Australia Chiropractic Continuing Education

Australia Accepts ChiroCredit.com Online Courses

 

Australia Continuing Education Requirements: 20 hours per year
Australia Accepts 20 hours of Online Continuing Education Courses

 

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider.  

When logged in, as long as your licenses are entered on your account, each course is clearly identified as being approved or not approved.


Australia Chiropractic Practitioners will annually:

  1. Complete at least 20 hours of CPD each year that:
    a) seeks to improve patient health outcomes, safety and experiences
    b) draws on the best available evidence, including well-established and accepted knowledge that is supported by research where possible, to inform good practice and decision-making
    c) contributes directly to maintaining and improving your competence (performance and behaviour) and keeping you up to date in your chosen scope and setting of practice, and
    d) builds on your existing knowledge  
  2. Maintain a first aid qualification at least equivalent to HLTAID001 Provide Cardiopulmonary Resuscitation (CPR), and  
  3. Maintain a portfolio that documents your learning goals and records all your planned CPD activities and your reflection on how these CPD activities are expected to improve or have improved your practice.
 

Australia Continuing Education Requirements

Australia Continuing Education requirements posted on this page are based upon the most up to date information available. Australia continuing education requirements are subject to change and therefore, Australia Chiropractic licensee's are ultimately responsible for being up to date with the Australia continuing education requirements.


Continuing education courses offered on ChiroCredit.com provide Online CEU for Australia Chiropractic Physicians (DC). The online courses enhance the knowledge bases of Doctor of Chiropractic to enhance their clinical therapy practice. Free 1 hour approved online home study CE credit course for new Australia Chiropractic Physician registered users at www.ChiroCredit.com


 
Found 860 courses
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Soft Tissue Injuries 101 : Soft Tissue Injury: The Neglected Cause of Musculoskeletal Disorders
2.0

Linda Simon, DC

$40.00 USD

Text

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  • Explain the anatomy and functionality of healthy soft tissue components
  • Explain the effects of injury on soft tissue
  • Define effects of injured soft tissue on functionality of the spine and extremities
  • Discuss patterns of musculoskeletal relationships of recruiting other structures after injury and their effects on functionality
  • Describe various methods of treatment for dysfunctional soft tissue
  • Explain relationship of injured tissue to its surrounding structures, its effects and treatment
  • Explain compensation and recruitment of healthy tissue to the broader scope of complications and the effective treatment of primary and now secondary effects of injury
  • Describe rehabilitation exercises in relation to proprioception

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 101 - 104
10.0

Linda Simon, DC

$200.00 USD

Text

More Course Information ▶
  • This contains all courses with the educational objectives listed from Soft Tissue Injuries 101 to Soft Tissue Injuries 104 

Course Group includes all Soft Tissue Injuries Courses numbered 101 thru 104
ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 103 : Comprehensive Introduction to Soft tissue Injury and Treatment
4.0

Linda Simon, DC

$80.00 USD

Text

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  • Explain the types of soft tissue
  • Demonstrate and discuss diagnostic evaluation of soft tissue injury
  • Explain pain patterns of neurological injury for differential diagnosis
  • Discuss types of soft tissue injuries
  • Evaluate soft tissue changes associated with pain
  • Discuss the mechanisms of healing soft tissue injuries
  • Describe diagnostic tools in determining soft tissue injuries
  • Explain the use of ice and heat in soft tissue injuries
  • Demonstrate and discuss stretching; passive, active and postfacilitation
  • Demonstrate and discuss somatic technique
  • Demonstrate and discuss strain/counterstrain
  • Demonstrate and discuss friction massage
  • Demonstrate and discuss Postisometric relaxation
  • Demonstrate and discuss electrical muscle stimulation and ultrasound
  • Demonstrate and discuss triggerpoint ultrasound in treatment
  • Discuss massage therapy
  • Demonstrate and discuss myofascial release
  • Demonstrate and discuss active release
  • Demonstrate and discuss Neuromuscular Therapy (NMT)
  • Discuss cold laser therapy
  • Demonstrate and discuss exercise rehabilitation and muscle strengthening
  • Discuss mobilization and manipulation

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 104 : The Shoulder: Biomechanics, Pathology and Soft Tissue Treatment
4.0

Linda Simon, DC

$80.00 USD

Downloadable Course in PDF, Text

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  • Explain the structural anatomy of the shoulder and its soft tissue
  • Explain the functional anatomy of the shoulder and its soft tissue.
  • Demonstrate the active and passive examination of the shoulder and soft tissue.
  • Describe pathological conditions of the bony structures, joints, ligaments, tendons, bursa and muscles of the shoulder
  • Describe sports injures to the shoulder.
  • Describe injuries to the nerves, blood vessels and fascia of the shoulder.
  • Demonstrate soft tissue treatments for pathological conditions of the bony structures, joints, ligaments, tendons, bursa and muscles of the shoulder.
  • Demonstrate soft tissue treatments for the nerves, blood vessels and fascia of the shoulder.
  • Define functional relationships of the shoulder with associated regions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 105 : Elbow, Wrist and Hand: Biomechanics, Pathology and Soft Tissue Treatment
4.0

