Your search keyword '"M. Magistrini"' showing total 11 results

1. Effect of storage and temperature on in vitro stallion sperm parameters and fertility rate

Author

E, Chanavat, M, Vidament, L, Defoin, G, Duchamp, N, Levillain, J M, Yvon, Y, Le Vern, D, Kerboeuf, and M, Magistrini

Subjects

Male, Fertility, Time Factors, Sperm Motility, Temperature, Animals, Horses, Spermatozoa, Semen Preservation

Published

2005

2. Hypoosmotic swelling test: a new approach by multi-hypotonic steps

Author

L, Defoin, C, David, Y, Le Vern, D, Kerboeuf, and M, Magistrini

Subjects

Male, Hypotonic Solutions, Animals, Horses, Spermatozoa, Cell Size

Published

2005

3. Response of goat sperm to hypoosmotic steps modelled probit analysis

Author

Y. Le Vern, M. Magistrini, V. Furstoss, Dominique Kerboeuf, Philippe Guillouet, Bernard Leboeuf, ProdInra, Migration, Insémination Caprine et Porcine (ICP), Institut National de la Recherche Agronomique (INRA), Infectiologie Animale et Santé Publique (UR IASP), Physiologie de la reproduction et des comportements [Nouzilly] (PRC), Institut National de la Recherche Agronomique (INRA)-Institut Français du Cheval et de l'Equitation [Saumur]-Université de Tours-Centre National de la Recherche Scientifique (CNRS), and Institut National de la Recherche Agronomique (INRA)-Institut Français du Cheval et de l'Equitation [Saumur]-Université de Tours (UT)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Male, food.ingredient, [SDV]Life Sciences [q-bio], PRESSION OSMOTIQUE, Semen, [INFO] Computer Science [cs], Biology, Models, Biological, law.invention, Flow cytometry, Andrology, 03 medical and health sciences, chemistry.chemical_compound, fluids and secretions, 0302 clinical medicine, Endocrinology, food, Food Animals, law, Osmotic Pressure, Skimmed milk, medicine, Pi, Osmotic pressure, Animals, [INFO]Computer Science [cs], Propidium iodide, ComputingMilieux_MISCELLANEOUS, Cell Size, 030219 obstetrics & reproductive medicine, medicine.diagnostic_test, urogenital system, Goats, Extender, Cell Membrane, 0402 animal and dairy science, 04 agricultural and veterinary sciences, General Medicine, Flow Cytometry, 040201 dairy & animal science, Sperm, Spermatozoa, [SDV] Life Sciences [q-bio], chemistry, Hypotonic Solutions, Immunology, Animal Science and Zoology, Propidium

Abstract

Hypoosmotic swelling test (HOS) has been proposed by many authors to evaluate the functional integrity of the sperm membrane. Our approach in this experiment has consisted in exposing spermatozoa to a wide range of osmotic pressures then evaluating the reacted sperm cells by flow cytometry and finally modelling the sperm cell responses. Semen samples were diluted in skim milk or NPPC (native phosphocaseinate) extenders, and stored at 4 °C for 3 days. At D0 and D3 aliquots from each ejaculate (n = 12) were submitted to seven hypoosmotic solutions varying from 230 to 10 mOsm/kg. Sperm samples were analyzed using flow cytometry to determine two populations of spermatozoa identified by propidium iodide (PI): PI+ (including PI, red fluorescence) and PI− (excluding PI, no fluorescence). Spermatozoa PI+ were considered as spermatozoa with membrane damages. PI+ exhibited a high variation from 230 to 10 mOsm/kg which was considered as a dose–response curve. Data were modelled using Mixed procedure and probit analysis to a sigmoid curve. Each model curve characterized the profile of response of the variable PI+ to the range of osmotic pressure from 230 to 10 mOsm/kg. The estimated parameters modelling the sigmoid curves are discussed in order to evaluate the effect of extender (skim milk versus NPPC) and duration of preservation (D0 versus D3). Such modelling could help to differentiate storage method ejaculates within males or between male, contributing therefore to improve semen technology.

