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CHAPTER 5 References Aitken R.J., Buckingham D., West K., Wu F.C., Zikopoulos K., Richardson D.W. 1992. Differential contribution of leucocytes and spermatozoa to the generation of reactive oxygen species in the ejaculates of oligospermic patients and fertile donors. Journal of Reproduction and Fertility 94:451-462. Alvarenga M.A., Melo C.M., Magalhães L.C.O., Papa F.O. 2010. A new method to concentrate equine sperm. Animal Reproduction Science 121:186-187. Amann R.P., Pickett B.W. 1987. Principles of cryopreservation and a review of cryopreservation of stallion spermatozoa. Journal of Equine Veterinary Science 7:145-173. Aurich J.E., Kühne A., Hoppe H., Aurich C. 1996. Seminal plasma affects membrane integrity and motility of equine spermatozoa after cryopreservation. Theriogenology 46:791-797. Ball B.A., Vo A.T., Baumber J. 2001. Generation of reactive oxygen species by equine spermatozoa. American Journal of Veterinary Research 62:508-515. Baumber J., Vo A., Sabeur K., Ball B.A. 2002. Generation of reactive oxygen species by equine neutrophils and their effect on motility of equine spermatozoa. Theriogenology 57:1025- 1033. Baumber J., Ball B.A., Linfor J.J., Meyers S.A. 2003. Reactive oxygen species and cryopreservation promote DNA fragmentation in equine spermatozoa. Journal of Andrology 24:621-628. Brokaw C.J. 2002. Computer simulation of flagellar movement VIII: coordination of dynein by local curvature control can generate helical bending waves. Cell Motility and the Cytoskeleton 53:103-124. Bussallou E., Pinart E., Rivera M.M., Arias X., Briz M., Sancho S., Garía-Gil N., Bassols J., Pruneda A., Yeste M., Casas I., Rigau T., Rodriguez-Gil J.E., Bonet S. 2008. Effects of filtration of semen doses from subfertile boars through neuter Sephadex columns. Reproduction in Domestic Animals 43:48-52. Cochran J.D., Amann R.P., Froman D.P., Pickett B.W. 1984. Effects of centrifugation, glycerol level, cooling to 5°C, freezing rate and thawing rate on the post-thaw motility of equine sperm. Theriogenology 22:25-38. Contri A., Valorz C., Faustini M., Wegher L., Carluccio A. 2010. Effect of semen preparation on casa motility results in cryopreserved bull spermatozoa. Theriogenology 74:424-435. Cooper T.G., Yeung C.-H. 2006. Computer-aided evaluation of assessment of “grade a” spermatozoa by experienced technicians. Fertility and Sterility 85:220-224. Delhomme G., Vidament M., Ecot P., Decuadro-Hansen G. 2004. Evaluation of a cushioned centrifugation technique for processing equine semen for freezing. Proceedings of the 15 th International Congress on Animal Reproduction – Porto Seguro – Brazil Abstracts Vol 2:496. 196
CHAPTER 5 Dillon R.H., Fauci L.J., Omoto C., Yang X. 2007. Fluid dynamic models of flagellar and ciliary beating. Annals of the New York Academy of Sciences 1101:494-505. Ecot P., Decuadro-Hansen G., Delhomme G., Vidament M. 2005. Evaluation of a cushioned centrifugation technique for processing equine semen for freezing. Animal Reproduction Science 89:245-248. Flesch F.M., Gadella B.M. 2000. Dynamics of the mammalian sperm plasma membrane in the process of fertilization. Biochimica et Biophysica Acta 1469:197-235. Gaddum-Rosse P. 1981. Some observations on sperm transport through the uterotubal junction of the rat. American Journal of Anatomy 160:333-341. Gadella B.M., Gadella T.W. Jr., Colenbrander B., van Golde L.M., Lopez-Cardozo M. 1994. Visualization and quantification of glycolipid polarity dynamics in the plasma membrane of the mammalian spermatozoon. Journal of Cell Science 107:2151-2163. Ho H.-C., Suarez S.S. 2001. Hyperactivation of mammalian spermatozoa: fuction and regulation. Reproduction 122:519-526. Hoflack G., Rijsselaere T., Maes D., Dewulf J., Opsomer G., de Kruif A., Van Soom A. 2005. Validation and usefulness of the Sperm Quality Analyzer (SQA II-C) for bull semen analysis. Reproduction in Domestic Animals 40:237-244. Hoogewijs M., De Vliegher S., De Schauwer C., Govaere J., Smis K., Hoflack G., de Kruif A., Van Soom A. 2010a. Validation and usefulness of the Sperm Quality Analyzer V equine for equine semen analysis. Theriogenology in press. Hoogewijs M., Rijsselaere T., De Vliegher S., Vanhaesebrouck E., De Schauwer C., Govaere J., Thys M., Hoflack G., Van Soom A., de Kruif A. 2010b. Influence of different centrifugation protocols on equine semen preservation. Theriogenology 74:118-126. Hoogewijs M., De Vliegher S., Govaere J., De Schauwer C., de Kruif A., Van Soom A. Counting chamber influences equine semen CASA outcomes. Journal of Andrology – submitted. Hoogewijs M., Morrell J., Van Soom A., Govaere J., Johannisson A., Piepers S., De Schauwer C., de Kruif A., De Vliegher S. Sperm selection using single layer centrifugation prior to cryopreservation can increase post-thaw sperm quality in stallions. Theriogenology – submitted. Iguer-ouada M., Verstegen J.P. 2001. Evaluation of the “Hamilton Thorn computer-bases automated system” for dog semen analysis. Theriogenology 55:733-749. Ishijima S., Baba S.A., Mohri H., Suarez S.S. 2002. Quantitative analysis of flagellar movement in hyperactivated and acrosome-reacted golden hamster spermatozoa. Molecular Reproduction and Development 61:376-384. Jasko D.J., Little T.V., Lein D.H., Foote R.H. 1992. Comparison of spermatozoa movement and semen characteristics with fertility in stallions. 64 cases (1987-1988). Journal of the American Veterinary Medical Association 200:979-985. 197
