Diastasis Recti Abdominis Rehabilitation in the Postpartum Period: A Scoping Review of Current Clinical Practice

Introduction and hypothesis Despite exercise being the standard approach to diastasis recti abdominis (DRA) rehabilitation, there is no consensus on the most effective exercise routine and adjunct modalities for reducing DRA and improving functional parameters. The present study is aimed at investigating evidence for DRA rehabilitation in postpartum women, as well as knowledge gaps and areas for future research. Methods For this scoping review a systematic search was conducted in MEDLINE, AMED, CINAHL, Embase, ScienceDirect, Scopus, and PEDro up to November 2022. Selection criteria included studies investigating exercise therapy interventions both with and without adjunct modalities for postpartum DRA. Sample characteristics, diagnostic criteria, program design, and outcome measures were recorded. Critical appraisal of clinical trials was performed using PEDro classification. Results Twenty-eight studies were included: 14 clinical trials, 3 case series, and 11 observational studies. DRA exercises that focused on deep and superficial muscles, pelvic floor muscles, respiratory maneuvers, functional exercises, or alternative interventions (yoga, suspension training, hypopressive exercise) and adjunct modalities showed promising results in reducing the inter-recti distance and related dysfunction. However, there was great variability in diagnostic criteria and methods, DRA severity, time post-birth, and exercise program design. Conclusions Reviewed studies provide valuable insights into exercise therapy, but it is important to recognize their limitations, as variability in diagnostic criteria, sample characteristics, and exercise program design hinder the generalizability of the findings. Further high-quality research is needed to strengthen the evidence in this area and provide reliable recommendations for clinical practice. Supplementary information The online version contains supplementary material available at 10.1007/s00192-024-05727-1.


Introduction
Diastasis recti abdominis (DRA) is a connective tissue condition characterized by a separation of the two rectus abdominis (RA) muscles along the linea alba (LA) due to stretching and thinning.Separation is visible during an abdominal contraction, appearing either like a bulge or invagination through the midline of the anterior abdominal wall [1].DRA primarily affects women antenatally and postpartum; prevalence varies between 66 and 100% in the final trimester of pregnancy and up to 53% within 24 h of delivery [2,3].Natural resolution is reported during the first 8 weeks postpartum, after which time spontaneous resolution plateaus [2,4,5].However, some researchers suggest that recovery might still be ongoing at 6 months postpartum [6], and, despite limited research, DRA is found to be present in 36% of women at 12 months postnatally [2,3,7].
Assessment and diagnosis of DRA are performed via inter-recti distance (IRD) [5] measurement.Ultrasound and calipers are recommended as the most reliable IRD assessment methods [8,9].Currently, there is no consensus about cut-off points for diagnosis, although some researchers consider ultrasound measurements of 2.2-2.3 cm at the umbilicus level to be clinically important [5,10].Beer et al. [1], utilizing healthy nulliparous women, classified ultrasound-measured IRDs during rest with DRA if >1.5 cm at the xiphoid, >2.2 cm at 3 cm above the umbilicus, and >1.6 cm at 2 cm below the umbilicus.
The abdominal wall plays a significant role in maintaining posture, trunk and pelvic mobility and stability, adequate breathing quality, and abdominal viscera support.Stretching and thinning of the LA during gestation is a result of connective tissue laxity and mechanical strain from hormonal changes and greater intra-abdominal pressure [2,11].Abdominal bulging results from visceral protrusion between rectus bellies, whereas abdominal invagination results from linea alba posterior distortion.Both clinical signs, evident in DRA, can cause significant aesthetic concerns for postpartum women.Additionally, modifications in muscle pull angles may alter body mechanics and impair the ability of the abdominal muscle to generate force and the ability of the fascia to transfer loads across the midline [12].Although there is weak evidence on the effects of DRA on trunk and pelvic dysfunctions or imbalances, some researchers claim that DRA-associated muscle changes may impair abdominal muscle strength, modify breathing patterns, and lead to low back or pelvic girdle pain, or other pelvic floor disorders [10,[13][14][15][16].
According to the latest guidelines, DRA management should be primarily conservative, and physiotherapy is the gold standard approach [17].Surgical intervention, involving the reduction of the IRD through plication of the linea alba and anterior rectus sheath with or without a mesh, is typically reserved for severe cases where conservative treatment fails, no further reduction is achieved, or a concomitant symptomatic hernia is present [17,18].However, owing to surgical complications and the potential recurrence of DRA with subsequent pregnancies, a conservative approach is generally recommended for at least 6 months [17].However, although rehabilitation focusing on various exercises, including pelvic floor muscle (PFM) exercises, transversus abdominis (TrA) exercises, hypopressive abdominal training [19][20][21][22], etc., is promising [21,23], most studies are of low methodological quality [24] and present great heterogeneity regarding DRA severity, IRD measurement methods, cut-off points, etc., thus indicating no consensus on a standardized rehabilitation protocol [24,25].Given the above limitations, a scoping review was conducted to systematically map research on therapeutic exercise and adjunct modalities for DRA postpartum, with the objective of qualitatively synthesizing their findings and comparing their designs.The scoping review was aimed at addressing the following research questions: 1. What are the current exercise interventions and adjunct modalities utilized for DRA rehabilitation in postpartum women? 2. What is the impact of exercise therapy and adjunct modalities on IRD reduction and related functional outcomes in postpartum women with DRA? 3. What are the existing knowledge gaps and limitations in the current literature on DRA rehabilitation practices for postpartum women?

