Patellofemoral Pain Syndrome

• Patellofemoral Pain Syndrome (PFPS)
• Patellofemoral Pain (PFP)
• Anterior knee pain
• Idiopathic knee pain

Pathophysiology

• General
  • PFPS is a common cause of anterior knee pain
  • It is most commonly seen in young women without any structural or pathological changes to the articular cartilage
  • The underlying etiology is often considered to be multifactorial

• Patellar Tracking/ Malalignment
  • Patella maltracking has long been implicated as a cause
  • Witvrou et al: hypermobile patella had a significant correlation with the incidence of PFPS^[9]
  • Draper et al: patients with PFPS squat with increased lateralization, the increased lateral tilt of patella^[10]

• Vastus Lateralis and Vastus Medialis (VMO)
  • Cowan et al demonstrated by EMG delayed the onset of VMO activation relative to vastus lateralis^[11]
  • Patients with PFP tend to exhibit atrophy of the VMO as well^[12]

• Quadriceps Dysfunction
  • Several studies have shown that quadriceps muscle size, strength, and force are impaired in patients with patellofemoral OA^[13]

• Dynamic Valgus/ Q angle
  • The role of the Q-angle as a cause or predictor of PFPS is controversial
  • Some authors have demonstrated a relationship between the Q-angle and the development of PFPS^[14]
  • Other authors have not recreated that relationship^[15]
  • Likely related to dynamic or functional malalignment than a structural problem
  • Multiple studies have demonstrated increased knee abduction, and dynamic valgus stressors on the knee joint in PFPS among athletes^[16]

• Hip Stability, abductor strength
  • Multiple studies have shown the weakness of hip external rotators, abductors lead to functional malalignment at the patellofemoral joint
  • Prins et al systematic review: strong evidence that females with PFPS have a decreased hip abduction, external rotation and extension strength^[17]
  • Note that this is in female athletes, the evidence for male athletes is not strong

• Disorders of the foot
  • Barton et al: PFPS associated with delayed timing of peak rear-foot eversion, increased rear-foot eversion at heel strike and reduced rear-foot eversion range^[18]
  • Early rear-foot eversion appears to increase risk of developing PFPS^[19]
  • Abnormalties with navicular bone, such as increased navicular drop, navicular drift and dorsiflexion also seem to contribute^[20]

• Hamstring imbalance, tightness
  • Several studies have identified a significant association between PFPS, hamstring tightness^[21]
  • Besier et al: patients with PFPS have greater co-contraction of the quadriceps and hamstrings compared to controls^[22]

• Iliotibial Band
  • The IT band may have an influence on patellar tracking^[23]
  • Kaplans fibers connect the IT band to the patella

• “Knee-Spine Syndrome”
  • Significant difference in sacral inclination between subjects with and without anterior knee pain^[24]
  • Otherwise not well described or understood

• Psychological factors
  • Jensen et al: patients with PFPS have higher level of mental distress compared to healthy controls^[25]
  • Coping mechanism of patients with PFPS similar to other groups of patients with chronic pain, PFPS more likely to catastrophize their pain^[26]
  • Fear avoidance belief about physical activity associated with pain, function in PFPS patients^[27]
  • Domenech et al: high incidence of psychological distress such as anxiety and depression^[28]

• Triggers for PFPS
  • Overload of the patellofemoral joint (e.g. highintensity training)
  • Dynamic valgus and functional lateralization of the patella may lead to overuse

• Neurological etiology of pain in patients with PFPS
  • Most pain probably develops in the insertions of the extensor mechanism or within the subchondral bone
  • Increased expression of neurofilament protein, S-100 protein, neural growth factor and substance P in the lateral retinacula of PFPS^[29]
  • Draper demonstrated increased metabolic bone activity in patients with PFPS using PET/CT^[10]

• Implicated pain sources
  • The medial retinaculum and MPFL^[30]
  • Patellar compression of subchondral bone^[31]
  • Fat pad

Causes

• Overuse
  • Including tendinitis, insertional tendonosis
• Patellar instability
• Osteochondral damage
• Trauma

Associated Conditions

• Chondromalacia Patellae
• Osteochondral Defect Knee
• Patellofemoral Osteoarthritis
• Extensor Tendinopathy
• Patellar Instability
• Plica Syndrome
• Infrapatellar Fat Pad Impingement

Pathoanatomy

• Knee Extensor Mechanism
  • Quadriceps Tendon inserts into Patella, Patella Tendon in turn attaches to Tibial Tubercle
• Patellofemoral Joint
  • Characterized by the articulation of the patella within the condylar groove of the femur
  • Stabilized by the medial and lateral retinaculae
• Patella
  • Functions as a lever, increasing the moment arm of the extensor mechanism^[33]
  • Acts as a pulley, controlling the direction of the quadriceps
  • Articular cartilage, which is the thickest in the body, provides a smooth sliding surface with the femoral trochlea^[34]
  • Acts as a shock absorber

