Pathohistological investigation of osteochondral tissue obtained during total knee arthroplasty after osteochondral autologous transfer: a case report

Background Osteochondral autologous transfer is one of the repair techniques for cartilage defects of knee with promising knee function recovery. There are no reports including histopathological images concerning human osteochondral tissue after osteochondral autologous transfer. This is the first report to present pathohistological findings of transplanted plugs and host tissues extracted from the human body 3 years after osteochondral autologous transfer. This study aimed to explore the cause factor of chronic pain using histological techniques. Case presentation A 67-year-old Japanese man presented with adjusted total knee arthroplasty 3 years after osteochondral autologous transfer. Although in pain, arthroscopic assessment was not severe. The specimens which was gained during total knee arthroplasty were investigated in gross and microscopically using immunohistochemical staining technic. Histological examination revealed that the gap between grafted plugs and host osteochondral tissues was filled with fibrous tissue that stained positive for type I collagen. A degenerative change and some neovascularity were observed in the regenerated tissue and host trabecular bone. Furthermore, cysts and bone marrow edema were observed. Conclusion Our data suggests that the host osteochondral morbidity around grafted plugs might be related to chronical pain and revision surgery.


Background
Osteochondral autologous transfer (OAT) is a repair technique for cartilage defects with good prognosis [1,2]. There have been numerous reports about clinical outcomes after OAT in humans [1][2][3][4][5], and concerning the histopathology in animal models [6][7][8][9]. In contrast, there have been few reports about the histopathology and morbidity of the implanted plugs in humans due to ethical reasons. The purpose of this study was to histologically explore the factors leading to chronic pain and revision surgery after OAT. Histological signs would provide information that cannot be obtained by surface observations, which would be helpful in understanding the pathology and in improving the operative technique (Approval an ethics panel no: Kyoto University C186).

Case presentation
A 67-year-old Japanese man (body mass index, BMI = 27.7) presented to the hospital with right knee pain diagnosed as spontaneous osteonecrosis of the knee and was treated conservatively. Three years later, OAT was performed because of increased pain and cyst formation observed in the subchondral area by magnetic Full list of author information is available at the end of the article resonance imaging. Before OAT, T2-weighted images showed a wide area of low intensity in the right medial femoral condyle (MFC) that reached the bone marrow region (Fig. 1A, B); the Lysholm score was 49/100. The degenerated region measured 25 × 20 mm in the weight-bearing area of the MFC and was considered a defect after OAT. A total of three grafts, 10 mm or 6 mm in diameter with a depth 16 mm, were harvested from the non-weight-bearing portion of the patella groove and were transferred to the defect area. At 1.5 years after OAT, we confirmed that the International Cartilage Repair Society score was grade II and the Lysholm score was 85/100, although the pain remained a little. Total knee arthroplasty (TKA) was performed 3 years after OAT because of chronic and intense pain. T2-weighted images showed a wide range of osteonecrosis with high  (Fig. 1C, D). Two parts of osteochondral tissue were isolated so that they could be discarded during TKA; the osteochondral tissue containing implanted plugs ( Fig. 2A) and the host trabecular bone located deeper than the engrafted tissue. Isolated tissues were observed macroscopically, fixed, decalcified, and embedded in paraffin. Then, 6-μm sections were stained with hematoxylin-eosin (H-E) and safranin-O (SO). The expressions of type I and type II collagen and vascular endothelial growth factor (VEGF) were analyzed immunohistochemically. We also investigated a comparative control tissue extracted from the normal area of a middle-aged man who underwent TKA.
On macroscopic observation, the tissue of our patient was filled with regenerated tissue among all plugs and host tissue. The surface was almost smooth ( Fig. 2A). On microscopic observation, strong SO staining was observed in the engrafted plug, host cartilage, and control tissue (Fig. 2B). The gap between plugs is usually filled with regenerated fibrous tissue with less SO and type II collagen staining intensity. Instead, type I collagen staining intensity was denser than that for the plug, host cartilage, or control tissue (Fig. 3). There were some cracks in the regenerated fibrous tissue that reached the bone marrow region. Bone marrow edema (BME) or cyst formation within the microvasculature was confirmed mostly in the bone marrow region and these findings were not observed in control tissue (Fig. 2B). Neovascularity indicated by VEGF staining was frequently observed in subchondral area connected to the bone marrow spaces and deep subchondral area in the plug and in the host trabecular bone near the BME (Fig. 4).

Discussion
Some systematic reviews of OAT have reported that risk factors for failure are age <30 years, two or more previous surgeries, and defect area >4-5 cm 2 [1,10]. Enabling a better healing capability of the young may lead to a better prognosis after OAT [4]. Aging and being overweight are also important risk factors for osteochondral complex degeneration such as osteoarthritis [11]. Being male and overweight (as indicated by BMI) to be the cause of OAT failure in our patient might be speculation; the influence of gender and BMI on OAT outcome is not clear [12].
In this study, we observed osteochondral plugs and host tissue obtained from a patient with spontaneous osteonecrosis diagnosed before OAT surgery. Some cracks reached the subchondral bone in the regenerated fibrocartilage; nevertheless, it was filled with regenerated tissue on macroscopic and arthroscopic observations. Furthermore, BME existed at the subchondral bone and host trabecular bone. A study regarding osteonecrosis reported that osteoporotic bone is more susceptible to microfracture and could be induced by increased or repeated stress in the subchondral bone plate and around the tissue [13]. Microfractures lead to fluid accumulation [14] and intraosseous edema, which cause increased pressure within the marrow cavity and increased vascular compromise of the subchondral bone or worsening of edema, finally resulting in necrosis or cyst [13]. The underlying marrow is rich in nociceptive fibers [15], explaining the close relationship between BME and intraosseous hypertension with pain [16,17]. The instability of the morbid region created abnormal mechanical stress, thus producing catabolic pathways in an osteochondral complex [11,18]. It is suggested that the existence of a morbid region weakened by mechanical stress in host osteochondral tissue affects cyst and BME formation, leading to the patient's chronic intense pain.

Conclusion
This study showed the pathohistological findings of transplanted plugs and host tissues extracted from the human body 3 years after OAT. The large extent of the degenerated host area might cause deterioration in the transplanted and regenerative osteochondral tissue, and chronic pain, leading to revision surgery. There is a possibility that removal of the morbid host region and partial bone remodeling could lead to good functional outcomes.