on the opposite limb.

2. Incidence of Perceived Difficulty with ASLR Task [up to 10 days]

   The Active Straight Leg Raise (ASLR) test is a well-established clinical test that assesses stability of the lumbar spine/pelvis, posterior pelvic pain severity, and ability to activate the abdominal muscles. It is performed in supine. Participants are instructed to raise one leg, with the knee straight, to a heel height of 20 cm. The leg is held at the top for 5 seconds, then slowly lowered to the ground. The participant is asked to report perceived difficulty to raise the leg on a 0 to 5 scale (0=not at all difficult; 5=unable to lift leg). The test is then repeated on the opposite limb.

3. Incidence of Lumbopelvic Instability [up to 10 days]

   The Active Straight Leg Raise (ASLR) test is a well-established clinical test that assesses stability of the lumbar spine/pelvis, posterior pelvic pain severity, and ability to activate the abdominal muscles. It is performed in supine. Participants are instructed to raise one leg, with the knee straight, to a heel height of 20 cm. The leg is held at the top for 5 seconds, then slowly lowered to the ground. The participant is asked to report perceived difficulty to raise the leg on a 0 to 5 scale (0=not at all difficult; 5=unable to lift leg) and pain on a 0 to 10 scale (0=no pain; 10=worst possible pain). If difficulty or pain are rated at a 1 or higher, the test is repeated with the researcher providing external compression of the pelvis. If perceived difficulty or reported pain are lower with compression, the test is considered positive for lumbopelvic instability. The test is then repeated on the opposite limb.

4. Mean Time to ASLR Fatigue Task Failure [up to 10 days]

   For the ASLR Fatigue Task, the participant is instructed to maintain the elevated leg off the ground for as long as possible. Task failure will be defined as a heel height greater than or equal to 10 centimeters off the ground.

5. Maximum Lower Extremity Strength: Leg [up to 10 days]

   A straight leg raise maximal voluntary contraction (MVC) of each lower extremity will be performed in the supine position before and within 2 minutes of completing the ASLR fatigue task with a custom made load cell instrumented strength testing device. This device consists of a rigid platform on which the study participant will lie supine. At the foot of the device is a tower that houses 2 load cells and is connected to a lightly padded push plate. This push plate can be raised and lowered such that the participant can push up into the plate (contacts the anterior surface of the participant's shin) or push down onto the push plate (contacts the posterior aspect of the participant's heel). Before the ASLR fatigue task, a minimum of 3 MVC trials will be performed on each leg, with a minimum of 1 minute rest between trials, in order to ensure a true maximum has been obtained; the highest peak force will be considered the MVC. Only 1 MVC trial per leg will be performed following the

6. Maximum Lower Extremity Strength: Hip Extension [up to 10 days]

   A hip extension MVC will also be performed in supine (pushing down into the ground) on a force plate (1000 Hz) prior to performance of the ASLR fatigue task. Only the leg that will remain in contact with the force plate during the ASLR fatigue task (grounded limb) will perform the extension MVC, in order to normalize downward pressure into the force plate by the grounded limb during performance of the ASLR fatigue task. This will allow us to quantify activity of the grounded limb during the fatiguing task. A minimum of 3 hip extension MVCs will be performed, with 1 minute rest between trials. An MVC may also be assessed at the end of the fatiguing exercise bout.

7. Limb Steadiness Measured by Limb Acceleration [up to 10 days]

   An inertial measurement unit (Trigno, Delsys, Boston, MA) will be placed on the test limb to track movement of the limb during performance of the ASLR Fatigue Task. Fluctuations in limb acceleration will be measured and quantified as the standard deviation of acceleration. Limb steadiness will be collected online, stored, and analyzed offline with ConsensysPRO software. The investigators hypothesize that fluctuations in limb acceleration will be greater among postpartum women as compared to nulligravid women during the performance of the ASLR Fatigue Task.

8. Abdominal Fascial Integrity Measured by Mean Inter-Recti Distance [up to 10 days]

   Real time ultrasound will be used to assess inter-recti distance above and below the umbilicus. Participants will be assessed with B Mode images in supine at rest, in supine while lifting their head, and in supine while performing a straight leg raise.

Secondary Outcome Measures

1. Assessment of fatigability of the lumbopelvic stabilizing muscles measured by the ASLR Fatigue Task: Mean Ratings of Perceived Exertion (RPE) [up to 10 days]

   For the ASLR Fatigue Task, the participant is instructed to maintain the elevated leg off the ground for as long as possible. A biofeedback air cuff placed under the participant's lumbopelvic region assesses movement of the spine/pelvis during the test. The cuff will be inflated to 40 mm Hg, and the participant will be instructed to keep the needle as close to 40 mm Hg as possible throughout the test. Ratings of perceived exertion (RPE, from 0-10 with higher scores increased exertion) are measured every 30-60 seconds. Task failure will be defined as a heel height ≤10 cm or a change in cuff pressure ≥20 mm Hg. Both limbs will be tested in different sessions.

