Abstract
Background and purpose
In elite athletes, osteitis pubis is a common painful degenerative process of the pubic symphysis and surrounding soft tissues and tendons. We report the diagnostic pathway and the rehabilitation protocol of six elite athletes with osteitis pubis in three different sports, and compare protocol stages and time to return to competition.
Methods
6 athletes (2 soccer, 2 basketball, 2 rugby players) were diagnosed with osteitis pubis stage III and IV according to Rodriguez classification using standard clinical and imaging criteria. After performing a baseline lumbo-pelvic assessment, the rehabilitation protocol described by Verrall was adapted to each individual athlete.
Results
The length of time for each stage of the protocol was as follows; Stage 1 (rest from sport) was 26 +/− 5 days, Stage 2 (to achieve pain free running), 18 +/− 5 days, Stage 3 (squad training) 63 +/− 7, Stage 4 (return to competition) 86 +/− 15. Soccer players took longer to return to competition than basketball and rugby players. No recurrences were reported at 2 year follow-up.
Conclusion
The protocol presented ensures a safe return to elite athletes. The time from diagnosis to full recovery is longer in football players, and seems to increase with age.
Keywords: Osteitis pubis, Rehabilitation, Lumbo-pelvic stabilization, sport
Introduction
Osteitis pubis, a common cause of groin pain in elite athletes, especially kicking sports1, is a degenerative process which involves the pubic symphysis and surrounding soft tissues and tendons. The changes at the symphysis may be asymptomatic, but athletes often present debilitating symptoms, slow recover, and high recurrence rate2. The pathogenesis is still debated, the terminology unclear, and many causes, including “sports hernia”3, “athletic hernia”4,5, “osteitis pubis”6,7,8,9, “athletic pubalgia”10, and “adductor-related groin pain”11, and “dynamic pubic osteopathy” may have to be taken into account as differential diagnose. The new concepts of “sports-related chronic groin injury” and ‘groin disruption injury’ describe a condition of chronic groin pain associated with pubic instability12, an overuse syndrome often observed in footballers, ice hockey and tennis players, and, occasionally, in non-athletes, in whom the pelvic instability may occur as consequence of post-partum diastasis of the symphysis or traumatic pelvic diastasis. However, very common in track and field athletes practicing kicking sports such as soccer, gridiron, Australian rules football, rugby and martial arts such as Tae-kwon-do, osteitis pubis accounts for 0.7 to 7% of all sport related injuries, with a high incidence in soccer players (5–13%)7,12,13. Multi-factorial in its etiology, even though it is often misdiagnosed and chronic, early diagnosis and a multilateral therapeutic approach are mandatory. The diagnosis is usually clinical, based on clinical history, physical examination, and functional assessment7,8,12. Imaging is advocated to exclude adductor, abdominal, and hip pathologies, nerve entrapment, and several forms of unspecified referred pain which often occur simultaneously, or simply act as predisposing factors. First line management is conservative, and surgery is indicated in unresponsive patients4,14,15,7. Prevention programs based on specific sport related demands should be tailored to the needs of each individual athlete16,17,18. Long rehabilitation is often needed1, with recovery times varying from 2 to 12 months1. Osteitis pubis has a negative impact on the career of an athlete, who may be obliged to stop their sporting activities. In 5–10% of these patients, surgery may be necessary19.
The present study reports the duration of each rehabilitative stage, and the rehabilitation interval (time from diagnosis to return to competition) of six elite athletes (2 basketball players, 2 soccer players, and 2 rugby players) undergoing a standardized rehabilitation protocol for management of osteitis pubis.
Materials and Methods
From 2003 to 2006, 6 elite athletes with clinical suspicion for osteitis pubis were assessed at the Centre for sports and exercise medicine “Consorci Sanitari del Garraf” (Barcelona, Spain). Inclusion criteria for diagnosis of osteitis pubis were unilateral or bilateral groin pain, soft symphysis, tender to palpation, positive squeeze test, evidence of bone marrow oedema on MRI scans, and increased uptake to the pubic bone on Tc99 triple phase bone scan12.