Published

2005

4. Differences in ability of jennies and mares to conceive with cooled and frozen semen containing glycerol or not.

Author

Vidament M, Vincent P, Martin FX, Magistrini M, and Blesbois E

Subjects

Animals, Cold Temperature, Cryopreservation methods, Cryoprotective Agents administration & dosage, Dimethylformamide administration & dosage, Female, Fertility, Fertilization, Insemination, Artificial methods, Pregnancy, Semen Preservation methods, Species Specificity, Sperm Motility, Cryopreservation veterinary, Equidae physiology, Glycerol administration & dosage, Horses embryology, Insemination, Artificial veterinary, Semen Preservation veterinary

Abstract

A suitable method for the cryopreservation of donkey semen would be very valuable for the ex situ management of genetic diversity in this species. This report uses a variety of observation and trials to evaluate the effect of cryoprotectants in per-cycle pregnancy rates (PC) in equids females (jennies (donkey) and mares (horse)). This was explored by (1) comparing the results of insemination of jennies and mares with cooled or frozen donkey semen, (2) examining the possible toxic effect of the cryoprotectant (CPA) glycerol in these two species and (3) studying alternative solutions. Donkey and horse semen was either used immediately, or cooled according to some steps of the pre-freezing procedure or frozen and thawed. The pre-freezing procedure included semen dilution, centrifugation, resuspension in milk or in INRA82+2% egg yolk+various % CPA (expressed as final concentrations in extended semen (v/v)) and then cooling to 4 degrees C. PC was similar in mares and jennies inseminated with donkey semen cooled to 4 degrees C in milk. However, the PC was significantly higher in mares than in jennies when donkey semen was frozen with 2.2% glycerol (36%, n=50 cycles vs. 11%, n=38 cycles; P<0.01). Increasing the concentrations of glycerol (0, 2.2, 3.5, 4.8%) before cooling stallion semen resulted in a progressive decrease in mare PC (87, 53, 53, 13% (n=15 cycles for each concentration); P<0.0001). The addition of 2.2% glycerol before cooling donkey semen decreased the PC measured in jennies to 0. The replacement of glycerol by 2% dimethylformamide increased the fertility obtained in jennies with cooled donkey semen (PC: 67%, n=12 cycles) but did not increase the fertility obtained with frozen-thawed donkey semen (PC: 11%, n=28 cycles with dimethylformamide vs. 0%, n=16 cycles with glycerol). In conclusion, this study clearly shows that the ability of jennies to conceive after AI with donkey frozen semen is lower than that of mares. Glycerol affects the fertility of donkey and stallion spermatozoa as early as during the pre-freezing procedure. In consequence, the glycerol level must be low in frozen equine semen to provide good fertility. The toxic dose of glycerol for donkey spermatozoa seems to be almost half that for stallion spermatozoa. Whether this greater sensitivity of donkey spermatozoa to glycerol is responsible for the low success of semen cryopreservation in jennies is not so obvious because replacement of glycerol by dimethylformamide was not much more effective in terms of fertility.

Published

2009

5. Response of goat sperm to hypoosmotic steps modelled probit analysis.

Author

Leboeuf B, Le Vern Y, Furstoss V, Kerboeuf D, Guillouet P, and Magistrini M

Subjects

Animals, Cell Membrane ultrastructure, Cell Size, Flow Cytometry, Male, Models, Biological, Osmotic Pressure, Propidium, Cell Membrane physiology, Goats, Hypotonic Solutions, Spermatozoa ultrastructure

Abstract

Hypoosmotic swelling test (HOS) has been proposed by many authors to evaluate the functional integrity of the sperm membrane. Our approach in this experiment has consisted in exposing spermatozoa to a wide range of osmotic pressures then evaluating the reacted sperm cells by flow cytometry and finally modelling the sperm cell responses. Semen samples were diluted in skim milk or NPPC (native phosphocaseinate) extenders, and stored at 4 degrees C for 3 days. At D0 and D3 aliquots from each ejaculate (n=12) were submitted to seven hypoosmotic solutions varying from 230 to 10mOsm/kg. Sperm samples were analyzed using flow cytometry to determine two populations of spermatozoa identified by propidium iodide (PI): PI+ (including PI, red fluorescence) and PI- (excluding PI, no fluorescence). Spermatozoa PI+ were considered as spermatozoa with membrane damages. PI+ exhibited a high variation from 230 to 10mOsm/kg which was considered as a dose-response curve. Data were modelled using Mixed procedure and probit analysis to a sigmoid curve. Each model curve characterized the profile of response of the variable PI+ to the range of osmotic pressure from 230 to 10mOsm/kg. The estimated parameters modelling the sigmoid curves are discussed in order to evaluate the effect of extender (skim milk versus NPPC) and duration of preservation (D0 versus D3). Such modelling could help to differentiate storage method ejaculates within males or between male, contributing therefore to improve semen technology.

