- Research article
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Steinmann pin retractor-assisted reduction with circle plate fixation via sinus tarsi approach for intra-articular calcaneal fractures: a retrospective cohort study
Journal of Orthopaedic Surgery and Research volume 14, Article number: 363 (2019)
Sinus tarsi approach and mini-calc plate have been used for intra-articular calcaneal fractures. However, the sinus tarsi approach has limited exposure to the lateral wall, which makes it challenging to obtain an excellent anatomic reduction of the calcaneal body. What is more! To restore the width of the calcaneal body entirely and prevent the heel varus simultaneously with mini-calc plate was tough as well. Aimed to solve the aforementioned problems, our study focused on using the Steinmann pin retractor for reduction and the circle plate for fixation via the sinus tarsi approach.
From March 2017 to January 2019, 15 patients with closed calcaneal fractures were treated with the method of Steinmann pin retractor-assisted reduction and circle plate fixation via the sinus tarsi approach. All these patients received a positive postoperative clinical and radiological evaluation.
A postoperative follow-up was done for each of the 15 patients, and the following scores and parameters were observed: value of visual analogue scale (VAS) was 1.44 ± 0.63, and The American Orthopaedic Foot and Ankle Score (AOFAS) Ankle-Hindfoot score was 84.31 ± 5.03 at the last follow-up. The Böhler angle (30.81 ± 3.56°), width (37.83 ± 4.87 mm), length (87.4 ± 3.33 mm), and height (86.23 ± 5.36 mm) of the calcaneus were improved significantly in comparison with preoperative values (− 0.94 ± 10.06°, 45.67 ± 5.68 mm, 82.72 ± 5.54 mm, 76.32 ± 7.98 mm), and these parameters were maintained excellently after 6–19 months’ follow-up.
Our present study suggested that Steinmann pin retractor-assisted reduction with circle plate fixation via the sinus tarsi approach may serve as a safe and effective method for Sanders type II and type III calcaneus fractures. The Böhler angle, height, length, and body of the calcaneus were excellently restored postoperatively and maintained at last follow-up and rare postoperative complications.
This study has been registered. The unique identifying number is research registry 5092.
Calcaneus fractures are common fracturing mainly caused by a high falling. Displaced intra-articular calcaneus fractures draw more attention in clinical treatment, for its potentiality of leading to post-traumatic osteoarthritis and resulting in claudication or disability to the patient. Since it is difficult to obtain an excellent anatomical reduction by nonoperative treatment  and uncertainly maintaining the Böhler angle by percutaneous fixation , the open reduction and stable internal fixation (ORIF) for displaced intra-articular calcaneus has been considered to be the gold standard protocol for intra-articular calcaneus fracture.
The extensile lateral L-shaped approach has been used for a notable advantage of the lateral wall expose. While about 30% of patients experience some incision complications including edge necrosis, dehiscence, hematoma, or deep infection . Minimal incision, including the sinus tarsi approach, has been widely used for the advantage of lowering the risk of wound complications . However, sinus tarsi approach has limited extensive exposure to the lateral wall, which makes it challenging to obtain an excellent anatomic reduction of the calcaneal body, even by the manual traction with a percutaneous Steinmann pin. Mini-calc plate satisfied the rigid triangular fixation, but the coverage of the lateral wall provided by Mini-calc plate was limited in comparison with the ordinary plate. Acquiring maximum lateral wall coverage was essential for the plate to restore the width of the calcaneal body entirely and prevent the heel varus effectively. Due to the reasons mentioned above, selecting a minimal approach with rare incision complication, and choosing a rigid fixation to meet the demands, including triangular fixation, maximum lateral wall coverage, and convenient insertion via minimal incision simultaneously, has been a real challenge in clinical research of orthopedics .
In our study, the sinus tarsi approach and the circle plate were chosen for ORIF; besides that, the Steinmann pin retractor device was used. With these efforts, we have aimed to restore the integrity of posterior facets, the height, length, and width of the calcaneal, and acquire rigid fixation which allows for early time functional exercise and, above all, rare incision complication. Subsequently, we assessed the measuring results, including Böhler angle, Gissanes angle, height, length, and width of the calcaneus in the radiological evaluation, and functional outcomes in clinical evaluation.
