Ice Cream Cone Pelvic Reconstruction after Peri-Acetabular Tumour Resection - Institutional Experience and Description of Implant Fatigue Failure

Research Article

Austin J Musculoskelet Disord. 2024; 11(1): 1065.

Ice Cream Cone Pelvic Reconstruction after Peri-Acetabular Tumour Resection - Institutional Experience and Description of Implant Fatigue Failure

Ermias Hailemeskel; Viswanath Jayasankar; Ewen Fraser; Ashish Gulia; Ashish Mahendra; Sanjay Gupta*

Department of Trauma & Orthopaedic, Glasgow Royal Infirmary, Glasgow, Scotland

*Corresponding author: Sanjay Gupta Department Trauma & Orthopaedic, Glasgow Royal Infirmary, 84 Castle Street, Glasgow, G4 0SF, Scotland. Email: sanjaygupta@doctors.org.uk

Received: November 27, 2023 Accepted: January 05, 2024 Published: January 12, 2024

Abstract

Aims: Reconstruction following resection of tumours involving the peri-acetabular area is challenging. Achieving acceptable long-term functional status remains difficult and complications are common. The aim of this study was to describe our experience of using the Stanmore ice-cream cone implant after major pelvic tumour resection and present 2 unique cases of implant fatigue failure.

Methods: Ten patients with primary pelvic tumours involving the peri-acetabular region were treated with resection (type 2/2+3) and reconstruction using the Stanmore ice-cream coned pelvic implant between 2010 and 2019 at our centre. Retrospective analysis of our database and patient records was carried out to identify outcomes and complications.

Results: Seven male and three female patients with a mean age of 46 years (range- 17-74 years) were treated with reconstruction using the Stanmore ice-cream cone implant. Chondrosarcoma (n=7) was the most common diagnosis. At a mean follow up of 67 months, 7 patients were alive without disease, 1 patient developed metastatic disease and 2 patients died of recurrent/metastatic disease. Dislocation occurred in 2 patients and 1 patient developed deep infection requiring re-operation for local control. Two patients developed fatigue failure of the implant, which has not been described in the literature. No revision was performed at the time of study.

Conclusion: Reconstruction after peri-acetabular tumour resection remains challenging with high rates of complications. Surgical techniques and implant options are evolving but the ideal implant is yet to be established. Patients should be advised about potential complications including the need for further treatment related to implant failure.

Keywords: Pelvis tumour resection; Reconstruction; Stanmore coned pelvis; Implant fatigue failure

Introduction

Approximately 10% of bone sarcomas occur in the pelvis. The complex 3D anatomy of the pelvis and proximity of tumours to major vessels and nerves make surgical management particularly challenging. Extensive surgery is required to achieve an acceptable oncological margin and postoperative complications are frequent [1-3].

Surgical management of pelvic tumours has undergone a paradigm shift/evolved over recent decades. Hind-quarter amputation, which used to be the mainstay of management haslargely been abandoned and is currently reserved for select indications [2-4]. Limb preserving internal hemipelvectomies are the standard of treatment and the classification system by Enneking and Dunham serves as guide for extent of resection based on the anatomic segment(s) of the pelvis involved by the tumour (resections type I-IV) [1].

A range of reconstructive options have been described following internal hemipelvectomies [2]. While Biological reconstruction /no reconstruction has proved to be a viable option following some type of resections (type I, type III, type I+IV) [5], resections involving the periacetabular region (type II) benefit from reconstruction to restore force transmission and weight bearing along anatomic axes [3,6,7].

Design of endoprosthesis used for peri-acetabular resection have also evolved over the past few decades [3,6]. The Stanmore hemi pelvic stemmed coned implant (ice cream cone implant) is one of the models that was first introduced in 2003. Inspired by the Mckee Farrar stemmed acetabular prosthesis design, the ice cream coned implant was marketed as an off the shelf option for reconstruction of peri acetabular defects following tumour resection. The conical stem design is partly coated with hydroxyapatite and has cutting flutes which provide axial and rotational stability. Additional stability is gained by putting antibiotic-containing cement around the implant and inserting screws/pins in different directions into the remaining Ilium. It also has the advantage of an offset stem which allows for better loading and positioning in the iliolumbar bar and the reaming for the stem is in line with that of the implant thus providing a more secure fit of the stem in the remaining ilium [8,10].

Initial description of short-medium term results of 27 patients by Fisher et al., 2019 [9], has shown an overall complication rate of 37% (infection-11.1%, dislocation-14.8%, loosening-4.4%) and a reoperation rate of 18.5%. Refinements in surgical techniques, namely computer-aided navigation, use of large femoral heads and hypotensive epidural anaesthesia) have resulted in improved complication rates like dislocation and infection [10-12].

The Stanmore ice cream coned pelvic implant has also been utilised in revision arthroplasty with major acetabular defects/bone loss as well as the treatment of acetabular fractures in the elderly with variable short and medium-term results [13,14]. Other pedestal cup designs have since been introduced for peri-acetabular reconstruction with different design modifications and the added advantage of modularity, but still with high rates of complication [3,15-19].

We present our experience of using the Stanmore ice cream coned implant for peri-acetabular reconstruction, with emphasis on 2 unique implant fatigue/structural failures (type 3 failure according to classification system by Henderson et al) [20] in well-fixed implants in young, active patients. To the best of our knowledge, this has not been previously described in the literature.

Material and Methods

We retrospectively analysed the outcomes of 10 patients with primary pelvic bone tumours who were treated with surgical resection and reconstruction using the ice cream coned pelvic implant at the Orthopaedic Oncology unit of Glasgow Royal Infirmary between 2010 & 2019. The unit is a tertiary referral centre for Sarcoma in the west of Scotland and has a catchment area of around 3 million people. The database of the unit, patient charts, radiology reports, pathology reports and MDT Outcome letters were used as data sources.

