Assessing acellular scaffold viability with T2-weighted relaxation time value imaging: imaging variables and early clinical associations at 6 months following patellofemoral cartilage repair

Abstract

ObjectiveThis study aims to describe novel MRI imaging characteristics using T2-weighted relaxation time values (T2RVs) for evaluating acellular graft status following cartilage repair, addressing the limitations identified in current imaging techniques. Materials and MethodsNine patients (11 lesions) underwent cartilage repair procedures for patellofemoral cartilage lesions. Visual Analogue Scales (VAS) for pain and Tegner scores for function were the primary clinical outcomes measures, with clinical failure defined as nil improvement of either score at follow-up. Radiological outcomes were MRI variables centered around evaluating two main domains – Graft Viability and Integration, with individual imaging characteristics being identified based on these two domains. ResultsAt six postoperative months, clinical success was observed in 89% (8) of the patients. On average, VAS decreased by 2.6 and Tegner improved by 1.9 points respectively, with just one patient experiencing no pain relief or functional improvement at follow-up. To evaluate the viability and integration of the implanted grafts, several pertinent MR variables were utilized, namely T2RV distribution and range, graft surface, matrix and edge characteristics, as well as subchondral bone characteristics. The singular graft failure identified on MRI displayed unique characteristics not identified on the other grafts - that of heterogeneously high T2RV signals within the graft with a discontinuous matrix. ConclusionsT2RV imaging offers a non-invasive method for evaluating cartilage graft viability and integration, potentially improving postoperative monitoring and patient outcomes. Despite promising results, limitations such as sample size and lack of long-term follow-up data need to be addressed in future studies.