What are the rehab exercises for a collarbone fracture. Discover the recommended exercises and recovery timeline from Kaiser Permanente.

Collarbone Fracture Rehab Exercises

When dealing with a collarbone fracture, proper rehabilitation exercises are crucial for a successful recovery. Kaiser Permanente provides a comprehensive guide on the recommended rehab exercises to help patients regain strength and mobility in their shoulder and arm. Let’s dive into the key exercises and the timeline for progression.

Shoulder Blade Squeezes

Stand with your arms at your sides and squeeze your shoulder blades together. Avoid raising your shoulders as you do this. Hold the squeeze for 6 seconds and repeat 8-12 times.

Wall Angels

Start by standing with your back against a wall, arms raised overhead. Keeping your arms against the wall, bend your elbows and slowly lower your arms while squeezing your shoulder blades together. Repeat this exercise 8-12 times.

Shoulder Flexion (Lying Down)

Use a wand, such as a piece of PVC pipe or a broom handle, that is about a foot wider than your shoulders. Lie on your back, holding the wand with both hands, palms facing down. Keeping your elbows straight, slowly raise your arms overhead until you feel a stretch in your shoulders, upper back, and chest. Hold for 15-30 seconds and repeat 2-4 times.

Chest Stretch (Lying Down)

Lie on your back with your elbows bent and your arms out to your sides, resting on the surface you’re lying on. Raise your hands above your head until you feel a stretch in your chest. Hold for 15-30 seconds and repeat 2-4 times.

Broken Collarbone Surgery Rehab Protocol

For patients who have undergone collarbone surgery, the rehabilitation protocol is slightly different. Here are the key guidelines:

• Do not elevate the surgical arm above 90 degrees in any plane for the first 4 weeks post-op.
• Do not lift any objects over 5 pounds with the surgical arm for the first 6 weeks.
• Avoid repeated reaching for the first 6 weeks.
• Use an arm sling for 4 weeks post-op.
• Maintain good upright shoulder girdle posture, especially during sling use.
• Regular icing routine for the first 2 weeks is recommended.
• Intermittent X-rays may be needed to monitor healing.
• Follow-up visits with the MD/nurse at Day 2, Day 14, Month 1, Month 3, and Year 1 post-op.

Rehabilitation Timeline

The rehabilitation timeline is divided into several phases:

Week 1

Exercises include pendulum exercises, squeezing a ball, triceps with resistance band, isometric rotator cuff and shoulder movements, and soft tissue treatments for the shoulder and neck. Cardiovascular training like arm cycling or biking is also recommended.

Weeks 2-4

Continued soft tissue treatments, gentle pulley exercises for shoulder range of motion, and progression of isometric and active range of motion exercises.

Weeks 4-8

At the 4-week mark, patients are typically progressed to a more aggressive range of motion and strength program, including active and light resistance exercises for the rotator cuff without shoulder elevation.

Weeks 8-12

The focus shifts to seeking full shoulder active range of motion in all planes, with increased manual mobilizations of the soft tissue, glenohumeral, and scapulothoracic joints.

Weeks 12 and Beyond

A more aggressive strengthening program is introduced, gradually increasing the intensity of strength and functional training for a return to activities and sports. The timeline for return to specific sports is determined by the physical therapist through functional testing.

Remember, these guidelines are approximations, and the actual progression will be based on the individual patient’s presentation and assessment throughout the treatment process.

Conclusion

Recovering from a collarbone fracture requires a well-structured rehabilitation program. The exercises and timeline outlined by Kaiser Permanente provide a comprehensive approach to help patients regain strength, mobility, and ultimately return to their desired activities and sports. It is crucial to follow the guidance of your healthcare team and adhere to the recommended exercises and progression to ensure a successful recovery.

Collarbone Fracture: Rehab Exercises | Kaiser Permanente

Skip Navigation

Introduction

Here are some examples of exercises for you to try. The exercises may be suggested for a condition or for rehabilitation. Start each exercise slowly. Ease off the exercises if you start to have pain.