2. Assessment of fatigability of the lumbopelvic stabilizing muscles measured by the ASLR Fatigue Task: Mean Pain Score [up to 10 days]

   For the ASLR Fatigue Task, the participant is instructed to maintain the elevated leg off the ground for as long as possible. A biofeedback air cuff placed under the participant's lumbopelvic region assesses movement of the spine/pelvis during the test. The cuff will be inflated to 40 mm Hg, and the participant will be instructed to keep the needle as close to 40 mm Hg as possible throughout the test. Pain Scores will be measured (0-10 with higher scores increased pan) every 30-60 seconds. Task failure will be defined as a heel height ≤10 cm or a change in cuff pressure ≥20 mm Hg. Both limbs will be tested in different sessions.

3. Average Total Activity Counts (TAC) per day over 7 days [up to 7 days]

   Physical activity habits around the time of testing will be assessed with a tri-axial accelerometer for 7 days outside of the laboratory, in part by measuring the TAC per day. TAC is the total number of filtered, full-wave rectified, integrated accelerations (all directions). These will then be averaged/day based on the total number of valid wear days for each participant.

4. Physical Activity Measured by Average Steps per day over 7 days [up to 7 days]

   Physical activity habits around the time of testing will be assessed with a tri-axial accelerometer for 7 days outside of the laboratory, in part by measuring mean steps per day. This will be quantified as reported by the ActiGraph accelerometer and ActiLife analysis software, which uses the vertical axis data. The Algorithm used by ActiGraph is not publicly available, but ActiGraph accelerometers are frequently used in research quantifying physical activity.

5. Mean Duration per day of Moderate-Vigorous Physical Activity (MVPA) over 7 days: tri-axial counts [up to 7 days]

   Physical activity habits around the time of testing will be assessed with a tri-axial accelerometer for 7 days outside of the laboratory, in part by measuring mean duration per day of MVPA. Intensity of physical activity assessed using tri-axial counts (per the accelerometer software) are as follows: Light physical activity is between 200 and 2690 counts/min, moderate intensity between 2690-6166 counts/min, and vigorous intensity is ≥ 6167 counts/min. MVPA is ≥2690.

6. Mean Duration per day of Moderate-Vigorous Physical Activity (MVPA) over 7 days: vertical counts [up to 7 days]

   Physical activity habits around the time of testing will be assessed with a tri-axial accelerometer for 7 days outside of the laboratory, in part by measuring mean duration per day of MVPA. Intensity of physical activity assessed using vertical counts (per the accelerometer software) are as follows: Light physical activity is between 100 and 759 counts/min, moderate intensity is 760-5999 counts/min, and vigorous intensity is ≥ 6000 counts/min (MVPA is > 760 counts/min).

7. Average Minutes per Day of Activity in at least 5-minute bouts [up to 7 days]

   Physical activity habits around the time of testing will be assessed with a tri-axial accelerometer for 7 days outside of the laboratory, in part by measuring mean duration per day of all activity. Average minutes per day of activity within each of the following categories: light = 25.8 mg - 100.5 mg; moderate = 100.6 mg - 428.7 mg; vigorous = > 428.8 mg (mg is the vector magnitude of acceleration calculated in gravities using Euclidean Norm minus 1 metric)

8. Average Minutes per Day of Activity in at least 10-minute bouts [up to 7 days]

   Physical activity habits around the time of testing will be assessed with a tri-axial accelerometer for 7 days outside of the laboratory, in part by measuring mean duration per day of all activity. Average minutes per day of activity within each of the following categories: light = 25.8 mg - 100.5 mg; moderate = 100.6 mg - 428.7 mg; vigorous = > 428.8 mg. (mg is the vector magnitude of acceleration calculated in gravities using Euclidean Norm minus 1 metric)

9. Percent Change in Global Surface EMG Recordings: Abdominal Muscles [up to 10 days]

   EMG will be reported as the root mean square (RMS) value. The percent change in EMG from the start of the task to task failure will be examined.

10. Percent Change in Global Surface EMG Recordings: Rectus femoris [up to 10 days]

    EMG for the rectus femoris will be normalized to the maximum RMS EMG obtained during lower extremity strength testing. The percent change in EMG from the start of the task to task failure will be examined.

11. Mean Global Pittsburgh Sleep Quality Index (PSQI) Score [up to 10 days]

    The PSQI assesses seven sleep domains: sleep quality, sleep latency, sleep duration, habitual sleep efficiency, sleep disturbances, use of sleeping medications, and daytime dysfunction. The seven components scores are then added to yield a global PSQI score in the range of zero to 21. Higher scores indicate worse sleep quality. A global score greater than five is diagnostic of poor sleep quality.