Linda Simon, DC

$80.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Explain the structural anatomy of the elbow, wrist, and hand and associated soft tissue
  • Explain the functional anatomy of the elbow, wrist, and hand and associated soft tissue
  • Demonstrate the passive examination of the elbow, wrist, and hand and associated soft tissue
  • Demonstrate the active examination of the elbow, wrist, and hand and associated soft tissue
  • Describe pathological conditions of the bony structures, joints, ligaments, tendons, muscles, fascia, bursa and nerves of the elbow, wrist, and hand
  • Demonstrate soft tissue treatments for pathological conditions of the bony structures of the elbow, wrist and hand
  • Demonstrate soft tissue treatments for the joints, ligaments, tendons, muscles, fascia, bursa and nerves of the elbow, wrist and hand
  • Define functional relationships between the elbow, wrist and hand and with other regions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 105 - 107
12.0

Linda Simon, DC

$216.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • This contains all courses with the educational objectives listed from Soft Tissue Injuries 105 to Soft Tissue Injuries 107 

Course Group includes all Soft Tissue Injuries Courses numbered 105 thru 107
ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 106 : The Cervical Spine: Biomechanics, Pathology and Soft Tissue Treatment
6.0

Linda Simon, DC

$120.00 USD

Text

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  • Explain the structural anatomy of the bones and joints of the cervical spine, ligaments and muscles of the cervical spine and the nerves, blood vessels and fascia of the cervical spine
  • Explain the functional anatomy of the bones and joints of the cervical spine, the ligaments and muscles of the cervical spine and the nerves, blood vessels and fascia of the cervical spine
  • Demonstrate the passive examination of the bones and joints of the cervical spine, the ligaments and muscles of the cervical spine and the nerves, blood vessels and fascia of the cervical spine
  • Demonstrate the active examination of the bones and joints of the cervical spine, the ligaments and muscles of the cervical spine and the nerves, blood vessels and fascia of the cervical spine
  • Discuss imaging of the cervical spine
  • Discuss advanced testing of the soft tissue of the cervical spine
  • Describe pathological conditions of the bony structures, joints, ligaments, tendons, muscles, nerves, blood vessels and fascia of the cervical spine
  • Explain the mechanism of acceleration/deceleration impact
  • Explain the effects on the cervical spine from acceleration/deceleration injury, and specifically the effects on the soft tissues structures
  • Explain the grading system for acceleration/deceleration injury
  • Demonstrate soft tissue treatments for the pathological conditions of the bony structures, joints, ligaments, tendons, muscles, blood vessels, nerves and fascia of the cervical spine
  • Demonstrate soft tissue treatments for the sequela of acceleration/deceleration injury
  • Define relationships of the cervical spine with other regions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 107 : The TMJ: Biomechanics, Pathology and Soft Tissue Treatment
2.0

Linda Simon, DC

$40.00 USD

Downloadable Course in PDF, Text

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  • Explain the structural anatomy of the TMJ and its soft tissue
  • Explain the functional anatomy of the TMJ and its soft tissue
  • Demonstrate the passive examination of the TMJ and soft tissue
  • Demonstrate the active examination of the TMJ and soft tissue
  • Describe pathological conditions of the bony structures of the TMJ
  • Describe pathological conditions of the joints of the TMJ
  • Describe pathological conditions of the ligaments of the TMJ
  • Describe pathological conditions of the muscles of the TMJ
  • Describe injuries to the nerves, blood vessels and fascia of the TMJ
  • Describe injuries from acceleration/deceleration impact to the TMJ
  • Demonstrate soft tissue treatments for the joints of the TMJ
  • Demonstrate soft tissue treatments for the ligaments of the TMJ
  • Demonstrate soft tissue treatments for the muscles of the TMJ
  • Demonstrate soft tissue treatments for the nerves, blood vessels and fascia of the TMJ
  • Demonstrate soft tissue treatments for acceleration/deceleration injury to the TMJ
  • Define functional relationships of the TMJ with associated regions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 108 : Thoracic Spine and Rib Cage: Biomechanics, Pathology and Soft Tissue Treatment
5.0