You will be told when to start these exercises and which ones will work best for you.

How to do the exercises

Shoulder blade squeeze

slide 1 of 4

slide 1 of 4, Shoulder blade squeeze,

1. While standing with your arms at your sides, squeeze your shoulder blades together. Do not raise your shoulders up as you are squeezing.
2. Hold 6 seconds.
3. Repeat 8 to 12 times.

Wall angels

slide 2 of 4

slide 2 of 4, Wall angels,

1. Start this exercise with your back against a wall and your hands raised above your head.
2. Keeping your arms against the wall, bend your elbows and slowly lower your arms while squeezing your shoulder blades together.
3. Repeat 8 to 12 times.

Shoulder flexion (lying down)

slide 3 of 4

slide 3 of 4, Shoulder flexion (lying down),

To make a wand for this exercise, use a piece of PVC pipe or a broom handle with the broom removed. Make the wand about a foot wider than your shoulders.

1. Lie on your back, holding a wand with both hands. Your palms should face down as you hold the wand.
2. Keep your elbows straight, and slowly raise your arms over your head until you feel a stretch in your shoulders, upper back, and chest.
3. Hold for 15 to 30 seconds.
4. Repeat 2 to 4 times.

Chest stretch (lying down)

slide 4 of 4

slide 4 of 4, Chest stretch (lying down),

1. Lie on your back with your elbows bent. Your arms should be out to your sides, and your arms and elbows should be resting on the surface you are lying on, such as the floor.
2. Raise your hands above your head until you feel a stretch in your chest.
3. Hold for 15 to 30 seconds.
4. Repeat 2 to 4 times.

Follow-up care is a key part of your treatment and safety. Be sure to make and go to all appointments, and call your doctor if you are having problems. It’s also a good idea to know your test results and keep a list of the medicines you take.

Broken Collarbone Surgery Rehab Protocol & Recovery Time

• DO NOT elevate surgical arm above 90 degrees in any plane for the first 4 weeks post-op.
• DO NOT lift any objects over 5 pounds with the surgical arm for the first 6 weeks.
• AVOID REPEATED reaching for the first 6 weeks.
• recommend regular icing routine for the first 2 weeks; please consult Post-Op Icing handout for full details
• An arm sling is used for 4 weeks post-op.
• Maintain good upright shoulder girdle posture at all times and especially during sling use.
• Intermittent X-ray to monitor healing as needed
• M.D./nurse follow-up visits at Day 2, Day 14, Month 1, Month 3 and Year 1 post-op.

Week 1

• MD/nurse. visit day 2 post-op to change dressing.
• Exercises (3x per day):

1. Pendulum exercises,
2. squeeze ball,
3. triceps with Theraband,
4. isometric rotator cuff external and internal rotations with arm at side
5. isometric shoulder abduction, adduction, extension and flexion with arm at side. -Soft tissue treatments for associated shoulder and neck musculature for comfort

• cardiovascular training such as well arm cycling, biking for Active Recovery

Weeks 2 – 4

• Soft tissue treatments for associated shoulder and neck musculature for comfort.
• Gentle pulley for shoulder ROM 2x/day in limited ROM <90*
• elbow pivots PNF, wrist PNF
• isometric scapular PNF, mid-range

Weeks 4 – 8

• M.D. visit at Week 4 post-op and will usually be progressed to a more aggressive ROM and strength program.
• At Week 4: start mid-range of motion (ROM) rotator cuff external and internal rotations active and light resistance exercises (through 75% of ROM as patient’s symptoms permit) without shoulder elevation and avoiding extreme end ROM.
• Strive for progressive gains to active 90 degrees of shoulder flexion and abduction.

Weeks 8 – 12

• Seek full shoulder Active ROM in all planes
• Increase manual mobilizations of soft tissue as well as glenohumeral and scapulothoracic joints for ROM.
• No repeated heavy resisted exercises or lifting until 3 months.