Materials and Methods
This scoping review was designed according to the Joanna Briggs Institute Updated Guidelines of 2020 [26] and also follows the Preferred Reporting Items for Systematic Reviews and Meta-Analyses-Scoping Review (PRISMA-ScR) reporting guidelines [27,28] (http:// www.prismastate ment.org/ Exten sions/ Scopi ngRev iews).The study protocol was registered with OSF-Standard Pre-Data Collection Registration on Open Science Framework (OSF) (https:// osf.io/ hm2t4/?view_ only= 6f11d fcdf0 ee4e4 28520 81a6e 49f96 16).An electronic search was conducted between March and November 2022 on databases such as MEDLINE, CINAHL, Embase, ScienceDirect, Scopus, and PEDro, for studies that satisfied the inclusion criteria.Keywords were based on the Population, Concept, and Context (PCC) framework and included the terms "DRA" or "diastasis recti" or "rectus abdominis diastasis" or "recti divarication" and "postpartum women" or "parous women" and "physiotherapy" or "physical therapy" or "exercise" or "training" or "rehabilitation."Boolean logic (AND, OR, and NOT) was employed to generate combinations of search strings.The final search strategy for MEDLINE can be found in Appendix 1.
Eligibility criteria included experimental studies (randomized controlled trials [RCTs], controlled clinical trials [CCTs], case series) or observational/descriptive studies (cohorts, case-control, cross-sectional, longitudinal, prospective studies) containing the above terms, articles published in English and in full-text, without any limitations regarding publication date.Exclusion criteria were singlecase studies, reviews, and clinical commentaries, studies in which none of the study groups entailed exercise interventions, observational studies restricted solely to healthy nulliparous subjects, and studies proposing finger-widths or tape measures as IRD outcomes.Results were scanned manually, and articles not complying with the above criteria were excluded.
To increase consistency, all three reviewers participating in the study selection and data extraction studied the PRISMA-ScR guidelines, agreed to the aforementioned screening and data extraction method, and reviewed the articles.Disagreements regarding study selection and data extraction were resolved by consensus and subsequent discussion amongst reviewers.Two reviewers developed a data-charting form and independently charted data, discussed results, and modified data-charting accordingly.Data were charted according to study design, and sample characteristics, interventions, and outcomes were tabulated.Summarized data are presented in Appendix 2. Data were interpreted and summarized by the three reviewers.
Critical appraisal of RCTs was attained by PEDro classification for clinical trials.The two assigned reviewers independently assessed and scored each scale's item, considering that total PEDro scores of 0-3 are considered "poor," 4-5 "fair," 6-8 "good," and 9-10 "excellent."Disagreements between the reviewers were settled with the help of a third reviewer when necessary.
This scoping review was exempt from institutional review board approval as it did not involve primary data collection or human subjects.This study is part of a broader research project approved by the Research Ethics Committee of the University of Patras, with internal code 16192.