Published

2006

6. Effect of storage and temperature on in vitro stallion sperm parameters and fertility rate.

Author

Chanavat E, Vidament M, Defoin L, Duchamp G, Levillain N, Yvon JM, Le Vern Y, Kerboeuf D, and Magistrini M

Subjects

Animals, Male, Semen Preservation methods, Sperm Motility, Time Factors, Fertility, Horses, Semen Preservation veterinary, Spermatozoa physiology, Temperature

Published

2005

7. Hypoosmotic swelling test: a new approach by multi-hypotonic steps.

Author

Defoin L, David C, Le Vern Y, Kerboeuf D, and Magistrini M

Subjects

Animals, Cell Size, Male, Horses, Hypotonic Solutions, Spermatozoa physiology

Published

2005

8. Relations between low rates of in vitro fertilization and induction of sperm acrosome reactions by zona pellucida in the equine species.

Author

Mugnier S, Magistrini M, Sachet L, Lahuec C, Yvon JM, Meyers S, and Goudet G

Subjects

Animals, Female, Male, Spermatozoa metabolism, Acrosome Reaction, Fertilization in Vitro veterinary, Horses, Zona Pellucida metabolism

Published

2005

9. Sexual behavior of stallions during in-hand natural service and semen collection: an observation in French studs.

Author

Noue P, Bernabé J, Rampin O, Vidament M, Dumas T, Palmer E, and Magistrini M

Subjects

Age Factors, Animals, Breeding, Female, France, Insemination, Artificial veterinary, Male, Ejaculation physiology, Horses physiology, Semen physiology, Sexual Behavior, Animal physiology

Abstract

The sexual behavior of 42 stallions from French national and private studs was examined in two contexts: semen collection for artificial insemination (AI) and in-hand natural service (NS). Each stallion was observed twice in the same context. Erection and ejaculation latencies, the number of mounts leading to ejaculation, dismount latency and total breeding time were measured and compared between AI and NS. Mount without erection was rare (6/83 observations). Erection latency was 89+/-11s, and was not different between NS (62+/-22s) and AI (100+/-13s, P=0.128). Stallions ejaculated after either one mount (62/83 observations), or two (11/83 observations) or three mounts (10/83 observations). Ejaculation latency was 85+/-15s (84+/-19 in AI and 86+/-28 in NS). If 1st mount did not lead to ejaculation, then ejaculation latency increased several fold following the 2nd mount during both AI and NS. The results provide reference measures for semen collection in French studs. Difference in erection latency between AI and NS, although not statistically significant, may reflect different contributions of excitatory inputs from the brain and the genital area to the activation of spinal networks controlling erection. In contrast, lack of difference in ejaculation latency between AI and NS suggests that the spinal network that controls ejaculation follows a more rigid motor pattern.

Published

2001

10. Advances in cryopreservation of stallion semen in modified INRA82.

Author

Vidament M, Yvon JM, Couty I, Arnaud G, Nguekam-Feugang J, Noue P, Cottron S, Le Tellier A, Noel F, Palmer E, and Magistrini M

Subjects

Animals, Concanavalin A pharmacology, Cryopreservation methods, Egg Yolk physiology, Female, Glutamine pharmacology, Glycerol pharmacology, Male, Pregnancy, Semen Preservation methods, Cryopreservation veterinary, Cryoprotective Agents, Horses physiology, Semen, Semen Preservation veterinary