• Non-modifiable
  • Female gender
  • Poor shock absorption (i.e. footwear, surface, muscles)
• Sports
  • Running, Jumping sports
  • Endurance athletes
  • Basketball
  • Soccer
  • Lacrosse
• Training
  • Training errors or overuse
  • Increased running mileage
  • Increased jumping
• Muscular
  • Weak knee extension strength, especially VMO^[35]
  • Weak hip abduction strength^[36]
  • Weak hip external rotation strength
  • Poor flexibility of quadriceps, hamstring, iliotibial band
  • Poor core muscle endurance^[37]
  • Foot pronation
• Biomechanical/ Anatomic
  • Larger Q-angle^[38]
  • Sulcus angle
  • Patellar tilt angle, typically lateral
  • Hypoplasia of the medial patellar facet
  • Patella Alta, Patella Infera
  • Patellar Hypermobility
  • Previous surgery
  • Excessive foot pronation^[39]
  • Limb Length Discrepency^[40]
  • Hyperlaxity^[41]
  • Genu Varum or Genu Valgum
  • Gait Dysfunction^[42]
  • Positive J sign
• Other
  • Trauma
• Not associated
  • Foot arch height index^[38]

Differential Diagnosis

• Fractures
  • Distal Femur Fracture
  • Patellar Fracture
  • Tibial Plateau Fracture
• Dislocations & Subluxations
  • Patellar Dislocation (and subluxation)
  • Knee Dislocation
  • Proximal Tibiofibular Joint Dislocation
• Muscle and Tendon Injuries
  • Quadriceps Contusion
  • Iliotibial Band Syndrome
  • Quadriceps Tendonitis
  • Patellar Tendonitis
  • Popliteus Tendinopathy
  • Extensor Mechanism Injury
    • Patellar Tendon Rupture
    • Quadriceps Tendon Rupture
    • Patellar Fracture
• Ligament Pathology
  • ACL Injury
  • PCL Injury
  • MCL Injury
  • LCL Injury
  • Meniscal Pathology
  • Posterolateral Corner Injury
  • Multiligament Injury
• Arthropathies
  • Knee Osteoarthritis
  • Septic Arthritis
  • Gout
• Bursopathies
  • Prepatellar Bursitis
  • Pes Anserine Bursitis
  • MCL Bursitis
  • Infrapatellar Bursitis
• Patellofemoral Pain Syndrome (PFPS)/ Anterior Knee Pain)
  • Chondromalacia Patellae
  • Patellofemoral Osteoarthritis
  • Osteochondral Defect Knee
  • Plica Syndrome
  • Infrapatellar Fat Pad Impingement
  • Patellar Instability
• Neuropathies
  • Saphenous Nerve Entrapment
• Other
  • Bakers Cyst
  • Patellar Contusion
• Pediatric Considerations
  • Patellar Apophysitis (Sinding-Larsen-Johnansson Disease)
  • Patellar Pole Avulsion Fracture
  • Tibial Tubercle Avulsion Fracture
  • Tibial Tuberosity Apophysitis (Osgood Schalatters Disease)

Diagnosis

• History
  • Pain is universally anterior
  • They may describe it as “behind,” “underneath,” or “around” the patella
  • Usually insidious, but can be acute in nature
  • Pain is typically worse after prolonged sitting, squatting, kneeling, and stair climbing^[43]
  • Patients often report clicking, popping, snapping and cracking
  • May report buckling, which is typically transient inhibition of quadriceps due to pain or deconditioning^[44]
  • Theatre sign: Pain in the patellofemoral joint after a prolonged period of sitting with the knee flexed
  • Pain is often bilateral
• Physical Exam: Physical Exam Knee
  • Absence of joint effusion; if present consider other etiology
  • Patellar J Sign: lateral tracking of patella shifts medially as knee brought into flexion
  • Compare quadriceps muscle tone and the bulk of VMO to the contralateral limb
  • On palpation, crepitus may be present
  • Palpate medial/lateral and superior/inferior patellar poles
  • Maybe ttp to the medial or lateral retinaculum
  • Maybe ttp medial or lateral facets
• Special Tests
  • Patellar Grind Test: move patella in all planes to assess cartilage
  • Patellar Compression Test: apply caudal force to the patella while the patient actively contracts quadriceps muscle
  • Patellar Apprehension Test: apply medial/lateral pressure while flexing/extending the knee
  • Passive Patellar Glide: patella is moved medial/lateral with the knee fixed at 30° flexion
  • Patella Alta Test
  • Patellar Tilt Test: Attempt to lift lateral aspect of the patella with thumb
  • Squat Test: The patient is asked to perform repetitive squats
  • Vastus Medialis Coordination Test
  • Waldrens Test: Palpate patella while patient performs squats
  • Step Down Test: Eccentric step down from an approx. 20 cm box
  • Resisted Isometric Quadriceps Contraction
  • Lateral Step Down Test

