Femoral Fractures: Difference between revisions

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== Definition/ Description<br>  ==
== Definition/Description<br>  ==


A femoral fractures is a fracture in thigh bone. The femur is the largest and strongest bone in our body so it requires a large or high impact force to break this bone. Most femur fractures are the result of a high energy trauma, such as a motor accident, gunshot wounds and jumps and falls from a height. A femoral fracture is a very serious injury and needs 3-6 months to heal. <br>Femur fractures can be classified in 3 types: Femoral head fracture, femoral shaft fracture and femoral condyles fracture. <br>  
A femoral fractures is a fracture of the thigh bone. The femur is the largest and strongest bone in the body, so it requires a large or high impact force to break this bone. Most femur fractures are the result of a high energy trauma, such as a motor accident, gunshot wound, or jump/fall from a height. A femoral fracture is a very serious injury and needs 3-6 months to heal. <br>Femur fractures can be classified in three types:<br>
 
*Femoral head fracture  
*Femoral shaft fracture  
*Femoral condyle fracture <br>
 
[[Image:Types of fractures.jpg|500px]]


== Clinically relevant anatomy  ==
== Clinically relevant anatomy  ==


Osteology: <br>The femur consists of a head, greater and lesser trochantor, Shaft, Lateral and medial condyles with in between the patellar surface. <br>  
=== Osteology<br> ===
 
The femur consists of a head, greater and lesser trochantor, shaft, and lateral and medial condyles with the patellar surface in between. <br>  
 
=== Musculature<br>  ===


Musculature:  
The femur is surrounded by different muscles: the quadriceps, the adductors, abductors and the hamstrings.


The femur is surrounded by different muscles: the quadriceps, the adductors, abductors and the hamstrings. 1. Quadriceps: M rectus femoris, M vastus lateralis, M vastus medialis, M vastus intermedius 2. Adductors: M adductor longus, M adductor brevis, M adductor longus, M pectineus, M gracilis 3. Abductors: M tensor fasciae latae 4. Hamstrings: M biceps femoris, M semimembranosus, M semitendinosus  
#Quadriceps: M rectus femoris, M vastus lateralis, M vastus medialis, M vastus intermedius  
#Adductors: M adductor longus, M adductor brevis, M adductor longus, M pectineus, M gracilis  
#Abductors: M tensor fasciae latae  
#Hamstrings: M biceps femoris, M semimembranosus, M semitendinosus


After a femoral fracture, the most of this muscles are much weaker than before so a physiotherapy is very important.  
Following a femoral fracture, most of these muscles are much weaker than before, so physiotherapy is very important for muscle strengthening.  


Several large muscles attach to the femur. Proximally, the gluteus medius and minimus attach to the greater trochanter, resulting in abduction of the femur with fracture. The iliopsoas attaches to the lesser trochanter, resulting in internal rotation and external rotation with fractures. The linea aspera (rough line on the posterior shaft of the femur) reinforces the strength and is an attachment for the gluteus maximus, adductor magnus, adductor brevis, vastus lateralis, vastus medialis, vastus intermedius, and short head of the biceps. Distally, the large adductor muscle mass attaches medially, resulting in an apex lateral deformity with fractures. The medial and lateral heads of the gastrocnemius attach over the posterior femoral condyles, resulting in [[Flexion deformity]] in distal-third fractures<ref name="Aukerman">Aukerman DF. Femur injuries and fractures. http://emedicine.medscape.com/article/90779-overview (accessed 30 October 2008)</ref>.  
Several large muscles attach to the femur. Proximally, the gluteus medius and minimus attach to the greater trochanter, resulting in abduction of the femur with fracture. The iliopsoas attaches to the lesser trochanter, resulting in internal rotation and external rotation with fractures. The linea aspera (rough line on the posterior shaft of the femur) reinforces the strength and is an attachment for the gluteus maximus, adductor magnus, adductor brevis, vastus lateralis, vastus medialis, vastus intermedius, and short head of the biceps. Distally, the large adductor muscle mass attaches medially, resulting in an apex lateral deformity with fractures. The medial and lateral heads of the gastrocnemius attach over the posterior femoral condyles, resulting in [[Flexion deformity]] in distal-third fractures<ref name="Aukerman">Aukerman DF. Femur injuries and fractures. http://emedicine.medscape.com/article/90779-overview (accessed 30 October 2008)</ref>.  