Linda Simon, DC

$100.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Explain the structural anatomy of the bones, joints, ligaments, muscles nerves, blood vessels and fascia of the thoracic spine and rib cage
  • Explain the functional anatomy of the bones, joints, ligaments, muscles nerves, blood vessels and fascia of the thoracic spine and rib cage
  • Demonstrate the passive examination of the bones, joints, ligaments, muscles nerves, blood vessels and fascia of the thoracic spine and rib cage
  • Demonstrate the active examination of the bones, joints, ligaments, muscles nerves, blood vessels and fascia of the thoracic spine and rib cage
  • Discuss imaging of the thoracic spine and rib cage
  • Describe pathological conditions of the bones, joints, ligaments, muscles nerves, blood vessels and fascia of the thoracic spine and rib cage
  • Demonstrate soft tissue treatments for the bones, joints, ligaments, muscles nerves, blood vessels and fascia of the thoracic spine and rib cage
  • Discuss relationships of the thoracic spine and ribs with other regions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 109 : Lumbopelvic Spine: Biomechanics, Pathology and Soft Tissue Treatment
8.0

Linda Simon, DC

$160.00 USD

Text

More Course Information ▶
  • Explain the structural anatomy of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the lumbopelvic spine
  • Explain the functional anatomy of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the lumbopelvic spine
  • Explain biomechanics of the lumbopelvic spine
  • Demonstrate the passive examination of bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the lumbopelvic spine
  • Demonstrate the active examination of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the lumbopelvic spine
  • Discuss radiographic imaging of the lumbopelvic spine
  • Discuss advanced testing of the soft tissue of the lumbopelvic spine
  • Describe pathological conditions of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the lumbopelvic spine
  • Demonstrate soft tissue treatments for the pathological conditions of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the lumbopelvic spine
  • Define relationships of the lumbopelvic spine with other regions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 110 : Hip and Knee: Biomechanics, Pathology and Soft Tissue Treatment
6.0

Linda Simon, DC

$120.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Explain the structural anatomy of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the hip and knee
  • Explain the functional anatomy of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the hip and knee
  • Explain biomechanics of the hip and knee
  • Demonstrate the passive examination of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the hip and knee.
  • Demonstrate the active examination of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the hip and knee
  • Discuss radiographic imaging of the hip and knee
  • Discuss advanced testing of the soft tissue of the hip and knee
  • Describe pathological conditions of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the hip and knee
  • Demonstrate soft tissue treatments for the pathological conditions of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the hip and knee
  • Define relationships of the hip and knee with other regions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 111 : Ankle and Foot: Biomechanics, Pathology and Soft Tissue Treatment
5.0

Linda Simon, DC

$100.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Explain the structural anatomy of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the ankle and foot
  • Explain the functional anatomy of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the ankle and foot
  • Explain biomechanics of the ankle and foot
  • Demonstrate the passive examination of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the ankle and foot
  • Demonstrate the active examination of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the ankle and foot
  • Discuss radiographic imaging of the ankle and foot
  • Discuss advanced testing of the soft tissue of the ankle and foot
  • Describe pathological conditions of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the ankle and foot
  • Demonstrate soft tissue treatments for the pathological conditions of the bones, joints, ligaments, muscles, bursa, nerves, blood vessels and fascia of the ankle and foot
  • Define relationships of the ankle and foot with other regions.

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 112 : Strain/Counterstrain: Theory, Technique and Treatment
2.0

Linda Simon, DC

$40.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Discuss the development of strain/counterstrain
  • Describe the theory of strain/counterstrain
  • Describe the physiology of neuromuscular function
  • Describe the diagnosis of tenderpoints and treatment  prioritization
  • Discuss the technique of strain/counterstrain
  • Explain tenderpoints
  • Discuss method to locate tenderpoints
  • Describe conditions that respond to strain/counterstrain
  • Discuss treatment for the spine, TMJ and extremities
  • Discuss treatment for craniosacral dysfunctions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 113 : Therapeutic Stretching and Exercise Rehabilitation
4.0

Linda Simon, DC

$80.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Discuss the benefits and protocols of stretching
  • Discuss the theory and protocols of exercise rehabilitation
  • Discuss the evaluation of posture
  • Demonstrate postural corrections for the whole body
  • Discuss proprioception in relation to core stability
  • Demonstrate stretching and strengthening for the core
  • Demonstrate balance work in relation to core strength
  • Demonstrate stretching and strengthening for the foot, ankle, anterior compartment,  hamstrings, quadratus femoris, tensor fascia lata, adductor group, gluteal group, and iliopsoas, lumbar spine, thoracic spine, ribs, chest, cervical spine, TMG, shoulder, arm, forearm, wrist and hand
  • Describe Yoga and Pilates for the whole body

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 114 : Deep Tissue Muscle and Fascial Release: Evaluation and Treatment
5.0

