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Practical Guide to Equine Radiography [Kõva köide]

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  • Formaat: Hardback, 228 pages, kõrgus x laius x paksus: 297x210x18 mm, kaal: 1103 g, 325 colour pictures
  • Ilmumisaeg: 05-Feb-2019
  • Kirjastus: 5M Books Ltd
  • ISBN-10: 1789180147
  • ISBN-13: 9781789180145
Teised raamatud teemal:
Practical Guide to Equine RadiographySuurem pilt
  • Formaat: Hardback, 228 pages, kõrgus x laius x paksus: 297x210x18 mm, kaal: 1103 g, 325 colour pictures
  • Ilmumisaeg: 05-Feb-2019
  • Kirjastus: 5M Books Ltd
  • ISBN-10: 1789180147
  • ISBN-13: 9781789180145
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781789180145.html
Märksõnad:
A Practical Guide to Equine Radiography is designed to accompany the clinical veterinarian either within a hospital setting or out in the field. The book offers an informative step-by-step guide to obtaining high quality radiographs with a focus on image quality, accuracy, consistency and safety. General principles and equipment are covered before working through the anatomy of the horse with separate chapters devoted to each body region, providing a thorough and detailed picture of the skeletal structure of the horse, making the book an ideal reference for professionals involved with horse health and disease.





Features provided in the book will guide the veterinarian through the stages of taking and interpreting normal radiographs and include:





·     Clinical indications of radiographic areas of interest in the horse





·     Equipment required





·     Preparation and setup guides, supported by photographs





·     Projections focusing on radiographic areas of interest, aided by photographs





·     x-rays presented with detailed labels, providing a close-up view of skeletal structures