== Epidemiology/ Etiology  ==
== Epidemiology/Etiology  ==


A femoral fracture is related to different reasons: first of all, the age: older persons (over the 70) have a bigger chance to break the femur. Another reason is [[Osteoporosis]]. Persons with osteoporosis has also a higher chance to break their femur<ref name="Keany">Keany JE. Femur Fracture. http://emedicine.medscape.com/article/824856-overview (accessed 22 April 2009).</ref>. Morbidity and mortality rates have been reduced in femoral shaft fractures, mainly as the result of changes in methods of fracture immobilization. Current therapies allow for early mobilization, thus reducing the risk of complications associated with prolonged bed rest. The incidence of femoral fractures is reported as 1-1.33 fractures per 10,000 population per year in the USA. In individuals younger than 25 years and those older than 65 years, the rate of femoral fractures is 3 fractures per 10,000 population annually<ref name="Aukerman" />.  
The incidence of femoral fractures is reported as 1-1.33 fractures per 10,000 population per year in the USA. In individuals younger than 25 years and those older than 65 years, the rate of femoral fractures is 3 fractures per 10,000 population annually<ref name="Aukerman" />.  


== Characteristics/ clinical presentation<br> ==
Several factors are related to increased risk of femoral fracture. Older persons (over 70) have a higher incidence of femoral fracture. Persons with [[Osteoporosis]] are also more likely to break their femur<ref name="Keany">Keany JE. Femur Fracture. http://emedicine.medscape.com/article/824856-overview (accessed 22 April 2009).</ref>.<br>  


A broken thigh bone is almost always very obvious. A few signs include severe pain, inability to move the leg or stand on it and swelling. There’s also an inability to bear weight and possibly a shortening of the affected leg is common when the fracture is displaced. It also may result in a loss of blood in the femur and a haematoma can be present in the surrounding soft tissue.  
Morbidity and mortality rates have been reduced in femoral shaft fractures, mainly as the result of changes in methods of fracture immobilization. Current therapies allow for early mobilization, thus reducing the risk of complications associated with prolonged bed rest.
 
== Characteristics/Clinical presentation<br>  ==
 
A broken thigh bone is almost always very obvious. Signs of a fracture include severe pain, inability to move the leg or stand on it, and swelling. There individual may also be unable to bear weight, and apparent shortening of the affected leg may occur when the fracture is displaced. There may also be a resultant loss of blood in the femur, and a haematoma may be present in the surrounding soft tissue.  


== Examination  ==
== Examination  ==


Ante posterior and lateral x-rays (used to look for a break in the bone) views of the femur are obtained to confirm the fracture. It’s better to use the x-rays views also for the hip, the lower leg and the knee to detect any associated injuries, because a femur fracture is almost associated with other traumatic injuries. For that reason a general physical examination can be practice.  
The [[Ottawa Knee Rules]] are a clinical tool that can be used to determine the need for radiography following knee injury based on the patient's presentation. Ante posterior and lateral x-rays (used to look for a break in the bone) views of the femur are typically obtained to confirm the fracture. X-ray views of the hip, the lower leg and the knee are also commonly reviewed to detect any associated injuries, because a femur fracture is almost associated with other traumatic injuries. For that reason a general physical examination should be included. Pain, swelling, deformity, abrasion, and protrusions should be noted.  


