Analysis of factors affecting the pregnancy rate of mares after inseminations with cooled transported stallion semen

Autor: Heli Venhoranta, Terttu Katila, Anna-Maija Virtala, Maria Kareskoski
Přispěvatelé: Production Animal Medicine, Faculty of Veterinary Medicine, Genome-Scale Biology (GSB) Research Program, Anna-Maija Kristiina Virtala / Principal Investigator, Veterinary Microbiology and Epidemiology, Veterinary Biosciences, Departments of Faculty of Veterinary Medicine, DAPHNE - Developing Assessment Practices in Higher Education, Animal Reproduction Science, Teachers' Academy
Rok vydání: 2018
Předmět:
Male
Pregnancy Rate
medicine.medical_treatment
Horse
413 Veterinary science
0403 veterinary science
MOTION CHARACTERISTICS
NUMBER
Food Animals
Pregnancy
Small Animals
Sperm motility
reproductive and urinary physiology
Insemination
Artificial
2. Zero hunger
EQUINE SPERMATOZOAL MOTILITY
Sperm numbers
04 agricultural and veterinary sciences
Insemination dose
Breed
Female
THOROUGHBRED MARES
endocrine system
040301 veterinary sciences
Semen
Biology
Insemination
Animal science
medicine
Animals
Horses
REPRODUCTIVE-PERFORMANCE
EXTENDER
Estrous cycle
SEMINAL PLASMA
Equine
urogenital system
Artificial insemination
SPERM MOTILITY
0402 animal and dairy science
040201 dairy & animal science
Sperm
Semen Analysis
Pregnancy rate
Progressive sperm motility
Fertility
Logistic Models
Multivariate Analysis
Animal Science and Zoology
COLLECTION
Semen Preservation
Zdroj: Theriogenology. 127
ISSN: 1879-3231
Popis: Artificial insemination (AI) with cooled stallion semen has increased markedly during the last decades in all countries, but fertility is often lower than when fresh semen or natural mating is used. The objective of this study was to examine field data (1634,cycles 523 Standardbred (SB) mares, 575 Finnhorse (FH) mares, and 90 stallions) using multivariable logistic regression for factors influencing the pregnancy rate (PR) after Al with cooled transported semen from SB and FH stallions. The PR per cycle for the material was 47%: Finnhorses 42% and Standardbreds 53%. When assessed with multivariable logistic regression analyses with a generalized linear mixed model, variables that affected the PR were breed, the number of inseminated estrus cycles, the percentage of progressively motile sperm (PMOT) in the ejaculate/AI dose at the time of shipment, and the number of progressively motile sperm in the Al dose at the time of insemination. In Standardbreds, variables that increased the per cycle PR were the number of Al per estrus cycle (multiple inseminations increasing the probability of pregnancy compared to only one insemination), the number of inseminated cycles, and PMOT in the AI dose at the time of insemination. In Finnhorses, the number of Al per estrus cycle (two and three inseminations increasing the probability of pregnancy compared to only one), the number of spermatozoa in the ejaculate and in the Al dose, and PMOT in the ejaculate/AI dose at the time of shipment increased the per cycle PR. Non-significant factors for the whole material included the type of artificial vagina (open-ended or closed), transport time, place of Al (stud farm or home stable), insemination done by veterinarian or technician, weekday, month, age of the mare (all age classes combined), age of the stallion, ejaculate parameters (sperm concentration, total number of sperm), and insemination dose parameters (volume proportion of seminal plasma, sperm concentration, PMOT, total number of sperm). In conclusion, breed, breeding opportunity in more than one cycle, more than one insemination/estrus, PMOT of the ejaculate/AI dose and the number of progressively motile sperm in the Al dose at the time of insemination are important for the outcome of inseminations with cooled semen. (C) 2018 Elsevier Inc. All rights reserved.
Databáze: OpenAIRE
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