• Note: Diagnosis is primarily clinical and imaging is not generally required to make the diagnosis

Radiographs

• Standard Radiographs Knee
  • Lateral, and sunrise or Merchant views most helpful
  • Frequently normal
• Potential findings
  • Can show patellofemoral OA
  • Osteochondral Defect
  • Lateral patellar tilt
  • Bipartite Patella

Ultrasound

• Can be used to evaluate extensor mechanism

MRI

• Not routinely indicated in the diagnosis of PFPS
• May be helpful to evaluate for:
  • Malalignment
  • Trochlear dysplasia
  • Patella tilt
  • Articular chondral injuries
• Potential findings
  • Enlarged fat pad
  • Subchondral bone edema

Classification

• Proposed clinical classification^[45]
  • Patellofemoral instability, ie., subluxation or dislocation
  • Patellofemoral pain with malalignment but no episodes of instability
  • Patellofemoral pain without malalignment

Treatment

Nonoperative

• Indications
  • Vast majority of cases
• General goals
  • Reduce total patellofemoral compressive forces
  • Alter the distribution of stress forces on the patella
• Relative rest and activity modification
  • Patients may need to temporarily discontinue the offending activity
  • They may need to alter their sport or training habits
  • This could include avoiding/ limiting stairs, running, jumping, squats
• Physical Therapy
  • Quadriceps strengthening is the gold standard treatment^[46]
  • Increased quadriceps strength has been shown to reduce PFPS pain^[47]
  • Bolga et al systematic review: Targeting hip abductors, external rotators generated a modest reduction in pain^[48]
  • Harvie et al: 2008 meta-analysis showed positive effects on pain reduction^[49]
  • Exercises should address hip muscles, trunk stability, quadriceps, hamstrings, and the iliotibial tract

Pharmacotherapy

• NSAIDS
  • A Cochrane review found limited evidence for the effectiveness of short term pain reduction in PFPS^[50]
• Topical NSAIDS
  • Cochrane review found topical NSAIDS are as effective as oral NSAIDS for chronic musculoskeletal pain^[51]
• Vitamin D
  • Anecdotal evidence that patients with PFPS have low vitamin D and osteopenia by DEXA^[52]
  • It is unknown whether supplementation with vitamin D is beneficial

Bracing and Taping

• Patellar Taping or McConnel Taping
  • Goal: modify patella tracking with adhesive tape, typically a medially directed force
  • When combined with physical therapy and daily home exercises, patellar taping was superior to the control group^[53]
  • Warden et al: 2008 meta-analysis showed functional improvement, decreaesed pain when combined with exercise^[54]
• Patellar Brace
  • Goal: apply an external, medially directed force to counteract patella maltracking
  • Lun et al found patellar bracing non-superior to a home exercise program with or without a patellar brace or knee sleeve^[55]
  • D’hondt et al: 2002 meta-analysis showed patellar brace had positive effects on pain, function, patellofemoral congruence angle^[56]
  • Overall, the literature is weak and better-designed studies are needed.
• Knee Brace
  • Standard hinged knee brace
• Foot Orthosis
  • Goal: insoles could improve rear-foot eversion or pes pronates
  • Collins et al reported moderate improvement in pain in patients who used a corrective orthosis and participated in physical therapy^[57]
  • Other studies have shown mixed results
  • Overall, literature is weak for PFPS and better-designed studies are needed

Other Modalities

• Acupuncture
  • Compared to no treatment, acupuncture showed a reduction in symptoms^[58]
• Overall, evidence is lacking to support^[59]
  • Therapeutic ultrasound
  • Phonophoresis
  • Iontophoresis
  • Transcutaneous Electrical Nerve Stimulation (TENS)
  • Medium-frequency neuromuscular electrical stimulation^[60]
  • Low-Level Laser Therapy
  • Extracorporeal Shock Wave Therapy
  • Electromyographic Biofeedback
  • Massage Therapy

Operative

• Indications
  • Unknown
  • Likely reserved for refractory cases
• Technique
  • Arthroscopy
  • Percutaneous
  • Lateral reticular release
  • MPFL repair or reconstruction
  • Anteromedialization of the tibial tubercle
• Research
  • Kettunen compared arthroscopy plus exercise to exercise alone in patients with chronic PFPS and found no difference^[61]