== Outcome Measures  ==
== Outcome Measures  ==


add links to outcome measures here (also see [[Outcome Measures|Outcome Measures Database]])  
[[Dynamic Gait Index]]<br> [[International Hip Outcome Tool (iHOT)]]<br> [[Lower Extremity Functional Scale (LEFS)]]<br> [[Timed Up and Go Test (TUG)]]<br>


== Examination ==
== Medical Management <br> ==
 
Surgical reduction and fixation is indicated for the following types of proximal femur fractures: <br>


add text here related to physical examination and assessment<br>  
*Intracapsular femoral neck fracture
*Dislocated femoral head
*Intertrochanteric fracture
*Subtrochanteric fracture<ref name="Kisner">Kisner C, Colby LA. Therapeutic exercises: foundations and techniques.  Philadelphia: F.A. Davis, 2012.</ref>


== Medical Management <br>  ==
Alternatively, patients who are not medically stable or nonambulatory may be treated with traction.


add text here <br>
Surgical reduction and fixation should be performed within 24-48 of the injury.


== Physical Therapy Management <br>  ==
== Physical Therapy Management <br>  ==


A femur fracture is a very serious injury. Surgery is sometimes but not always needed. The surgeon will align the fractured parts of the bone. The long immobilization is followed by an extensive physical therapy. After a femoral fracture, most of the muscles are much weaker than before so physiotherapy is very important. <br>The physiotherapist has to begin with range of motion exercises for the hip, knee and ankle because the mobility is decreased after the immobilization. Mobilization is a very important treatment in the recover process. The patient can also start with strengthening exercises.
Surgical fixation and immobilization are followed by an extensive physical therapy. After a femoral fracture, most of the muscles are much weaker than before so physiotherapy is very important. <br>  


Mobilization exercises&nbsp;: Knee: flexion and extension, abduction and adduction Hip: flexion and extension, abduction and adduction, rotation <br>Quadriceps exercises need to start as soon as possible after the surgery because the quadriceps help for a good stability in the knee. Flexion exercises also need to start as soon as possible, provided the means can be devised to support the fracture fully. Physiotherapy should be continued until an acceptable functional range has been achieved or until a static position has been reached. It is necessary to record the range of movements in the knee with accuracy: first this should be done at weekly and then at monthly intervals. <br>
The physiotherapist will begin with range of motion exercises for the hip, knee and ankle because mobility is decreased following immobilization. Mobilization is a very important treatment in the recovery process. The patient can also begin strengthening exercises based on the surgeon's orders (typically six weeks post-op).  


== Key Research ==
=== Mobility exercises ===


add links and reviews of high quality evidence here (case studies should be added on new pages using the [[Template:Case Study|case study template]])<br>  
Knee: flexion and extension, abduction and adduction<br> Hip: flexion and extension, abduction and adduction, rotation <br> Functional quadriceps exercises should be initiated as soon as possible after the surgery because the quadriceps help provide stability in the knee. Flexion exercises also need to start as soon as possible, provided the fracture is adequated supported (i.e. the selected fixation approach allows for weight bearing). Physiotherapy should be continued until an acceptable functional range has been achieved or until a static position has been reached. It is necessary to record the range of movements in the knee with accuracy; first this should be done at weekly and then at monthly intervals. <br>  


== Clinical Bottom Line  ==
== Clinical Bottom Line  ==
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== References  ==
== References  ==


<references /> <br>
<references /> <br>  


Greenberg MT. Greenberg’s text-atlas of emergency medicine. Philadelphia: Lippincott Williams &amp; Wilkins, 2005.&nbsp;  
Greenberg MT. Greenberg’s text-atlas of emergency medicine. Philadelphia: Lippincott Williams &amp; Wilkins, 2005.&nbsp;  
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Iwata K, Mashiba D. Surgical treatment of proximal femur fracture. Clin Calcium 2010; 20(9):1386-92. http://www.ncbi.nlm.nih.gov/pubmed/20808047)  
Iwata K, Mashiba D. Surgical treatment of proximal femur fracture. Clin Calcium 2010; 20(9):1386-92. http://www.ncbi.nlm.nih.gov/pubmed/20808047)  


