Congenital Heart Disease in Adolescents With Gluteal Muscle Contracture Tian You, MD, Xin-tao Zhang, MD, Zhen-gang Zha, MD, and Wen-tao Zhang, MD

Abstract: Gluteal muscle contracture (GMC), presented with hip abduction and external rotation when crouching, is common in several ethnicities, particularly in Chinese. It remains unclear that the reasons why these children are weak and have no choice to accept repeated intramuscular injection. Here, we found some unique cases which may be useful to explain this question. We describe a series of special GMC patients, who are accompanied with congenital heart disease (CHD). These cases were first observed in preoperative examinations of a patient with atrial septal defect (ASD), which was proved by chest X-ray and cardiac ultrasound. From then on, we gradually identified additional 3 GMC patients with CHD. The original patient with ASD was sent to cardiosurgery department to repair atrial septal first and received arthroscopic surgery later. While the other 3 were cured postoperative of ventricular septal defect (VSD), tetralogy of fallot (TOF), patent ductus arteriosus (PDA), respectively, and had surgery directly. The study gives us 3 proposals: (1) as to CHD children, it is essential to decrease the use of intramuscular injection, (2) paying more attention to cardiac examination especially cardiac ultrasound in perioperative period, and (3) taking 3D-CT to reconstruct gluteal muscles for observing contracture bands clearly in preoperation. However, more larger series of patients are called for to confirm these findings. (Medicine 94(5):e488) Abbreviations: 3D-CT = three-dimensional computed tomography, ASD = atrial septal defect, CHD = congenital heart disease, CT = computed tomography, FS = fraction shortening, GMC = gluteal muscle contracture, LVEF = left ventricular ejection fraction, PDA = patent ductus arteriosus, TOF = tetralogy of fallot, VSD = ventricular septal defect.

Editor: Susanna Esposito. Received: August 17, 2014; revised: December 23, 2014; accepted: December 30, 2014. From the First Clinical Medical College of Jinan University, Guangzhou, China (TY, Z-gZ); and Department of Sports Medicine and Rehabilitation, Peking University Shenzhen Hospital, Shenzhen, China (X-tZ, W-tZ). Correspondence: Wen-tao Zhang, Peking University Shenzhen Hospital, Shenzhen, Guangdong China (e-mail: [email protected]). Tian You is currently affiliated with the Department of Sports Medicine and Rehabilitation, Peking University Shenzhen Hospital, Shenzhen, China. Xin-tao Zhang: Co-first author. Each author certifies that he has no commercial associations (eg, consultancies, stock ownership, equity interest, patent/licensing arrangements, etc) that might pose a conflict of interest in connection with the submitted article. We thank the patients for participating in this study. We also are grateful to Xiao-cheng Jiang, Li-meng Sun, and Hong-lei Zhang for help in data collection. Copyright # 2015 Wolters Kluwer Health, Inc. All rights reserved. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0, where it is permissible to download, share and reproduce the work in any medium, provided it is properly cited. The work cannot be changed in any way or used commercially. ISSN: 0025-7974 DOI: 10.1097/MD.0000000000000488

Medicine




Volume 94, Number 5, February 2015

INTRODUCTION

G

MC, also named ‘‘injection contracture,’’ is a clinical syndrome characterized by gait abnormality and limb dysfunction including restriction of adduction and internal rotation of the hip joint.1 It was first found by Valderrama at a scientific meeting of the British Orthopedic Association in London in 1969.2 Its pathologic change typically presents with fibrosis and contracture of the gluteus and its fascia.3 The knees cannot be brought together and are separated in a frog-leg position.4 As younger patients with GMC continue to develop and grow, pathologic changes increase in prevalence and severity including leg length discrepancy, pelvic oblique, compensatory scoliosis, and, in severe cases, bilateral dislocation of the hip joints.5 Now, arthroscopic release, a minimally invasive surgery which was reported by Zhang et al for the first time,6 has became the gold standard of treatment in GMC patients.4,7 It is reported that GMC is related to benzyl alcohol. Compared with developed countries, GMC is more widely reported in China. So far, numerous studies have suggested that GMC usually was associated with repeated intramuscular injection into the gluteal region during childhood.8–12 However, it remains unclear that, the reasons why these children are weak and have no choice to accept repeated intramuscular injection. The paper reveals that CHD children are prone to catching cold, repeated respiratory tract infection, or pneumonia and have to take frequently intramuscular injection which use benzyl alcohol as a dissolvent for penicillin in some regions of China in the 1970s and 1980s, leading to degeneration, necrosis and fibrosis of the gluteal muscles and fascia, as well as serious limitation of hip movements.