Weeks 12 and beyond

• Start a more aggressive strengthening program as tolerated.
• Increase the intensity of strength and functional training for gradual return to activities and sports.
• Return to specific sports is determined by the physical therapist through functional testing specific to the patient’s demands
• completion of Sports Test I for initial return to sports and progressive sport-specific training

NOTE: All progressions are approximations and should be used as a guideline only. Progression will be based on individual patient presentation, which is assessed throughout the treatment process.

Don’t Know Why Your Shoulder Hurts? Use our Shoulder Pain Symptom Checker to learn more about your symptoms and possible injury conditions. 

Download a Guide to our Shoulder-Saving Procedures

Explore all your options. Learn about procedures that can help you return to sports & delay or avoid an artificial shoulder replacement.

Exercises after a fracture of the collarbone – Rehabilitologist Osteopath Maxim Podduev (Kyiv)

Shoulders, shoulder blades, chest, Rehabilitation

The effectiveness of treatment and recovery after a fracture of the collarbone depends on many factors: the severity of the injury, the professionalism of doctors, the age of the patient and proper rehabilitation. These exercises are specially designed for soft tissue rehabilitation and effective restoration of range of motion in the shoulder girdle and limb.

Clothing must be loose, it is advisable to remove shoes. All exercises (especially the first days) should be performed smoothly and gradually. Remember the important principle: “Tolerate mild pain, do not allow severe pain.”

Stick Curl

Stand straight with your feet shoulder-width apart. Hold the stick with both hands, palms facing the floor. Raise your arms as high as possible above your head and hold for 5 seconds. Return to starting position. Repeat 10 times.

Stick Extension

Stand straight with your feet shoulder-width apart. Take the wand with both hands behind your back. Move your arms as far away from your back as possible and hold for 5 seconds. Repeat 10 times.

Lying spin

Lie on your back on the floor. Hold the wand with both hands, palms facing. Shoulders and elbows rest on the floor. Use your good hand to rotate the patient in different directions. Hold your hand in the maximum tilt position for 5 seconds. Repeat 10 times.

Stick Stretch

Stand straight with your feet shoulder-width apart. Take the wand behind your head with your healthy hand, take your sore hand behind your back and take the other end of the wand. With your healthy hand, pull the wand up, thereby increasing the flexion of the sore arm. Hold for 5 seconds. Repeat 10 times.

Vertical rotation

Stand straight with your feet shoulder-width apart. Take the wand with both hands, palms away from you. With your healthy hand, move your injured hand to the side as much as possible. Try to lift as high as possible, hold for 5 seconds. Repeat 10 times.

Horizontal rotation

Stand up straight, hold the stick with both hands and raise it to shoulder level. Rotate the wand to the side until a stretch is felt. Hold the reached position for 5 seconds. Then repeat the exercises on the other side. Repeat 10 times.

Shoulder Curl

Stand straight with your feet shoulder-width apart and your arms hanging freely. Raise your arms straight in front of you and as high as possible. Hold for 5 seconds and then return to the starting position. 2 sets of 15 reps.

Vertical spread

Stand straight, feet shoulder-width apart, arms hanging freely. Take your hands to the sides (as shown in the figure) and lift as high as possible. Hold for 5 seconds. Return to starting position. Repeat 10 times.

Horizontal spread

Stand up straight and raise your straight arms to shoulder level. Spread them apart as far as possible. Hold for 5 seconds, then bring your hands back in front of you. Repeat 10 times. Try not to put your hands down throughout the exercise.

Shoulder Extension

Stand straight with your feet shoulder-width apart. Extend the arm being developed back (as shown in the figure) and hold for 5 seconds. Then return to the starting position. Repeat 10 times.

Shoulder rotation

Raise your shoulders up and hold for 5 seconds. Squeeze your shoulder blades together and hold for 5 seconds. Then pull the shoulder blades down, as if trying to put your hands in the back pockets of your trousers, and also hold for 5 seconds. Repeat 10 times each action.

