Fifth metatarsal fractures

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Expert Patient Guide  ·  London, North London & Hertfordshire

Fifth Metatarsal & Jones Fracture Surgery — Consultant Foot & Ankle Surgeon, London, North London & Hertfordshire

A comprehensive patient guide to the diagnosis, classification and treatment of fifth metatarsal fractures (including Jones fracture and proximal stress fractures), written by Mr Matthew Welck, Consultant Orthopaedic Foot & Ankle Surgeon at the Royal National Orthopaedic Hospital (RNOH) Stanmore and Honorary Associate Clinical Professor at UCL. Mr Welck treats foot fractures, sports injuries and complex foot and ankle conditions — including ankle replacement — across his private clinics in central London, north London and Hertfordshire.

At a Glance: Fifth Metatarsal Fractures

ConditionFracture of the fifth metatarsal — a break in the long bone on the outer side of the foot, including tuberosity avulsion, Jones fracture, proximal diaphyseal and stress fractures.
UK PrevalenceThe fifth metatarsal is the most commonly fractured metatarsal, accounting for around 60–70% of metatarsal fractures and over 50,000 emergency presentations in the UK each year.
Most Common CauseInversion (rolling) injuries in sport — football, rugby, netball, basketball and running account for the majority of cases.
ClassificationLawrence & Botte zones: Zone 1 (tuberosity avulsion), Zone 2 (Jones fracture), Zone 3 (proximal diaphyseal stress fracture).
DiagnosisWeight-bearing foot X-rays (AP, oblique, lateral); MRI for suspected stress fracture or non-union; CT to assess displacement.
Treatment by TypeType 1: protected weight-bearing in a boot or rigid shoe. Type 2 (Jones): boot or intramedullary screw fixation. Type 3: boot or intramedullary screw fixation ± bone graft. Stress fracture: activity modification or surgical fixation in athletes.
Return to SportType 1: 4–8 weeks. Jones / Type 2 (operated): 8–12 weeks. Type 3 / stress fracture: 10–16 weeks.
SpecialistMr Matthew Welck — Consultant Orthopaedic Foot & Ankle Surgeon, RNOH Stanmore & UCL. Private clinics: central London, north London and Hertfordshire. matthewwelck.com

01

What Is a Fifth Metatarsal Fracture?

A fifth metatarsal fracture is a break in the long bone on the outer (lateral) side of the foot that connects the midfoot to the little toe. It is one of the most common foot fractures seen in emergency departments and sports clinics, often described by patients as a “broken metatarsal” or simply a “broken foot”.

The fifth metatarsal is anatomically vulnerable. It has a prominent base (tuberosity) where the peroneus brevis tendon attaches, a narrow neck region with a relatively poor blood supply, and a long shaft that takes much of the load when the foot pushes off the ground during running, cutting and jumping. These features explain why fifth metatarsal fractures behave very differently depending on exactly where the break occurs.

Because outcomes — and the right treatment — depend almost entirely on the precise location of the fracture, specialist assessment by a Consultant Foot & Ankle Surgeon is strongly recommended, particularly for athletes and active patients. Mr Matthew Welck is a Consultant Foot & Ankle Surgeon at the Royal National Orthopaedic Hospital (RNOH) Stanmore and UCL, and offers private assessment for fifth metatarsal and other foot and ankle sports injuries across London and North London.

02

Classification of Fifth Metatarsal Fractures

Classifying a fifth metatarsal fracture correctly is the single most important step in deciding treatment. The widely used Lawrence and Botte classification divides the proximal fifth metatarsal into three anatomical zones, each with its own healing characteristics and treatment implications. A separate group — stress fractures — is also considered alongside these zones because of their distinct chronic, overuse-related pattern.

Zone 1 — Tuberosity Avulsion Fracture (Type 1)

Zone 1 fractures involve the tuberosity at the very base of the fifth metatarsal, where the peroneus brevis tendon and the lateral band of the plantar fascia attach. They are caused by a sudden inversion injury — typically a “rolled ankle”. They have an excellent blood supply and almost always heal well with non-operative treatment. Operations are reserved for very displaced fractures that may tent the skin.

Zone 2 — Jones Fracture (Type 2)

The Jones fracture occurs at the metaphyseal–diaphyseal junction, approximately 1.5 cm distal to the tuberosity and extending into the joint between the fourth and fifth metatarsal bases. This is a watershed area with a relatively poor blood supply, which is why Jones fractures are notorious for delayed union and non-union. They are common in cutting and pivoting sports such as football, rugby, basketball and netball.

Zone 3 — Proximal Diaphyseal Stress Fracture (Type 3)

Zone 3 fractures occur in the proximal shaft just distal to the Jones fracture zone. They are usually the result of repetitive loading rather than a single acute event, and often present with several weeks of pre-existing lateral foot ache that culminates in an acute episode of pain. Zone 3 fractures have the highest rate of non-union of any fifth metatarsal fracture and more frequently require surgical fixation.

