Limited or contradictory evidence supports the use of pharmacologic treatment for PFPS, either with oral NSAIDs or intraarticular steroids. Thus, its application has been generally discouraged.18

Recommendation C: Pharmacologic treatment is useful in the short term for patients with PFPS.

Over the years, muscle weakness has been considered the leading contributing factor to PFPS onset. Therefore, most of the available literature on the topic has focused on that specific factor. Currently, the question of which muscular group has the most influence on PFPS onset remains controversial, as the answer could potentially determine a more focused and effective course of treatment for PFPS patients.

Numerous arguments have been made for quadriceps-strengthening protocols being effective and beneficial in the management of PFPS patients, both on their own as well as combined with hip strengthening exercises. Eapen et al. conducted a case-series study in 8 males and 12 females to evaluate the effectiveness of isotonic eccentric quadriceps training, at the end of which a significant decrease in pain and increase in function were found among study subjects, probably as a result of improved PF joint mechanics.19 The PF joint contact area is another issue that can potentially be addressed by quadriceps-strengthening protocols. In a case series of 6 healthy participants and 9 PFPS patients, Chiu et al. concluded that quadriceps strengthening increases the PF joint contact area, thus reducing mechanical stress in the joint and providing significant symptom relief.20

Hip-strengthening exercises have also been regarded as highly beneficial in the management of PFPS patients. In a nonrandomized clinical trial of 28 sedentary female patients who were under either a hip-strengthening program compared to no exercise, Khayambashi et al. found a significantly greater improvement in pain and functionality for the first group.21 Other authors have suggested that hip muscles may have a similar or even larger influence on the clinical outcomes of PFPS patients. Fukuda et al. conducted a randomized controlled trial (RCT) in fifty-four sedentary women and concluded that adding posterolateral hip-strengthening exercises to knee-musculature stretching and strengthening decreased pain and enhanced functionality in PFPS patients in a more effective manner and longer term than knee-focused exercises alone.22 In a similar RCT, Dolak et al. compared hip-strengthening protocols and knee-strengthening protocols in thirty-three women, finding that both are effective at reducing pain and enhancing functionality in PFPS patients. However, hip-strengthening exercises achieved lower pain levels in patients earlier than knee-strengthening protocols.23 Additionally, Ferber et al. conducted an RCT in 199 men and women to compare knee and hip strengthening protocols and came to a similar conclusion. Both protocols produced similar beneficial effects in PFPS patients when compared over a 6-week period of time, with hip strengthening exercises improving pain and function earlier than knee-strengthening exercises24. Other authors have gone as far as suggesting that hip-strengthening exercises should be considered the cornerstone of PFPS treatment. In another nonrandomized clinical trial, Khayambashi et al. compared hip and knee strengthening protocols in eighteen men and eighteen women, with a significant improvement in the hip-strengthening group, as its effects appeared to be longer lasting than the results obtained in the knee-strengthening group.25

Other authors have included additional muscular groups in rehabilitation protocols, such as trunk and core muscles. Baldon et al. found in an RCT of thirty-one women that PFPS rehabilitation protocols, including hip, trunk and quadriceps exercises, were more beneficial for PFPS patients in terms of pain reduction, function, strength and PF joint kinematics than quadriceps strengthening alone.26 Earl-Boehm et al. suggested that core-muscle strengthening can be beneficial even in patients with a higher degree of baseline knee pain and activity, meaning that these exercises could be effective in patients with a high degree of wear and tear in their PF joint.27 Some authors, however, such as Saad et al., could not find differences in the visual analog scale (VAS) for anterior knee pain in an RCT comparing hip-strengthening and quadriceps-strengthening groups. However, the groups were small (n=10 in each group), suggesting they were possibly underpowered.28

In conclusion, most recent evidence supports hip-strengthening exercises as a fundamental part of PFPS rehabilitation protocols, mostly in combination with quadriceps and lower-limb strengthening. Additionally, trunk and core strengthening exercises have emerged in recent years as an intriguing method of treatment for PFPS and should be further researched in the future, as they have already proven to be beneficial for PFPS patients.

Lower-limb muscle stretching has been widely used in conjunction with muscle strengthening in the management of PFPS patients, as it has been shown to provide quick relief of symptoms, even quicker than strengthening, ranging between 1 and 3 weeks postintervention. In a case-series study of 50 PFPS patients, Peeler et al. showed that a 3-week quadriceps stretching program decreased knee pain and increased functionality.29 On the other hand, Avraham et al. found in their RCT of thirty patients in 3 groups of treatment that hip-musculature stretching and strengthening showed similar results to strengthening alone, although it was probably underpowered.30 Furthermore, there could be differences between dynamic and static lower limb stretching. Lee et al., in a 2020 RCT study of 46 patients with inflexible hamstrings divided into two types of stretching (static stretching, n=25; dynamic stretching, n=21) with additional strengthening, found that a dynamic hamstring-stretching program was significantly better in terms of knee pain severity, muscle activation and quality of life (QOL) postintervention.31

In 2011, Mason et al. conducted an RCT of forty-one patients and sixty knees divided into four groups (infrapatellar taping, quadriceps strengthening, quadriceps stretching and control), finding better results in quadriceps strengthening and stretching compared to knee-taping or the control group in terms of pain relief and function.32 Moyano et al. conducted an RCT study of 74 patients with PFPS and found that proprioceptive neuromuscular facilitation (PNF) combined with aerobic exercise produced better results than classic muscle stretching, with an increase in function and range of movement of the PF joint, as well as a decrease in knee pain over a 4-month period.33

In conclusion, stretching is an essential therapeutic intervention in the management of PFPS, given its quick symptom relief as well as ability to address muscular deficiencies involved in the self-perpetuation of the syndrome. PNF is also being proposed as a newer, superior alternative to classic muscle-stretching exercises; as such, further research is recommended.