Linda Simon, DC

$100.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Explain the function of soft tissues
  • Describe the development of scar tissue and adhesions in fascia, connective tissue, muscles, tendons, ligaments and joint capsules
  • Discuss the benefits of deep tissue muscle and fascial release
  • Define friction massage
  • Describe friction massage for the upper extremity, lower extremity, spine and TMJ
  • Define myofascial release
  • Describe myofascial release for the upper extremity, lower extremity, spine and TMJ
  • Define active release
  • Describe active release for the upper extremity, lower extremity, spine and TMJ
  • Define trigger point ultrasound
  • Describe trigger point ultrasound for the upper extremity, lower extremity, spine and TMJ

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 115 : Active Myofascial Rehabilitation
4.0

Linda Simon, DC

$80.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Educate patients on the function of soft tissues and the benefits of deep tissue muscle and fascial release.
  • Describe the development of scar tissue and adhesions in fascia, connective tissue, muscles, tendons, ligaments and joint capsules.
  • Perform postfacilitation stretch to the upper extremity, lower extremity and spine
  • Perform somatic technique for the upper extremity, lower extremity and spine
  • Utilize active release with your patient population
  • Perform postisometric relaxation for the upper extremity, lower extremity and spine
  • Apply therapeutic exercise and rehabilitative stretching with patients

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 116 : Understanding Acceleration/Deceleration Impact: Crash Reconstruction, Research, Injury and Treatment
12.0

Linda Simon, DC

$216.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Describe the kinematics of acceleration/deceleration impact.
  • Comprehend the history and development of acceleration/deceleration research.
  • Defend injury manifestation using Whiplash guidelines and models.
  • Apply current model theories to better understand injury from acceleration/deceleration impact.
  • Explain to the patient the effects on the body during front, rear and side collisions.
  • Educate the patient on variables such as vehicle size and direction and the effects on the human frame during acceleration/deceleration impact.
  • Apply the variables of patient age, gender, size, etc during acceleration/deceleration impact.
  • Express an understanding of incidence, prevalence, injury and risk factors associated with acceleration/deceleration impact.
  • Describe the normal biomechanics of the cervical spine.
  • Discuss cervical spinal anatomy vulnerable to injury.
  • Define the nature of soft tissue structures; joints, ligaments, muscles, bursa, nerves, blood vessels and fascia.
  • Inform your patients of the symptoms and changes to soft tissue structures after acceleration/deceleration impact.
  • Explain the differences between scleratomal, dermatomal and myofascial pain.
  • Discuss prognosis after acceleration/deceleration impact.
  • Describe the normal biomechanics of the TMJ and associated soft tissue structures.
  • Discuss injury to the TMJ and associated soft tissue structures.
  • Explain the effects of trauma to the soft tissue of the spine, structures of the shoulder, elbow, wrist, hand, hip, knee, ankle and foot after acceleration/deceleration impact.
  • Describe the normal biomechanics of the thoracic spine and rib cage.
  • Describe the normal biomechanics of the lumbopelvic spine.
  • Educate the patient on complicating factors for treatment after acceleration/deceleration impact.
  • Determine the necessity and value of imaging and advanced diagnostic imaging after acceleration/deceleration impact.
  • Perform complete examination of the soft tissue structures of the cervical spine, TMJ, thoracic spine, rib cage, lumbopelvic spine, shoulder, elbow, wrist, hand, hip, knee, ankle and foot after acceleration/deceleration impact.
  • Utilize treatment protocols for soft tissue damage after acceleration/deceleration impact.
  • Perform soft tissue treatments such as strain/counterstrain, postisometric relaxation, postfacilitation stretch, somatic technique, active and myofascial release, exercise and stretch, mobilization, manipulation and modalities.
  • Utilize above mentioned soft tissue techniques to treat the cervical spine, TMJ, thoracic spine, rib cage, lumbopelvic spine, shoulder, elbow, wrist, hand, hip, knee, ankle and foot after acceleration/deceleration impact.
  • Communicate to your patients the late effects of soft tissue injury after acceleration/deceleration impact.

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 117 : Functional Kinesiology and Movement; Biomechanics, Pathology and Treatment
12.0