Stress Fractures of the Fifth Metatarsal

Stress fractures of the fifth metatarsal develop gradually due to repetitive overload — typically in distance runners, dancers and military recruits. They most commonly occur in Zone 2 or Zone 3 and may follow a prodromal period of intermittent lateral foot pain. Imaging (MRI in particular) can identify them before a complete cortical break appears.

Distal Fifth Metatarsal Fractures

Fractures of the shaft, neck and head of the fifth metatarsal (distal to Zones 1–3) are managed separately and usually heal well with a stiff-soled shoe or walking boot. They are not classified within the Lawrence & Botte system but are mentioned here for completeness.

03

How Common Is It in the UK?

Fifth metatarsal fractures are among the most common foot fractures seen in UK emergency departments. They account for around 60–70% of all metatarsal fractures and are estimated to cause more than 50,000 emergency presentations each year in the United Kingdom alone.

They affect a wide spectrum of patients — from professional footballers and rugby players to weekend runners and older adults who twist an ankle on a kerb. Roughly three-quarters are tuberosity avulsion fractures (Zone 1). True Jones fractures (Zone 2) and proximal diaphyseal stress fractures (Zone 3) are less common but disproportionately important because they are far more likely to cause prolonged time off sport and to require surgery.

In professional and semi-professional athletes the proportion of Jones and stress fractures is much higher, and these patients particularly benefit from rapid specialist assessment to optimise return to sport and minimise the risk of recurrent fracture.

04

What Causes Fifth Metatarsal Fractures?

The mechanism of injury usually points strongly to the type of fifth metatarsal fracture sustained:

  • Sudden inversion injury — a twisted or rolled ankle is the classic cause of a Zone 1 tuberosity avulsion fracture. The peroneus brevis tendon pulls a fragment of bone away from the base of the metatarsal.
  • Cutting, pivoting and jumping sports — football, rugby, netball, basketball, hockey and tennis can produce a Jones fracture (Zone 2), particularly when the heel is off the ground and a sudden axial and bending load passes through the lateral border of the foot.
  • Repetitive overload — distance runners, dancers, jumpers and military recruits are at higher risk of stress fractures and Zone 3 proximal diaphyseal fractures.
  • Cavovarus foot shape — a high-arched foot with a heel that tilts inwards shifts weight onto the outer border of the foot and increases the risk of both acute Jones fractures and stress fractures.
  • Low bone density — vitamin D deficiency, low calcium intake, hormonal disturbance (including relative energy deficiency in sport, RED-S) and osteoporosis all contribute to fifth metatarsal stress fractures and to delayed healing.
  • Direct trauma — a heavy object falling onto the foot, or a stamp injury, can cause a fracture of the shaft, neck or head of the fifth metatarsal.

05

What Are the Symptoms?

Acute fifth metatarsal fractures typically present with a clear history of injury and immediate symptoms over the outer border of the foot:

  • Sudden, sharp pain on the outside of the foot at the time of injury.
  • Bruising and swelling along the lateral border of the foot, sometimes extending into the ankle. It usually does not extend to the sole of the foot.
  • Difficulty bearing weight, particularly when pushing off the toes.
  • Tenderness directly over the base of the fifth metatarsal — a useful clinical sign when examining a “sprained ankle”.
  • An audible crack or pop, especially in Jones fractures.

Stress fractures present more insidiously. Patients describe several weeks of vague lateral midfoot ache that is worse with running and improves with rest, often dismissed as a “niggle” until a sudden increase in pain — sometimes during a single training session or game — signals that a full fracture has occurred.

Important: Any patient who cannot weight-bear after a twisted ankle, or who has localised tenderness over the base of the fifth metatarsal, should be assumed to have a fracture until proven otherwise and should seek prompt assessment.

06

Investigations

Clinical Examination

A focused clinical examination identifies the precise point of maximum tenderness, assesses swelling and bruising, checks neurovascular status and screens for associated injuries such as Lisfranc ligament injury and lateral ankle ligament damage. The shape of the foot (particularly a high-arched cavovarus pattern) is noted because it influences both treatment and the risk of re-fracture.

Plain X-rays

Weight-bearing AP, oblique and lateral X-rays of the foot remain the cornerstone of diagnosis. They show the exact zone of the fracture, the degree of displacement, the size of any avulsed fragment and the involvement of the joint between the fourth and fifth metatarsal bases — all of which guide treatment.

MRI

MRI is invaluable when X-rays are normal but a stress fracture is suspected. It shows bone marrow oedema, periosteal reaction and any developing fracture line several weeks before changes are visible on X-ray, allowing earlier diagnosis and protected return to activity.

