Diastasis rectus abdominis & postpartum health


diastasis rectus abdominisdiastasis rectus abdominis


Separation of the abdominal muscles is a common condition after some pregnancies, or many years of abdominal loading with poor technique, and is called Diastasis Rectus Abdominis. In some, it can prevent optimal function of the core.

Do you have a separation or split of your abdominal muscles as a consequence of your pregnancies or excessive, inappropriate abdominal training? Are you struggling to progress in your exercise program (core training/strengthening)? If so, our comprehensive program that begins with a biomechanical and ultrasound examination to determine the best treatment plan for restoring function of the stretched abdominal wall may be for you.

Watch the two video clips on this page and read the article associated with this condition (see below) and then call us today for a complete examination of your abdominal wall if you feel this condition applies to you.

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The following article is adapted from a larger publication Stability, Continence and Breathing - The role of fascia in both function and dysfunction and the potential consequences following pregnancy and delivery published in the Journal of Bodywork and Movement Therapies 12, 333-348 by Lee D G BSR, FCAMT, CGIMS , Lee L J BSc, BSc (PT), FCAMT, CGIMS, McLaughlin L BHScPT, DScPT, FCAMT, CMAG. The article was based on a workshop presented at the First Fascial Research Conference at Harvard Medical School in Boston MA in October 2007.


Pregnancy-related pelvic girdle pain (PRPGP) has a prevalence of approximately 45% during pregnancy (Wu et al 2004) and 20 - 25 % in the early postpartum period (Ostgaard et al 1991, Albert et al 2002, Wu et al 2004). Most women will become pain free in the first 12 weeks after delivery however; 5-7% will not (Ostgaard & Andersson 1992). In a large postpartum study of prevalence for urinary incontinence (UI), Wilson et al (2002) found that 45% of women experienced UI at 7 years postpartum and that 27% who were initially incontinent in the early postpartum period regained their continence while 31% who were continent became incontinent. Clearly for some women, something happens during pregnancy and delivery that impacts the function of the abdominal canister (Fig. 1) either immediately, or over time.

abdominal canister

Fig. 1

The abdominal canister is a functional and anatomical construct based on the components of the abdominal cavity that synergistically work together. It contains the abdominal and pelvic viscera and is bounded by many structures including:

  • the diaphragm including its cura and by extension the psoas muscle whose fascia intimately blends with that of the
  • pelvic floor and the obturator internus muscle,
  • the deep abdominal wall including transversus abdominis and its associated fascial connections anteriorly and posteriorly,
  • the deep fibres of multifidus, the intercostals, the thoracolumbar vertebral column (T6 -12 and associated ribs - L5) and osseus components of the pelvic girdle (innominates, sacrum and femora).

The lumbopelvic canister contains 85 joints all of which require stabilization during functional tasks. Optimal strategies for function and performance will ensure controlled mobility, preservation of continence and organ support and respiration.

Current evidence suggests that the muscles and fascia of the lumbopelvic region play a significant role in musculoskeletal function as well as continence and respiration and the combined prevalence of lumbopelvic pain, incontinence and breathing disorders is slowly being understood (Pool-Goudzwaard et al 2005, Smith et al 2007a). It is also clear that synergistic function of all trunk muscles is required for loads to be transferred effectively through the lumbopelvic region during multiple tasks of varying load, predictability and perceived threat (Hodges & Cholewicki 2007). Optimal strategies for transferring loads will balance control of movement while maintaining optimal joint axes, maintain sufficient intra-abdominal pressure without compromising the organs (preserve continence, prevent prolapse or herniation) and support efficient respiration. Non-optimal strategies for posture, movement and/or breathing create failed load transfer that can lead to pain, incontinence and/or breathing disorders.

clinical puzzle lee & lee

The Clinical Puzzle (Lee & Lee 2007) is a graphic used for clinical reasoning in The Integrated Systems Model. The outer ring represents the strategies an individual uses for function and performance of any task assessed. Optimal strategies for function and performance depend on the integrity of all pieces within the circle. This evidenced-based model considers the role of, and interplay between, psychosocial and systemic physiological factors (the person in the middle of the puzzle), the articular system, the neural system, the myofascial system, and the visceral system. (Reproduced with permission from Lee & Lee ©)


Individual or combined impairments in multiple systems including the articular, neural, myofascial and/or visceral can lead to non-optimal strategies during single or multiple tasks. Biomechanical aspects of the myofascial piece of the clinical puzzle as it pertains to the abdominal canister during pregnancy and delivery is the focus of this article. The reader is referred to the original source (Lee et al 2008) for the full paper.

The Anterior Abdominal Fascia & Pregnancy

diastasis rectus abdominis

Diastasis Rectus Abdominis - This patient has a large diastasis rectus abdominis measuring 3.28 cm wide just above the umbilicus with obvious damage to her skin and superficial fascia.