Linda Simon, DC

$216.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Describe biomechanics of movement of the joints, ligaments, muscles, tendons, bursa, nerves and fascia of the lower extremity, pelvis and spine, TMJ and upper extremity.
  • Explain weight distribution and movement of ligaments, muscle and fascia in relation to the feet as foundation.
  • Discuss soft tissue movement during standing, walking, running, twisting, bending, reaching and grasping.
  • Relate movement interactions and stresses on soft tissues from one body region to another.
  • Demonstrate to your patients, correct posture from the feet as foundation to the cervical spine.
  • Educate and demonstrate the correct use of the core in posture.
  • Show patients how to relax their shoulders using the thoracic spine as a lever.
  • Describe and demonstrate appropriate gait in relation to correct posture.
  • Explain to your patient how the soft tissue adapts to an unstable scoliosis.
  • Apply understanding of injury dynamics in individual soft tissue structures (ligament, musculotendon, bursa, nerve, fascia).
  • Interrelate soft tissue contractures from one region of the body to another.
  • Learn passive and active examination techniques for all soft tissue structures of the soft tissue structures mentioned in Educational Objective 1.
  • Review Applied Kinesiology as a tool for muscle isolation and clinical testing.
  • Differentiate muscle strength testing from the proprioception evaluation of Applied Kinesiology.
  • Integrate Applied Kinesiology examination and treatment into soft tissue evaluation and case management.
  • Clinical examination of soft tissue structures of the soft tissue structures mentioned in Educational Objective 1.
  • Apply examination findings into differentially diagnosing soft tissue fibrosis, scar tissue and adhesions, trigger points and pain radiation patterns.
  • Inter-relate different regions of the body with local soft tissue findings.
  • Discern appropriate clinical application for advanced imaging studies and soft tissue.
  • Apply treatment protocols for ice, heat, stretching, Somatic Technique, Strain/counterstrain, friction massage, post-isometric relaxation, modalities, massage techniques, myofascial release, active release, Neuromuscular therapy, cold laser, exercise rehabilitations, mobilization and manipulation.
  • Apply techniques mentioned in Educational Objective (above) as well as Applied Kinesiology to all joints, ligaments, muscles, tendons, bursa, nerves and fascia of the lower extremity, pelvis and spine, TMJ, and upper extremity.
  • Relate treatments to improved movement locally, regionally and other affected regions and educate your patient to reasonable goals.
  • View the soft tissue structures of the body as a whole with recognizable patterns of dysfunction and treat these soft tissues for greater flexibility and function.

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 118 : Soft Tissue Injury Examination
8.0

Linda Simon, DC

$160.00 USD

Downloadable Course in PDF, Text

More Course Information ▶

Hour 1

  • Discuss the soft tissues of the body for examination protocol and differential diagnosis.
  • Correlate soft tissue pain radiation patterns and history to focus examination to appropriate soft tissues.
  • Explain to your patient the types of soft tissue pain and injuries related to their condition.
  • Identify soft tissue dysfunction consistent with injury.
  • Utilize passive examination techniques to accurately record the effects of soft tissue injury to local and regional soft tissues.

Hour 2

  • Utilize active examination techniques to accurately record the effects of soft tissue injury to local and regional soft tissues.
  • Discern between neurological muscle strength testing, proprioceptive muscle strength testing using Applied Kinesiology and actual muscle fiber strength.
  • Apply biomechanics of the upper and lower extremities, spine and TMJ to soft tissue examination protocol.
  • Relate the biomechanical movement of the soft tissues of the foot and ankle to associated soft tissues during evaluation.
  • Perform examination of the soft tissue structures of the foot and ankle as the biomechanical foundation of the body.

Hour 3

  • Apply biomechanics of the entire lower extremity to soft tissue examination protocol.
  • Relate the biomechanical movement of the soft tissues of the knee to associated soft tissues for evaluation.
  • Perform examination of the soft tissue structures of the knee.
  • Relate the biomechanical movement of the soft tissues of the hip to associated soft tissues during evaluation.

Hour 4

  • Perform examination of the soft tissue structures of the hip.
  • Relate the biomechanical movement of the soft tissues of the lumbopelvic spine to associated soft tissues for evaluation.
  • Describe the movement of the soft tissues of the lumbar spine and sacroiliac joints for better patient compliance.
  • Perform passive examination of the soft tissue structures of the lumbopelvic spine.

Hour 5

  • Perform active examination of the soft tissue structures of the lumbopelvic spine.
  • Relate the biomechanical movement of the soft tissues of the thoracic spine and rib cage to associated soft tissues for evaluation.
  • Describe the movement of the soft tissues of the thoracic spine and rib cage for better patient compliance.
  • Perform passive and active examination of the soft tissue structures of the thoracic spine and rib cage.

Hour 6

  • Summarize biomechanics of the soft tissues of the cervical spine in their relation to the cranium.
  • Relate the biomechanical movement of the soft tissues of the cervical sp8ine to associated soft tissues for evaluation.
  • Perform soft tissue passive and active examination of the cervical spine.
  • Determine cervical soft tissue dysfunction and its effects on the trunk, upper extremity and TMJ.

Hour 7

  • Explain to patients the biomechanics of the TMJ in relation to their pain; and jaw and cervical spine dysfunction.
  • Relate TMJ dysfunction in relation to biomechanical disturbances to the soft tissue of the cervical spine.
  • Perform examination of the soft tissues of the TMJ with objective measurements to determine, record and track dysfunction and improvement.
  • Describe the biomechanical movements of the shoulder.
  • Relate the biomechanical movements of the shoulder to associated soft tissue structures of the cervical spine and thoracic spine and rib cage.