MRI findings were graded according to subchondral bone oedema, fluid in the pubic symphysis, and periarticular oedema6. The criteria defined by Cunningham et al20 and Zoga et al3 (image 1) were also used. Bone scans were graded according to Balius21.
Anthropometric data were collected (Table 1). At clinical assessment, all patients were staged as 3 or 4 according to Rodriguez et al8 (Table 2).
Table 1.
Anthropometric and sport data
| Sport | Patient 1 Soccer | Patient 2 Soccer | Patient 3 Basketball | Patient 4 Basketball | Patient 5 Rugby | Patient 6 Rugby |
|---|---|---|---|---|---|---|
| Age (years) | 21 | 30 | 30 | 27 | 21 | 17 |
| Height (cm) | 170 | 180 | 192 | 206 | 185 | 186 |
| Weight (Kg) | 64 | 70 | 90 | 93 | 86 | 83 |
| Field position | Midfielder | Forward | Base | Centre | Centre | Flanker |
| Dominance | Right | Right | Right | Right | Right | Right |
Table 2.
Stages of osteitis pubis
| Side of pain | Site of pain | Characteristics of pain | |
|---|---|---|---|
| Stage 1 | Unilateral, dominant | Inguinal, with radiation to adductors | Mechanical, settles after warmu, returns after training, |
| Stage 2 | Bilateral | Inguinal and adductors | Increases after training. |
| Stage 3 | Bilateral | Groin, adductor region, suprapubic, abdominal | During training, kicking, sprinting, turning. Cannot achieve training goals, forced to withdraw |
| Stage 4 | Generalised | Generalised, radiation to lumbar region | Walking, getting up, straining at stool, simple activities of daily living |
The Wisbey-Roth Core Stability Grading System was used to classify lumbo-pelvic stability, and ascertain whether osteitis pubis had any effects on lumbo-pelvic stability (Table 3). The patients’ core stability grading is summarized in Table 4.
Table 3.
Wisbey-Roth Core Stability Grading System
| Grade 0 | Unable to maintain an isometric contraction without compensatory movement of the core (i.e. lumbo- sacral and pelvis) in a position aimed to facilitate the stabilising role of key muscles. |
| Grade 1 | Able to maintain an isometric contraction (10 to 20 seconds) without compensatory movement of the core (i.e. lumbo-sacral and pelvis) in a position aimed to facilitate the stabilising role of key muscles. |
| Grade 2 | Able to maintain an isometric contraction (for 20 seconds) without compensatory movement of the core with superimposed slow movement of the limbs. |
| Grade 3 | Able to maintain an isometric contraction (for 20 seconds) without inappropriate movement of the core while performing slow movements of the trunk itself. |
| Grade 4 | Able to maintain an isometric contraction (for at least 20 seconds) without compensation /inappropriate movement of the core while performing fast movements of the limbs. |
| Grade 5 | Able to maintain an isometric contraction (for at least 20 seconds) without compensation/inappropriate movement of the core while performing one of the following: -
|
Table 4.
Core stability grading of the six athletes
| Sport | Patient 1 Soccer | Patient 2 Soccer | Patient 3 Basketball | Patient 4 Basketball | Patient 5 Rugby | Patient 6 Rugby |
|---|---|---|---|---|---|---|
| Lumbo-pelvic core stability grading | 2 | 1 | 1 | 2 | 1 | 2 |
Rehabilitation Protocol
Wollin’s protocol22 was used as baseline, and Verrall’s indications12 were followed, with some modification. Athletes were moved through the protocol stages after they had been able to perform correctly exercises with no pain, and had achieved adequate levels of movement and core stability grading. The protocol consists of 3 stages.