It is well established that transversus abdominis plays a crucial role in optimal function of the lumbopelvis and that one mechanism by which this muscle contributes to intersegmental (Hodges et al 2003) and intrapelvic (Richardson et al 2002) stiffness is through fascial tension. Diastasis rectus abdominis (DRA) has the potential to disrupt this mechanism and is a common postpartum occurrence (Boissonnault & Blaschak 1988, Spitznagle et al 2007). Universally, the most obvious visible change during pregnancy is the expansion of the abdominal wall and while most abdomens accommodate this stretch very well, others are damaged extensively.

One structure particularly affected by the expansion of the abdomen is the linea alba, the complex connective tissue (Axer et al 2001) which connects the left and right abdominal muscles. The width of the linea alba is known as the inter-recti distance and normally varies along its length from the xyphoid to the pubic symphysis. According to Beer et al (2009), in women between the age of 20 & 45, them width of the normal linea alba is highly variable. The mean width measures found via ultrasound imaging in this study of 150 nulliparous women were 7mm ± 5 at xyphoid, 13mm ± 7 3cm above Umbilicus, and 8mm ± 6 2cm below Umbilicus. This width can be reliably measured with ultrasound imaging (Coldron et al 2007, Lee D 2008 unpublished data). A DRA is commonly diagnosed when the width exceeds these amounts.

There is little research on this condition; Boissonnault & Blaschak (1988) found that 27% of women have a DRA in the second trimester and 66% in the third trimester of pregnancy. 53% of these women continued to have a DRA immediately postpartum and 36% remained abnormally wide at 5-7 weeks postpartum. Coldron et al (2008) measured the inter-recti distance from 1 day to 1 year postpartum and note that the distance decreased markedly from day 1 to 8 weeks, and that without any intervention (e.g. exercise training or other physiotherapy) there was no further closure at the end of the first year. In the urogynecological population, 52% of patients were found to have a DRA (Spitznagle et al 2007). 66% of these women had at least one support-related pelvic floor dysfunction (stress urinary incontinence (SUI), fecal incontinence and/or pelvic organ prolapse).

Clinically, it appears that there are two subgroups of postpartum women with DRA,

  1. those who through a multi-modal treatment program are able to restore optimal strategies for transferring loads through the abdominal canister (i.e. resolve the Clinical Puzzle) with or without achieving closure of the DRA and
  2. those who
    1. in spite of apparently being able to restore optimal function of the deep muscles (optimal neural system), and who
    2. do not have loss of articular integrity of the joints of the low back and/or pelvis (optimal articular system) and in whom
    3. the inter-recti distance remains greater than normal (non-optimal myofascial system),

fail to achieve optimal strategies for transferring loads through the abdominal canister. In multiple vertical loading tasks (single leg standing, squatting, walking, moving from sit to stand, and climbing stairs) failed load transfer through the pelvic girdle and/or hip joint is consistently found.

The second subgroup of postpartum women have often sustained significant damage to the midline fascial structures and sufficient tension can no longer be generated through the abdominal wall for resolution of function. For this subgroup, a surgical abdominoplasty to repair the midline abdominal fascia (the linea alba) is warranted. The clinical findings that indicate a surgical consultation are listed below. Much research is needed to substantiate or refute these clinical hypotheses and studies are being developed at this time to investigate this very significant postpartum complication.

When should consideration be given for a surgical repair of a diastasis rectus abdominis? The current clinical hypothesis is that:

  1. The woman should be at least 1 year postpartum (Coldron et al 2007) and a proper multi-modal program for restoration of effective load transfer through the lumbopelvis (Lee 2004, Lee & Lee 2004a) has failed to restore optimal strategies for function, resolve lumbopelvic pain and/or UI.
  2. The inter-recti distance is greater than mean values (Beer et al 1996) and the abdominal contents are easily palpated through the midline fascia.
  3. Multiple vertical loading tasks reveal failed load transfer through the lumbopelvis
    1. failure to control segmental and/or intrapelvic motion (SIJ/pubic symphysis) during single leg loading (Stork or One leg standing test) (Hungerford et al 2004, 2007)
    2. failure to control segmental and/or intrapelvic motion (SIJ/pubic symphysi) during a squat or sit to stand task (Lee 2004, Lee & Lee 2004a)
  4. The active straight leg raise test is positive (Mens et al 1999) and the effort to lift the leg improves with both approximation of the pelvis anteriorly as well as
  5. approximation of the lateral fascial edges of rectus abdominis (Lee 2007).
  6. The articular system tests for passive integrity of the joint of the low back and/or pelvis (mobility and stability) are normal.
  7. The neural system tests are normal. The individual is able to perform a co-contraction of transversus abdominis, multifidus and the pelvic floor yet this co-contraction does not control neutral zone motion of the joints of the lumbopelvic which demonstrated failed load transfer on loading (Lee 2004, Lee & Lee 2004a).