Results
The database search identified 454 records.After removing duplicates, 330 articles were eligible for screening.Title and abstract screening removed another 255 records, leaving 75 articles for full-text review.Four reports were unavailable in full-text, and of the remaining 71, a total of 43 were excluded (Fig. 1).Finally, 28 full-text articles met the inclusion criteria: 14 clinical trials (13 RCTs, 1 CCT), 3 case series, and 11 observational/descriptive studies (cohorts, case-control, cross-sectional, longitudinal, and prospective studies).

Rectus Abdominis Training
Several studies (observational [22,30,41,50] and case-controls [49]) observed an immediate DRA closure (above and below the umbilicus) during abdominal crunch/ curl-up maneuvers [30,51] (Fig. 4).A fair-quality RCT [43] reported statistically significant improvements in IRD closure with "traditional" curl-ups compared with plank exercises (Table 2).Another fair-quality RCT [29] found abdominal crunches to be more effective than a double straight leg raise exercise protocol for reducing IRD.In an observational study [36], a head-lift maneuver seemed to have a similar effect to a twisted curl-up exercise on IRD reduction.Djivoh and De Jaeger [38], however, observed a significant IRD decrease during curl-ups and sit-ups compared with head-lifts.DRA reduction during curl-up in women with vaginal deliveries and in those with cesarean sections was found to be similar [50].

Transversus Abdominis Training
The TrA is the main component of most DRA protocols.These contractions are guided by an abdominal drawingin maneuver (ADIM) following deep exhalation (Fig. 5).Researchers investigating TrA contractions via ultrasound, using the ADIM on DRA patients, found an immediate IRD increase, attributed to the muscle's transverse fibers and pull angle [31,36,[49][50][51] (Fig. 6), and tension of the LA minimizing distortion [12].In a good-quality RCT [21], however, TrA exercises from various positions in DRA women showed a significant IRD decrease after 12 weeks, compared with only the taping or the control group (maintaining normal activity).

Co-Activation of Deep and Superficial Abdominal Muscles
In observational studies, researchers observed an IRD increase with TrA pre-activation during curl-up compared with no pre-activation [12,[49][50][51].Lee and Hodges [12] observed an IRD increase during ADIM compared with curlup and also noted LA distortion (anteriorly or posteriorly) during curl-up, which was reduced with deep and superficial abdominal co-contractions.

Alternative Exercise Therapy Interventions
Six studies proposed alternative exercises, such as electromyographic-biofeedback PFM exercises [34], suspension training [39], yoga [48], AHEs [22,35], and low-impact aerobic and resistance training [32].A fair-quality RCT [48] found that a yoga exercise program significantly reduced IRD postpartum, compared with a control group practicing no exercise.A good-quality RCT [39] proposed suspension training (suspension training system [STS]) with exercises from various positions against an isometric-isotonic core stabilization protocol proposed by Litos [54] and a non-active control group.STS reduced IRD but without significant differences between exercise groups.In an observational study [22] AHEs from a supine position narrowed IRD infraumbilically but tended to increase IRD supraumbilically.In a case series [35], a protocol containing AHEs, oblique, and RA exercises was successful in significantly reducing IRD after 9 weeks.