Lying arm abduction

Lying on the healthy side, the arm to be trained is relaxed in front of you. Slowly raise the arm being developed up as far as possible. 2 sets of 15 reps. Take a small weight in your hand when the exercise is no longer difficult.

Shoulder Raise

Lie on your stomach on a table or on the edge of a bed with your arm hanging down. Slowly raise your arm back and up without bending your elbow. Return to starting position. 2 sets of 15 reps. Take a small weight in your hand when the exercise is no longer difficult.

Shoulder Abduction

Stand up straight, arms at your sides, palms facing you. Take the straight, developed hand to the side, and then as high as possible. Hold for 5 seconds, return to starting position. Repeat 10 times. Take a small weight in your hand when the exercise is no longer difficult.

Internal rotation

Stand with your working arm towards the door. Fasten the end of the expander behind the door at waist level, take the other end of the expander with your developed hand and bend it at the elbow at 90 degrees. Keeping the elbow pressed, rotate the forearm from the door to the body, and then slowly return to the starting position. It is important to keep the forearm parallel to the floor. 2 sets of 8 to 12 reps.

Flexion resistance

Stand with your back to the door. Fasten the end of the expander behind the door at waist level, take the other end of the expander with your developed hand. Pull your arm forward, bending it at the shoulder. 2 sets of 15 reps.

Extension resistance

Stand facing the door. Fasten the end of the expander behind the door at shoulder level, take the other end of the expander with your developed hand. Pull your arm back, extending it at the shoulder joint. 2 sets of 15 reps.

External Rotation

Stand with your working arm away from the door. Fasten the end of the expander behind the door at waist level, take the other end of the expander with your developed hand. Bend it at the elbow at 90 degrees and lay it on your stomach. Keeping your elbow pressed in, rotate your forearm away from the door and out. Then slowly return your hand to its original position. It is important to keep the forearm parallel to the floor. 2 sets of 15 reps.

Download and print

Clavicle Fracture – Physiotherapist

Clavicle fractures are very common in adults (2-5%) and children (10-15%) and account for 44-66% of all shoulder girdle fractures. This is the most common fracture among pediatric patients. Most often, a clavicular fracture is caused by a fall on the lateral side of the shoulder. X-rays confirm the diagnosis and help in further examination and treatment. While most clavicle fractures are treated conservatively, severely displaced or comminuted fractures may require surgical fixation [1].

Contents

Clinically relevant anatomy

The clavicle lies under the skin between the sternum and shoulder blade and connects the upper limb to the body. [1]

The clavicle, the first of the bones in the human body, begins to ossify in the connective tissue membrane directly from the mesenchyme as early as the fifth week of fetal life. Like all tubular bones, the clavicle has both a medial and a lateral epiphysis, but lacks a distinct medullary cavity. The epiphyseal plates of the medial and lateral epiphyses of the clavicle do not fuse until the age of 25. The clavicle differs from tubular bones in its characteristic S-shaped double curvature, convex in the medial direction and concave in the lateral direction. This shape allows the clavicle to serve as a support for the upper limb, as well as to protect the axillary vessels and the brachial plexus and ensure their passage from the medial side. [2]

Etiology

Young patients suffer fractures due to moderate or high energy injuries such as car accidents or sports injuries, while older people suffer from low energy falls.

Traditionally, the cause of the fracture was considered to be a fall onto an outstretched arm, but it has been found that most often the clavicle is injured as a result of applying a direct compressive force directly to the shoulder. [2] Approximately 87% of clavicle fractures result from a fall directly on the lateral side of the shoulder. [1

Trauma mechanism.