Stage I (pain control) In this stage, patients rest for 3–4 weeks, and undergo RICE, and alternate cold (12º–14º) and hot water (31º) baths. Controlled exercises in a swimming pool are allowed, together with deep muscle massages. Static isometric strength exercises of the pelvic floor, of the transversus abdominis, multifidus and diaphragm, and of the adductors, and abdominal wall muscles are also started, allowing only light concentric exercises of these muscle groups, avoiding high intensity or high volume workouts. Gentle prolonged stretching for all above muscle groups, except for the adductors and ischio-pubic muscles, were also allowed. Cycling on an exercise bike, introduced as cardiovascular training, is initially allowed for 10 minutes per day, and gradually increased. As end stage goal, athletes have to achieve Grade 2 Wisbey-Roth lumbo-pelvic stability.
Stage II Swiss balls and other aids are indicated to perform resistance and strength contraction exercises of the pelvic floor, transversus abdominis, and multifidus, muscles, and to vary amplitude and rhythm of contraction. Gluteal strengthening is started, and cycling on an exercise bike is allowed for 20 min per day. Changes of speed and resistance are introduced, and dynamic strengthening of the muscles around the hip in flexion, extension, adduction, and abduction are permitted by using an elastic band. The primary objective is to achieve a Grade 3 Wisbey-Roth lumbo-pelvic stability. In the absence of symptoms, patients start with a maximum 30 minutes program alternating fast walk, running, and walking.
Stage III Eccentric work on the sliding board is started, initially with a 1 metre lateral slide (3 sets, 30 seconds each), progressively increased in terms of slide distance and number of sets. Running time is gradually increased, and changes of pace and direction are introduced. To reproduce the sport requirements, athletes start training on the field or using indoors circuits, performing exercises mimicking their sport. Kicking is allowed only at the end of this stage. Eccentric abdominal wall strengthening exercises are started. Athletes aim to achieve grade 4 Wisbey-Roth lumbo-pelvic stability. At this stage, athletes start progressive squad training. At this stage, they can progressively practice sport, up to play in competition matches.
Return to play (competition) criteria Factors such as type of sport, level of competition, and personality of the athlete, contribute to return to training and competition. The criteria followed are outlined in Table 5. Clinical assessment and level of lumbo-pelvic stability helped to decide when patients could be discharged and could return to sport.
Table 5.
Return to play criteria
| Clinical guidelines |
|
|
| |
| Fitness criteria |
|
Results
The duration of the different stages is reported in Table 6 for all six athletes. Timing of rest from sport activity varied from 21 to 35 days. Rugby players started running earlier than the other athletes, after an average period of 13.5 days from the beginning of the rehabilitation program. The 2 basketball players started squad training earlier than the others, 48 and 60 days after they had started rehabilitation. Basketball players were the first to return to sport activity, 57 and 88 days after they had started rehabilitation. Even though the time from the onset of symptoms to diagnosis had been considerably delayed, almost all athletes (5 of 6) returned to competition in less than three months.
Table 6.
Average duration of rehabilitation stages (individual values in brackets)
| Football | Basketball | Rugby | Overall average | |
|---|---|---|---|---|
| Rest from sport (days) | 28 (21–35) | 24.5 (28–21) | 24.5 (28–21) | 25.7 |
| Start of running | 21 (14–28) | 21 (21–21) | 13.5 (17–10) | 18.5 |
| Start of squad training | 80.5 (58–103) | 54 (60–48) | 57.5 (78–43) | 63 |
| Return to competition | 96.5 (72–121) | 72.5 (88–57) | 89.5 (105–74) | 86.2 |
Discussion
The main finding of the present study is that it is possible to return to elite competition without recurrence when applying rehabilitation protocols tailored individually to each athlete. In our small cohort of elite athletes, the rehabilitation interval (time from diagnosis to discharge) was shorter in basketball and rugby players, and younger players recovered earlier than older ones. Strict diagnostic criteria, treatment protocols, and rehabilitative measures tailored to the individual needs are therefore suggested. Although the present study reports on only 6 elite athletes, all were competing in high level leagues. We tried to apply strict diagnostic criteria and rehabilitation protocols in all the patients to ensure comparable assessments and results.