PATIENTS AND METHODS We identified 4 GMC adolescents with CHD from January 2013 to March 2014. The duration of symptoms ranged from 6 to 10 years. All had been unable to improve with functional exercise. There were 2 males and 2 females with age ranging from 14 to 17 years (Table 1). All patients provided informed consent for the operation and followed our rehabilitation program. This study was approved by the Institutional Review Board of our institution. All patients had a history of injections around the gluteal region. Although 3 of 4 patients (patients 1, 3, and 4) had limitations with activities of daily living, they believed their activity levels were lower than those of healthy people. Three of 4 patients (patients 1, 3, and 4) had an abnormal gait with out-toe walking, and could not crouch with both knees close to each other or sit down with their legs crossed. All patients had a snapping sound during rotation of the hip. Patient 1 was diagnosed as CHD for the first time, while the other 3 had been cured yet. Patient 4 had received open surgery for GMC but dissatisfied result. Two representative patients (Patients 1 and 4) were selected for further discussion of their clinical and radiographic findings (Table 2). Each author certifies the study had approved, by Ethics committee of Peking University Shenzhen Hospital, for the www.md-journal.com |

1

Medicine

You et al




Volume 94, Number 5, February 2015

TABLE 1. Clinical Characteristics of the Patients Patient

Age (years) and Sex

1. Yue

16, female

2. Huang 3. Xu

14, female 14, male

4. Yang

17, male

Symptom and Sign

CHD

Open Surgery of GMC

Gluteal muscle atrophy, abnormal gait with out-toe walking, dimpling of skin around the gluteal region, snapping hip, adduction and internal rotation dysfunction of hip, Ober’s sign Snapping hip Gluteal muscle atrophy, abnormal gait with out-toe walking, dimpling of skin around the gluteal region, snapping hip, adduction and internal rotation dysfunction of hip, Ober’s sign Gluteal muscle atrophy, abnormal gait with out-toe walking, dimpling of skin around the gluteal region, snapping hip, adduction and internal rotation dysfunction of hip, Ober’s sign

ASD

No

VSD, cured TOF, cured

No No

PDA, cured

Yes, 4 years ago

ASD ¼ atrial septal defect, CHD ¼ congenital heart disease, GMC ¼ gluteal muscle contracture, PDA ¼ patent ductus arteriosus, TOF ¼ tetralogy of fallot, VSD ¼ ventricular septal defect.

reporting of these cases and that all investigations were conducted in conformity with ethical principles of research.

CASE REPORTS Case 1 Patient 1 was a 16-year-old girl who had bilateral diseases with gluteal muscle atrophies, abnormal gait with out-toe walking, dimpling of skin around the gluteal regions, snapping hips, adduction and internal rotation dysfunction of hips, Ober’s signs. The most thing affected her was adduction and internal rotation dysfunction of hips, which made her not to do competitive sports (actually, it was mainly influenced by CHD which was diagnosed later.) like other healthy girls. 3D

reconstruction CT showed that her gluteus maximus and gluteus medius were obviously dysplastic and part of them turned to contractile bands. We heard a systolic ejection murmur at the second left intercostal space in preoperative examinations. Furthermore, Chest X-ray revealed pulmonary vascularity, cardiac enlargement and aortic knob shrinking. Finally, cardiac ultrasound proved the diagnosis of ASD. Because of this, we sent her to cardiosurgery department for atrial septal defect closure and partial anomalous pulmonary venous drainage correction on beating heart. The arthroscopic release and rehabilitation program for GMC were operated 110 days later, when she was completely rehabilitated from cardiosurgery. Three months later, the patient gained a satisfactory result without complications, snappings, and dysfunctions of hip (Figure 1).