·     Three dimensional images demonstrating normal anatomy





A Practical Guide to Equine Radiography is an essential tool for equine practitioners, veterinary students and para-professionals.
List of figures
ix
About the authors xvii
1 How to get the most from your X-ray system
1(4)
2 X-ray equipment and radiation safety in equine practice
5(6)
3 Image quality: how do we assess image quality and what can we do to get the best possible image?
11(6)
4 Foot
17(16)
LM (Figs 4.2-4.8)
19(3)
DPa (Figs 4.9-4.12)
22(2)
DPr-PaDiO (Figs 4.13-4.20)
24(4)
PaPr-PaDiO (Figs 4.21-4.24)
28(2)
D45L-PaMO and D45M-PaLO (Figs 4.25-4.28)
30(3)
5 Pastern
33(8)
LM (Figs 5.1-5.4)
34(2)
DPa (Figs 5.5-5.8)
36(2)
D45L-PaMO and D45M-PaLO (Figs 5.9-5.12)
38(3)
6 Fetlock
41(20)
LM (Figs 6.1-6.4)
42(2)
DPa (Figs 6.5-6.8)
44(2)
D45L-PaMO and D45M-PaLO (Figs 6.9-6.12)
46(2)
Flexed LM (Figs 6.13-6.16)
48(2)
DPr-DDiO (Figs 6.17-6.20)
50(2)
PaPr-PaDiO (Figs 6.21-6.24)
52(2)
Pr45L-DiMO and Pr45M-DiLO (Figs 6.25-6.28)
54(2)
D45Pr45L-PaDiM0 and D45Pr45M-PaDiLO (Figs 6.29 and 6.30)
56(1)
D30Pr70L-PaDiMO and D30Pr70M-PaDiLO (Figs 6.31 and 6.32)
57(1)
Flexed DPa (Figs 6.33 and 6.34)
58(1)
DDi-PaPrO (Figs 6.35 and 6.36)
59(2)
7 Metacarpus and metatarsus
61(8)
LM (Figs 7.1-7.4)
62(2)
DPa (Figs 7.5-7.8)
64(2)
D45L-PaMO and D45M-PaLO (Figs 7.9-7.12)
66(3)
8 Carpus
69(18)
LM (Figs 8.1-8.4)
70(2)
DPa (Figs 8.5-8.8)
72(2)
D45L-PaM0 (Figs 8.9-8.12)
74(2)
D45M-PaLO and Pa45L-DMO (Figs 8.13-8.16)
76(2)
Flexed LM (Figs 8.17-8.20)
78(2)
D85Pr-DDiO (Figs 8.21-8.24)
80(2)
D55Pr-DDiO (Figs 8.25-8.28)
82(2)
D35Pr-DDiO (Figs 8.29-8.32)
84(3)
9 Elbow
87(8)
ML (Figs 9.1-9.4)
88(2)
CrCd (Figs 9.5-9.8)
90(2)
Cr45M-CdLO (Figs 9.9-9.12)
92(3)
10 Shoulder
95(8)
ML (Figs 10.1-10.4)
96(2)
Cr45M-CdLO (Figs 10.5-10.8)
98(2)
CrPr-CrDiO (Figs 10.9-10.12)
100(3)
11 Tarsus
103(14)
LM (Figs 11.1-11.4)
104(2)
DPI (Figs 11.5-11.8)
106(2)
D45L-PIMO (Figs 11.9-11.12)
108(2)
D45M-PILO or PI45L-DMO (Figs 11.13-11.16)
110(2)
Flexed LM (Figs 11.17-11.20)
112(2)
Flexed DPI (Figs 11.21-11.24)
114(3)
12 Stifle
117(12)
LM (Figs 12.1-12.4)
118(2)
CdCr (Figs 12.5-12.8)
120(2)
Cd60L-CrMO (Figs 12.9-12.12)
122(2)
Flexed LM (Figs 12.13-12.16)
124(2)
CrPr-CrDiO (Figs 12.17-12.20)
126(3)
13 Pelvis
129(8)
VD CA (Figs 13.1-13.4)
130(2)
CrV-CdDO (Figs 13.5-13.8)
132(2)
R30D-LVO and L30D-RVO (Figs 13.9-13.12)
134(3)
14 Head
137(24)
LL (Figs 14.1-14.9)
139(4)
DV (Figs 14.10-14.15)
143(3)
VD (Figs 14.16-14.18)
146(2)
Intraoral DV (Figs 14.19-14.21)
148(2)
Intraoral VD (Figs 14.22-14.24)
150(2)
R30D-LVO and L3OD-RVO (Figs 14.25-14.27)
152(2)
R45V-LDO and L45V-RDO (Figs 14.28-14.30)
154(2)
R15V-LDO and L15V-RDO (Figs 14.31 and 14.32)
156(1)
R10D-LVO and L10OD-RVO (Fig. 14.31)
156(2)
R35L5OV-CdDO (Figs 14.33-14.36)
158(3)
15 Cervical spine
161(12)
LL (Figs 15.1-15.13)
162(5)
VD (Figs 15.14-15.16)
167(2)
RV-LDO and LV-RDO (Figs 15.17-15.26)
169(4)
16 Back
173(18)
LL of the spinous processes (Figs 16.2-16.21)
175(7)
LL of the vertebral bodies (Figs 16.22-16.37)
182(6)
R2OV-LDO and L2OV-RDO (Figs 16.38-16.41)
188(3)
17 Thorax
191(12)
LL of the adult horse (Figs 17.1-17.9)
192(5)
LL of the foal (standing) (Figs 17.10-17.12)
197(2)
LL of the foal (recumbent) (Figs 17.13-17.15)
199(2)
VD (Figs 17.16-17.18)
201(2)
18 Abdomen
203(4)
LL of the adult horse (Figs 18.1-18.3)
204(2)
LL of the foal (Figs. 18.4 and 18.5)
206(1)
Index 207
Javier Lopez-Sanroman - DVM, PhD, Dipl. ECVS - is Associate Professor at the Department of Animal Medicine and Surgery at the Universidad Complutense in Madrid (Spain). Gabriel Manso-Diaz - DVM, MSc, PhD, MRCVS - works at the Veterinary Teaching Hospital from the Universidad Complutense in Madrid (Spain) and at the Equine Diagnostic Imaging Department at the Royal Veterinary College in London (UK). Renate Weller - Drvetmed, PhD, MScVetEd, FHEA, NTF, Dipl. ACVSMR, Dipl. ECVSMR, MRCVS - is Professor of Comparative Imaging and Biomechanics at the Royal Veterinary College in London (UK) and an internationally recognised expert in diagnostic imaging.