Partanen J. Etiopathology and treatment-related aspects of hip fracture [dissertation]. Oulu: University of Oulu. 2003. http://herkules.oulu.fi/isbn9514270959/html/c228.html <br>
Partanen J. Etiopathology and treatment-related aspects of hip fracture [dissertation]. Oulu: University of Oulu. 2003. http://herkules.oulu.fi/isbn9514270959/html/c228.html <br>  


[[Category:Fracture]][[Category:Musculoskeletal/Orthopaedics|Orthopaedics]][[Category:Condition]]
[[Category:Fracture]] [[Category:Musculoskeletal/Orthopaedics|Orthopaedics]] [[Category:Condition]]

Revision as of 23:37, 10 November 2013

Original Editors - Willem Vanderpooten

Top Contributors - Kim Jackson, Vanderpooten Willem, Lucinda hampton, Admin, Nupur Smit Shah, Vidya Acharya, Jentel Van De Gucht, Rachael Lowe, Alex Palmer, Daphne Jackson, Margaux Jacobs, Aminat Abolade, Jason Coldwell, Lauren Lopez, 127.0.0.1, Evan Thomas and WikiSysop   </div>

Definition/Description
[edit | edit source]

A femoral fractures is a fracture of the thigh bone. The femur is the largest and strongest bone in the body, so it requires a large or high impact force to break this bone. Most femur fractures are the result of a high energy trauma, such as a motor accident, gunshot wound, or jump/fall from a height. A femoral fracture is a very serious injury and needs 3-6 months to heal.
Femur fractures can be classified in three types:

  • Femoral head fracture
  • Femoral shaft fracture
  • Femoral condyle fracture

Types of fractures.jpg

Clinically relevant anatomy[edit | edit source]

Osteology
[edit | edit source]

The femur consists of a head, greater and lesser trochantor, shaft, and lateral and medial condyles with the patellar surface in between.

Musculature
[edit | edit source]

The femur is surrounded by different muscles: the quadriceps, the adductors, abductors and the hamstrings.

  1. Quadriceps: M rectus femoris, M vastus lateralis, M vastus medialis, M vastus intermedius
  2. Adductors: M adductor longus, M adductor brevis, M adductor longus, M pectineus, M gracilis
  3. Abductors: M tensor fasciae latae
  4. Hamstrings: M biceps femoris, M semimembranosus, M semitendinosus

Following a femoral fracture, most of these muscles are much weaker than before, so physiotherapy is very important for muscle strengthening.

Several large muscles attach to the femur. Proximally, the gluteus medius and minimus attach to the greater trochanter, resulting in abduction of the femur with fracture. The iliopsoas attaches to the lesser trochanter, resulting in internal rotation and external rotation with fractures. The linea aspera (rough line on the posterior shaft of the femur) reinforces the strength and is an attachment for the gluteus maximus, adductor magnus, adductor brevis, vastus lateralis, vastus medialis, vastus intermedius, and short head of the biceps. Distally, the large adductor muscle mass attaches medially, resulting in an apex lateral deformity with fractures. The medial and lateral heads of the gastrocnemius attach over the posterior femoral condyles, resulting in Flexion deformity in distal-third fractures[1].

Epidemiology/Etiology[edit | edit source]

The incidence of femoral fractures is reported as 1-1.33 fractures per 10,000 population per year in the USA. In individuals younger than 25 years and those older than 65 years, the rate of femoral fractures is 3 fractures per 10,000 population annually[1].

Several factors are related to increased risk of femoral fracture. Older persons (over 70) have a higher incidence of femoral fracture. Persons with Osteoporosis are also more likely to break their femur[2].

Morbidity and mortality rates have been reduced in femoral shaft fractures, mainly as the result of changes in methods of fracture immobilization. Current therapies allow for early mobilization, thus reducing the risk of complications associated with prolonged bed rest.

