Use of clinical and computed tomography findings to assess long-term unsatisfactory outcome after femoral head and neck ostectomy in four large breed dogs

Femoral head and neck ostectomy (FHNO) is a salvage surgical procedure intended to eliminate hip joint laxity associated pain in the immature dog, or pain due to secondary osteoarthritis in the mature dog. The outcome of the procedure is associated with the size of the dog but the cause of a generally poorer outcome in larger breeds has not been determined. The objective of this study was to assess the long-term results of FHNO associated with unsatisfactory functional outcome by means of clinical examination and computed tomography (CT) scanning. Four large mixed breed dogs underwent FHNO in different veterinary clinics. Clinical and CT scanning evaluations were carried out long time after the procedures had been done. Hip pain, muscle atrophy, decreased range of motion and chronic lameness were observed at clinical examination. Extensive remodelling, unacceptable bone-on-bone contact with bony proliferation involving the femoral neck and acetabulum, but also excessive removal with bone lysis were observed by CT scanning. Revision osteotomy was performed in one dog. Deep gluteal muscle interposition was used, but no improvements were observed postoperatively. This is the first report on the evaluation of three-dimensional CT reconstructions of the late bone remodelling associated with poor clinical outcome in large dogs. The study shows that FHNO could lead to severe functional deficits in large breed dogs. An extensive follow-study is necessary to more accurately determine the frequency of such complications.


Findings
Femoral head and neck ostectomy (FHNO) is a salvage surgical procedure for hip dysplasia intended to eliminate hip joint laxity associated pain in the immature dog, or pain due to secondary osteoarthritis in the mature dog [1]. The procedure is relatively straightforward and has been the topic of several studies [2][3][4][5][6][7][8]. The perception that function after FHNO is better in small dogs and cats compared with larger dogs is based upon a widely accepted presumption, i.e. that the ability to compensate for the mechanical disadvantages of an absent coxofemoral articulation dependents on body weight, with lighter animals having an advantage [3,4,6,9], but functional disabilities have also been reported in many small breed dogs and cats subjected to FHNO [2,10]. Some studies suggest that bone-on-bone contact from inadequate excision or postoperative formation of enthesophytes or ectopic bone is the primary cause of poor outcome [9,11]. Other authors suggest that the bone contact is not sufficient to explain differences in clinical outcome [5]. Muscle transpositions using the biceps femoris muscle [7,9,12], the deep gluteal muscles [2] and a vascularized rectus femoris muscle sling have been described, but are no longer recommended because of potential ischiatic

