Pseudo-patella baja (PPB) describes narrowing of the distance between the patella and the tibia without shortening of the PT and occurs following Total Knee Arthroplasty (TKA), where the tibial prosthesis plus insert are thicker than the resected tibia. Soft tissue balancing is an important factor in the success of TKA, but if extensive may necessitate the use of thicker tibial inserts with the risk of creating a PPB. Patients who undergo extensive soft tissue releases during TKA, with resultant use of thicker tibial inserts will develop a PPB, with increased risk of patella pathology. 506 patients aged 40-90 years underwent 526 Kinemax TKAs, performed by 7 surgeons in 5 centres between 1999 and 2002. The extent of soft tissue releases and the thickness of tibial inserts were recorded. Pre- and post-operative lateral radiographs were measured by an independent observer, using the Caton-Deshamps method to assess patella position. The patients were assessed using the Oxford Knee Score and the American Knee Society Clinical Rating System, with a minimum follow-up of 12 months. 1. TKA surgery creates a Pseudo-Patella Baja. Excluding patients with a pre-operative patella baja, PPB was introduced into 26.7% of patients. (p=0.000). 2. The incidence of pseudo-patella baja increased with the extent of soft tissue release; Minimal, Moderate or Extensive. (p=0.000). 3. The incidence of pseudo-patella-baja increased with increases in insert thickness. Three groups were identified: Inserts 8 mm, inserts 10-12mm, and inserts 15-22 mm. (p=0.035). There was no correlation between the incidence of PPB and changes in clinical or functional outcome, as measured using the OKS and AKSS. Pseudo-patella baja occurs in 26% of all patients following TKA, and in 46% of patients in whom extensive soft tissue releases have been performed and/or large tibial inserts have been used. At 12 months, no detrimental outcomes were attributable to the incidence of pseudo-patella baja.
Indications for Total Knee Arthroplasty (TKA) include pain and disability. Correction of instability is essential to post operative outcome as instability is often a component of pre-operative functional disability, particularly in patients with valgus deformity. Soft tissue balancing is essential to the success of TKA. Anecdotally, patients with valgus deformity seemed to complain more of instability than pain. The aim of this study was to identify the role and significance of instability and determine whether patients with instability benefit more from TKA as it is useful to determine which patient characteristics will predict success in TKA. Five hundred and two patients aged 45–90 years underwent 522 Kinemax TKAs, performed by seven surgeons in five centres between October 1999 and December 2002. Soft tissue releases were recorded and objective soft tissue balance recorded using a ‘balancer’ device. Independent observers assessed patients using 3 outcome measures including the American Knee Society Score (AKSS) for a minimum of 12 months. Pre-operative alignment was divided into 6 groups according to the degree of varus or valgus deformity (mild, moderate, severe varus or valgus). Specific components of the AKSS including pain scores, knee scores and medio-lateral stability scores were specifically analyzed. There is a significant difference in the improvement of the knee scores between the severely valgus knees and all varus knees (ANOVA p=0.000). Significant differences were found between pre-operative pain scores, knee scores and medio-lateral stability between severely varus and severely valgus knees (ANOVA p=0.029, p=0.000 &
p=0.000 respectively). Knees with severe valgus deformities have significantly worse pre operative scores and show greater improvement with equivocal post-operative outcome, when compared to those with severe varus deformity. We believe that this significant improvement is due to the fact that both key issues in the severely deformed valgus knee, namely pain and instability, have been addressed.