Hour 8

  • Summarize biomechanics of the soft tissues of the elbow, wrist and hand for the purposes of examination.
  • Relate the rotational movement of the shoulder, elbow, wrist and hand to determine soft tissue injury and dysfunction to associated soft tissue structures.
  • Perform examination of the soft tissues of the elbow, wrist and hand to determine injury and dysfunction.
  • Utilize appropriate advanced imaging methods for particular soft tissue structures.

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 119 : Treatments for Soft Tissues of the Musculoskeletal Frame
12.0

Linda Simon, DC

$240.00 USD

Downloadable Course in PDF, Text

More Course Information ▶

Hour 1:

  • Comprehend the human frame as interrelated biomechanical systems.
  • Relate the functional anatomy of soft tissue structures to the movement of the human frame.
  • Discern the six types of soft tissue end feel for evaluation of injury.
  • Perform passive and active examination according to protocol developed by James Cyriax, MD.
  • Distinguish between the types of injury and their effects on the soft tissues.

Hour 2:

  • Identify soft tissue changes associated with injury.
  • Discern which phase of healing is associated with the current presentation of injury.
  • Apply mechanisms of healing to treatment protocol.
  • Discuss diagnostic tools used to identify soft tissue injury.
  • Utilize appropriate ice, heat and stretch protocols in the treatment of soft tissue injury.

Hour 3:

  • Explain and perform Somatic Technique and Strain/Counterstrain.
  • Understand friction anesthesia and palpatory methods for identifying trigger points.
  • Differentiate between Postisometric Relaxation and Postfacilitation Stretch.
  • Apply specific modalities for particular soft tissue injury patterns.
  • Perform soft tissue restriction release methods.

Hour 4:

  • Discern between mobilization and manipulation.
  • Apply biomechanics of foot arch function to injury.
  • Explain dynamic changes of foot during weight bearing, and walking on even and uneven surfaces.
  • Utilize treatment protocols for common ankle sprains.
  • Perform osseous manipulation to the bones of the foot and ankle.

Hour 5:

  • Perform Strain/Counterstrain on the foot and ankle as an effective tool to release spasm and fixations.
  • Discern and treat various pathological conditions related to the knee.
  • Utilize myofascial release techniques to treat entrapment syndromes of the lower extremity.
  • Explain functional movement of the hip.
  • Apply functional kinesiology to the evaluation and treatment of the muscles associated with the hip.

Hour 6:

  • Utilize treatment methods for contracted soft tissues of the lateral hip.
  • Perform treatment protocols for the hamstrings/quadratus femoris.
  • Explain the dynamics of correct posture.
  • Recognize normal versus abnormal gait in patient observation.
  • Describe nutation and counternutation of the pelvis.

Hour 7:

  • Understand the various movements and fixations patterns in the Sacroiliac joints.
  • Perform Strain/Counterstrain for the pelvis.
  • Utilize a disc pump correction for mild to moderate disc lesions.
  • Demonstrate James Cyriax MD protocol from manipulation of the low back.
  • Devise a treatment protocol for sprain of the iliolumbar ligament.

Hour 8:

  • Apply movement dynamics of the lumbopelvic spine to soft tissue injury.
  • Utilize chest movement dynamics to help determine injury to the thoracic spine and rib cage.
  • Provide affective treatment of the rib cage specific to rib articulations.
  • Perform somatic Technique to the trapezius muscle for muscle awareness.
  • Apply treatments to soft tissues of the rib cage without using electric modalities.

Hour 9:

  • Discuss cervical spine mechanics as it applies to soft tissue injury.
  • Create muscle awareness of the cervical extensor group with Somatic Technique.
  • Reduce pain and spasm in an acute cervical spine injury using Strain/Counterstrain.
  • Apply myofascial release to the soft tissues of the posterior cervico-thoracic spine.
  • Educate the patient on corrective scoliosis exercises.

Hour 10:

  • Relate the functional anatomy of the TMJ to soft tissue injury.
  • Discern between Acute Closed lock and Acute Open Lock of the TMJ.
  • Apply soft tissue treatments to the muscles of the TMJ.
  • Use movement dynamics of the shoulder to better evaluate injury.
  • Utilize a variety of soft tissue treatment in the treatment of adhesive capsulitis of the shoulder.

Hour 11:

  • Differentially diagnose acromioclavicular joint injury and apply treatment to grades 1-3.
  • Use soft tissue methods to treat the muscles of the rotator cuff.
  • Discern and treat soft tissue structures related to the scapula.
  • Perform a scapula mobilization technique to free up the functional scapulo-thoracic joint.
  • Apply mechanisms of throwing to soft tissue injury and treatment.

