Sage Journals: Discover world-class research

Abstract

Background

The roles of each ligament supporting the subtalar joint have not been clarified despite several biomechanical studies. The effects of ankle braces on subtalar instability have not been shown.

Hypothesis

The ankle brace has a partial effect on restricting excessive motion of the subtalar joint.

Study Design

Controlled laboratory study.

Methods

Ten normal fresh-frozen cadaveric specimens were used. The angular motions of the talus were measured via a magnetic tracking system. The specimens were tested while inversion and eversion forces, as well as internal and external rotation torques, were applied. The calcaneofibular ligament, cervical ligament, and interosseous talocalcaneal ligament were sectioned sequentially, and the roles of each ligament, as well as the stabilizing effects of the ankle brace, were examined.

Results

Complete sectioning of the ligaments increased the angle between the talus and calcaneus in the frontal plane to 51.7° ± 11.8° compared with 35.7° ± 6.0° in the intact state when inversion force was applied. There was a statistically significant difference in the angles between complete sectioning of the ligaments and after application of the brace (34.1° ± 7.3°) when inversion force was applied. On the other hand, significant differences in subtalar rotation were not found between complete sectioning of the ligaments and application of the brace when internal and external rotational torques were applied.

Conclusion

The ankle brace limited inversion of the subtalar joint, but it did not restrict motion after application of internal or external rotational torques.

Clinical Relevance

In cases of severe ankle sprains involving the calcaneofibular ligament, cervical ligament, and interosseous talocalcaneal ligament injuries, application of an ankle brace might be less effective in limiting internal-external rotational instabilities than in cases of inversion instabilities in the subtalar joint. An improvement in the design of the brace is needed to restore better rotational stability in the subtalar joint.

Keywords

subtalar joint instability ankle brace biomechanics

Get full access to this article

View all access options for this article.

References

Bahr

Pena

Shine

. Mechanics of the anterior drawer and talar tilt tests: a cadaveric study of lateral ligament injuries of the ankle. Acta Orthop Scand. 1997;68:435–441.

Brantigan

Pedegana

Lippert

. Instability of the subtalar joint: diagnosis by stress tomography in three cases. J Bone Joint Surg Am. 1977;59:321–324.

Cahill

. The anatomy and function of the contents of the human tarsal sinus and canal. Anat Rec. 1965;153:1–17.

Cass

Morrey

Chao

. Three-dimensional kinematics of ankle instability following serial sectioning of lateral collateral ligaments. Foot Ankle. 1984;5:142–149.

Feuerbach

Grabiner

Koh

Weiker

. Effect of an ankle orthosis and ankle ligament anesthesia on ankle joint proprioception. Am J Sports Med. 1994;22:223–229.

Fumich

Ellison

Guerin

Grace

. The measured effect of taping on combined foot and ankle motion before and after exercise. Am J Sports Med. 1981;9:165–170.

Greene

Hillman

. Comparison of support provided by a semi-rigid orthosis and adhesive ankle taping before, during, and after exercise. Am J Sports Med. 1990;18:498–506.

Gross

Bradshaw

Ventry

Weller

. Comparison of support provided by ankle taping and semirigid orthosis. J Orthop Sports Phys Ther. 1987;9:33–39.

Harper

. The lateral ligamentous support of the subtalar joint. Foot Ankle. 1991;11:354–358.

10.

Jerosch

Hoffstetter

Bork

Bischof

. The influence of orthoses on the proprioception of the ankle joint. Knee Surg Sports Traumatol Arthrosc. 1995;3:39–46.

11.

Kato

. The diagnosis and treatment of instability of the subtalar joint. J Bone Joint Surg Br. 1995;77:400–406.

12.

Kinzey

Ingersoll

Knight

. The effects of selected ankle appliances on postural control. J Athl Train. 1997;32:300–303.

13.

Kitaoka

Luo

. Analysis of longitudinal arch supports in stabilizing the arch of the foot. Clin Orthop Relat Res. 1997;341:250–255.