CT and Weight-Bearing CT

CT is helpful when the fracture pattern is complex, the displacement is uncertain, or non-union is suspected. Weight-bearing CT (WBCT), available in specialist centres including the RNOH where Mr Welck practises, provides detailed three-dimensional imaging of the foot under physiological load — particularly useful in chronic, recurrent or non-uniting fractures.

Bone Health Assessment

Patients with stress fractures, Zone 3 fractures or recurrent fifth metatarsal injuries are routinely investigated for underlying bone health issues. Vitamin D, calcium, hormonal status and (where appropriate) DEXA bone density scanning are arranged, alongside dietary and training review for any athlete who may be at risk of relative energy deficiency in sport (RED-S).

07

Treatment by Fracture Type

Treatment is dictated by the classification, the degree of displacement, the patient’s activity level and bone health.

Type 1 — Tuberosity Avulsion Fracture (Zone 1)

The vast majority of Type 1 fractures heal predictably without surgery. The standard pathway is:

  • Initial period of rest, ice, elevation and compression to settle the acute swelling.
  • Protected weight-bearing in a stiff-soled post-operative shoe or short walking boot for 2–6 weeks, depending on symptoms.
  • Progression to normal trainers as soon as comfortable, typically within 3–4 weeks.
  • Return to running and impact sport between 4 and 8 weeks, guided by symptoms and clinical examination.

Surgery is reserved for the small minority of patients with a significantly displaced avulsion fragment (more than around 2–3 mm), a large intra-articular fragment involving the fourth–fifth tarsometatarsal joint, or a symptomatic non-union. Fixation is usually performed with a small screw or hook-type plate.

Type 2 — Jones Fracture (Zone 2)

The Jones fracture is the most decision-sensitive of the fifth metatarsal injuries. The watershed blood supply in this zone, the high tensile and bending loads in cutting sports, and the consequences of non-union all mean that the right choice depends on the individual patient.

Non-operative treatment: Selected non-displaced acute Jones fractures in lower-demand patients can be treated in a non-weight-bearing cast or boot for 6–8 weeks, followed by gradual return to weight-bearing and activity over the next 4–6 weeks. Healing is monitored with X-rays at 6 and 12 weeks.

Surgical treatment: In athletes and active patients, percutaneous intramedullary screw fixation is now considered the gold-standard treatment for acute Jones fractures. It restores stability, allows earlier weight-bearing in a boot, and significantly shortens time to return to sport — typically 8–12 weeks compared with several months for conservative management. Bone grafting or biological augmentation is added when there is sclerosis or evidence of delayed healing.

Type 3 — Proximal Diaphyseal Fracture (Zone 3)

Type 3 fractures sit in an area of even poorer biology than the Jones zone and are usually the result of chronic stress rather than a single acute event. Surgical fixation is therefore often recommended:

  • Intramedullary screw fixation — usually with a larger-diameter screw than for an acute Jones fracture, often with curved or anatomic screws to follow the natural bow of the bone.
  • Adjunctive bone graft (autograft from the calcaneus or iliac crest, allograft or synthetic graft) when sclerosis, cyst formation or previous failed treatment is present.
  • Correction of underlying biomechanics — bespoke insoles, lateral wedge orthotics and, in selected cases, surgical correction of a cavovarus foot — to reduce the risk of re-fracture.

Return to running is typically possible at 10–14 weeks and to full contact sport at 12–16 weeks, guided by clinical and radiological progress.

Stress Fracture of the Fifth Metatarsal

Treatment of fifth metatarsal stress fractures depends on the grade of the injury on MRI and the demands of the patient:

  • Early stress reaction or low-grade stress fracture — activity modification, protected weight-bearing in a boot for 4–6 weeks, biomechanical review and bone-health optimisation are usually sufficient.
  • High-grade or established stress fracture in an athlete — early intramedullary screw fixation is often recommended to minimise time out of sport and reduce the risk of progression to complete fracture or non-union.
  • Recurrent stress fracture — surgical fixation combined with bone grafting and detailed assessment of foot shape, training load, bone density and nutritional status.

In every case, treatment is paired with structured rehabilitation under specialist physiotherapy supervision, with graded return-to-running and return-to-sport protocols.

08

Why Choose Mr Welck?

Patients looking for an experienced foot and ankle surgeon in London, North London or Hertfordshire — whether for a fifth metatarsal fracture, Jones fracture, sports injury or other foot and ankle problem — want three things: a precise diagnosis, an evidence-based treatment plan tailored to their level of activity, and a clear pathway back to the sport or work they love. Mr Welck’s practice is built around exactly that.

