This is the third edition of a well-received book that reflects the state of the art in External Skeletal Fixation Using the Ilizarov and Other Devices. The unique feature of this book is its combination of Ilizarov, Arbeitsgemeinschaft für Osteosynthesefragen/Orthopedic Trauma Association (AO/OTA), and Limb Lengthening and Reconstruction Surgery (LLRS) principles, which will allow it to meet the needs of a broader community. Thus, its goal is to provide orthopedic surgeons at all levels, from zero to master level, of training and experience with a tabletop guide offering comprehensive information on the use of external fixation and combined techniques to treat patients with injuries, the consequences of fractures, and orthopedic pathologies.
Chapter
1. External Fixation Basic Concepts: Introduction.
Chapter
2.
Short Historical Background.
Chapter
3. External Fixation Main Terminology.-
Chapter
4. Spectrum of External Fixation.
Chapter
5. Basic Science of
Fracture Healing.
Chapter
6. Basic Science of Distraction Osteogenesis.-
Chapter
7. Features of distraction osteogenesis in combined and sequential
use of external fixation and nailing.
Chapter
8. Comprehensive designation
of external fixation.
Chapter
9. Biomechanical principles of external
fixation: bone components.
Chapter
10. Biomechanical principles of external
fixation: bone fragment reduction.
Chapter
11. Biomechanical principles of
external fixation: bone fragment fixation.
Chapter
12. Biomechanical
principles of external fixation: mutual contradictions.
Chapter
13. Atlas of
safe zones and optimal positions: principles for development and usage.-
Chapter
14. Atlas of safe zones and optimal positions: upper arm.
Chapter
15. Atlas of safe zones and optimal positions: ulna.
Chapter
16. Atlas of
safe zones and optimal positions: radius.
Chapter
17. Atlas of safe zones
and optimal positions: femur.
Chapter
18. Atlas of safe zones and optimal
positions: lower leg.
Chapter
19. Atlas of safe zones and optimal positions:
foot.
Chapter
20. Atlas of safe zones: pelvis.
Chapter
21. Equipment and
Instruments for Tubular Frame Construction.
Chapter
22. Techniques used for
tubular frame construction.
Chapter
23. Equipment and instruments for ring
frame construction.
Chapter
24. Techniques used in the ring frame mounting.-
Chapter
25. Bases of preoperative preparation and X-ray examination.
Chapter
26. Postsurgical Management.
Chapter
27. Complications and Solutions.-
Chapter
28. External Fixation for Acute Trauma: Introduction.
Chapter
29.
External fixation assisted nailing and plating in fractures treatment.-
Chapter
30. External fixation assisted nailing in periprostetic femoral
fractures.
Chapter
31. Principles of tubular frames construction and
mounting.
Chapter
32. Tubular frame for temporary fixation: long bones.-
Chapter
33. Tubular frames for temporary fixation: large joints and pelvis.-
Chapter
34. Principles of ring frames for temporary fixation construction and
mounting.
Chapter
35. Ring frame for temporary fixation: long bones.-
Chapter
36. Ring frame for temporary fixation: large joints and pelvis.-
Chapter
37. Transition from temporary external fixation to definitive
internal or external fixation in fractures.
Chapter
38. Principles of
classic ring frame construction for fracture reduction and definitive
fixation.
Chapter
39. Principles of MT-based ring frame construction for
fractures reduction and definitive fixation.
Chapter
40. Mounting principles
of ring frames for reduction and definitive fixation of fractures.
Chapter
41. Ring fixator for definitive fracture fixation: upper arm.
Chapter
42.
Ring fixator for definitive fractures fixation: forearm.
Chapter
43.
External fixation in hand injury.
Chapter
44. Ring fixator for definitive
fracture fixation: femur, general data.
Chapter
45. Ring fixator for
definitive fracture fixation: proximal femur fractures.
Chapter
46. Ring
fixator for definitive fracture fixation: femur shaft fractures.
Chapter
47.
Ring fixator for definitive fracture fixation: Femur distal part.
Chapter
48. Ring fixator for definitive fracture fixation: tibia and fibula, general
data.
Chapter
49. Ring fixator for definitive fracture fixation: tibia and
fibula proximal part.
Chapter
50. Ring fixator for definitive fracture
fixation: tibia and fibula shaft.
Chapter
51. Ring fixator for definitive
fracture fixation: tibia and fibula distal part.
Chapter
52. Ring fixator
for definitive fracture fixation: foot.
Chapter
53. External fixation for
open fractures and severe soft tissue injuries: general principles.
Chapter
54. Acute shortening and artificial deformity creation in treatment of
fractures with large soft tissue defect.
Chapter
55. Open Fracture
Management Using Ilizarov Apparatus Combined with Flap Surgery.
Chapter
56.
External fixation in children and adolescents at acute trauma.
Chapter
57.
External Fixation in deformity correction: Introduction.
Chapter
58. Lower
limb Reference Lines and Angles.
Chapter
59. X-ray analysis: Is there a
deformation or not?.
Chapter
60. Basics of planning long bone deformity
correction.
Chapter
61. Peculiarities of lower limb deformity correction
planning - frontal plane.
Chapter
62. Peculiarities of lower limb deformity
correction planning in sagittal plane.
Chapter
63. Oblique, bi-planar,
torsion, and multi-apex deformities: features of correction planning.-
Chapter
64. Upper arm and forearm deformities correction planning
consideration.
Chapter
65. Unified reduction units for acute and gradual
deformity correction.
Chapter
66. External fixation assisted nailing/plating
in acute deformity correction.
Chapter
67. Principles of ring frame
construction for long bones deformity correction and definitive fixation.-
Chapter
68. Principles of ring frame mounting for deformity correction and
definitive fixation.