TABLE 2. Radiographic Findings of the Patients Patient

Age (Years) and Sex

Pelvis CT

Chest X-Ray

1. Yue

16, female

Part of gluteus maximus and gluteus medius atrophy and turning to contractile bands

Pulmonary ascularity, cardiac enlargement, aortic knob shrinking

2. Huang

14, female

Normal, mild scoliosis

3. Xu

14, male

Part of gluteus maximus and gluteus medius atrophy and turning to contractile bands Part of gluteus maximus and gluteus medius atrophy and turning to contractile bands

4. Yang

17, male

Part of gluteus maximus and gluteus medius atrophy and turning to contractile bands

Normal

Normal, there are four metal sutures in sternal area

Cardiac Ultrasound Ventricular septal defect, right atrium and ventricle enlargement, pulmonary artery dilation, left ventricular ejection(LVEF), and fraction shortening (FS) are normal Normal

Pulmonary artery blood flow speeding up, left ventricular ejection (LVEF), and fraction shortening (FS) are normal unavailable

3D-CT ¼ three-dimensional computed tomography, CT ¼ computed tomography, FS ¼ fraction shortening, LVEF ¼ left ventricular ejection fraction.

2

| www.md-journal.com

Copyright

#

2015 Wolters Kluwer Health, Inc. All rights reserved.

Medicine




Volume 94, Number 5, February 2015

A

A Case Report

C

E

D B FIGURE 1. (A) A 3D reconstruction CT shows the gluteal muscles of Patient 1, a 16-year-old woman who had GMC with severe gluteus maximus and gluteus medius atrophy. (B) and (C) show the contracture bands (white arrow) in left and right side, respectively. (D) Cardiac ultrasound demonstrates ASD. (E) Chest X-ray reveals pulmonary ascularity, cardiac enlargement and aortic knob shrinking.

A

B

C

D

FIGURE 2. (A) A 3D reconstruction CT shows the gluteal muscles of Patient 4, a 17-year-old man who had GMC with mild gluteus maximus and gluteus medius atrophy. (B) and (C) show the contracture bands (white arrow) in left and right side, respectively. (D) Chest X-ray reveals normal. Copyright

#

2015 Wolters Kluwer Health, Inc. All rights reserved.

www.md-journal.com |

3

Medicine

You et al

Case 2 Patient 4 was a 17-year-old boy who had bilateral diseases with gluteal muscle atrophies, abnormal gait with out-toe walking, dimpling of skin around the gluteal regions, snapping hips, adduction and internal rotation dysfunction of hips, Ober’s signs. The most things affected him was adduction and internal rotation dysfunction of hips, as well as snapping hips. Due to a failed open surgery before, he decided to choose the minimally invasive surgery. When he was very young, he was taken ligation of patent ductus arteriosis (the detailed data of that surgery were unavailable). Physical examinations and chest X-ray were normal. 3D reconstruction CT showed that his gluteus maximus and gluteus medius were obviously dysplastic and part of them turned to contractile bands. Then, we implemented the arthroscopic release and rehabilitation program of GMC. Three months later, the patient gained a satisfactory result without complications, snappings, and dysfunctions of hip (Figure 2).