It is apparent from both the research evidence and clinical experience that the biomechanical, and physiological affects of pregnancy and delivery can have a non-optimal impact on the fascial support system of the abdominal canister. Optimal strategies for function and performance depend on the integrity of the articular, neural, myofascial and visceral systems that can be influenced by psychosocial and systemic physiological factors. Not all women with diastasis rectus abdominis require surgery for restoration of full function; however, some do. If a postpartum woman fails to:

  1. progress in their exercise program
  2. regain painfree function
  3. regain urinary continence, and

has noticeable stretch damage to her abdominal wall associated with a diastasis of the rectus abdominis, a complete biomechanical and ultrasound assessment of the myofascial component of the abdominal canister is warranted. A complete assessment of your abdominal wall function is available at Diane Lee & Associates.


Axer H, Graf D, Keyserlingk M D,. Prescher A 2001 Collagen Fibers in Linea Alba and Rectus Sheaths. Jour of Surgical Research 96: 127-134

Boissonnault J S, Blaschak M J 1988 Incidence of diastasis recti abdominis during the childbearing year. Physical Therapy (68):7

Coldron Y, Stokes M J, Newham D J, Cook K 2007 Postpartum characteristics of rectus abdominis on ultrasound imaging. Manual Therapy. epub

Hodges P W, Cholewicki J 2007 Functional control of the spine. Ch: 33 In: Movement, Stability & Lumbopelvic Pain. Eds. Vleeming A, Mooney V, Stoeckart R. Elsevier, Edinburgh

Hodges P W, Kaigle Holm A, Holm S et al 2003 Intervertebral stiffness of the spine is increased by evoked contraction of transversus abdominis and the diaphragm: in vivo porcine studies. Spine 28(23):2594

Hungerford B, Gilleard W, Lee D 2004 Alteration of pelvic bone motion determined in subjects with posterior pelvic pain using skin markers. Clinical Biomechanics (19):456

Hungerford B, Gilleard W, Moran M & Emmerson C, 2007 Evaluation of the reliability of therapists to palpate intra-pelvic motion using the stork test on the support side. J Phys Therapy (87):7 879

Lee D G 2004 The Pelvic Girdle 3rd edn. Elsevier SyntaxError

Lee D G 2007 Clinical Reasoning and Pelvic Girdle Pain: Show me the Patient! In: Proceedings of the 6th World Congress on Low Back and Pelvic Girdle Pain, Barcelona, Spain, p 27

Lee D G, Lee LJ 2004a An Integrated Approach to the Assessment and Treatment of the Lumbopelvic-hip Region – DVD. www.dianelee.ca or www.discoverphysio.ca

Lee DG, Lee LJ 2007 Bridging the Gap: The role of the pelvic floor in musculoskeletal and urogynecological function. Proceedings of the World Physical Therapy Conference, Vancouver, Canada

Lee D G, Lee LJ, McLaughlin L 2008 Stability, continence and breathing - The role of fascia in both function and dysfunction and the potential consequences following pregnancy and delivery. Journal of Bodywork and Movement Therapies 12, 333-348

Mens J M A, Vleeming A, Snijders C J, Stam H J, Ginai A Z 1999 The active straight leg raising test and mobility of the pelvic joints. European Spine 8:468

Ostgaard H C, Andersson GBJ, Karisson K 1991 Prevalence of back pain in pregnancy. Spine 16:49-52

Ostgaard HC, Andersson 1992 Postpartum Low back pain. Spine 17(1):53-55

Pool-Goudzwaard A, Slieker ten Hove M C, Vierhout M E, Mulder P H, Pool J J, Snijders C J et al. 2005 Relations between pregnancy-related low back pain, pelvic floor activity and pelvic floor dysfunction. Int Urogynecol J Pelvic Floor Dysfunt 16(6): 468-474

Rath A M, Attali P, Dumas J L, et al 1996 The abdominal linea alba: an anatomo-radiologic and biomechanical study. Surgical Radiologic Anatomy 18:281-288

Richardson C A, Snijders C J, Hides J A, Damen L, Pas M S, Storm J 2002 The relationship between the transversely oriented abdominal muscles, sacroiliac joint mechanics and low back pain. Spine 27(4):399

Smith MD, Russell, A, Hodges PW 2007a Is there a relationship between parity, pregnancy, back pain and incontinence? Int Urogynecol J Pelvic Floor Dysfunction [Epub ahead of print] July 31

Spitznagle TM, Leong FC, van Dillen LR 2007 Prevalence of diastasis recti abdominis in a urogynecological patient population. Int Urogynecology J 18:3

Wu W H, Meijer O G, Uegaki K, Mens J M, Van Dieen J H, Wuisman P I et al 2004 Pregnancy-related pelvic girdle pain (PPP), I: Terminology, clinical presentation, and prevalence. Eur Spine J 13(7):575-589

Download the full article on Diastasis Rectus Abdominis and Postpartum Health

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Further reading:

Diastasis Rectus Abdominis and the Implications for Returning to Sport after Pregnancy

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