Chapter
69. Features of the ring frame for deformity
correction: Femur.
Chapter
70. Features of frame construction for the
deformity correction: Lower leg.
Chapter
71. Features of frame construction
for the deformity correction: Upper arm.
Chapter
72. Humeral deformity
correction and lengthening.
Chapter
73. Features of frame construction for
the deformity correction: Forearm.
Chapter
74. Lengthening over the nail and
along the plate.
Chapter
75. Sequential external fixation and
nailing/plating in deformity correction.
Chapter
76. Conventional Ilizarov
and integrated techniques vs. internal distractors in deformity correction
and bone transport.
Chapter
77. Aesthetic Correction of the Lower
Extremities: General Information.
Chapter
78. Shape of the Legs Correction.-
Chapter
79. Aesthetic limb lengthening.
Chapter
80. External fixation in
spinal deformities surgery.
Chapter
81. External fixation in pelvic
post-traumatic deformities.
Chapter
82. Considerations for hand lengthening
and deformity correction.
Chapter
83. Phalangeal and Metacarpal Lengthening
and Then Plating technique.
Chapter
84. Foot deformity correction: general
principles.
Chapter
85. Midfoot and hindfoot deformity correction planning.-
Chapter
86. Midfoot and hindfoot deformity correction with Ilizarov hinges.-
Chapter
87. Ankle, midfoot and hindfoot deformity correction using foot
joints fusion.
Chapter
88. External Fixation for Charcot Neuroarthropathy of
the Foot and Ankle.
Chapter
89. Non-unions and defects: Introduction.-
Chapter
90. Universal Long Bone Nonunion Classification.
Chapter
91.
Universal Long Bone Defect Classification.
Chapter
92. External fixation in
long bone non-unions.
Chapter
93. Cross-wire bone transport: frame
construction principles.
Chapter
94. Cross-wire bone transport: frame
mounting principles.
Chapter
95. Oblique-wire and cable bone transport:
frame construction principles.
Chapter
96. Oblique-wire and cable bone
transport: frame mounting principles.
Chapter
97. Splint and transverse
fibula bone transport.
Chapter
98. Bone transport over the nail and along
the plate.
Chapter
99. Combined strained fixation in long bone defect
treatment.
Chapter
100. External fixation in knee joint bone defects:
Introduction.
Chapter
101. Knee joint fusion.
Chapter
102. Reconstructions
in knee joint bone defects.
Chapter
103. Reconstructions in long bone tumor
treatment.
Chapter
104. Lower limb deformity correction in children and
adolescents: general data.
Chapter
105. Posttraumatic Deformities in
Children and Adolescents.
Chapter
106. External Fixation and Integrated
Techniques in the Treatment of Blount's Disease.
Chapter
107. Multiple
Osteochondromatosis Disease: Treatment with external fixation.
Chapter
108.
Enchondromatosis Disease: Treatment with external fixation.
Chapter
109.
Radial club hand.
Chapter
110. Congenital Pseudarthrosis of the Tibia.-
Chapter
111. Treatment of Congenital Femoral Deficiency.
Chapter
112.
Fibular Hemimelia.
Chapter
113. Reconstruction surgery for achondroplasia.-
Chapter
114. Hip reconstruction in the treatment of developmental hip
dysplasia.
Chapter
115. External fixation in large joint pathology:
Introduction.
Chapter
116. Principles of ring frame construction for large
joint pathology.
Chapter
117. Principles of ring frame for large joint
pathology mounting.
Chapter
118. Hip distraction.
Chapter
119. Ilizarov
Pelvic Support Osteotomy.
Chapter
120. Femur Lowering Before Hip
Replacement.
Chapter
121. Hip pre-prosthetic and periprosthetic
deformities.
Chapter
122. Hip arthroplasty after Ilizarov Pelvic Support
Osteotomy.
Chapter
123. Hip fusion.
Chapter
124. Osteotomies around the
knee.
Chapter
125. Intra-articular corrective osteotomies combined with the
Ilizarov technique for the treatment of deformities of the knee.
Chapter
126. Knee pre-prosthetic and peri-prosthetic deformities - Implications for
Arthroplasty.
Chapter
127. External fixation in knee joint contracture
treatment.
Chapter
128. Ankle & Subtalar Joint Distraction Arthroplasty, and
Supramalleolar osteotomy.
Chapter
129. External fixation in elbow and wrist
pathology.
Chapter
130. Orthopedic hexapods: principles, history, and
indications.
Chapter
131. Ortho-SUV Frame hardware.
Chapter
132. Ortho-SUV
Frame software.
Chapter
133. Ortho-SUV Frame in long bone deformity
correction.
Chapter
134. Ortho-SUV Frame hex: "spring technique" in
multi-apex deformity correction.
Chapter
135. Ortho-SUV Frame in midfoot and
hindfoot deformity correction.
Chapter
136. Orthopedic hexapod in knee joint
stiffness and dislocations treatment.
Chapter
137. Orthopedic hexapod in
ankle joint stiffness and dislocations treatment.
Chapter
138. Hex-base
lengthening over the nail and bone transport over the nail.
Leonid Nikolaevich Solomin, after graduating with honors from the Blagoveshchensk State Medical University in 1986, specialized in traumatology and orthopedics. Since 2000 he has been a leading researcher and Orthopedic Surgeon at Vreden National Medical Research Center of Traumatology and Orthopedics (St. Petersburg, Russia). His focus is on the development, perfection, substantiation and clinical application of external and combined fixation in fractures, non-unions, deformations, defects of the long bones and foot, including congenital and infection problems, and limb lengthening and reconstruction. He is honorable Professor of Russian Ilizarov Scientific Center Restorative Traumatology and Orthopedics (Kurgan, Russia), and a member of ASAMI International, ASAMI Russia, AO/OTA.