Material and method
We retrospectively review the clinical data of 15 patients with intra-articular calcaneal fractures who were managed surgically by performing Steinmann pin retractor-assisted reduction with circle plate fixation via sinus tarsi approach in the department of orthopedics of Shouguang Hospital of Traditional Chinese Medicine between 2017 and 2019. All the patients were surgically treated at the same hospital by the surgeon (Bin Zhao).
All the patients involved in this study were male. The average age was 45.67 ± 12.10 years (range, 27 to 79 years). All the patients were involved in labor work. The right side was involved in 6 patients and the left side in 10 patients (an indication of 1 patient being bilateral). The injury was sustained from a fall from a height in 14 patients and a vehicle accident in 1 patient. One patient was with a complicated scaphoid fracture of the affected foot side and 2 patients with complicated sural nerve injury of the affected side. All cases were closed fracture and classified with Sanders classification preoperative, including 5 cases of type IIA, 2 cases of type IIB, 1 case of type IIC, 3 cases of type IIIAB, 4 cases of type IIIAC, and 1 case of type IIIBC. Seven patients had more than 5 years of tobacco history and were instructed to stop smoking until complete wound healing.
All patients received lateral, axial X-ray radiography and horizontal, coronal computed tomography(CT) scan, and the three-dimensional reconstruction of the affected side were obtained before surgery. The lateral X-ray radiography of the unaffected side was obtained during the operation by C-arm fluoroscopy, which can be used as a reference for reduction. Surgery was performed after an average duration of 6.81 ± 4.00 days after the injury until the wrinkle test positive.
Surgery was performed under spinal-epidural anesthesia with the prone position. Firstly, preoperative preparations were made including the following: squeeze the body of the calcaneus with hands so as to restore the width of calcaneus partially and marked the sinus tarsi incision from the lower margin of the tip of the lateral malleolus to the proximal cuboid precisely on the skin, and prepare an electric pneumatic tourniquet (pressure, 40 KPa). Secondly, a 4–5-cm incision (Fig. 1c) was made accordingly after disinfecting by sharply dissect the sheath of the peroneus longus and brevis tendons from the lateral wall and protect the sural nerve carefully. Subsequently, two 3.0 Steinmann pins were drilled into talus and lateral process of calcaneal tuberosity, respectively. Gradually distract the Steinmann pin with the retractor (Huatrau, Chinatrau instrument Co`. Ltd., Guangzhou, China) (Fig. 2c, d) until the length and height of calcaneus were approximated to the unaffected side. However, it should be noticed that using a pointed reduction clamp to maintain the tubercular fracture blocks together before distraction is essential (Fig. 3d, e, f, g), especially in tongue-type fracture. Thirdly, the fatty tissue was removed from the tarsal sinus, to expose the posterior calcaneal facets. The retractor was over distracted until providing a 3–5-mm gap of joint space, which contributed to restoring the integrity of posterior calcaneal facets precisely. Subsequently, the pry-poking method was used to restore the Böhler and Gissanes angle according to the unaffected side and maintained these angels with Steinmann pin fixation temporary. Fourthly, moderate subperiosteal dissection along the lateral wall was performed until the circle plate (calcaneus plates 2, pure titanium, 12 holes, Suzhou Kangli Orthopaedics Instrument Co., Ltd., Suzhou, China) was inserted into the incision and achieved sound position under C-arm fluoroscopy. Cancellous bone screws were screwed-in from the front, top, to rear-like delta wing, which contribute to restoring the width of the calcaneus by the way, subsequently, screwed-in locking screws or cancellous bone screws via the incision or percutaneously for reinforcement. In the end, the Steinmann pins were removed, and the drainage tube was placed percutaneously before closing.
