Pain in the ankle joint
The ankle joint
We all take more than 200 million steps throughout our lives. Each of those steps is no mean feat. What looks so simple is actually a complex sequence of movements with perfect timing and constant synchronisation. The ankle, as a pivot point, allows a wide range of movements and copes with all kinds of demands.
The ankle joint is always in motion and also subject to the constant impact of strong forces. That makes it all the more important to treat injuries and any subsequent ligament instabilities properly at an early stage in order to prevent serious consequential damage.

Anatomy of the ankle joint
The ankle joint is perfectly designed to fulfil its various functions and is characterised by an ideal interplay between the bones, muscles, ligaments and tendons.
The ankle joint consists of two partial joints: the upper ankle joint and the lower ankle joint. These partial joints supplement each other’s functionalities, forming one unit. This interaction enables lifting and lowering as well as rotating in the direction of the inner and outer edge of the foot (supination and pronation).

As the body’s strongest tendon, the Achilles tendon connects the flexor muscles of the thigh to the foot bones, thus enabling the foot to flex. It is approximately 5 cm wide and 20 to 25 cm long.

The ankle joint is stabilised by a strong system of ligaments. The elasticity of ligaments is limited to just 3% of the original length. Three individual ligaments secure the ankle joint from the exterior (posterior, central and anterior lateral collateral ligament). The inside is strengthened by a fan-shaped medial collateral ligament complex (deltoid ligament).
There is also an anterior and posterior tibiofibular ligament. These elastic connective tissue structures connect the tibia and the fibula to the ankle where they play the part of an artificial joint.
The talar bone (lat. talus) plays a central role in the transmission of force from the lower leg to the foot. If the bones in the foot joint can be moved towards the toes while the lower leg stays in position, this is referred to as talar shift.

Causes of pain in the ankle joint
Pain in the ankle joint usually occurs as a result of an acute injury. However, other causes can also lead to pain in the ankle joint, such as misalignments, irritated tendons, inflammation, excess strain, inherited factors like congenital weak ligaments as well as conditions caused by wear, e.g. osteoarthritis.
Diagnosing an ankle injury
The basis of a diagnosis is a clinical examination. A tentative diagnosis includes taking a medical history, looking at and palpating the affected area as well as a mobility and stability test. Talar shift, for example, is detected in what is known as the drawer test. The tentative diagnosis is usually verified afterwards using technical imaging methods, such as X-ray, ultrasound scans, MRI and CT.

Localisation of pain
The area where pain is felt can be an indication of the type of injury or condition.
- Pain in the outer ankle indicates an injury to the lateral collateral ligament, a fracture of the outer ankle or a peroneal tendon condition.
- Pain in the inner ankle can be caused by an injury to the medial collateral ligament, a fracture of the inner ankle, Osteochondrosis dissecans, tarsal tunnel syndrome or lesions of the tibialis posterior tendon.
- In cases of damage to the lower ankle joint, pain is usually projected to the outer edge of the foot.
- Pain in the upper ankle joint that mostly occurs during movement indicates an impingement syndrome.
- If pain is more wide-spread and cannot be pinned down to a certain area, this may be a sign of damage to the articular surfaces (osteoarthritis).
Injuries and conditions
Acute damage to the ankle is always the result of mechanical forces exerted on the joints and ligaments. Twisting the foot in the direction of the outer ankle (supination trauma) is the most common cause, and results in a range of issues from overstretching, partial or full tear of the ligaments, to ankle fractures.


Injuries of the lateral collateral ligament (supination trauma)
Injuries of the lateral collateral ligament (supination trauma)
The most common cause of problems and pain in the ankle area is twisting the foot to the outside (supination trauma). This causes excess strain on the bone-ligament-capsule-system on the outside of the foot. During the twisting motion, the ligament structures are severely overstretched or tear. Concomitant injuries such as fractures can also occur.

Injuries to the medial collateral ligaments
Injuries to the medial collateral ligaments
The medial collateral ligament connects the medial malleolus with the talar bone and heel bone. Its design is much more complex than that of the lateral collateral ligament. It consists of an anterior, central and posterior section that stabilise the ankle joint and prevent twisting. In cases of medial collateral ligament ruptures, the medial collateral ligament tears partly or is fully ripped out of the upper ankle joint.

Ankle joint fracture
Ankle joint fracture
After a sprain, damage can occur in the area of the joint, such as chip fractures on the joint surface or fractures of the fibula, tibia or talar bone.
These injuries can subsequently affect other structures in the foot and lead to excessive mobility (hypermobility) or restricted movement. Severe pain in the ankle with swelling and bruising is usually the consequence. In cases of fractures where the bones have shifted, the ankle can be visibly deformed.