Open Access
Acta Veterinaria Scandinavica *Correspondence: ciprian.ober@usamvcluj.ro 1 Department of Surgical Techniques, University of Agricultural Sciences and Veterinary Medicine, 3-5 Mănăştur Street, 400372 Cluj-Napoca, Romania Full list of author information is available at the end of the article nerve damage [12,13]. Kinetic gait analysis has failed to demonstrate improvement in weight bearing when interpositions have been used [14,15]. The aim of this study is to report post-ostectomy clinical and CT findings associated with functional disabilities after FHNO in four large breed dogs.
Four mixed breed dogs were presented to the Department of Surgical Techniques, Faculty of Veterinary Medicine, Cluj-Napoca, Romania for revision of a failed FHNO. According to the owners, the reasons for FHNO were chronic coxofemoral luxation (2 dogs), fracture of the femoral neck (1 dog) and osteoarthritis due to hip dysplasia (1 dog). The dogs had an average age of 5 years (range 2-9 years) at the time of FHNO. Mean body weight was 30.7 kg (range 27-31 kg). Examinations of the patients were carried out 12-15 months after surgery. Lameness, pain and muscle atrophy scores were assessed after physical examination (Table 1). Crepitus was observed in two patients (cases 2 and 3).
A CT scanning examination of the pelvis and femur of each dog was performed using a 16 slice helical CT scanner (Siemens). Images were acquired as a volume with 0.5 mm voxels, 0.5 s rotation speed, 0.828 helical pitch, 512 × 512 matrix 120 kVp and 350 mA. The volume data were reconstructed with bone and soft tissue algorithms, as well as in isovolumetric transverse, sagittal, and frontal planes at 1-2 mm slice thickness. The CT images were available in a bone window (width: 2700 HU, level: 350 HU) and a soft tissue window (width: 400 HU, level: 40 HU). Volume bone algorithm data were imported into a three-dimensional (3D) workstation and 3D reconstructions of the hind limbs were created using a commercially available software. Using the 3D CT, images of the femoral head and neck were assessed. Revision surgery was performed for case 4 using deep gluteal muscle interposition.
Based on information from the owners combined with the results of clinical and CT evaluations, the outcome of the FHNOs was unsatisfactory in all four dogs. Functional limitations were present in all dogs despite appropriate aftercare and persisted without any trend to improvement. Severe weight-bearing lameness was observed in three dogs (score 4) and non-weight-bearing lameness in one dog (score 5). Atrophy of the musculature of the hip and thigh regions was observed in all dogs. Discomfort during extension of the hip occurred in all dogs, with severe pain expression in case 2.
Extensive remodelling and marked bony proliferation involving the femoral neck and acetabulum was observed in three cases (Figs. 1a-f ). Unacceptable boneon-bone contact was observed in cases 1, 2 and 3, with insufficient bone removal (cases 1 and 3) and incomplete neck removal in case 2. In case 4, excessive ostectomy had probably been performed (Fig. 1g, h). Presence of free bone fragments was also observed in cases 3 and 4 ( Fig. 1e-h). The surgical site had healed without any post-operative complications after deep gluteal muscle interposition in case 2. The cases were positioned incorrectly for radiology at different intervals after the surgeries (Fig. 2a, b). Three-dimensional CT reconstructions of the late bone remodelling offered major advantages in assessing inadequate bone-on-bone contact, comparing with conventional radiography. We consider that 3D CT reconstructions offer major benefits.
In all four dogs, FHNO failure was defined as an unsatisfactory limitation in function as noted by the owners, with lameness, pain, muscle atrophy, and limitation in range of motion observed on clinical   femoral neck is frequently located at the poorly visualized caudal aspect and thus may be overlooked by an unexperienced surgeon [21]. It is probable that excessive ostectomy was performed on case 4. We cannot explain the preservation of the greater trochanter and absence of the bone between it and the rest of the femur, unless by a surgical error. The clinical significance of excessive bone removal seen in this case is unclear, but it has the potential of causing additional tissue trauma and altering the biomechanics of the post-operative pseudarthrosis [21]. Accidental removal of the lesser trochanter disrupts the attachment site of the iliopsoas muscle and is a cause of delayed recovery of the weight bearing function [22]. This could be another explanation for the poor functional outcome in case 4. However, some authors consider that complete excision of the femoral neck, including removal of the lesser trochanter, may improve results [23].
Clinically important complications necessitating surgical revision occurred, but only one owner (of case 2) accepted a sling musculature interposition as an alternative. Deep gluteal muscle interposition was performed, but no improvements were observed 3 months postoperatively. According to discussions with the owners 3 months postoperatively, the other three dogs presented the same functional disabilities. Total hip replacement alternative was rejected by all of the four owners due to cost-related considerations.
It was our perception that "bone-on-bone" contact between the degenerative femoral head and the degenerative acetabulum could be better assessed by CT scanning images. Conventional radiographic examinations are satisfactory for diagnostic, but cross-sectional imaging might sometimes be necessary for accurate characterization of periarticular osteophytes of the femoral neck as well as with regard to remodelling of the femoral heads and acetabulae, as the images provide additional information over plain radiographs.
We do not consider that the surgeons have to perform a CT scanning on every candidate for FHNO, but this additional information might be helpful for a revision surgery. The limitation of this study is the small number of dogs, thus we cannot consider CT scanning a crucial tool for clinical decision making.
It should be explained to all dog owners that surgical outcome is unpredictable when recommending FHNO, especially in large breed dogs.