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AUTOMATED AND STANDARDIZED ANALYSIS
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AUTOMATED AND STANDARDIZED ANALYSIS
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A Area AI Artificial Insemination A
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PREFACE The first recorded case of
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GENERAL INTRODUCTION CHAPTER 1 3
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1.1.1. Introduction CHAPTER 1.1 The
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1.1.4. Concentration CHAPTER 1.1 Ac
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Fluorescent Activated Cell Sorter C
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CHAPTER 1.1 preparation (D, µm) is
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CHAPTER 1.1 These chambers are freq
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CHAPTER 1.1 it is not possible to o
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CHAPTER 1.1 overview of common abno
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CHAPTER 1.1 head, (B5) pyriform hea
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CHAPTER 1.1 The acrosome can be eva
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CHAPTER 1.1 The sperm chromatin str
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Collection and processing of equine
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CHAPTER 1.2 30 (a) Colorado State U
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CHAPTER 1.2 can be induced pharmaco
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CHAPTER 1.2 centrifugation time and
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CHAPTER 1.2 36 → Colloid centrifu
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CHAPTER 1.2 of a stallion stored fo
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CHAPTER 1.2 1.2.4. Cryopreservation
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CHAPTER 1.2 0.5 mL straws, and glyc
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CHAPTER 1.2 determined if the final
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CHAPTER 1.2 46 Chemically defined e
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CHAPTER 1.2 48 Cryopreservation - t
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1.3.1. Standards for equine AI dose
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CHAPTER 1.3 The use of density grad
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CHAPTER 1 Avery B., Greve T. 1995.
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CHAPTER 1 Cheng F.-P., Fazeli A., V
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CHAPTER 1 Flipse R.J., Patton S., A
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CHAPTER 1 Kuisma P., Andersson M.,
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CHAPTER 1 Medeiros A.S.L., Gomes G.
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CHAPTER 1 Pickett B.W. 1993. Collec
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CHAPTER 1 Taberner E., Morató R.,
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CHAPTER 1 Waite J.A., Love C.C., Br
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CHAPTER 2 As evidenced in the gener
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3.1 Influence of technical settings
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CHAPTER 3.1 a CEROS (Hamilton-Thorn
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CHAPTER 3.1 Progressive Motility CA
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CHAPTER 3.1 than at least they shou
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3.2.1. Abstract CHAPTER 3.2 Sperm m
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CHAPTER 3.2 depth but not the chamb
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3.2.3.3. The different chambers and
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CHAPTER 3.2 Finally, Pearson coeffi
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90 80 70 60 50 40 30 20 10 0 drop f
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ISAS20rM Makler10r WHO 120 120 120
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60 PM Rapid 50 40 30 20 10 0 CHAPTE
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Table 5. Averages (± standard erro
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CHAPTER 3.2 sperm (tail) which coul
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CHAPTER 3.2 Hoogewijs M.K., Govaere
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CHAPTER 3.2 Spizziri B.E., Fox M.H.