Postoperative management and evaluation
Prophylactic antibiotics and non-steroidal anti-inflammatory drugs were administered to patients after surgery. The incisional area was pressurized with an elastic bandage 3–5 days after surgery, and the drainage tube was removed when the drainage liquid was less than 30 ml a day. The patients were encouraged to do toe flexion, and dorsiflexion actively post-anesthesia, and the “R.I.C.E” principle was carried out aimed to decrease the swelling postoperatively. Stitches were removed 2 weeks after surgery. Subsequently, full-day time exercises for the subtalar motion were encouraged, including ankle flexion and dorsiflexion exercises actively, and the circumduction, inversion, and eversion movements of the heel with hands passively. All of these efforts aimed to re-establish the motion of the subtalar joint. The affected side was allowed for partial weight-bearing with crutches 10 weeks after surgery until the evidence of the excellent condition of bridging fracture site reflected on the postoperative X-ray, and the absence of tapping pain along the axis of the calcaneal bone. Subsequently, full weight-bearing without crutches was carried out gradually over the next 6 weeks.
Patients were evaluated clinically and radiologically at 1, 3, and 6 months postoperative. The clinical evaluation included a visual analogue scale (VAS) (0 = no pain, 10 = maximum imaginable pain) and the American Orthopaedic Foot and Ankle Society (AOFAS) Ankle-Hindfoot score. The radiological evaluation included axial and lateral X-ray, and the anatomical parameters of height, length, Böhler, and Gissanes angle were measured in the lateral view, while the calcaneus width was measured in the axial view. The anatomical parameters were measured with the PACS system (Picture Archiving and Communication Systems, version 2.5, Founder Group, Beijing, China). Clinical evaluation and radiological measurement were carried out by an independent physician who was not involved in the surgeries (Tables 1 and 2).
When applicable, all data were presented as means ± standard deviation. Comparison of data was performed using a t test for paired data. All statistical analyses were performed using the Statistic Package for Social Science(SPSS 19.0). Probability values < 0.05 were considered to be statistically significant.
All patients were followed-up. No case of sinus tarsi syndrome, compartment syndrome, or soft-tissue complications, such as wound edge necrosis, incision infection, hematoma, or new sural nerve injury in our study. All patients had a normal alignment of the calcaneus and stable plantigrade foot without signs of axial deviation or chronic swelling. Only two patients experienced moderate pain after walking of three blocks, but no patients need long-term use of painkillers. Three patients experienced subtalar joint stiffness without traumatic arthritis at the last follow-up. The symptoms of numbness in the innervation area was improved in two patients with preoperative sural injury (no obviously nerve rupture was observed during operation), and the quality of life was not disturbed by the numbness in these patients after surgery. The value of VAS was 1.44 ± 0.63, and the AOFAS Ankle-Hindfoot score was 84.31 ± 5.03 at the last follow-up. The radiological evidence judged the restoration of the joint surface with the incongruity of less than 2 mm, and with no screw loosening, implant break, nonunion, or malunion. The Böhler angle (30.81 ± 3.56°), width (37.83 ± 4.87 mm), length (87.4 ± 3.33 mm), and height (86.23 ± 5.36 mm) of calcaneus were significantly improved in comparison with preoperative (− 0.94 ± 10.06°, 45.67 ± 5.68 mm, 82.72 ± 5.54 mm, 76.32 ± 7.98 mm) (p = 0.000, p = 0.000, p = 0.000, p = 0.000 vs preoperative), and these parameters (30.44 ± 3.37°, 37.93 ± 4.75 mm, 87.04 ± 3.32 mm, 85.31 ± 4.88 mm) were well maintained after 6–19 months’ follow-up (p > 0.05 vs postoperative).
Sinus tarsi approach was initially described by Palmer  and was widely accepted for the treatment of intra-articular calcaneal fractures for the notable advantage of convenient exposure and the facilitating ability to restore the integrity of posterior facets. Above all, the sinus tarsi approach dramatically decreased the risk of wound complications in comparison with the laterally extended approach [4, 7]. However, poor visualization of the lateral wall via the sinus tarsi approach makes it difficult to restore the body of calcaneal anatomically. Supposed the length, height, and width of the calcaneus were not well improved, the late sequelae would occur inevitably; possibly anterior impingement associated with a significant loss of height and the lateral hindfoot pain associated with compression of the peroneal tendon sheath caused by severe shortening and widening of calcaneus . In our study, Steinmann pin retractor provided a stable and accurate distraction during operation, by which we restored the length and height of the calcaneus under C-arm fluoroscopy according to the unaffected side; distracting the calcaneal tubercle persistently until the overlap between the fracture blocks disappeared under C-arm fluoroscopy or the outline of the calcaneus being restored was another object of reference for an excellent reduction, especially in bilateral calcaneal fractures (Fig. 4).