1. Fall on a straight arm.
2. Shoulder drop.
3. Direct blow to the shoulder.

Epidemiology

Clavicle fractures account for 2% to 10% of all fractures. Clavicle fractures [1]

• Found in 1 in 1000 people per year
• Are the most common fractures among pediatric patients
• Approximately two thirds of all clavicle fractures occur in men.
• There is a bimodal distribution of clavicle fractures, with 2 peaks occurring in men under 25 years of age (sports injuries) and patients over 55 years of age (falls).
• The middle third of the clavicle breaks in 69% of cases, the distal third in 28%, and the proximal third in 3%. [1]
• They account for up to 10% of all sports-related fractures and have the third longest return to sport, with up to 20% of athletes with such injuries not returning to sport. [3]

The clavicle is the only bony link between the upper limb and the trunk Due to its superficial subcutaneous location and the numerous ligamentous and muscular forces applied to the clavicle, this bone breaks easily. The middle third of the clavicle is the thinnest area that does not have ligamentous attachments, so its fractures are most likely. [1]

Classification

Clavicle fractures are usually described according to the Allman classification system, which divides fractures into 3 groups based on location. The system was later revised by Nier (Group II was further classified into 3 types). [1

1. Group I: Fractures in the middle third of the diaphysis (most common),
2. Group II: Fractures of the distal or lateral third. Frequent site of nonunion.
3. Group III: Fractures of the proximal or medial third.

The Robinson classification was more specific for different types of fractures in the middle third, while the Craig classification was for fractures of the lateral third. [4]

Clinical History and Physical Examination

The patient has the following symptoms and signs:

• The patient can hold the injured limb with a healthy hand.
• Patient may report clicking or popping sound when injured.
• The shoulder may appear to be shortened relative to the opposite side and dropped.
• There may be swelling, ecchymosis, and tenderness over the clavicle.
• Abrasion over the clavicle may be noted, indicating that the fracture occurred by a direct mechanism.
• With careful manipulation, the sound of crepitus from rubbing the ends of the fracture against each other can be noted.
• Difficulty or decreased breathing on the affected side may indicate lung injury, such as pneumothorax.
• Palpation of the scapula and ribs may reveal associated lesions.
• Stretching and pallor of the skin at the site of a fracture may indicate an open fracture, which most often requires surgical stabilization.
• Non-use of the hand of the affected side is a neonatal manifestation.
• Associated distal nerve dysfunction indicates damage to the brachial plexus.
• Decreased heart rate may indicate damage to the subclavian artery.
• Venous congestion, discoloration and swelling indicate subclavian vein damage. [5]

Differential diagnosis

Diagnosis is based on the patient’s history and physical examination. [6]

The differential diagnosis of a clavicle fracture includes acromioclavicular joint injury, rib fractures, scapular fracture, shoulder dislocation, rotator clavicle injury, and sternoclavicular joint injury.

Potential complications of clavicle fractures, including pneumothorax, brachial plexus injury, and subclavian vessel injury, should also be fully assessed. [1]

Depending on the severity of the clavicle fracture, laboratory tests are ordered. If vascular damage is suspected, a general clinical blood test (CBC) should be performed to check hemoglobin and hematocrit values. If lung injury is suspected or detected, an arterial blood gas test and an exhaled posterior-anterior chest x-ray should be performed. Imaging studies are also performed to evaluate a clavicle fracture, such as:

• Clavicle and shoulder X-ray
• Computed tomography (CT) with 3-dimensional (3-D) reconstruction
• Arteriography
• Ultrasound scanning [5]

Medical treatment

Clavicle fracture is treated surgically or conservatively depending on the location (middle, distal, proximal), nature (displaced, non-displaced, comminuted) of the fracture, presence of open or closed injury, age and neurovascular disorders. [3]

Traditionally, clavicle fractures have been treated conservatively with immobilization with a bandage and subsequent rehabilitation. For non-displaced fractures, such treatment gives satisfactory results, but for fractures of the middle part of the clavicle with displacement, it leads to an increase in the likelihood of re-injury, time to return to sports and the development of suboptimal shoulder function secondary to malunion and shortening of the clavicle with subsequent scapular thoracic dyskinesia. It has also been shown that conservative treatment of lateral displaced fractures in an athlete results in high rates of nonunion and subsequent impairment of shoulder function.