Other Interventions/Modalities
Nine studies used special modalities or equipment in their exercise protocols, proposing abdominal binding with garments [23,[42][43][44]46] or bandages/scarves [33,52] during exercise.In three RCTs [42,43,46] abdominal binding alone [42] or combined with stabilization exercises [43,46] effectively reduced IRD in DRA women.Thabet and Alshehri [44] found that a core stabilization-focused exercise program combined with traditional abdominal exercises and abdominal binding was more effective than traditional abdominal exercises alone in reducing IRD and improving physical function.Similar effects were described in Keshwani et al.'s RCT [23], where trunk flexion strength was clinically meaningful at 12 weeks of intervention for the abdominal binding and combination therapy (exercise and abdominal binding) groups, for women starting the program at 3 weeks postpartum.In an observational study [41], abdominal binding reduced IRD during rest, but not during contractions (curl-ups and drawing-in maneuvers).In a good-quality RCT [21] adding elastic tape to the protocol did not improve exercise results, whereas abdominal binding was more effective in supporting the abdominal wall and decreasing IRD during rest in an observational study [41].In two good-quality RCTs [33,34], NMES was applied to promote maximal abdominal contractions and in combination with exercise reduced IRD and proved effective.

Contribution of Rehabilitation Interventions to Other Outcome Measures
Apart from IRD reduction, DRA rehabilitation programs also decreased the waist/hip ratio and increased abdominal muscle efficiency (peak torque, maximum repetition total work, and average power) [23,42], especially when they and arms extended beside the hips, parallel to the bed, the patient is instructed to curl their upper back and shoulders in a controlled way, until their shoulder blades are off the bed while maintaining their lower back in contact with the bed.The arms remain parallel to the ground, reaching towards the feet were combined with NMES [33] or abdominal binding [23].In several RCTs, progressive and functional exercise programs have been shown to increase physical function [44], improve running speed for recreational runners with DRA [37], increase abdominal muscle thickness (RA, TrA, external and internal oblique), improve trunk endurance, reduce low back pain severity and disability [29], and health and functional areas of the maternal qualityof-life questionnaire [47].PFM training using BAPFMT combined with abdominal exercises and NMES of the RA also improved physical functioning and quality of life (QoL) [34].Progressive and functional exercise programs [32,39] improved lumbopelvic control and proprioception impairment [39], low back pain intensity and disability [32,39], static and dynamic balance [39], and stress urinary incontinence [32].

Discussion
Overall, based on this scoping review, there is evidence that current rehabilitation practice is beneficial in several DRArelated and functional parameters for women postpartum.However, although researchers propose various exercises and adjunct modalities, there is no agreement on what constitutes the best approach.

