The Orthopaedic Management of Human Disorganization Syndrome

Introduction: Human disorganization syndrome (HDS) is an extremely rare congenital syndrome characterized by a seemingly random distribution of multiple developmental anomalies involving all three germinal layers. Case Report: We report a rare case of a female child whose congenital anomalies are consistent with HDS. The orthopaedic features of this patient include a popliteus pterygium with an associated flexion contracture secondary to an elongated biceps femoris tendon that attached to the gastrocnemius-soleus muscle complex, two finger-like appendages, a tethered cord, a lipomeningomyelocele at the level of L5, and a leglength discrepancy. The patient was treated with a splinting program, release of the biceps femoris tendon at its erroneous insertion from the gastrocs-soleus, and surgical excision of the finger-like appendages. She underwent three subsequent soft-tissue releases to address recurrence of the knee flexion contracture and an anteromedial and lateral distal femoral eight plate procedure for guided growth and slow correction of the remaining flexion deformity. Conclusion: The treatment of HDS can be quite complex and can present with a variety of anomalies with distinctive orthopaedic features correctable with surgical management, including soft-tissue releases, excision of appendages, and growth modulation.

D isorganization syndrome (DS) was first described in 1958 by Hummel 1 when he observed a mutant mouse with a disruption of the orderly process of organogenesis, resulting in a seemingly random distribution of independent anomalies derived from all three germ layers. The wide range of malformations observed in DS poses a challenge in outlining the diagnostic criteria. The most commonly reported malformations include the following: cranioschisis/exencephaly, unusual hamartomas, appendicular anomalies, eye malformations, pharyngeal defects, and gastroschisis. 1,2 Extremity abnormalities include duplications and reductions, usually involving a single limb, polydactyly, and malformed and small limb girdles. 1 In 1989, Donnai and Winter 3 proposed a human homologue of DS and described the case of an infant with multiple defects in-line with those observed in DS mice. The infant presented with shortening of the right leg, a web across the popliteus fossa, nine toes on one foot, a finger-like

Case Report
This report describes a female child who was delivered at term via elective caesarean section to healthy, nonconsanguineous parents after an uncomplicated pregnancy. The patient also has an older female sibling who displays no abnormalities. Prenatal chromosomal studies were negative for fetal abnormalities; however, a number of congenital anomalies were observed at birth.
The anomalies included a left popliteus pterygium extending from the buttock to the calcaneus, with an associated knee flexion contracture. In addition, a toe-like skin tag was observed on the posterior aspect of the calf and another smaller skin tag on the lower left aspect of the buttock; it appeared that the two appendages had previously been connected ( Figure 1). A cutaneous capillary malformation (port-wine-stain) in the right sacral region was also observed. Ultrasonography was used to identify an underlying terminal L5 lipomeningomyelocele with tethered cord and left uretral duplication with hydronephrosis and an ureterocele. The spinal abnormalities were appropriately monitored by neurosurgery, and the renal anomaly was treated with a left upper pole heminephrectomy by urology.
The popliteus pterygium caused a 40°knee flexion contracture that was slightly flexible. A full-time splinting program was initiated, and at 3 months of age, her passive range improved to full extension, facilitating subsequent weaning to night-time splinting. An MRI of the left leg revealed that a long biceps femoris tendon was the source of the pterygium. It extended from the ischium to calcaneus and connected the biceps femoris muscle to the gastrocnemiussoleus muscle complex ( Figure 2). Owing to the recurrence of her knee contracture after splinting, a decision was made to proceed with surgical intervention.
At nine months of age, excision of the distal 5.5 cm of the biceps femoris tendon off of the calcaneus was performed through a posterior approach centered over the Achilles tendon ( Figure 3, A). A proximal transverse incision at the knee crease was made to identify the tendon proximally ( Figure 3, B). During this surgical procedure, the two accessory appendages were also surgically excised. The large finger-like skin tag, associated with the left leg pterygium, was found in the muscle belly of the left calf at the proximal end of the Achilles tendon. The smaller skin tag was found to arise from the lower left buttock with no significant attachments.
Six months postoperatively, the patient had recurrence of a 15°knee flexion contracture despite aggressive stretching and bracing treatment. Regrowth of the fibrous band behind her knee was noted at this time ( Figure 4). Consequently, excision of remnant lateral fibers and release of her medial hamstring tendons were performed through a longitudinal incision proximal to the posterior knee crease. The patient had near full extension intraoperatively; however, a tight neurovascular bundle was identified and precluded further release to maintain the neurovascular status of the lower extremity.
By the age of five, the knee flexion contracture had increased to 30°, and the patient also presented with a 20°e quinus contracture of her foot and a 1.5-cm leg length discrepancy. A gastroc recession, hamstring lengthening, and distal tendoachilles lengthening was done. Her postoperative rehabilitation course involved wearing an articulated ankle-foot orthosis during the day and a knee-ankle-foot orthosis at night. After the operation and rehab course, her knee was only 5°short of full extension and she had 10°ankle dorsiflexion and 40°plantar flexion ( Figure 5). The 1.5-cm leg length discrepancy remained stable from age five to seven.
At age eight, she redeveloped a 15°to 20°fixed flexion deformity, and a revision hamstring release was done. A year after this procedure, additional procedures to lengthen the hamstring and Achilles tendons were done because of increased knee flexion deformity. Immediately after these procedures, her knee was straight and An intra-operative image showing two supernumerary appendages.
None of the following authors or any immediate family member has received anything of value from or has stock or stock options held in a commercial company or institution related directly or indirectly to the subject of this article: Dr. Smit, Ms. So, Dr. Schaeffer, Dr. Armstrong, Dr. Verchere, and Dr. Mulpuri.
Orthopaedic Management of Human Disorganization Syndrome her ankle remained in the neutral position for 3 years, before she redeveloped a 25°left knee flexion contracture at age 12. An anteromedial and lateral distal femoral eight plate-guided growth procedure was done to allow for slow correction of this flexion deformity. Unfortunately, because of failure of the proximal screw and associated pain, her knee flexion contracture worsened to 40°. A revision surgery was done four months after the initial procedure to replace the plate, and her knee flexion contracture decreased to 25°( Figure 6). Her most recent visit to the orthopaedic clinic occurred five months after her last procedure, and her knee flexion contracture remained at 25°. It was also noted during this visit that she was losing flexion in her hips. The patient is 14 as of 2020 and will be monitored closely into adulthood in case any further changes occur.