Chronic ligament instabilities
Chronic ligament instabilities
Not everyone’s ligaments can cope with the same amount of strain. Additionally, ligament instabilities can remain as a consequence of an injury that has not healed fully. The ligaments in the ankle joint take approximately 9 months to completely stabilise and strengthen again. Incomplete healing of the ligaments or misalignment of the foot triggered, for example, by adopting a relief posture in the recovery period makes it more likely for patients to twist their ankle again or be less sure-footed after an injury. This is particularly the case for sporting activities or walking on uneven ground.
Chronic ligament instabilities could be prevented in a lot of cases, but more often than not, injuries to the ankle and ligaments of the foot remain untreated or insufficiently treated during the acute phase, i.e. immediately after the accident. Patients do not take their symptoms seriously, for example, or go to the doctor too late. As a result, every second person will experience problems not just in the foot, but also in other joints during their lifetime.
When left untreated, chronic instability of the upper and lower ankle joint is considered as a pre-osteoarthritic deformity, i.e. a risk factor for the development of osteoarthritis. In its final stage, complex treatment is generally required, such as orthopaedic footwear, joint replacement or stiffening surgery.

Osteoarthritis
Osteoarthritis
In a healthy state, joint cartilage facilitates the movement of the joints and provides a cushioning effect during walking. Osteoarthritis is a sign of wear and tear of these joint surfaces. But cartilage does not get damaged by age-related wear and tear alone. Insufficiently treated injuries resulting in osteoarthritis of the ankle joint as an after-effect are often to blame.
An injury can result in permanent inappropriate biomechanical stress to the foot. Over many years, this stress leads to wear and tear of the cartilage until the joint surfaces rub against each other and cause severe pain. The earlier a ligament instability or onset of osteoarthritis is detected, the more effectively action can be taken. The aim, however, is to take preventative measures to avoid damage to the cartilage.

Inflammation (arthritis)
Inflammation (arthritis)
Inflammation in the ankle can have various causes such as tendonitis, osteoarthritis of the ankle or rheumatism. Pain usually limits joint mobility.

Rheumatism (rheumatoid arthritis
Rheumatism (rheumatoid arthritis
Rheumatoid arthritis causes inflammation of the synovial membrane, resulting in the joint swelling due to liquid. Inflammatory substances and white blood cells accumulate and lead to excessive growth that spreads all the way into the cartilage.

Achillodynia
Achillodynia
Achillodynia is a pain syndrome caused by excess strain or inappropriate stress in the area of the Achilles tendon. Pain occurs as a result of acute irritation of the Achilles tendon and its synovium. It can manifest in a specific area or more wide-spread. If achillodynia does not subside, this can lead to degenerative changes.

Torn Achilles tendon (Achilles tendon rupture)
Torn Achilles tendon (Achilles tendon rupture)
When the Achilles tendon tears, a whip-like cracking sound is often heard, accompanied by piercing pain. Afterwards, the affected person is no longer able to stand on tip-toes. In order to avoid a loss of function, treatment should be administered as quickly as possible. In addition to surgery, conservative treatment is also an option. This is generally used for older patients with comorbidities.
Treating pain in the ankle joint
Immediate measures after a sprain
For initial treatment after sporting and other injuries, the so-called RICE rule is recommended. R stands for rest, I for ice, C for compression and E for elevation. Depending on the severity of the pain and the characteristics of the symptoms, medical advice should be sought afterwards.

Supports and orthoses for each phase of injury and treatment
In the acute phase after a trauma, those affected suffer from pain, swelling and restriction in movement. Generally, after an acute injury or surgery, orthoses are used that provide a functional reduction in strain on the lateral collateral ligaments without restricting mobility of the joint in all its movements.
A sprained ankle (ankle distortion) is the most common injury in sports orthopaedics. In most cases, the foot twists in the direction of the outer ankle (supination trauma).
This injury is usually treated conservatively. During the first treatment phase after the trauma, the ankle should be stabilised externally using an ankle orthosis and then gradually subjected to load again.
Following an acute injury, oedema and swelling also often develop. Compression stockings that can be worn under ankle orthoses can accelerate the reduction of oedema and swelling, having a positive effect on the healing process.
During the mobilisation phase, the ligaments will re-align and become strong again. This phase continues until the upper and lower ankle have regained stability. Early return to activity is particularly important during this phase to achieve better treatment success.
During the healing process of a supination trauma and once acute treatment has been completed, stabilising the ankle with a support is recommended. Supports surround the affected joint and exert compression. This improves proprioception, stimulates the muscles and stabilises the joint.
After the mobilisation phase is complete, the ankle often still has insufficient stability. This can result in dysfunctional loading on the foot and the adjoining or related joints. If a patient suffers from recurring sprains, pain and a subjective feeling of instability, on uneven ground in particular, a support should be worn long-term to provide stabilisation.
As a consequence of insufficiently treated injuries and instabilities, cartilage damage (osteoarthritis) can develop in the ankle. A thin, stabilising support that fits into any shoe can help to stop joint wear from progressing.