Hour 12:

  • Describe various soft tissue treatments for the elbow, wrist and hand and related functional dynamics of injury.
  • Osseously manipulate the joints of the elbow, wrist and hand.
  • Perform soft tissue treatment methods for injury to the myofascia associated with the upper extremity.
  • Discern and treat all injured tendon sheath components of the wrist using soft tissue treatment methods.
  • Differentially diagnose and treat nerve entrapment syndromes for the upper extremity.

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 120 : Modalities: Theories, Application and Treatment
4.0

Linda Simon, DC

$80.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Explain the structural components of soft tissue.
  • Relate impact forces to functional movements of soft tissue and the development of scar tissue and adhesions.
  • Demonstrate diagnostic evaluation of soft tissue injury.
  • Differentially diagnose types of soft tissue injury.
  • Discuss the patterns of healing of soft tissue injuries.
  • Describe the diagnostic tools in determining soft tissue injuries.
  • Relate stress responses of soft tissues to development of structural and functional changes to injured tissues and their associated regions.
  • Perform diagnostic tests and order imaging to best determine injury to soft tissue.
  • Instruct the patient on correct application of ice and wet heat for soft tissue injury.
  • Perform and explain proper stretching; passive, active and postfacilitation of soft tissues.
  • Learn which therapy machines are best suited for your practice.
  • Utilize infrared and electrical muscle stimulation in soft tissue injury.
  • Apply appropriate contraindications of electric modalities to the individual patient’s care.
  • Discern between the various EMS options for each soft tissue and injury (Interferentail current, galvanic, microcurrent, sine wave, Russian stimulation).
  • Determine the most effective type of ultrasound for treatment of particular soft tissue injuries.
  • Learn the benefits and applications of cold laser therapy.
  • Understand the variety of massage therapy protocols and their applications.
  • Discuss the benefits of each form of modality with your patient.
  • Demonstrate and discuss exercise rehabilitation and muscle strengthening.
  • Apply a combination of modalities for specific conditions of the upper and lower extremities and the spine.

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Soft Tissue Injuries 121 : Posture; Normal Biomechanics, Pathology and Treatment for Scoliosis and Spinal Distortion Syndromes.
12.0

Linda Simon, DC

$216.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Discuss the normal function of soft tissues for support and movement to relate soft tissue injuries to postural anomalies. 
  • Utilize the evaluation of the feet as a foundation for full body postural adaptations.
  • Relate normal biomechanics of the foot, ankle, knee, hip, pelvis, spine, TMJ and upper extremities to normal posture and movement.
  • Apply findings of injured soft tissues of the foot, ankle, knee, hip, pelvis, spine, TMJ and upper extremities to evaluation of normal and abnormal postural distortions.
  • Discuss dynamic muscle stabilizers in the pelvis and abdominal core in relation to normal movement and fixations in the hip and pelvis.
  • Relate the thoracic spine and rib cage to dynamic movement and postural adaptations in the spine, upper and lower extremities.
  • Evaluate cervical joint dynamics in relation to compensations from the thoracic spine and rib cage, upper extremity and TMJ.
  • Discern impact of TMJ function on cervical spine posture and head tilt.
  • Relate abnormal scapular, glenohumeral joint and rotator cuff function to specific spinal and upper extremity postural distortions.
  • Educate the patient in normal standing, seated, computer ergonomic, reclined, recumbent positions and normal gait to discern and recognize postural abnormalities.
  • Relate functional dynamics during Acceleration/Deceleration Impact to soft tissue injury and postural adaptations to those injuries.
  • Define causative factors for Scoliosis and relate muscle disparities of the multifidus to spinal, pelvic, rib cage and shoulder postural distortions for treatment protocol.
  • Educate on causes of shoulder rounding, shoulder elevation; and backpack, throwing, tennis, golf, swimming, overhead sports injuries and their effects on spinal posture for rehabilitation.
  • Understand and apply soft tissue treatment methods for the three posture types of Somatic Technique Theory: Red Light, Green Light and Dark Vise.
  • Use Strain/Counterstrain, Friction Massage and Postisometric Relaxation as an effective tool for soft tissue damage contributing to postural distortion.
  • Apply soft tissue treatment methods, modalities and rehabilitation to Pelvic Crossed Syndrome and Shoulder Crossed Syndrome.
  • Apply Yoga for full body and regional postural corrections.
  • Understand and explain proper postures for dance, martial arts, running, cycling, baseball, golf, tennis, standing, walking, sitting, computer ergonomics and sleeping.