As with taping, foot orthoses have also been used over the years as a routine treatment for PFPS. Collins et al. found in their RCT involving 179 patients with PFPS that foot orthoses were superior to placebo (flat inserts), even in the long term (52 weeks); however, improvement was similar to physiotherapy, and the addition of foot orthoses to physiotherapy showed no difference in outcomes compared to using only physiotherapy or only foot otrhoses.39 Molgaard et al. showed in an RCT involving 40 patients with excessive calcaneal eversion that adding foot exercises and orthoses to knee targeted exercises had better outcomes than performing only knee-targeted exercises at 4 months. However, this favorable difference was no longer seen at the 12-month follow-up when both groups showed similar results.40 After analyzing data from Collins et al.39 it was suggested by Vicenzino et al.41 that foot orthoses should be specifically tailored for a select group of patients. Specifically, those who matched at least three of the following characteristics showed better results: age (>25), height (<165cm), a difference in mid-foot width from nonweight bearing to weight bearing (>10.96mm) and worst pain visual analog scale (<53.25mm). The pretest success rate of foot orthoses increased from 40% to 86% when the patient had three of these factors (positive likelihood ratio 8.8; 95% CI 1.2 to 66.9).41

The use of knee braces in PFPS treatment has shown favorable results. Lun et al. (RCT, n=136) found similar favorable results between patellar bracing and a home-exercise program after 12 weeks, with no additional benefit when assigning both treatments together.42,43 Meanwhile, Petersen et al. (RCT=156) compared supervised physiotherapy with and without patellar brace, finding improvement in both groups at 6 and 12 weeks and with better results for bracing in some of the KOOS subscales, in the Kujala score, climbing stairs and playing sports. This difference between groups diminished at the 1 year follow-up.42,43 However, there is conflicting evidence regarding this treatment.15

Recommendation B: Patellar bracing is a useful treatment or coadjuvant in the short-term management of patients with PFPS.

Sanchis-Alfonso et al. wrote that patients with anterior knee pain are at high risk of receiving surgical treatment with little or no scientific basis simply because it is a musculoskeletal pathologic entity with poorly understood etiopathogenesis.44 Surgery may be performed with minimally invasive procedures, such as peripatellar synovectomy or resection of synovial hypertrophy around the inferior pole of the patella, while open surgeries include rotational osteotomies or tibial tuberosity osteotomies. It is also important to establish whether patellofemoral pain is secondary to instability, which might require a different surgical treatment approach.

In 2007, Kettunen et al. conducted an RCT study in 56 patients comparing the effectiveness of surgery plus 8-week physical rehabilitation compared to 8-week physical rehabilitation alone.10 Arthroscopic surgery included resection of medial plicae, abrasion of chondral lesions and shaving inflamed synovium. They found that surgery did not add a benefit to conservative treatment at the 9-month follow-up. Furthermore, the authors followed the study subjects over a 5-year period, at the end of which they produced another research paper in which the initial conclusion that surgery was no better than exercise in PFPS was confirmed.11 Meanwhile, Dannawi et al. reported in their case series (n=32) that, in patients with PFPS with extensor mechanism malalignment, Elmslie-Trillat osteotomy showed poor clinical results.45

Other sources of pain that could benefit from surgery should be explored with a complete physical exam and with appropriate imaging. Patients with patellar maltracking owing to an increased TT-TG distance can benefit from a tibial tubercle osteotomy (TTO), as shown by Tigchelaar et al. in a case series of thirty patients with patellofemoral pain.46 In that study, patients with a TT-TG distance ≥ 15mm were subjected to TTO, showing that both pain and function improved significantly after a 10-year follow-up.

Increased patellar tilt is also related to PFPS, as it increases the pressure on the lateral facet, subjecting it to increased wear and tear. This condition can be addressed with either lateral retinacular release (LRR) or lateral retinacular lengthening (LRL) surgery. Pagenstert et al. ran an RCT study in 2012 to compare the outcomes of fourteen patients who underwent LRR surgery against fourteen patients who were subjected to LRL surgery.47 After a 2-year follow-up, the authors concluded that the lengthening surgery group experienced better clinical and anatomical outcomes than the release group. Furthermore, 5 patients in the lateral release group had medial subluxation in comparison with no cases in the lengthening group. This paper suggests that lengthening the lateral retinaculum is a superior surgical option for PFPS patients with increased patellar tilt.

Derotational osteotomies have been studied when there is an association between pain and increased femoral anteversion or external tibial torsion. Imhoff et al. showed a case report of a patient with PFPS and patellar instability who was treated successfully with distal femoral derotation.48 Stevens et al. found in their case series that sixteen patients who underwent knee surgery before torsion were recognized and subsequently treated by means of rotational osteotomy of the tibia and/or femur, significantly improving pain at the 59-month follow-up.49 Manilov et al. studied sixty knees requiring high tibial derotation osteotomy because of PFPS associated with increased external tibial torsion (>30°) in their case series, finding significant improvement in functional scores and pain in a mean 66-month follow-up.50 However, these were case series studies without a comparison group.

Recommendation B: Lateral retinacular lengthening can be indicated in patients with PFPS associated with increased patellar tilt and poor response to conservative treatment.

Recommendation C: Denotational osteotomies may be useful to treat PFPS when rotational deformities are present, with no response to conservative treatment.