14.

Kjaersgaard-Andersen

Wethelund

Helmig

Nielsen

. Effect of the calcaneofibular ligament on hindfoot rotation in amputation specimens. Acta Orthop Scand. 1987;58:135–138.

15.

Kjaersgaard-Andersen

Wethelund

Helmig

Soballe

. The stabilizing effect of the ligamentous structures in the sinus and canalis tarsi on movements in the hindfoot: an experimental study. Am J Sports Med. 1988;16:512–516.

16.

Knudson

Kitaoka

Luo

. Subtalar joint stability: talocalcaneal interosseous ligament function studied in cadaver specimens. Acta Orthop Scand. 1997;68:442–446.

17.

Konradsen

Voigt

Hojsgaard

. Ankle inversion injuries: the role of the dynamic defense mechanism. Am J Sports Med. 1997;25:54–58.

18.

Larsen

. Tendon transfer for lateral ankle and subtalar joint instability. Acta Orthop Scand. 1988;59:168–172.

19.

Laughman

Carr

Chao

Youdas

Sim

. Three-dimensional kinematics of the taped ankle before and after exercise. Am J Sports Med. 1980;8:425–431.

20.

Martin

Wayne

Owen

Smith

Martin

Adelaar

. Elongation behavior of calcaneofibular and cervical ligaments in a closed kinetic chain: pathomechanics of lateral hindfoot instability. Foot Ankle Int. 2002;23:515–520.

21.

Myburgh

Vaughan

Isaacs

. The effects of ankle guards and taping on joint motion before, during, and after a squash match. Am J Sports Med. 1984;12:441–446.

22.

Sarrafian

. Biomechanics of the subtalar joint complex. Clin Orthop Relat Res. 1993;290:17–26.

23.

Shapiro

Kabo

Mitchell

Loren

Tsenter

. Ankle sprain prophylaxis: an analysis of the stabilizing effects of braces and tape. Am J Sports Med. 1994;22:78–82.

24.

Smith

. The ligamentous structures in the canalis and sinus tarsi. J Anat. 1958;92:616–620.

25.

Stormont

Morrey

Cass

. Stability of the loaded ankle: relation between articular restraint and primary and secondary static restraints. Am J Sports Med. 1985;13:295–300.

26.

Taillard

Meyer

Garcia

Blanc

. The sinus tarsi syndrome. Int Orthop. 1981;5:117–130.

27.

Teramoto

Kura

Uchiyama

Suzuki

Yamashita

. Three-dimensional analysis of ankle instability after tibiofibular syndesmosis injuries. Am J Sports Med. 2008;36:348–352.

28.

Thonnard

Bragard

Willems

Plaghki

. Stability of the braced ankle: a biomechanical investigation. Am J Sports Med. 1996;24:356–361.

29.

Tochigi

Amendola

Rubert

. The role of the interosseous talocalcaneal ligament in subtalar joint stability. Foot Ankle Int. 2004;25:588–596.

30.

Tohyama

Beynnon

Renstrom

Theis

Fleming

Pope

. Biomechanical analysis of the ankle anterior drawer test for anterior talofibular ligament injuries. J Orthop Res. 1995;13:609–614.

31.

Tohyama

Yasuda

Beynnon

Renstrom

. Stabilizing effects of ankle bracing under a combination of inversion and axial compression loading. Knee Surg Sports Traumatol Arthrosc. 2006;14:373–378.

32.

Uchiyama

Suzuki

Kura

Yamashita

Murakami

. Distal fibular length needed for ankle stability. Foot Ankle Int. 2006;27:185–189.

33.

Wright

Desai

Henderson

. Action of the subtalar and ankle-joint complex during the stance phase of walking. J Bone Joint Surg Am. 1964;46:361–382.

Mechanical Stability of the Subtalar Joint After Lateral Ligament Sectioning and Ankle Brace Application