Knee Flexion Supine ALT - High Grade

Knee Manual Therapy Technique

Instructions Evidence for Knee Manual Therapy Techniques

Body Region: Knee

Technique Name: Knee Flexion Supine – Alternate (High Grade)

Indications: Knee osteoarthritis

Instructions:

Patient Position:

  • Laying in the supine position with their knee and hip flexed to approximately 90 degrees. The side that will be receiving treatment should be closer to the edge of the table where the clinician is standing.

Clinician Position:

  • Stand on the side of the patient that will receive treatment, facing slightly towards the feet.
  • Standing on the side to be treated, facing towards the patient’s head.
  • Grasp the patient’s proximal leg with both arms, placing the palm of your hands just inferior to the tibiofemoral joint line.
  • Cradle the lower leg between your arm and body.

Technique Description:

  • Use your body to flex the knee into desired range within the joint for treatment effect (within or out of resistance).
  • Use your body and arms to impart graded large amplitude mobilizations to the knee.
  • Keep knee and hip in straight plane motion.

Key Points:

  • Use this technique cautiously for individuals with irritable/reactive knee pain as it can exacerbate symptoms if performed too aggressively too soon

 

Manual therapy interventions for the knee have been associated with improvements in pain, function and disability in individuals with knee osteoarthritis (OA). Very limited evidence also suggests that MT may be an option in the management of patellofemoral pain syndrome.

Knee Osteoarthritis (knee Oa):

Out of all knee disorders, research into the effectiveness of manual therapy interventions for knee OA has been studied most extensively. A recent systematic review by Jansen et. al. looked 3 interventions:  1) strengthening training alone, 2) exercise therapy alone, and what they described as 3) exercise therapy combined with "passive manual mobilizations" for patients with knee OA. They found 12 trials that compared any of these interventions against a control group.  The only comparison they found that was significant was the one showing improvement in pain with the addition of manual mobilization techniques to exercise when compared to exercise alone.  Another recent systematic review (French 2011) evaluating the effectivness of manual therapy for knee and hip osteoarthritis concluded that the "evidence should be considered inconclusive regarding the benefit of manual therapy on pain and function" for knee OA.  Only 3 RCT's were included in this review, but there was not enough homogeneity between study designs to perform a meta-analysis.  The 3 studies were all short-term chiropractic studies (about 3 week outcomes), and 1 of those was primarily massage therapy.  The review omitted the 2 Deyle studies (outlined below) from the review because of their pragmatic approach which "examined manual therapy in combination with exercise", instead of manual techniques alone. 

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 In a study by Deyle et. al (2000) patients were randomized into receiving manipulative therapy (OMT) to the knee and lower quarter based on individual impairments and exercise compared to a placebo group getting sub-therapeutic ultrasound. There were significant decreases in pain and improvement in disability (approximately 50%) in the manipulative therapy and exercise group that were maintained out to one year. A follow on study by Deyle et. al. (2005) compared the same OMT and exercise program to a standardized home exercise program alone. Both groups had improvements in pain and disability, but the OMT group was significantly better (again approximately 50% improvement) with gains maintained out to one year. Patients receiving OMT treatment were 75% less likely to have a total knee replacement (TKR) then those in the control groups. A Numbers Needed to Treat analysis showed that 7 patients with knee OA needed to be treated with the OMT and exercise program in order to prevent 1 TKR.

A systematic review by the Ottawa Panel gave manual therapy an “A” for strength of evidence for management of pain in patients with knee OA (Scale from A-D). A recent evidence review by Bokarious (2010) stated that there was enough evidence to support the use of some manual therapy techniques in the treatment of knee OA.

Tucker compared OMT to NSAIDs (Meloxicam) in patients with knee OA. Both groups had significant improvement and both interventions were equally effective out to 3 weeks, however 3 subjects in the Meloxicam group dropped out due to deleterious gastrointestinal side effects. There were no side effects reported for the OMT group.

Another chiropractic study by Pollard showed short-term improvement (3 weeks) in visual analag pain scores with patients that received a protocol of manual therapy techniques compared to a control group receiving manual contact and interferential electrical stimulation.

Patellofemoral Pain Syndrome (pfps)

The consensus for the use of OMT for PFPS is limited, however a case series reported some benefit in its use, especially as part of a multimodal approach.

In a small case series, 4 out of 5 patients with PFPS had a significant decrease in pain and improvement in function as measured by the Lower Extremity Functional Scale (LEFS) and Global Rating of Change (GROC) that were maintained out to 6 months. Their treatment included:

1. Combination of thrust and non-thrust manipulation directed at the joints of the lower quarter (including lumbar spine)

2. Trunk and hip stabilization exercises

3. Patellar taping

4. Foot orthotics

Iverson and colleagues developed a clinical prediction rule (CPR) to identify individuals with PFPS that were likely to respond favorably to lumbar spine manipulation. 22 of 49 subjects. Success was based on a 50% improvement in numeric pain rating. The five variables that were identified as predictors and formed the CPR were:

Difference in hip internal rotation from one side to the other of > 14°

Ankle dorsiflexion > 16°

Navicular drop > 3mm

No stiffness with sitting > 20 minutes

Squatting is the most painful activity

The most robust predictor of success was a side-to-side difference in hip internal rotation > 14° (positive likelihood ratio 4.9). If this factor alone was present, the probability of success with treatment increased from 44% to 80%. If there were at least three of the five variables present then the probability of treatment success rose to 94%. This CPR had many limitations (potentially underpowered sample size) and the results should be interpreted with caution. The outcomes were only seen immediately post-manipulation and any substantial longer-term improvement has not been established.

Other Relevant Evidence:

Courtney, 2009, J of Pain

Related Techniques

  • Knee Extension Supine - High Amplitude
  • Knee Extension Supine - Low Amplitude
  • Knee Flexion Prone
  • Knee Flexion Supine - High Grade
  • Patellofemoral Caudal Flexion (MWM)
  • Patellofemoral Caudal-Cephalad Glide
  • Patellofemoral Medial-Lateral Glide
  • Patellofemoral Rotations
  • Proximal Tibiofibular A-P
  • Proximal Tibiofibular P-A
  • Proximal Tibiofibular Thrust Manipulation
  • Tibiofemoral Internal Rotation (Hook-lying)
  • Tibiofemoral Internal-External Rotation
  • Tibiofemoral P-A
  • Tibiofemoral Translational Glide