12. Mean Pelvic Floor Distress Inventory Short Form (PFDI-20) Score [up to 10 days]

    The PFDI-20 is composed of 20 items total on three scales (Pelvic Organ Prolapse, Colorectal-Anal Distress, Urinary Distress), each scored on a 5 point likert scale. Mean scores from each scale are calculated and multiplied by 25, then added together for a total possible range of scores from 0-300. Higher scores indicate increased pelvic floor distress.

13. Mean Oswestry Disability Index Score [up to 10 days]

    This disability index measures how much lower back or leg pain affects the ability to manage everyday life. There are 10 sections, each section is scored from 0-5 for a total possible range of scores 0-50. The resultant score is divided by the total possible score and multiplied by 100 to get a percentage of disability.

14. Mean Pain Catastrophizing Scale (PCS) Score [up to 10 days]

    The PCS is a measure of thoughts and feelings when one is in pain. It is a 13 item questionnaire scored on a 5 point likert scale. The total possible range of scores is 0-52 where higher scores indicate a higher degree of overwhelm with respect to pain.

15. Mean Edinburgh Postnatal Depression Scale (EPDS) Score [up to 10 days]

    The EPDS is a 10-item survey that screens for symptoms of depression that have been present in the previous 7 days. Each question is scored on a 4-point scale ranging from 0 to 3 points for a total possible range of scores between 0-30, where higher scores indicate increased depression. Only postpartum participants will complete this survey.

16. Mean Post Traumatic Stress Disorder (PTSD) Score [up to 10 days]

    The PTSD Checklist for DSM-5 with Life Events Checklist for DSM-5 and Criterion A scale will be used to assess participant level of PTSD. The measure has a total range of scores between 0-80 with higher scores indicating greater PTSD symptoms. Diagnostic and Statistical Manual of Mental Disorders, 5th Edition (DSM-5)

17. Mean Tampa Scale for Kinesiophobia (TSK) Score [up to 10 days]

    The TSK scale measures fear of movement. The total possible range of scores is 17-68, where higher score means higher degree of kinesiophobia.

18. Mean Pelvic Girdle Questionnaire (PGQ) Score [up to 10 days]

    The PGQ is a measure of how much pelvic girdle pain affects daily activities. It is a 25-item questionnaire scored on a 4 point likert scale for a total possible range of scores from 0-75 where higher scores indicate increased burden on daily activities.

Other Outcome Measures

1. Root mean square (RMS) of global EMG [up to 10 days]

   Muscle behavior will be quantified from surface EMG recordings of the rectus abdominis and rectus femoris using multi-channel array surface EMG electrodes during maximal and submaximal contractions and fatiguing exercise of the abdominal muscles. If successful, RMS of global EMG will be reported.

2. Percent of Maximum Voluntary Isometric Contraction (MVIC) [up to 10 days]

   Muscle activity will be quantified from surface EMG recordings of the rectus abdominis and rectus femoris using a multi-channel array surface EMG electrodes during submaximal contractions and fatiguing exercise of the abdominal muscles, and normalized to the RMS EMG during maximal voluntary isometric contractions (MVIC). If successful, percent of MVIC will be reported.

3. Mean discharge rate of single motor units [up to 10 days]

   Single motor unit behavior will be extracted from surface EMG recordings of the rectus abdominis and rectus femoris using a multi-channel array surface EMG electrodes during submaximal contractions and fatiguing exercise of the abdominal muscles, as an exploratory analysis. If successful, mean discharge rate of single motor units will be reported.

Eligibility Criteria

Criteria

Inclusion Criteria:

• Post-partum

• Primiparous (this is their first child)

Exclusion Criteria:

• multiple gestation

• prescription anti-inflammatory/pain medications that are taken daily

• significant orthopedic conditions that would contraindicate performance of the fatigue task (such as fractures, severe scoliosis, etc)

• cardiovascular & pulmonary disease

• neuromuscular health conditions (such as diabetes, neuropathy, multiple sclerosis, stroke, seizures, etc)

• history of previous abdominal surgery (with the exception of Cesarean delivery)

Nulligravid Women (Controls)

• Women from the surrounding community will also be recruited to serve as controls

• Nulligravid women will meet the same inclusion/exclusion criteria as the postpartum women, with the exception of never having been pregnant

Contacts and Locations

Locations

Sponsors and Collaborators

• University of Wisconsin, Madison
• Carroll University

Investigators

• Principal Investigator: Bryan Heiderscheit, PT, DPT, PhD, University of Wisconsin, Madison

Study Documents (Full-Text)

More Information

Publications