Steinmann pin retractor not only acts as a distractive device but also plays a significant role in preventing the heel varus. When the first Steinmann pin is driven into the talus, the second one is also driven into the body of calcaneus from the lateral process of tubercle and kept 10–15° varus to the previous one (Fig. 2f). After installing the retractor device, the second Steinmann pin is kept parallel to the previous one. Hence, the calcaneal body was present as varus status being corrected passively and valgus status maintained the process of distraction. However, the angle of the second Steinmann pin depends on the level of calcaneal varus.
After installing the retractor, providing a joint space view by the traditional methods, such as increasing the heel varus, was unsuitable. However, over-distracted appropriately with retractor contribute to providing a perfect surgical view for excellent reduction of the posterior facets. In our study, all the posterior facets were satisfactorily restored with the incongruity of less than 2 mm with the over-distracted method. However, we noticed that it was difficult to restore the sustentaculum tail fracture through the sinus tarsi approach, even with the assistance of the retractor. Hence, a previous study recommended for an additional medical approach to solve it . Restricted by the prone position, no additional medial approach was performed in our study, for the patients with type IIC, IIIAC, and IIIBC fractures got a sound reduction in sustentaculum tail fracture, and this might be ascribed to the integrity of the medial soft tissue hinge (Additional file 1).
Circle plate fixation was used in extensile lateral L-shaped approach as usual but rare in the minimal incision, and the reasons why we chose this type of plate for fixation are as follows: Firstly, the circle plate provided maximum coverage of the lateral wall. Under the pressure of cancellous bone screws, the circle plate excellently restored the width of the calcaneal body. Secondly, the solid triangulate support by the front, top, and rear contribute to maintaining the height, length of the calcaneus, and the screws adjacent to the posterior facets benefited from maintaining the Böhler and Gissanes angle effectively. Thirdly, the circle plate can be inserted into the minimal incision easily. In our study, after 6–19 months’ follow-up, the Böhler angle, width, length, and height of calcaneus manifested no statistical difference in comparison with post-operation. However, every coin has two sides. Inserting a circle plate into the minimal incision indicated additional soft tissue detachment from the lateral wall in comparison with mini-calc plate, which potentially increases the risk of wound edge necrosis. Whilst there were no case of incision resulted in necrosis, it implied a satisfactory reason to ascribe to the careful subperiosteal dissection and the protection of the lateral branches of perforating peroneal artery attached to the lateral wall of calcanea [10, 11]. What is more, the bone healing process was not disturbed by subperiosteal dissection was confirmed by the previous study . Indeed, the bone healing process manifested earlier than extraperiosteal dissection . Sanders type IV calcaneus fractures were excluded in our study because neither sinus tarsi approach nor extended lateral approach achieved excellent outcomes in the previous research .
Our present study suggests that Steinmann pin retractor-assisted reduction with circle plate fixation via sinus tarsi approach may serve as a safe and effective method for Sanders type II and type III calcaneus fractures. The Böhler angle, height, length, and body of the calcaneus were excellently restored postoperatively and maintained at last follow-up and rare postoperative complications.
Availability of data and materials
The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.
The American Orthopedic Foot and Ankle Score
Open reduction and stable internal fixation
Picture Archiving and Communication Systems
Statistic Package for Social Science
Visual analogue scale
Matherne TH, Tivorsak T, Monu JU. Calcaneal fractures: what the surgeon needs to know. Curr Probl Diagn Radiol. 2007;36(1):1–10. https://doi.org/10.1067/j.cpradiol.2006.07.006 PubMed PMID: 17198887.
Stulik J, Stehlik J, Rysavy M, Wozniak A. Minimally-invasive treatment of intra-articular fractures of the calcaneum. J Bone J Surg Br. 2006;88(12):1634–41. https://doi.org/10.1302/0301-620X.88B12.17379 PubMed PMID: 17159178.
