BookHarzem Özger, Franklin H. Sim, Ajay Puri, Levent Eralp, editors.
Summary: This atlas presents a collection of richly illustrated teaching cases. It covers the fundamentals of orthopedic oncology complemented with relevant aspects that are demonstrated using individual cases. In a specialty that deals with a relatively smaller number of cases compared to tumors of other systems, this atlas prepares readers for clinical practice by combining a problem-based learning (PBL) approach, which lies on the continuum between structured and guided learning, with theory and practical insights. The book is divided into sections, arranged according to anatomical regions and the reconstruction type. Each section focuses on a specific anatomical region, and each case presentation includes the basic clinical history, basic principles, preoperative, perioperative and radiographic images, a pitfall list, treatment strategy, technical pearls, outcomes and complications. For each region the authors discuss both the biological and non-biological reconstruction techniques. The book is designed to actively involve the reader, making it an invaluable tool for all orthopedic surgeons confronted with oncologic surgery. The book is intended for trainees in orthopedics, orthopedic oncology fellows as well as practicing consultants.
Contents:
Part 1: Philosophy of limb salvage surgery.-1. When and why biological/ implant reconstruction?
Part 2: Mobile Spine
2. Biological reconstruction using frozen autograft in total en bloc spondylectomy for spinal tumors.-3. Implant Reconstruction of the Mobile Spine
Part 3: Sacrum
4. Biological Sacral Reconstruction
5. Total Sacrectomy without Spinopelvic Reconstruction
6. Implant Reconstruction of the Sacrum: modular sacrum prosthesis
Part 4: Pelvis.-7. Biological Reconstruction of the Pelvis I: liquid nitrogen treated autograft & onlaid free vascular fibula
8. Biological Reconstruction of the Pelvis - II: femoral head plus total hip replacement
9. Implant Reconstruction of the Pelvis - I: modular hemipelvic prosthesis
10. Implant Reconstruction of the Pelvis II: modular pedestal cup prosthesis.-11. Implant Reconstruction of the Pelvis III: high acetabular placement & prosthetic femoral extension.-12. Implant Reconstruction of the Pelvis - IV: 3D-printed custom-made prosthesis
Part 5: Proximal femur.-13. Biological Reconstruction of the Proximal Femur With extracorporeally irradiated autograft.-14. Implant Reconstruction of the Proximal Femur: Modular Prosthesis.-15. Prosthetic reconstruction for soft tissue sarcomas with bone involvement
Part 6: Femoral diaphysis.-16. Biological Reconstruction of the Femoral Diaphysis: Van Nes rotationplasty.-17. Implant Reconstruction of the Femoral Diaphysis - I: intercalary femur prosthesis.-18. Implant Reconstruction of the Femoral Diaphysis - II: short-segment dynamic-compression stem.-19. Implant Reconstruction of the Femoral Diaphysis - III: percutaneous ossoeintegrated prosthesis
Part 7: Distal femur.-20. Biological Reconstruction of the Distal Femur - I: massive allograft & inlaid free vascular fibula
21. Biological Reconstruction of the Distal Femur - II: resurfacing allograft-prosthesis composite.-2 2. Biological Reconstruction of the Distal Femur III: liquid nitrogen treated autograft & inlaid free vascular fibula (the "frozen hotdog")
23. Implant Reconstruction of the Distal Femur - I: modular prosthesis
24. Implant Reconstruction of the Distal Femur - II: joint-preserving resection & reconstruction with image-guided computer navigation
25. Implant Reconstruction of the Distal Femur - III: expandable prosthesis.-26. Implant Reconstruction of the Distal Femur - IV: prosthesis revision
Part 8: Proximal tibia
27. Biological Reconstruction of the Proximal Shaft of Tibia - I: Pedicle frozen autograft
28. Biological Reconstruction of the Proximal Tibia II: Distraction-Epiphysiolysis before resection of the tumor
29. Implant Reconstruction of the Proximal Tibia: modular prosthesis rotational gastrocnemius flap.-Part 9: Tibial diaphysis and ankle
30. Biological Reconstruction of the Tibial Diaphysis & Ankle - I: Ilizarov technique
31. Biological Reconstruction of the Tibial Diaphysis & Ankle - II: fibular centralization technique.-32. Biological Reconstruction of the Tibial Diaphysis & Ankle - III: arthrodesis with massive allograft.-33. Implant Reconstruction of the Tibial Diaphysis & Ankle: 3D-printed custom-made prosthesis
Part 10: Foot
34. Biological Reconstruction of the Foot free vascular iliac flap
35. Implant Reconstruction of the Foot 3D-printed custom-made prosthesis
Part 11: Shoulder girdle
36. Biological Reconstruction of the Shoulder Girdle - scapular massive allograft
37. Implant Reconstruction of the Shoulder Girdle: scapular prosthesis.-Part 12: Proximal humerus
38. Proximal Humerus, Biological Reconstruction
39. Claviculo-Pro-Humero reconstruction following proximal humeral resection for sarcoma
40. Biological Reconstruction of the Proximal Humerus - III massive allograft & inlaid free vascular fibula with epiphyseal transfer
41. Implant Reconstruction of the Proximal Humerus
42. Implant Reconstruction of the Proximal Humerus - II: reverse prosthesis
Part 13: Humeral diaphysis
43. Biological Reconstruction of the Humeral Diaphysis: irradiated autograft
44. Implant Reconstruction of the Humeral Diaphysis: total humerus prosthesis
Part 14: Distal humerus & elbow
45. Implant Reconstruction of the Distal Humerus & Elbow - modular prosthesis
Part 15: Forearm, wrist & hand
46. Biological Reconstruction of the Forearm, Wrist & Hand - I: free vascular fibula
47. Biological Reconstruction of the Forearm, Wrist & Hand - II: transposition of the distal ulna
48. Implant Reconstruction of the forearm, wrist, and hand Distal Radius Endoprosthesis
Part 16: Complications of orthopedic oncologic reconstructions
49. Biological
50. Implant.