Thus, surgery is performed for lateral fractures with displacement in athletes, and is also recommended for fractures of the middle third of the diaphysis with complete displacement, shortening > 2 cm, or the presence of splinters. [3]

Surgical treatment

The main goal of this treatment is to achieve fusion of the clavicle in a normal anatomical position.

Indications for surgical treatment of clavicle fractures: [7]

1. Severe displacement caused by crushing followed by angular bending and severe stretching of the skin, threatening its integrity, and in the absence of a response to closed reduction.
2. Symptomatic nonunion such as shoulder girdle dysfunction, neurovascular disorders.
3. Neurovascular injury or impairment that progresses or does not recover after closed fracture reduction.
4. Open fracture.
5. Type II distal clavicle fracture (displaced).
6. Multiple injuries where mobilization is desired and closed methods of immobilization are not practical or possible.
7. “Floating shoulder”
8. Inability to tolerate closed immobilization, eg neurological problems of parkinsonism, convulsive disorders.
9. Aesthetic reasons
10. Relative readings include shortening greater than 15-20 mm and displacement greater than the width of the clavicle.

Surgical procedures include:[8]

• Internal fixation with plates and screws. (most common)
• Intramedullary (MI) fixation.

For displaced fractures of the middle shaft, removal of metal structures is recommended if intramedullary nails are used, but not fixation plates. While in case of a lateral fracture of the clavicle with a displacement, the removal of metal structures was carried out with fixation with a hook-shaped plate, rods, cerclage and tie wire, but not with fixation with plates that did not capture the ACJ, and with a suture. These methods of fixation are necessary for a lateral fracture of the clavicle, as they capture the acromioclavicular joint and various ligaments that can be damaged during a fracture. [3]

Physical Therapy / Rehabilitation

The main goal of rehabilitation is to improve and restore the function of the shoulder for everyday, professional and sports activities. The rehabilitation protocol may differ slightly in the first few weeks depending on the main approach to treatment, i. e. conservative or surgical.

Rehabilitation after conservative treatment

In case of non-operative treatment, the healing of fractures may take longer. With conservative treatment, midshaft clavicle fractures usually heal between 18 and 28 weeks after injury. Therefore, it is necessary to regularly check whether the fracture site heals correctly or not. Thus, the rehabilitation protocol may also vary depending on individual comorbidities.

In the first few weeks (2-4 weeks) of an acute clavicle fracture, the POLICE principle can be used, which is explained below in the context of a clavicle fracture.

Protection

The patient’s shoulder is immobilized in a bandage or 8-band until clinical union is achieved. It is believed that the 8-bandage prevents or reduces the secondary shortening of the fracture during its healing. But it is associated with great discomfort and pain, including nerve compression with temporary paralysis of the brachial plexus and obstruction of venous blood return. [9]]Studies have shown that in the treatment of clavicle fractures, there is no difference between the two methods in terms of healing time and percentage of nonunions. Thus, a brace is commonly used, and immobilization in internal rotation for 2-4 weeks is recommended.[9] [1] The bandage is worn during the day, except for exercise and personal hygiene. The patient independently decides to leave it at night or not, but care should be taken. [9]

During severe coughs and sneezes, patients should also be careful (since respiratory excursions can cause movement of the collarbone) to avoid them as much as possible, and to learn active-passive coughing techniques.

Optimal loading

Therapy/Consultation within 1-2 weeks after injury:

• Using a shoulder brace as mentioned above (must be worn most of the time).
• Self-mobilization is required to avoid stiffness of the elbow and wrist joints several times a day.
• Raising the elbow above shoulder height may be painful.
• During the first 1-2 weeks, the development of the range of motion of the shoulder is limited to pendulum exercises.
• Teaching correct neck position and range of motion.