Lim EV, Leung JP. Complications of intraarticular calcaneal fractures. Clin Orthop Relat Res. 2001;391:7–16 PubMed PMID: 11603691.
Basile A, Albo F, Via AG. Comparison between sinus tarsi approach and extensile lateral approach for treatment of closed displaced intra-articular calcaneal fractures: a multicenter prospective study. J Foot Ankle Surg. 2016;55(3):513–21. https://doi.org/10.1053/j.jfas.2015.11.008 PubMed PMID: 26810127.
Rammelt S, Zwipp H. Calcaneus fractures: facts, controversies and recent developments. Injury. 2004;35(5):443–61. https://doi.org/10.1016/j.injury.2003.10.006 PubMed PMID: 15081321.
Palmer I. The mechanism and treatment of fractures of the calcaneus: open reduction with the use of cancellous grafts. J Bone Joint Surg Am. 1948;30A(1):2–8 PubMed PMID: 18921620.
Xia S, Lu Y, Wang H, Wu Z, Wang Z. Open reduction and internal fixation with conventional plate via L-shaped lateral approach versus internal fixation with percutaneous plate via a sinus tarsi approach for calcaneal fractures - a randomized controlled trial. Int J Surg. 2014;12(5):475–80. https://doi.org/10.1016/j.ijsu.2014.03.001 PubMed PMID: 24607889.
Myerson M, Quill GE Jr. Late complications of fractures of the calcaneus. J Bone Joint Surg Am. 1993;75(3):331–41 Epub 1993/03/01. PubMed PMID: 8444911.
Al-Ashhab ME, Elgazzar AS. Treatment for displaced sustentaculum tali fractures. Foot (Edinb). 2018;35:70–4. https://doi.org/10.1016/j.foot.2017.12.002 Epub 2018/06/01. PubMed PMID: 29852385.
Xia S, Wang X, Lu Y, Wang H, Wu Z, Wang Z. A minimally invasive sinus tarsi approach with percutaneous plate and screw fixation for intra-articular calcaneal fractures. Int J Surg. 2013;11(10):1087–91. https://doi.org/10.1016/j.ijsu.2013.09.017 PubMed PMID: 24103451.
Prabhakar S, Dhillon MS, Khurana A, John R. The “Open-Envelope” approach: a limited open approach for calcaneal fracture fixation. Indian J Orthopaedics. 2018;52(3):231–8. https://doi.org/10.4103/ortho.IJOrtho_576_17 Epub 2018/06/12. PubMed PMID: 29887624; PubMed Central PMCID: PMCPMC5961259.
Whiteside LA, Lesker PA. The effects of extraperiosteal and subperiosteal dissection. II. On fracture healing. J Bone Joint Surg Am. 1978;60(1):26–30 PubMed PMID: 624757.
Nosewicz TL, Dingemans SA, Backes M, Luitse JSK, Goslings JC, Schepers T. A systematic review and meta-analysis of the sinus tarsi and extended lateral approach in the operative treatment of displaced intra-articular calcaneal fractures. Foot Ankle Surg. 2018. https://doi.org/10.1016/j.fas.2018.08.006 Epub 2018/10/17. . PubMed PMID: 30321924.
Ethics approval and consent to participate
This study was approved by the Committee on Medical Ethnic of Shouguang Hospital of Traditional Chinese Medicine (permit number 20170301) and was carried out in strict accordance with the recommendations in the Guide of “Methods for ethical review of biomedical research involving humans(2016)” from the state health and family planning commission of the People’s Republic of China. All patients provided written, informed consent for the surgery. This study has been registered and the unique identifying number is researchregistry5092.
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Cite this article
Zhao, B., Zhao, W. & Assan, I. Steinmann pin retractor-assisted reduction with circle plate fixation via sinus tarsi approach for intra-articular calcaneal fractures: a retrospective cohort study. J Orthop Surg Res 14, 363 (2019). https://doi.org/10.1186/s13018-019-1405-5
- Steinmann pin retractor
- Sinus tarsi approach
- Calcaneus fracture