Abstract

In the procedure used in this paper, semen was first diluted in INRA82+2% egg yolk (E1) at 37 degrees C. Before or after cooling to 4 degrees C, semen was centrifuged and diluted in E1+2.5% glycerol (E2). Cooled semen was frozen in 0.5-ml straws. Straws were thawed at 37 degrees C for 30s. For fertility trials, frozen ejaculates were used only if total post-thaw motility was above 35%. Most mares were inseminated two times before ovulation with 400 x 10(6) total spermatozoa every 24h. This paper presents post-thaw motility (CASA) and fertility results obtained when some steps of the procedure were evaluated. Use of the first three jets of ejaculate before the centrifugation did not improve post-thaw motility compared to use of the whole semen (25% versus 25%, 2 stallions x 12 ejaculates, P>0.80). When the first dilution was performed in E2 at 22 degrees C instead of in E1 at 37 degrees C, motility was slightly improved (38% versus 36%, n>283 ejaculates per group, P<0.04) but fertility was similar (51% versus 58%, n>196 cycles per group, P>0.10). Coating the spermatozoa with 0.5, 1, 2, 4 and 8mM of Concanavalin A resulted in unchanged post-thaw motility (6 stallions x 3 ejaculates, P>0.05). The extender E2 was modified or supplemented with different substances. Increasing egg yolk concentration from 2 to 4% (v/v) did not increase post-thaw motility (42% versus 34%, 6 stallions x 2 ejaculates, P>0.05). Different glycerol concentrations (range: 1.7-3.7%) had no significant effect on post-thaw motility even though 2.4-2.8% resulted in a nonsignificant higher motility (7 stallions x 2 ejaculates, P>0.05). Glutamine at 50mM in E2 improved post-thaw motility compared with no glutamine (49% versus 46%, n>584 ejaculates per group, P<0.0001) but not fertility (53% versus 54%, n>451 cycles per group, P>0.80). Thawing at 75 degrees C for 10s slightly increased motility after 120 min at 37 degrees C (6 stallions x 1 ejaculate, P<0.05) but no effect on per-cycle fertility was noted (32% (19 cycles) versus 41% (17 cycles), P>0.50). When post-thaw dilution was performed using a fixed molarity multi-step system (25 mOsm per step) from various osmolarities (900-690 mOsm) to 365 mOsm, motility was unaffected compared with dilution in one step (36% versus 38%, 6 stallions x 1 ejaculate, P>0.20).

Published

2001

11. Advances in cooled semen technology.

Author

Batellier F, Vidament M, Fauquant J, Duchamp G, Arnaud G, Yvon JM, and Magistrini M

Subjects

Animals, Cryopreservation methods, Cryoprotective Agents pharmacology, Female, Fertility, Insemination, Artificial veterinary, Linear Models, Male, Milk physiology, Pregnancy, Random Allocation, Semen Preservation methods, Sperm Motility, Cryopreservation veterinary, Horses physiology, Semen, Semen Preservation veterinary

Abstract

In the horse industry, milk or milk-based extenders are used routinely for dilution and storage of semen cooled to 4-8 degrees C. Although artificial insemination (AI) with chilled and transported semen has been in use for several years, pregnancy rates are still low and variable related to variable semen quality of stallions. Over the years, a variety of extenders have been proposed for cooling, storage and transport of stallion semen. Fractionation of milk by microfiltration, ultrafiltration, diafiltration and freeze-drying techniques has allowed preparation of purified milk fractions in order to test them on stallion sperm survival. Finally, a high protective fraction, native phosphocaseinate (NPPC), was identified. A new extender, INRA96, based on modified Hanks' salts, supplemented with NPPC was then developed for use with cooled/stored semen. Four experiments were conducted to compare INRA96 and milk-based extenders under various conditions of storage. The diluted semen was maintained under aerobic conditions when stored at 15 degrees C, and anaerobic conditions when stored at 4 degrees C. In experiment 1, split ejaculates from 13 stallions were diluted either in INRA96 extender then stored at 15 degrees C or diluted in Kenney or INRA82 extenders and then stored at 4 degrees C for 24h, until insemination. In experiment 2, semen from two stallions was extended in INRA96 then inseminated immediately or stored at 15 degrees C for 3 days until insemination. In experiment 3, semen from three stallions was diluted in INRA96 then stored at 15 or 4 degrees C for 24h until insemination, finally, in experiment 4, split ejaculates from four stallions were diluted in INRA96 or E-Z Mixin extenders then stored at 4 degrees C for 24h until insemination. Experiment 1 demonstrated that at 15 degrees C, INRA96 extender significantly improved pregnancy rate per cycle compared to Kenney or INRA82 extenders at 4 degrees C after 24h of storage (57%, n=178 versus 40%, n=171, respectively; P<0.01). Experiment 2 showed that semen stored at 15 degrees C for 3 days can achieve pregnancy at a fertility rate per cycle of 48% (n=52) compared to 68% (n=50, immediate insemination, P=0.06). Experiment 3 demonstrated that INRA96 extender can be as efficient at 15 degrees C (54%, n=37) as at 4 degrees C (54%, n=35) after 24h of storage. Finally, experiment 4 showed that INRA96 extender used at 4 degrees C (59%, n=39) seems to improve fertility per cycle compared to E-Z Mixin at 4 degrees C (49%, n=39, P=0.25), but this result has to be confirmed. These results demonstrate that semen diluted in INRA96 extender and stored at 15 degrees C can be an alternative to semen diluted in milk-based extenders and stored at 4 degrees C for "poor cooler" stallions. Furthermore, INRA96 extender can be as efficient at 15 degrees C as at 4 degrees C, for preserving sperm motility and fertility.

Published

2001