Evidence on Exercise Prescription
Observational studies support the notion that deep trunk muscle contractions are important in generating LA tension for supporting abdominal viscera and transferring forces across the midline of the abdomen.Researchers now agree that the ability to generate tension in the LA is crucial for abdominal wall function and is more important than complete DRA closure [12,55,56], whereas patient functionality, neuromuscular control, and muscle capacity to achieve force and form closure may be of greater clinical value [21].Systematic reviews [24,25] support encompassing TrA contractions in DRA rehabilitation programs, combined with upper and lower extremity exercises, trunk rotations, and functional training in various loading positions.Expert-based recommendations [56] report that optimal isolated and synergistic contractions of inner unit muscles and tension-free diaphragmatic breathing should be prioritized during the immediate postpartum period for DRA.Additionally, LA tension through TrA contraction is suggested to generate a connective tissue remodeling process, promoting DRA closure [23].However, more research in this area is required.Furthermore, a combination of deep and superficial abdominal contractions proved to be safe and effective in tensing the LA without further separating the rectus muscles [12].Introducing trunk flexion exercises early postpartum is necessary, as most women perform RAdominant tasks that increase abdominal pressure during daily activities and infant care.Retraining patients in generating and maintaining LA tension in static tasks with inner-unit and then combining them with outer-unit contractions in more dynamic exercises (such as trunk flexion and rotation) would be desirable.However, exercise progression should be individualized according to the patient's needs, function, and progress.Interestingly, many protocols [29, 33-35, 42-44, 47, 52] introduce outer-unit targeting exercises (curl-ups, sit-ups, and trunk twists) early postpartum, without providing information about patients' ability to generate tension in the LA.Moreover, in several protocols [21,22,29,42,44] no information is provided about exercise progression or adequate loading capacity.Future studies could include specific clinical/functional tests for assessing patients' function and readiness to progress (maintain and transfer load) to more difficult exercises.A. The patient is lying in a relaxed supine position with the legs bent, outwardly rotated and supported at the knees.They are then instructed to take a deep breath while relaxing the abdomen and the pelvic floor muscles and then to fully exhale while they contract the PFM.The physiotherapist uses instructions like " tighten the muscles around the vagina and anus" or "tighten the muscles around the anus as if to stop pass-ing wind and then gently draw the anus up towards the back of the pubic bone".Palpation of PFM activation is performed using two fingers over the labia majora, laterally to the vaginal opening.A towel is commonly utilized for patient comfort during this procedure.B. The patient is guided to self-palpate the contraction of the PFM and maintain a contraction for 10 seconds (while breathing and audibly counting to 10) According to Dufour et al. [56] inner unit muscle retraining should also include PFM exercises, which are the gold standard approach to urinary incontinence [57] and are also proposed for DRA rehabilitation programs [58].However, there is conflicting evidence regarding their effect on IRD [24,34].Observational studies [31,36] have found PFM contractions almost as effective as TrA contractions for tensing the LA, whereas a co-contraction between them was found to be the most effective.Gluppe et al. [58], studying PFM training, found no significant differences in IRD reduction compared with control at 6 months post-intervention; however, the IRD reduction of the control group could have been due to spontaneous DRA resolution during early postpartum and not necessarily due to PFM ineffectiveness (as rehabilitation was initiated early).Nevertheless, adding electromyographic BAPFMT to abdominal exercises and NMES for RA was superior in decreasing IRD than abdominal exercises and NMES alone in an RCT [34], and it may be that muscle adaptations could be the result of sufficient PFM loading through electromyographic-biofeedback.
Various researchers have proposed eccentric abdominal contractions [23,33,34,42,44,47].Unfortunately, most protocols encompass eccentric exercises in both intervention and control [33,34,44,47] groups; thus, no clear conclusions can be drawn.Eccentric muscle contractions are superior to concentric or isometric ones regarding muscular adaptations, such as strength [59], muscle mass [60], and structural arrangement [61] (muscle bundles' length and pennation angles).Moreover, eccentric exercise can activate type II muscle fibers [59] and produce greater forces than concentric, resulting in easier load transfers [62].Thus, eccentric contractions may be more suitable for the early postpartum period when abdominal muscles may be less effective at generating force.Although eccentric training has generally been extensively studied, its effect on the RA muscle or the DRA is as yet unknown.Indeed, researchers hypothesize that eccentric RA contractions might improve strength and muscle alignment, promote connective tissue remodeling, and reduce IRD [23,47].
Several rehabilitation protocols encompass respiratory exercises, where diaphragmatic breathing or respiratory maneuvers are performed to facilitate a co-contraction of deep trunk muscles.Researchers suggest that the diaphragm contributes to spinal stability, working synergistically with TrA and PFMs to increase intra-abdominal pressure where necessary [63][64][65].Several studies utilizing diaphragmatic exercises in patient populations and trunk dysfunctions reveal alterations in diaphragm morphology and function [66][67][68][69][70], correlations between diaphragm thickness and walking pace [71] or balance deficits [72,73]; thus, supporting its trunk-stabilizing and functional role.Diaphragm parameters (thickness, excursion, etc.) have never been studied postpartum, and their role in DRA rehabilitation remains unknown, despite the strong recommendations for diaphragmatic rehabilitation for deeper abdominal muscle contractions [21, 32-34, 39, 44, 45, 52].
Alternative types of exercise, despite a scarcity of research, also appear effective.Suspension training was equally as effective as isometric-isotonic exercises for reducing IRD, improving lumbopelvic control and proprioception, static and dynamic balance, back pain, and disability [39].Yoga was also effective in decreasing IRD in mild DRA [48].AHEs were found to have a similar effect to a TrA contraction, increasing IRD and tensing the LA [22].AHEs are believed to facilitate deeper abdominal and PFM contractions while reducing intra-abdominal pressure, relaxing the diaphragm, and elevating the pelvic viscera [22].Two case series [35,74] also reported promising results regarding IRD closure.However, it is suggested that AHEs should be prescribed with caution [75,76] as TrA activation through AHEs may in fact increase intra-abdominal pressure, putting more strain on the PFM.