All surgeries were performed by fellowship-trained orthopaedic oncologists. The preferred position is a ‘’sloppy lateral’’ which allows the patient to be tilted to gain adequate access too anteriorly and posteriorly. Dual ilio-inguinal and posterior Kocher-Langenbeck or lateral approaches were utilized in all cases.

All surgeries were performed under computer navigation. Pre-operative planning of the resection margins was done using planning software OrthoMap 3D, Stryker, Newbury, United Kingdom) and bony resections and prosthesis implantation were performed under computer navigation (Navigation System II, Stryker). Details of the planning and operative technique are described in a study from our unit [21].

After resection of the pelvic segment involved with the tumour (type 2, type 2+3), the remaining ilium is hand reamed and an appropriately sized stem is inserted. The trajectory of reaming as well as stem insertion is done under computer navigation. A double mix of antibiotic-containing cement is used to augment the construct and fill the space around the implant. Additional screws or Steinmann pins are inserted through holes in the cup after the cement is set. After that, a large acetabular cup (most commonly a 48 mm ADM cup) is cemented into the coned cup. Femoral reconstruction proceeds like a normal hip replacement and the Exeter V40 Femoral stem were used when the resection only involved the femoral neck. Trochanteric osteotomies were commonly fixed with screws or a plate (1 case). The Zimmer segmental endoprosthesis system was used in cases where the proximal femur was resected as part of the extra articular peri-acetabular resection.

Results

A total of 10 patients (7 Male and 3 Female) with primary pelvic bone tumours were treated with the Stanmore ice cream coned implant between 2010 and 2019. Mean age at diagnosis was 47 years (range 17-74 years). Chondrosarcoma was the most common diagnosis (5 conventional, 1 de-differentiated, 1 secondary from synovial chondromatosis). The chondrosarcomas were treated with surgery alone, whereas the rest (1 Ewing’s Sarcoma, 1 Chondroblastic Osteosarcoma and 1 high grade Undifferentiated Pleomorphic Sarcoma of bone) had neo-adjuvant chemotherapy.

Surgery

Four patients had type 2+3 resection and reconstruction with standard total hip arthroplasty stem. Six patients had type 2 resection, of which 3 involved proximal femur resection which was reconstructed with Zimmer Segmental endoprosthesis system. Additional screws or pins were inserted through the cement surrounding the cone into the remaining Ilium to augment the construct. Median surgical time was 11.5 hours (range 8-27 hrs) and median blood loss was 4.25L (range 2-15 L).

All surgical margins were clear of tumour except one. A patient with a grade 3 Chondrosarcoma of the proximal femur who presented with a pathologic fracture and underwent an extra-articular type 2+3 resection and reconstruction has positive distal femoral marrow margins, which was treated with post-operative radiotherapy.

Follow up

All patients were followed according to national sarcoma surveillance guidelines. Post treatment baseline cross-sectional imaging of the pelvis was done at 4-6 months post-op. These were used to confirm adequate placement of implant stem in the ilium. Mean long term follow up was 67 months (range 13-116 months). Two patients died during follow up. Both had local disease recurrence. The other 8 continued follow up according to national guidelines of which one was discharged after completing 10 years of post-treatment surveillance.

Complications

Dislocations: 2 patients had dislocations within the first 2 weeks after surgery. Both had type 2+3 resection and femoral reconstruction with standard total hip implants. Both were reduced with manipulation under anaesthesia. One of the patients continued to have persistent dislocation (between the trunnion of the femoral stem and modular head component) and was not fit enough to undergo open reduction. The other patient did not have further dislocations for the reminder of follow up, 11 months from the time of surgery.

Infection: Immediate post op period (within 4 weeks of surgery) - one patient developed deep infection, requiring re-operation. She was treated with irrigation and debridement twice, extended wound VAC treatment for wound closure and local infection control. The patient needed long term suppression antibiotic therapy under the guidance of the infectious disease department. Serial scans demonstrated a deep peri-prosthetic collection, but she was not felt to be fit enough to undergo a major revision/staged surgery and has retained the implant until now (18 months following surgery).

Distant Metastasis

One patient developed lung metastasis on follow up, 45 months after surgery. The diagnosis at presentation was a pathological fracture of the proximal femur secondary to Grade 3 Chondrosarcoma. Surgery involved extra-articular resection of the proximal femur and a type 2 pelvic resection. Distal marrow margins were positive (24cm below the joint level) and the patient received radiation treatment post operatively. He was subsequently enrolled into a clinical trial and is alive at the time writing.

Death

Two deaths occurred within 18 months after surgery. Diagnoses was chondrosarcoma (Grade 2, de-differentiated) and were treated with a type 2+3 resection. Both patients had local recurrence of disease. Palliative radiotherapy was given to one of them for symptom relief.

Fatigue failure: Two patients developed fatigue failure (type 3 failure) of the stem of the coned implant during follow up. Both patients are young males, who had no major postoperative complications and returned to their active lifestyle soon after surgery. Both cases are discussed in more detail.

Patient 1: 40-year-old male with Ewing’s sarcoma of the peri-acetabular area. Treatment involved neoadjuvant chemotherapy, type 2+3 resection and reconstruction. The patient had a smooth postoperative period with no major complications. Initial post-operative pelvic x-rays showed satisfactory placement of implant stem (Figure 1) which was later confirmed on CT scan. Serial follow up x-rays did not demonstrate any abnormality.