Biceps Femoris
The biceps femoris is the two-headed, lateral hamstring muscle within the posterior compartment of the thigh. It is the prime mover of knee flexion and also contributes to hip extension.
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Course Summary: Biceps Femoris
What is the Biceps Femoris Muscle?
Muscles of the Hamstrings:
- Lateral: Biceps Femoris (short head and long head)
- Medial: Semitendinosus and semimembranosus
Introduction to Hamstring (and Adductor) Muscle Anatomy:
Biceps Femoris Techniques and Exercises:
- Self-administered Release: Biceps Femoris Foam Rolling
- Dynamic Release: Biceps Femoris Self-administered Pin and Stretch
- Manual Release: Static Manual Release of the Biceps Femoris
- Vibration Release: Hamstring Vibration Release
- Active Stretch: Biceps Femoris Active Stretch
- Dynamic Stretch: Biceps Femoris Dynamic Stretch
- Subsystem Integration: Single-leg Touchdown to Scaption
Biceps Femoris Symptoms:
- Feelings of biceps femoris muscle pain, tightness, and weakness are not uncommon. Generally, these feelings are the result of hip, sacroiliac joint, or lower extremity issues that should be addressed with an integrated program. For example, often, the feeling of "biceps femoris tightness" is correlated with sacroiliac joint dysfunction , and is best addressed with sacroiliac joint mobilization and gluteus maximus strengthening techniques (e.g., glute bridge progressions ) (Sample Program Below).
Structure:
This course describes the anatomy and integrated function of the biceps femoris muscle group (a.k.a. the hamstrings, lateral hamstrings, leg biceps, posterior thigh muscles, etc.). This muscle includes two heads, the long head crosses the hip and knee, and the short head crosses only the knee. Both heads are located within the posterior fascial compartment of the thigh, between the lateral and medial intermuscular septa, abutting the lateral intermuscular septum. Research suggests the biceps femoris only accounts for about 3.9% of the total muscle mass of the thigh and is composed primarily of type I muscle fibers.
Function
Both heads perform similar functions at the knee joint, but only the long head crosses the hip joint. Both heads of the biceps femoris are considered the prime mover during knee flexion and tibial external rotation, and the long head of the biceps femoris is a synergist during hip extension and hip external rotation. This course also describes the role of the biceps femoris on knee joint, hip joint, and sacroiliac joint (SIJ) arthrokinematics, fascial integration (sacrotuberous ligament), subsystem integration, and postural dysfunction. For example, the long head of the biceps femoris is part of the deep longitudinal subsystem (DLS) , which may increase tension in the sacrotuberous ligament, increasing the stiffness of the SIJ (restricting nutation). If the biceps femoris and DLS are over-active, this could excessively increase SIJ stiffness, contributing to an asymmetrical weight shift during an overhead squat assessment , and postural dysfunction (e.g. movement impairment) of the lumbopelvic hip complex and/or lower extremity .
Practical Application:
Sports medicine professionals (personal trainers, fitness instructors, physical therapists, massage therapists, chiropractors, occupational therapists, athletic trainers, etc.) must be aware of the integrated function of the biceps femoris for the detailed analysis of human movement, and the development of sophisticated exercise programs and therapeutic (rehabilitation) interventions. For example, altered activity and length of the biceps femoris may contribute to hip pain, hamstring injury, hamstring muscle strain, hip joint impingement, low back pain, knee valgus, knee varus, and knee pain. Altered biceps femoris activity may also result in a relative reduction in gluteus maximus and gluteus medius activity, resulting in a significant decrease in lower body speed, agility, and strength, and a reduction in the effectiveness of resistance training routines intended to improve lower body strength and hypertrophy (bodybuilding). Deeper knowledge of biceps femoris anatomy is essential for optimal assessment, intervention selection, and building a repertoire of biceps femoris-specific techniques.
This Course Includes:
This course also provides detailed descriptions of etymology, attachments, innervations, joint actions, location, palpation, integrated actions, arthrokinematics, fascial integration, subsystem integration, postural dysfunction, assessment, clinical implications, and interventions.
- AI Tutor
- Webinar
- Study Guide
- Text and Illustrations
- Audio Voice-over
- Research Review
- Technique Videos
- Case Study and Sample Routine
- Practice Exam
- Pre-approved Final Exam
Pre-approved credits for:
Human Movement Specialist (HMS) Certification
Pre-approved for Continuing Education Credits for:
- Athletic Trainers
- Chiropractors
- Group Exercise Instructors
- Occupational Therapists - Intermediate
- Personal Trainers
- Physical Therapists
- Physical Therapy Assistants
- Yoga Instructors
Case Study: Sacroiliac Joint Dysfunction
Assessment
Client/Patient History: Low Back and Sacroiliac Joint Pain
- Overhead Squat Assessment:
- Asymmetrical Weight Shift Left (no improvement with Heel Rise Modification)
- Goniometry:
- Hip Internal Rotation in Supine : Right = 25°, Left = 40°
- Hip External Rotation in Supine : Right = 30°, Left = 50°
- Manual Muscle Testing:
- Gluteus Medius : With compensation
- Gluteus Maximus : With compensation (lumbar extension)
Sample Self-administered Intervention
- Release
- Mobilization or Manipulation
- Lengthening
- Activation
- Integration
Sample Manual Therapy Intervention
- Manual Release
- Mobilization or Manipulation
- Right SIJ Mobilization
- Manual Lengthening
- Activation
- Integration
Course Study Guide: Biceps Femoris
Course Summary Webinar: Functional Anatomy of the Biceps Femoris
Etymology of Terms Related to Biceps Femoris
Attachments, Innervations, Size, and Fiber Type of the Biceps Femoris
Where Is The Biceps Femoris Located
Palpating the Biceps Femoris
Joint Actions of the Biceps Femoris2 Sub Sections
Fascial Integration and the Biceps Femoris1 Sub Section
Electromyographic (EMG) Research: Contribution of the Biceps Femoris to Exercise and Motion
Electromyographic (EMG) Research: Change in Biceps Femoris Activity with Dysfunction and Pain
Movement Impairment and the Biceps Femoris1 Sub Section
Exercises and Techniques for the Biceps Femoris6 Sub Sections
Additional Materials: Stop Stretching Your Hamstrings!
Sample Intervention
Bibliography
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