Evidence on Adjunct Modalities
Several complementary interventions and modalities have also shown encouraging effects.Combined NMES with exercise significantly reduced IRD and increased abdominal muscle strength (peak torque, maximum repetition total work, and average power) compared with exercise alone [33].
There is some evidence that abdominal binding can reduce IRD and improve muscle function.These effects, however, cannot be attributed solely to abdominal binding, as in several studies patients also performed exercise [33,43,44,46], and in others, patients were only a few days/weeks postpartum [23,42] (where spontaneous resolution usually occurs).Some researchers speculate that abdominal support garments provide protection for collagen formation during exercise and support optimal muscle position for better performance and tissue remodeling [23].Others, however, recommend their use with caution, as they may increase intra-abdominal pressure and put a strain on PFMs [57].Currently, there is not enough evidence to support the use of elastic tape in DRA rehabilitation.Although taping may be helpful as a proprioceptive stimulus for deep abdominal contractions during activities that increase intra-abdominal pressure [21], abdominal binding is considered superior for abdominal wall support and IRD reduction compared with taping [41].Considering the lack of evidence, we suggest that abdominal support garments are only introduced according to individual needs (i.e., following cesarean section, poor intra-abdominal control, etc.).

Evidence on Other Outcomes
Exercise therapy was also effective in improving other outcomes and parameters.Low back pain severity and disability [29,39], physical functioning, and QoL were improved in several studies [34,44,47].Comparable results are presented in previous studies, where improvements in function, perceived pain [54], and quality of life were reported [19].Exercise programs were also effective in improving stress urinary incontinence [32] and increasing running speed in recreational runners [37].
Exercise program efficacy seems to be independent of the rehabilitation setting.Supervised online exercise therapy was equally effective in increasing abdominal muscle thickness (RA, TrA, and obliques) and static trunk endurance as live sessions [47].Moreover, unsupervised online therapeutic exercise (through videos) was also effective in reducing IRD, low back pain, and stress urinary incontinence [32].However, unsupervised rehabilitation may prevent therapists' ability to provide correcting cues and may also prevent compliance tracking.

Limitations of the Studies Included
Methodological quality was relatively moderate across studies, with 8 of them graded as borderline good quality according to PEDro [21,23,33,39,[44][45][46][47], making it challenging to draw definite conclusions.Sample sizes were also relatively low across studies, whereas only 2 undertook a prior power analysis [34,46].There was significant variability in inclusion criteria and assessment methods, with no consensus on predefined cut-off points for DRA diagnosis and assessment conditions (resting, head-lift, or curl-up).Researchers included women with variable DRA, ranging from minimal/borderline [21,34,37,43,45,47,48] to mild and severe [23,35,39] IRD, according to established classifications [1,3], thus potentially biasing the effectiveness of rehabilitation.The timing of exercise initiation was variable, with women enrolling immediately after birth [40] to more than 6 months or 1 year postpartum [32,35,37,43].Early rehabilitation, however, could bias results owing to the natural resolution occurring during the first months postpartum [2,4,5], which could perhaps justify the IRD reduction across control groups [21,40,48], thus limiting the credibility of the studies.Nevertheless, greater IRD reductions favoring the intervention groups could indicate that focused exercise early postpartum could further enhance this natural effect.Exercise duration and frequency were also variable among studies.Although 2020 Swedish National Guidelines [17] recommend a 6-month rehabilitation training before considering surgery, guidelines on exercise duration for DRA are not well established.According to the American College of Sports Medicine Guidelines [77], strength training for healthy individuals should include at least 2-4 sets of 8-12 repetitions per set of 60-70% of one-repetition maximum (1-RM), for at least 2-3 days per week with progressive exercise intensity over time.Postpartum PFM training protocols also suggest at least 12 weeks' duration for optimal muscle adaptations to occur [78].However, several studies do not follow these guidelines [33,34,40], and only a third of them [23,32,37,39,[43][44][45][46][47][48] propose progressions of isolated muscular and functional exercises (i.e., planks, bridges, squats, etc.), which are necessary for distinct neuromuscular, functional and fascial adaptations.Also, several studies [21,22,29,35,42,44] fail to provide information about exercise prescription, such as training load and progression.Thus, it is reasonable to assume that the inability to reach statistical significance in DRA-related outcomes in some of these studies could be the result of a low training load and/or duration.