DISCUSSION We present a series of 4 GMC patients with CHD, including ASD, VSD, TOF, and PDA respectively. Accordingly, we suggest that some GMCs are related to CHDs, or rather are derived from CHDs. To be specific, children suffered from CHDs are easy to acquire respiratory infections (nearly onequarter to one-third13), which may be result in frequent use of benzyl alcohol as a dissolvent for penicillin for intramuscular injections in some regions of China in 1970s–1980s, as several researchers have suggested that benzyl alcohol is the main cause of GMC.11– 12 This series is limited by its small size relating to the decreasing of GMC for abandoning benzyl alcohol as a dissolvent. Patient 1 was admitted to hospital for releasing GMC, however, ASD was found in preoperative examinations. This warns that surgeons should attach more importance to the cardiac examination, especially identifying the real cause of ‘‘cannot do competitive sports.’’ When CHD is repaired and physical condition is fully recovered, it is time to release GMC. At last, the patient acquired an excellent outcome without complications. Patient 4 was hospitalized in order to cure GMC through a minimally invasive surgery for a noneffective open surgery 4 years ago. With the normal results of physical examinations and chest X-ray, we did arthroscopic release directly, like other common GMC patients without CHD. Eventually, he also had an excellent outcome without complications.




Volume 94, Number 5, February 2015

propose 3 recommendations: (1) as to CHD children, in addition to treating the primary disease as early as possible, it is essential to decreasing the use of intramuscular injection, and (2) paying more attention to cardiac examination especially cardiac ultrasound in perioperative period, and (3) taking 3D-CT to reconstruct gluteal muscles for observing contracture bands clearly in preoperation. REFERENCES 1. Liu GH, Cao FQ, Yang SH, Zhu JF. Factors influencing the treatment of severe gluteal muscle contracture in children. J Pediatr Orthop B. 2011;20:67–69. 2. Fernandez de Valderrama JA. A cause of limited flexion and adduction of the hip in children. J Bone Joint Surg (Br). 1970;52:179. 3. Fu D, Yang S, Xiao B, et al. Comparison of endoscopic surgery and open surgery for gluteal muscle contracture. J Pediatr Orthop. 2011;31:e38–e43. 4. Liu YJ, Wang Y, Xue J, et al. Arthroscopic gluteal muscle contracture release with radiofrequency energy. Clin Orthop Relat Res. 2009;467:799–804. 5. Dini GM, Ferreira LM. Capsular contracture in gluteal implant patients. Plast Reconstr Surg. 2006;117:1070–1071. 6. Zhang WT, Wang Y, Wang ZG, et al. Treatment of the gluteal muscle contracture after intramuscular injections and snapping hip with arthroscopic release. Chin J Clin Rehabil. 2002;6:1758–1759. 7. Cui JC, Wang WC, Wu B, Wang SY. Release of gluteal muscle contracture by radiofrequency under arthroscopy. Zhong Nan Da Xue Xue Bao Yi Xue Ban. 2008;33:274–276. 8. Chung DC, Ko YC, Pai HH. A study on the prevalence and risk factors of muscular fibrotic contracture in Jia-Dong Township, Pingtung County, Taiwan. Gao xiong Yi Xue Ke Xue Za Zhi. 1989;5:91–95. 9. Fernandez de Valderrama JA, Esteve de Miguel R. Fibrosis of the gluteus maximus: a cause of limited fiexion and adduction of the hip in children. Clin Orthop Relat Res. 1981;156:67–68. 10. Huang Y, Li J, Lei W. Gluteal muscle contracture: etiology, classification and treatment. Chin J Orthop. 1999;19:106–108. 11. Peng M, Zhou Z, Zhou X. Epidemiology of gluteal muscle contracture in Si Chuan Province. Chin J Pediatr Surg. 1989;10:356–358.

CONCLUSIONS

12. Sirinelli D, Oudjhane K, Khouri N. Case report 605: gluteal amyotrophy: a late sequel of intramuscular injection. Skeletal Radiol. 1990;19:221–223.

GMC with CHD is uncommon. Although there are no exact cause–result relationship between the 2 diseases, we

13. Rudolph AM. Diagnosis and treatment: respiratory distress and cardiac disease in infancy. Pediatrics. 1965;35:999–1002.

4

| www.md-journal.com

Copyright

#

2015 Wolters Kluwer Health, Inc. All rights reserved.