Conservative management for Bone Marrow Edema, Early stages of SONK (and PEMF)Bone Marrow Edema (BME) and Spontaneous Osteonecrosis of the Knee (SONK) can severely affect mobility and quality of life, but non-invasive treatments offer hope. Among these, Pulsed Electromagnetic Field (PEMF) therapy stands out, with Igea Medical spearheading its accessibility. BME, often caused by overuse or inflammation, leads to pain and…Bone Marrow Edema (BME) and Spontaneous Osteonecrosis of the Knee (SONK) can severely affect mobility and quality of life, but non-invasive treatments offer hope. Among these, Pulsed Electromagnetic Field (PEMF) therapy stands out, with Igea Medical spearheading its accessibility. BME, often caused by overuse or inflammation, leads to pain and swelling, while SONK results from impaired blood supply, causing bone collapse. Early intervention is crucial to prevent progression. PEMF therapy aids in cellular repair and tissue regeneration, reducing pain and enhancing healing without surgery. Igea Medical's innovative devices provide portable, effective PEMF solutions, backed by clinical research, for managing these orthopaedic conditions. When combined with traditional treatments like physical therapy and medication, PEMF therapy can accelerate recovery and improve joint function. By opting for this non-invasive therapy, patients can potentially avoid surgeries, embracing a gentle, effecti
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Rethinking Microfracture Surgery in Modern Orthopaedics: Perspectives for Cartilage RepairDiscover the ongoing debate surrounding microfracture surgery as a technique for cartilage repair in orthopaedic medicine. As advanced methodologies emerge, such as Autologous Chondrocyte Implantation (ACI) and Matrix-Induced Autologous Chondrocyte Implantation (MACI), the relevance of microfracture comes under scrutiny. Although it may still be appropriate for patients with small cartilage…Discover the ongoing debate surrounding microfracture surgery as a technique for cartilage repair in orthopaedic medicine. As advanced methodologies emerge, such as Autologous Chondrocyte Implantation (ACI) and Matrix-Induced Autologous Chondrocyte Implantation (MACI), the relevance of microfracture comes under scrutiny. Although it may still be appropriate for patients with small cartilage defects, concerns over long-term efficacy and durability limit its applicability. With rapid advancements in regenerative medicine, stem cell therapies and scaffold-based approaches offer promising alternatives. Ultimately, patient-specific factors should guide the decision-making process, and ongoing research is necessary to define microfracture's role in modern orthopaedic surgery.
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Microfracture in Cartilage Repair: Efficacy, Adverse Outcomes, and Clinical ControversiesMicrofracture Technique: Limitations and Concerns. This article discusses the limitations and potential adverse outcomes associated with the microfracture technique used for cartilage repair. Concerns include subchondral bone overgrowth, formation of less durable fibrocartilage instead of hyaline cartilage, and the lack of long-term durability. Other limitations include the technique's suitability for…Microfracture Technique: Limitations and Concerns. This article discusses the limitations and potential adverse outcomes associated with the microfracture technique used for cartilage repair. Concerns include subchondral bone overgrowth, formation of less durable fibrocartilage instead of hyaline cartilage, and the lack of long-term durability. Other limitations include the technique's suitability for large lesions, the formation of granulation tissue and subchondral cysts, and the need for extended rehabilitation. These factors raise concerns about the efficacy and long-term outcomes of microfracture as a sole treatment for cartilage defects.