  • Consultant role at the RNOH Stanmore — Mr Welck is a substantive Consultant Foot & Ankle Surgeon at the Royal National Orthopaedic Hospital, the UK’s leading specialist orthopaedic hospital, and Honorary Associate Clinical Professor at UCL.
  • Subspecialist sports injury expertise — extensive experience in managing fifth metatarsal fractures, Jones fractures, stress fractures, Lisfranc injuries and other foot and ankle injuries in professional and recreational athletes.
  • Modern surgical techniques — minimally invasive intramedullary screw fixation, anatomic screw systems, biological augmentation and weight-bearing CT-guided assessment, used selectively and only where there is a clear benefit to the patient.
  • Academic and research profile — more than 50 peer-reviewed publications, the European Foot & Ankle Society Best Scientific Paper Prize 2020 and the David Marsh Orthopaedic Research Prize. International fellowship training including Baltimore, USA.
  • Convenient London, North London and Hertfordshire access — private clinics across central London, north London and Hertfordshire, with consultant-led MRI, weight-bearing CT and ultrasound imaging available on site.
  • Multidisciplinary team — close working relationships with specialist musculoskeletal radiologists, sports physicians, podiatrists and chartered physiotherapists to coordinate every stage of recovery.

09

Frequently Asked Questions

Is a fifth metatarsal fracture the same as a Jones fracture?

No. A Jones fracture is one specific type of fifth metatarsal fracture — a break at the metaphyseal–diaphyseal junction (Zone 2). Most “broken metatarsal” injuries on the outside of the foot are actually Zone 1 tuberosity avulsion fractures, which behave very differently and usually heal without surgery.

Do I need an operation for a fifth metatarsal fracture?

Most Zone 1 (tuberosity avulsion) fractures do not need surgery. True Jones fractures (Zone 2) and proximal diaphyseal fractures (Zone 3) often benefit from surgical fixation, particularly in athletes, because of the higher risk of non-union and the much longer recovery times associated with non-operative management.

How long does a broken fifth metatarsal take to heal?

Tuberosity avulsion fractures typically settle within 4–8 weeks. Jones fractures treated with screw fixation heal at around 8–12 weeks. Proximal diaphyseal and stress fractures usually take 10–16 weeks to allow full return to sport, depending on the patient, the fracture and any underlying bone health issues.

Can I walk on a fifth metatarsal fracture?

Many patients with tuberosity avulsion fractures can weight-bear in a stiff-soled boot from the outset. For Jones and proximal diaphyseal fractures, an initial period of non-weight-bearing or boot protection is usually advised. Specialist assessment is essential to set the right plan and avoid delayed union.

When can I return to football, rugby or running after a Jones fracture?

After intramedullary screw fixation of a Jones fracture, return to running typically begins between 8 and 10 weeks, with return to contact and cutting sports between 10 and 14 weeks, provided X-rays show healing and clinical examination is reassuring. Return-to-sport protocols are individualised under specialist physiotherapy supervision.

What happens if a Jones fracture is missed or not properly treated?

Untreated Jones fractures have a significant risk of delayed union, non-union and re-fracture, particularly in athletes. Specialist assessment usually allows recovery with screw fixation and, where needed, bone grafting, but earlier diagnosis greatly simplifies treatment.

Is it possible to break the fifth metatarsal again after surgery?

Re-fracture can occur, especially in cavovarus feet, runners with low bone density and athletes who return to sport before complete healing. Risk is reduced by using an appropriately sized screw, addressing foot shape with orthotics or surgery where indicated, optimising bone health and following a structured rehabilitation programme.

Can I see Mr Welck privately for a foot fracture, ankle injury or sports injury in London, North London or Hertfordshire?

Yes. Mr Welck offers private consultations across central London, north London and Hertfordshire for foot fractures (including fifth metatarsal and Jones fractures), stress fractures, sports injuries and the full range of foot and ankle conditions — from ankle ligament injuries to ankle replacement. New patients can typically be seen within a few working days, with imaging and a clear treatment plan arranged at the first visit.

10

Book a Consultation

If you have suffered a suspected fifth metatarsal fracture, Jones fracture or stress fracture and would like specialist assessment by a Consultant Foot & Ankle Surgeon, please contact Mr Welck’s private practice.

Telephone: 07547 395 270

Website: matthewwelck.com

Private clinics: Central London, North London and Hertfordshire — appointments and locations confirmed at the time of booking.

Medical disclaimer: This guide is provided for general information only and does not replace individual medical advice. Treatment of fifth metatarsal fractures and other foot and ankle injuries must be based on individual clinical assessment by an appropriately qualified specialist. If you are concerned that you may have a fifth metatarsal fracture or other injury, please seek prompt medical attention.

© Mr Matthew Welck — Consultant Orthopaedic Foot & Ankle Surgeon, RNOH Stanmore and UCL, London. matthewwelck.com

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