Therapy/Counseling 3 to 6 weeks after injury:

• Decreased bandage wear time (use in independent position).
• Return to light daily activities using the arm and shoulder.
• During the first 6 weeks, active-passive movements in the shoulder joint are recommended with an amplitude of active movements in one plane with a deviation of no more than 90 degrees.
• Scapular mobilization exercises are provided.
• Isometric Shoulder Exercise with Tolerable Resistance Beginning at 4-6 weeks
• Heavy exercise should be avoided for a full 6 weeks.
• A gradual increase in the intensity of cardiovascular endurance training can begin with a brisk walk and a stationary bike.

Therapy/Counseling between 6 and 12 weeks after injury:

• As a rule, after 6 weeks with tolerable passive BP, active and active-passive range of motion of the shoulder in all planes is allowed.
• Progressive resistance exercises (isotonic) for the stabilizing muscles of the scapula, biceps, triceps, and rotators are given after 6 weeks.
• Arm stress should be avoided until clinical healing of the fracture.
• Sports and activities that require arm loading and use are usually suspended until pain subsides and radiological signs of progressive fracture consolidation are obtained, usually after 6 to 12 weeks.

Therapy/Counseling after 12 weeks or more:

Start a more intense strengthening program, cardiovascular endurance training as tolerated, and progressive athletic training.

• The period of return to specific sports is determined by the physiotherapist using functional tests based on the needs of the patient, according to which a specific progressive sports training is planned. [12]
• Preliminary activities such as muscular endurance exercises (upper body ergometer) and cardiovascular endurance exercises (treadmill, cycling) may be prescribed.
• Contact sports should be avoided for 3-4 months. Return to full contact sports requires that the athlete demonstrate radiographic evidence of bone healing, no tenderness to palpation, full range of motion, and normal shoulder muscle strength [9][1].

Rehabilitation after surgery

• For fractures of the middle third of the clavicle, the initial open reduction with internal fixation with a plate (fixation compression plate) and screws provides more stable fixation and immediate postoperative mobilization. [7] With surgical treatment, fractures heal faster than with conservative treatment. Thus, the duration of immobilization is shorter compared to conservative treatment, and mobilization and strengthening exercises can be prescribed earlier. A program similar to conservative treatment to increase the intensity of exercise can be prescribed, but much earlier.

Return to sports

According to a systematic review by Robertson and Wood in 2016, the majority of patients with acute clavicle fractures return to sports, with about four-fifths of all patients able to return to their pre-injury level of sports activity. [3]

Studies have shown that the period to return to sport is from 6 to 12 weeks with surgery and 3-4 months with conservative treatment. [3] [1]

Conservative treatment of displaced midshaft fractures has been shown to reduce the percentage and increase the time to return to sport compared with surgery. Conservative treatment of displaced midshaft fractures can lead to re-fracture (more than half of cases) and delayed surgery (more than a quarter of cases). In terms of surgical technique recommendations for midshaft fractures, both plate fixation and intramedullary screws demonstrated nearly 100% recovery and similar recovery times. [3]

For lateral displaced clavicle fracture, surgical management is standardized and shows an increase in percentage and a reduction in return time. Non-ACC plate fixation and suture fixation provide better outcomes for athletes than other methods of fixation, which is likely due to preservation of ACC function. A lateral fracture of the clavicle is more difficult than a fracture of the middle shaft, so the outcome of the latter is better. [3]

Conclusion

• Patients with collarbone fractures are best referred to an interprofessional team that includes an orthopedic surgeon, an emergency room physician, a general practitioner, a nurse practitioner, and a physical therapist.
• Immediate orthopedic consultation should be performed for patients with neurovascular disease, open fractures, skin stretch, or any skin tear near the fracture.
• For non-displaced fractures, non-surgical treatment is the first choice.
• While surgical treatment is generally accepted for lateral displaced fractures in athletes and is recommended for midshaft displaced fractures. Surgical treatment results in improved percentage and time of return compared to conservative treatment.