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Spinal Decompression 101 : Science and Clinical Application
1.0

Brett Kinsler, DC

$20.00 USD

AudioVisual Course

More Course Information ▶
  • Identify the goals, indications and contraindications of spinal traction and decompression
  • Predict responsive patient selection for spinal traction and decompression
  • Plot phases of traction and calculate the appropriate force, traction and hold times
  • Evaluate the validity of logarithmic pulls and disc targeting
  • Define ethical behavior for billing and marketing of non-surgical spinal decompression device

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Sports Medicine 101 : Golf: Overview of Injury Assessment and Rehab, Balance, Coordination
1.0

Dean Smith, DC, PhD

$20.00 USD

Downloadable Course in PDF, Text

More Course Information ▶
  • Develop and overview of Adult Golf Injury Assessment and Rehab
  • Identify the nature of balance and applying balance assessment to golfers
  • Review and Understand the concepts of coordination as applied to golf

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Sports Medicine 102 : Golf: Muscles Used in the Swing, Chiropractic's Influence, Practical Swing Suggestions, Physical Conditioning
1.0

Dean Smith, DC, PhD

$20.00 USD

AudioVisual Course

More Course Information ▶
  • Identify which trunk muscles are used in the golf swing
  • Review the Chiropractic influence on the golf swing
  • Construct practical swing suggestions for golf patients
  • Discuss fundamental conditioning concepts
  • Prepare physical conditioning to improve club speed

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Sports Medicine 103 : Golf: Fundamentals of the Swing and Ball Flight, Golf Injuries, Injury Prevention, Shoulder Muscles Used in the Swing
1.0

Dean Smith, DC, PhD

$20.00 USD

AudioVisual Course

More Course Information ▶
  • Differentiate the basic fundamentals of the golf swing and ball flight
  • Understand the epidemiology of golf injuries in both professionals and amateurs
  • Discuss the factors that influence injury formation and prevention
  • Learn the shoulder muscles involved in the various phases of the golf swing and apply this knowledge to examination and rehabilitation
  • Learn about the relationship between back pain and elite golf mechanics
  • Determine the spinal and metabolic loading characteristics associated with golf

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Sports Medicine 105 : Cardiorespiratory Fitness: Assessment and Exercise Prescription
1.0

Dean Smith, DC, PhD

$20.00 USD

AudioVisual Course

More Course Information ▶
  • Illustrate basic principles of cardiorespiratory exercise
  • Outline health screening and physical fitness testing
  • Create cardiorespiratory and strength training exercise prescriptions

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Sports Medicine 109 : Caring for Golfers
1.0

Dean Smith, DC, PhD

$20.00 USD

AudioVisual Course

More Course Information ▶
  • Describe the biomechanical fundamentals of grip, posture and swing
  • Identify golf injuries and golfers’ problems
  • Develop protocols of rehab, strength training and adjusting for golfers

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Sports Medicine 110 : Ober Test, Extensor Carpi Ulnaris, Femoroacetabular Impingement and Movement Screening
1.0

Shawn Thistle, DC

$20.00 USD

Downloadable Course in PDF, Journal Article Review, Text

More Course Information ▶
  • Investigate the anatomical structures strained during the Ober and Modified Ober tests for iliotibial band concerns
  • Evaluate the utility of screening tests for predicting injury risk in athletes
  • Describe the biomechanics associated with the extensor carpi ulnaris and recognize the variety of pathologies that can affect this structure
  • Summarize recommendations for the assessment, diagnosis and management of Femoroacetabular Impingement (FAI)
  • Assess whether expert and novice Functional Movement Screen raters can report the same scores

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31

Stroke and Manipulation 101 : Stroke and Spinal Manipulation: Anatomy, Epidemiology, Pathogenesis of Dissections and Triggers, Neurological Syndromes, Clinical Management
2.0

Dean Smith, DC, PhD

$40.00 USD

AudioVisual Course

More Course Information ▶
  • Illustrate the pathogenesis of CADs ­dissection mechanisms
  • Identify putative causes and triggers of CAD
  • Estimate the purported incidence of cerebrovascular syndromes following cervical manipulation
  • Distinguish between the neurological syndromes
  • Identify stroke risk factors in general
  • Assess the value of pre-manipulation testing: to screen or not to screen?
  • Outline the warning signs/symptoms of CAD
  • Indicate what to include in the patient history and examination
  • Describe what to do if you suspect CAD
  • Point out how to communicate risk to patients as well as implementing strategies to prevent CAD
  • Assess the current literature on the relationship between stroke and manipulation
  • Describe the anatomy of the blood supply to the brain
  • Summarize the clinical biomechanics of vertebral arteries
  • Outline the epidemiology and classification of cervicocerebral (vertebral and internal carotid) arterial dissections (CAD) or strokes
  • Recognize the diseases affecting cervicocerebral arteries

ChiroCredit.com is an FCLB Approved PACE Continuing Education Provider
Expires: 2026-07-31