Study Limitations
This scoping review was designed with the objective of systematically mapping rehabilitation interventions, applied to treat DRA during the postpartum period; however, it may have some limitations.In particular, the exclusion of non-English-language publications may introduce bias in study selection, whereas variability in diagnostic criteria, exercise program design, and assessment methods among the studies included may limit generalizability.Additionally, the lack of statistical comparison of results and the qualitative synthesis of findings may limit the reviewers' ability to draw definitive conclusions.The inclusion of observational studies alongside clinical trials may further introduce biases and make it challenging to draw definitive conclusions about the long-term effectiveness of the interventions.Moreover, the review's focus on exercise interventions may overlook other potential approaches for DRA rehabilitation, such as manual therapy techniques or other adjunct therapies applied as a single treatment.The inclusion of adjunct interventions by eliminating the concurrent impact of spontaneous resolution, thus aiding researchers and clinicians in improving their ability to provide accurate recommendations and guidelines.Specific guidelines and clinical recommendations are vital, particularly in regions with limited access to post-birth rehabilitation.Enhancing communication and collaboration among researchers and health care professionals can expedite women's access to essential women's health services.

Clinical Implications
This review suggests that exercise therapy, including abdominal strengthening and deep trunk stabilizer exercises, can effectively reduce IRD and improve DRA-related dysfunction postpartum.However, interventions should also be aimed at improving muscle strength and functional ability because full IRD recovery may not always occur.Proper intra-abdominal pressure management is critical, and patients should be taught to engage their deep trunk muscles during exercise and daily activities.Health care professionals should adhere to evidence-based training principles and consider incorporating various modalities such as electromyographic biofeedback, NMES, abdominal binders, or taping to optimize outcomes.Timing of rehabilitation interventions should also be considered, and individualization of rehabilitation programs based on DRA severity, individual goals, and possible coexisting dysfunctions is crucial.Further research is needed to better understand the mechanisms by which exercise may reduce IRD and delineate specific exercise prescription parameters for DRA rehabilitation.
Additionally, in this review we seek to provide insights to clinicians specializing in women's health regarding available options for the rehabilitation of DRA.Women with DRA are usually underdiagnosed, resulting in many patients being recommended by nonqualified professionals to engage in nonspecific physical exercises that may further strain the abdominal wall.Furthermore, there is a misconception that DRA is primarily a cosmetic issue, underestimating its functional impact or potential associated dysfunctions [79].A recent study revealed that women who were concerned with their abdominal appearance post-partum are most likely to seek advice on treatment through social media [80].Improved communication among health care professionals is crucial for providing women with access to evidence-based women's health services.Physicians involved in women's health, obstetricians, and observational studies [12,30,49,51] that involve heterogeneous populations, such as pregnant and nulliparous women or men with DRA along with postpartum women, while complying with the predefined eligibility criteria (inclusion and exclusion), is a notable limitation of this scoping review.Although these studies may offer valuable insights for DRA patients from different populations, their inclusion could hinder the generalization of the results.The decision to include these studies was based on their potential contribution to the review's objectives, even though they did not exclusively focus on postpartum women with DRA.However, it is important to recognize this limitation while interpreting the outcomes of the review.Further research focusing specifically on postpartum women with DRA could help to provide more targeted and relevant evidence for clinical practice in this population.Despite these limitations, this scoping review serves as a valuable resource for understanding the current state of research on DRA rehabilitation postpartum and identifying areas for further investigation and evidence-based practice.