Soft tissue balance is known to be an important factor for the success of Total Knee Arthroplasty (TKA). This is of particular relevance in the surgical management of a valgus knee which has both bony and soft tissue abnormalities which need addressing. The correction of instability, particularly in severely valgus knees is essential to post operative outcome as instability is often a component of pre-operative functional disability. Traditional surgical techniques involve soft tissue releases and bony cuts to achieve the correct balance. Evaluation of balance is currently based on subjective intra-operative clinical assessment, or the feel of the knee. More recently, an instrument to objectively measure soft tissue balance following bony cuts has been developed. Soft tissue releases using this instrument may be extensive. 502 patients aged 45–90 years underwent 522 Kine-max TKAs, performed by seven surgeons in five centres between October 1999 and December 2002. Soft tissue releases were recorded and objective soft tissue balance recorded using a balancer device. Independent observers assessed patients using 3 outcome measures for a minimum of 12 months. Pre-operative alignment was divided into 6 groups according to the degree of varus or valgus deformity (mild, moderate, severe varus or valgus). There is a significant difference in the improvement of the knee scores between the severely valgus knees and all varus knees (ANOVA p=0.000). Significant differences were found between pre-operative pain scores, knee scores and medio-lateral stability between severely varus and severely valgus knees (ANOVA p=0.029, p=0.000 &
p=0.000 respectively). Knees with severe valgus deformities have significantly worse pre operative scores and show greater improvement with equivocal post-operative outcome, when compared to those with severe varus deformity. In addition to pain relief, is the correction of instability the key to this improvement in this group of patients?
Soft tissue balancing is an important factor in the success outcome of TKA, but if extensive can necessitate the use of thicker tibial inserts. This may alter the position of the patella in relation to the tibia and increases the risk of creating a pseudo-patella baja.
TKA surgery creates a Pseudo-Patella Baja. Excluding patients with a pre-operative patella baja, pseudo patella baja was introduced into 25.6% of patients. (p=0.00). Extensive soft tissue releases during TKA are associated with a 100% increased in the incidence of pseudo patella baja compared to more moderate soft tissue releases. (p=0.002). The use of large tibial inserts is associated with a significant increase in the incidence of pseudo-patella-baja, compared to smaller inserts. Three groups were identified: Small Inserts 8 mm, Medium inserts 10–12mm, and Large inserts 15, 18 &
22 mm. (p=0.042). There was no correlation between the incidence of a pseudo-patella baja and changes in clinical or functional outcome, including range of motion, as measured using the OKS and AKSCRS.
TKA surgery creates a Pseudo-Patella Baja. PPB was introduced into 26.7% of patients. (p=0.000). The incidence of pseudo patella baja increased with the extent of soft tissue release. (p=0.000). The incidence of pseudo-patella-baja increased with increases in insert thickness. (p=0.035). There was no correlation between the incidence of PPB and changes in outcome, as measured using the OKS and AKSS.
Only patients with severe preoperative knee function showed deterioration in outcome measures from three years, all other patients maintained improvements.
We studied the influence of soft-tissue releases and soft-tissue balance on the outcome of 526 total knee replacements one year after operation. The surgery had been performed by seven surgeons in five centres in the United Kingdom between October 1999 and December 2002. Balancing was carried out by five surgeons using spacers and trials and by two surgeons using a ‘balancer’ instrument. All the surgeons assessed the adequacy of their releases by taking measurements with the balancer after soft-tissue release before implanting the components. Independent observers collected the Oxford knee scores and applied the American Knee Society functional and knee scores as well as recording the range of movement of the replaced knee. These were compared with the pre-operative scores and the extent of the releases. We found differences in outcomes between minimal and extensive releases and between balanced and imbalanced knees. Knees requiring extensive soft-tissue releases showed greater change in the short-term clinical outcome without increased complications and achieved similar results at one year compared with those with less deformity pre-operatively which had required less soft-tissue release. Balancing an imbalanced knee improved the short-term knee outcome.
Soft tissue balance is known to be an important factor for the success of Total Knee Arthroplasty (TKA). Traditional surgical techniques involve soft tissue releases and bony cuts to achieve the correct balance. Evaluation of balance is currently based on subjective intraoperative clinical assessment, or the “feel” of the knee. More recently, an instrument to objectively measure soft tissue balance following bony cuts has been developed. Soft tissues releases using this instrument may be extensive.
Soft tissue balance is known to be an important factor for the success of Total Knee Arthroplasty.Traditional surgical techniques involve soft tissue releases and bony cuts to achieve the correct balance. Evaluation of balance is currently based on subjective intra-operative clinical assessment, or the feel of the knee. More recently, an instrument to objectively measure soft tissue balance following bony cuts has been developed. Soft tissues releases using this instrument may be extensive.