Discussion
DS was first described and characterized in laboratory mice with a severe pattern of malformations in several body parts, many of which seemed to derive from the three germ layers. 1 Based on the existing case reports, patients presenting with a bizarre constellation of malformations that cannot be explained by a single syndrome should be considered for a diagnosis of HDS. 6,7 In the past 25 years, limited reported cases of HDS were noted because the reported frequency is less than 1:2,600,000 newborns. 8 The physical manifestations seen in our patient are consistent with previously published reports of HDS. Although no two reported cases of HDS exhibit identical combinations of anomalies, recurring features noted in the literature were observed in this case, including digit-like appendages, 3,6,9-22 popliteus pterygia and/or knee flexion deformities, 6,[11][12][13]18,23,24 and renal defects. 3,6,[11][12][13]16,18,20,23,24 The patient also exhibited normal intellectual development, consistent with other reports. 9,12,15,17,20,23 Previous published reports of HDS are largely focused on the pathoanatomy and medical genetics of HDS. It is thought that the HDS phenotype is because of a semidominant mutation with incomplete penetrance, which is usually lethal in the homozygous  state. 1,2 The low penetrance and high variability of clinical manifestations of HDS make it a paradigm for understanding. A "two-hit" hypothesis has been proposed to explain the variability in presentation of HDS, where the first hit is the genetic mutation and the second hit is an epigenetic or external event. 25 To date, the gene(s) for HDS remains unknown.
This case highlighted the presence of a popliteus pterygium secondary to an elongated biceps femoris tendon that attached to the gastrocnemiussoleus muscle complex. This resulted in a knee flexion contracture that proved difficult to treat with both nonoperative splinting and surgical resection. Popliteus pterygium has been described as one of the most difficult orthopaedic problems. 26 The indications for the treatment of popliteus pterygium have been functional limitations in ambulation and deformity. Many surgical interventions have been described, including a variety of soft-tissue releases [26][27][28][29] and bony osteotomies. 26,30,31 The sciatic nerve is often a limiting factor in complete lengthening of the skin and soft tissues in the affected area because the nerves and vessels are shortened. In addition, the sciatic nerve may be attached to the fibrous band of anomalous muscle, known as the calcaneo ischiadicus. 32,33 Recurrence of the flexion contracture is frequent, and repeat surgical correction is common, as demonstrated in the present case. 26 Conclusion HDS is a complex condition with distinctive orthopaedic features that are at least partly correctable with surgical management. In this case, several orthopaedic surgical interventions were done because of the recurrence of flexion contractures. Further case reports of HDS and discussion in the orthopaedic community to identify similar cases are required to learn more about this extremely rare disorder. This may allow for the identification of possible risk factors and aid accurate diagnosis and management of HDS-related orthopaedic conditions in the future.