Lumbo-pelvic stability (“core stability”)23 was graded as it is involved in OP, and may be useful to establish standard rehabilitation protocols for these patients. We applied the tensegrity model24 to manage the process. Poor neuromuscular control on trunk and pelvis can be a risk factor for sports injury, and poor abdominal strength or endurance may predispose to recurrent injuries to hamstring25, lower back and knee. Conversely, osteitis pubis can be easily triggered in subjects with adductor tightness. We used the grading system proposed by Wisbey-Roth to assess the severity level of the condition, and stage the rehabilitation protocol. We did not use ultrasound nor neoprene shorts to control groin pain26.
Few studies have compared different rehabilitation protocols for management of OP, and available outcomes are not comparable with the present work. It is difficult to establish evidence-base criteria to determine a priori the length of time away from sport and interval time of progressive stages of rehabilitation. However, most authors suggest an initial resting period from 2–4 weeks to 5–6 months, according to the severity of symptoms and grade of lumbo-pelvic stability. Usually, accepted intervals vary from 4 to 6 weeks for stage I, from 6 to 8 weeks for stage II, from 9 to 12 weeks for stage III, and from 4 to 5 months for stage IV25,8,22. In the present study, all the athletes were stages III and IV, and 5 of 6 returned to sport within three months (10–13 weeks), a reasonably shorter time period compared to other studies8.
Different outcomes were reported in relation to sport activity, but the small number of enrolled subjects precludes statistical analysis. From a clinical perspective (history and physical examination), it is reasonable to conclude that soccer players had more symptoms related to the “round the corner” ball kicking action. The duration of time off sport depends on clinical, imaging, and lumbo-pelvic stability related findings. The rest period ceases when the squeeze test is not painful. After rest, generally calisthenics, stationary biking and treadmill walking were allowed for an average of 2 weeks before continuous running was permitted. The patients took an average time of 2 months to start squad training, and 3 months to return to competition. Basketball players had the shortest recover, followed by rugby and football players. Follow-up after at least 2 seasons showed no recurrences.
This study presents a group of elite athletes who successfully returned to their previous high level competition following treatment of osteitis pubis (Table 7). Weaknesses of the study are the small number of patients, the absence of a control group. We are also aware that the Wisbey-Roth Grading System has a fair to poor inter-tester reliability 27.
Table 7.
Clinical progress of each athlete
| Sport (Dominance) | Patient 1 Soccer (Right) | Patient 2 Soccer (Right) | Patient 3 Basketball (Right) | Patient 4 Basketball (Right) | Patient 5 Rugby (Right) | Patient 6 Rugby (Right) |
|---|---|---|---|---|---|---|
| OP Stage | III | IV | IV | III | III | IV |
| Site of initial symptoms | Pubic symphysis | Right Adductor longus | Bilateral adductor insertion | Right adductor longus | Right adductors | Adductor longus and symphysis |
| Development of symptoms | Suprapubic, Right Oblique | Infrapubic Right adductor | Acute low back pain | Pubic symphysis | Pubic symphysis | Suprapubic, bilateral |
| Lumbo-pelvic stability | Level 2 | Level 1 | Level 1 | Level 2 | Level 2 | Level 1 |
| Diagnostic delay | 6 months | 8 months | 4 months | 4 months | 8 months | 24 months |
| Relative rest | 21 days | 35 | 82 | 21 | 28 | 21 |
| Start of running | 14 | 28 | 21 | 21 | 21 | 10 |
| Time to squad training | 58 | 103 | 60 | 48 | 35 | 43 |
| Return to play | 72 | 211 | 88 | 67 | 91 | 74 |
| Symptom free follow up | 48 months | 36 months | 30 months | 24 months | 24 months | 18 months |
Conclusions
Osteitis pubis is a functional pathology related to altered neuromuscular control of the pelvis. Initially well tolerated, it may progress to a chronic state, can be debilitating, and result in prematurely interruption of sporting careers. Clinical and imaging criteria are available to classify the evolution of the chronic stage of osteitis pubis. The assessment of lumbo-pelvic stability may be helpful to assess the timing and monitoring the stages of the rehabilitation program, allowing an early return to competition.
Footnotes
Competing interests
The authors declare that we do not have any competing interest
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