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3.3.1. Abstract CHAPTER 3.3 Routine
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CHAPTER 3.3 morphological abnormali
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CHAPTER 3.3 The extended semen was
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CHAPTER 3.3 Table 1: Average values
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Repeatability Agreement SQA-Ve PM (
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References CHAPTER 3.3 Arunvipas P.
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3.4.1. Abstract CHAPTER 3.4 In this
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CHAPTER 3.4 therefore in these expe
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CHAPTER 3.4 The averages obtained a
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3.4.4.2. Experiment 2 CHAPTER 3.4 F
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References CHAPTER 3.4 Arunvipas P.
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4.1 Influence of different centrifu
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CHAPTER 4.1 4.1.2. Introduction 140
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CHAPTER 4.1 142 4.1.3.3. Semen proc
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CHAPTER 4.1 144 In the experiment 3
Page 154 and 155: CHAPTER 4.1 centrifugation (T1) and
Page 156 and 157: CHAPTER 4.1 (non CP vs CP) was sign
Page 158 and 159: 35 B 80 A 33 beat cross frequency (
Page 160 and 161: CHAPTER 4.1 152 4.1.4.2. EXPERIMENT
Page 162 and 163: CHAPTER 4.1 Love and coworkers (200
Page 164 and 165: CHAPTER 4.1 Love C.C., Brinsko S.P.
Page 167 and 168: 4.2.1. Abstract CHAPTER 4.2 The inc
Page 169 and 170: 4.2.3. Materials and methods 4.2.3.
Page 171 and 172: CHAPTER 4.2 For the SLC group, 15 m
Page 173 and 174: CHAPTER 4.2 adding 600 µL of AO st
Page 175 and 176: 4.2.3. Results 4.2.3.1. Sperm quali
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Page 179 and 180: CHAPTER 4.2 Sperm yields markedly d
Page 181 and 182: References CHAPTER 4.2 Barth A.D.,
Page 183: CHAPTER 4.2 Waite J.A., Love C.C.,
Page 187 and 188: CHAPTER 5 This thesis originated fr
Page 189 and 190: CHAPTER 5.1 Fig. 1. Schematic prese
Page 191 and 192: CHAPTER 5.1 higher than the current
Page 193 and 194: CHAPTER 5.1 al., 2007) showing a cl
Page 195 and 196: CHAPTER 5.1 treatment strategy for
Page 197 and 198: CHAPTER 5.2 supernatant allowing sp
Page 199 and 200: CHAPTER 5.2 such keeping the pellet
Page 201 and 202: CHAPTER 5.2 components of the semin
Page 203: Final reflections 5.4 Actual change
Page 207: CHAPTER 5 Suárez S.S., Osman R.A.
Page 210 and 211: SUMMARY technique that enables proc
Page 212 and 213: SUMMARY from stallions previously c
Page 214 and 215: SAMENVATTING beweeglijkheid (Hoofds
Page 216 and 217: SAMENVATTING de spermacellen gesele
Page 219 and 220: DANKWOORD Het obligatoire dankwoord
Page 221: DANKWOORD dankzij jou en ze zijn er
Page 225: CURRICULUM VITAE Maarten Hoogewijs
Page 228 and 229: BIBLIOGRAPHY Govaere J., Ducatelle
Page 230 and 231: BIBLIOGRAPHY ABSTRACTS AND PROCEEDI
Page 233 and 234: FUNDAMENTAL ASPECTS OF CRYOPRESERVA
Page 235 and 236: ADDENDUM I presence of these CPAs a
Page 237 and 238: ADDENDUM I Fig. 3. Theoretical curv
Page 239 and 240: ADDENDUM II DETAILED LOADING TECHNI
Page 241: In m’n hoofd is alles heel eenvou
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