Implications for Research
The identified limitations in the included studies lead to important implications for future research in postpartum DRA rehabilitation.Future studies should focus on rigorous designs, adequate sample sizes, and standardized diagnostic tools and criteria to strengthen the evidence.Prioritizing functional outcomes as well as IRD reduction and adhering to muscle-strengthening principles in exercise protocols is essential.Most importantly, aligning with expert recommendations and guidelines will standardize research practices and lead to more robust evidence for clinical decision making.
Additionally, research including women over 6 months postpartum may be essential for advancing our understanding of effective DRA rehabilitation.Interestingly, access to postpartum rehabilitation services varies widely around the world.In some health care systems, women can start rehabilitation after medical clearance, often around 6 weeks postpartum, whereas in other systems, rehabilitation is not standard unless a woman reports a specific issue, leading to delayed access.However, women tend to seek help for persistent dysfunction, especially upon returning to pre-pregnancy activities, which can extend up to 6 or more months postpartum.Understanding DRA recovery beyond 6 months post-birth, a timeframe more realistic in various regions, is crucial.This perspective provides a clearer view of the true effects of exercise and urogynecologists should be well-informed about evidence-based rehabilitation interventions, suggesting conservative and effective solutions, guiding women to make informed choices and avoid unnecessary invasive procedures when possible.

Conclusions
This scoping review provides valuable insights into postpartum DRA rehabilitation, suggesting that exercise therapy might be an effective approach for treating DRA and improving overall function.However, the study also sheds light on several limitations, including methodological variability, heterogeneous inclusion criteria, and lack of adherence to evidence-based exercise principles.These limitations highlight the need for more standardized and rigorous research on this topic.Additionally, further investigation is required to understand the mechanisms of IRD reduction and establish specific exercise prescription parameters.Health care professionals should consider a more holistic but still individually tailored approach to DRA reduction, including progressive functional exercises, breathing exercises with PFM training, and individualized inner-and outer-unit abdominal training.By addressing these gaps, future research can contribute to evidence-based guidelines that enhance the overall quality of care for postpartum women with DRA.

Fig. 1
Fig.1Flow diagram demonstrating the scoping review of literature for diastasis recti abdominis rehabilitation according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines[28]

Fig. 3
Fig. 3 Range of time postpartum per study (months) for participants in each study, at the time of participant enrollment, indicating the initiation of rehabilitation.Interestingly, most of the studies included women who were within the first 6 months post-birth, a period during

Fig. 4
Fig. 4 Abdominal muscle exercises (rectus abdominis focused) A. Crunch exercise.The patient is positioned in supine with legs bent and arms supporting the head.Then they are asked to dynamically elevate their head and upper torso until their shoulder blades lift off the surface.B. Curl-up exercise.Positioned in supine with bent legs

Fig. 5 Fig. 6
Fig. 5 Activation of the transversus abdominis (TrA) muscle.A.The patient is instructed to take a deep breath keeping the abdomen relaxed and then to fully exhale slowly.At the end of expiration, the patient is asked to perform an abdominal drawing-in maneuver (ADIM); to pull the belly button towards the spine and upwards towards the thorax.The ADIM is considered to activate the deeper abdominal muscles (transversus abdominis and internal oblique), thus stabilizing the trunk.The physiotherapist can palpate deeper abdominal muscle activation on the lower abdominal wall, just medially of the anterior superior iliac spine.As the patient gains better control of the deeper abdominal muscles, they can be instructed to self-

Fig. 7
Fig.7 Activation of the pelvic floor muscles (PFMs).A. The patient is lying in a relaxed supine position with the legs bent, outwardly rotated and supported at the knees.They are then instructed to take a deep breath while relaxing the abdomen and the pelvic floor muscles and then to fully exhale while they contract the PFM.The physiotherapist uses instructions like " tighten the muscles around the vagina and anus" or "tighten the muscles around the anus as if to stop pass-

Table 1
PEDro classification score for the randomized controlled trials included

Table 2
Primary and secondary outcome measures per randomized controlled trial (RCT )

Table 3
Characteristics of the studies included

Table 3 (
NMESneuromuscular electrical stimulation, X-U/2 halfway between the umbilicus and the xiphoid process, U-P/2 halfway between the umbilicus and the pubic symphysis, TrA(M)