Characteristics/Clinical presentation
[edit | edit source]

A broken thigh bone is almost always very obvious. Signs of a fracture include severe pain, inability to move the leg or stand on it, and swelling. There individual may also be unable to bear weight, and apparent shortening of the affected leg may occur when the fracture is displaced. There may also be a resultant loss of blood in the femur, and a haematoma may be present in the surrounding soft tissue.

Examination[edit | edit source]

The Ottawa Knee Rules are a clinical tool that can be used to determine the need for radiography following knee injury based on the patient's presentation. Ante posterior and lateral x-rays (used to look for a break in the bone) views of the femur are typically obtained to confirm the fracture. X-ray views of the hip, the lower leg and the knee are also commonly reviewed to detect any associated injuries, because a femur fracture is almost associated with other traumatic injuries. For that reason a general physical examination should be included. Pain, swelling, deformity, abrasion, and protrusions should be noted.

Outcome Measures[edit | edit source]

Dynamic Gait Index
International Hip Outcome Tool (iHOT)
Lower Extremity Functional Scale (LEFS)
Timed Up and Go Test (TUG)

Medical Management
[edit | edit source]

Surgical reduction and fixation is indicated for the following types of proximal femur fractures:

  • Intracapsular femoral neck fracture
  • Dislocated femoral head
  • Intertrochanteric fracture
  • Subtrochanteric fracture[3]

Alternatively, patients who are not medically stable or nonambulatory may be treated with traction.

Surgical reduction and fixation should be performed within 24-48 of the injury.

Physical Therapy Management
[edit | edit source]

Surgical fixation and immobilization are followed by an extensive physical therapy. After a femoral fracture, most of the muscles are much weaker than before so physiotherapy is very important.

The physiotherapist will begin with range of motion exercises for the hip, knee and ankle because mobility is decreased following immobilization. Mobilization is a very important treatment in the recovery process. The patient can also begin strengthening exercises based on the surgeon's orders (typically six weeks post-op).

Mobility exercises[edit | edit source]

Knee: flexion and extension, abduction and adduction
Hip: flexion and extension, abduction and adduction, rotation
Functional quadriceps exercises should be initiated as soon as possible after the surgery because the quadriceps help provide stability in the knee. Flexion exercises also need to start as soon as possible, provided the fracture is adequated supported (i.e. the selected fixation approach allows for weight bearing). Physiotherapy should be continued until an acceptable functional range has been achieved or until a static position has been reached. It is necessary to record the range of movements in the knee with accuracy; first this should be done at weekly and then at monthly intervals.

Clinical Bottom Line[edit | edit source]

add text here

Recent Related Research (from Pubmed)[edit | edit source]

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References[edit | edit source]

  1. 1.0 1.1 Aukerman DF. Femur injuries and fractures. http://emedicine.medscape.com/article/90779-overview (accessed 30 October 2008)
  2. Keany JE. Femur Fracture. http://emedicine.medscape.com/article/824856-overview (accessed 22 April 2009).
  3. Kisner C, Colby LA. Therapeutic exercises: foundations and techniques. Philadelphia: F.A. Davis, 2012.


Greenberg MT. Greenberg’s text-atlas of emergency medicine. Philadelphia: Lippincott Williams & Wilkins, 2005. 

Cartwright LA, Pitney WA. Fundamentals of athletic training, 2nd ed, Champaign, IL: Human Kinetics, 2005. 

Walker B, Anatomy of sports injuries, Chichester: Lotus Publishing and North Atlantic Books, 2007.

Mcrae R, Esser M, Practical fracture treatment, 5th ed, Elsevier Churchill Livingstone, 2008.

Iwata K, Mashiba D. Surgical treatment of proximal femur fracture. Clin Calcium 2010; 20(9):1386-92. http://www.ncbi.nlm.nih.gov/pubmed/20808047)

Partanen J. Etiopathology and treatment-related aspects of hip fracture [dissertation]. Oulu: University of Oulu. 2003. http://herkules.oulu.fi/isbn9514270959/html/c228.html

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