Details

Title

Improvement of dairy cow embryo yield with low level laser irradiation

Journal title

Polish Journal of Veterinary Sciences

Yearbook

2017

Numer

No 2

Authors

Divisions of PAS

Nauki Biologiczne i Rolnicze

Publisher

University of Warmia and Mazury in Olsztyn ; Polish Academy of Sciences Committee of Veterinary Sciences

Date

2017

Identifier

ISSN 1505-1773

References

Corral (2009), The effect of low - level laser irradiation on dog spermatozoa motility is dependent on laser output power, Lasers Med Sci, 24, 703. ; Grossman (1998), nm low power diode laser irradiation stimulates proliferation of keratinocyte cultures : involvement of reactive oxygen species, Lasers Med, 22, 780. ; Hu (2007), Laser Irradiation Stimulates Cell Proliferation through Photostimulatory Effects in, J Invest Dermatol, 127. ; Ben (1999), Low laser irradiation affects satellite cell proliferation and differentiation in vitro, energy Biochim Biophys Acta, 14, 108. ; Magrini (2012), Low - level laser therapy on MCF cells a micro - Fourier transform infrared spectroscopy study, null, 17, 101. ; Kreisler (2002), Low level nm diode laser - induced in vitro stimulation of the proliferation of human gingival fibroblasts Lasers, Med, 30, 809. ; Karu (2010), Mitochondrial mechanisms of photobiomodulation in context of new data about multiple roles of, Photomed Laser Surg, 28, 159. ; Gao (2009), Molecularmechanisms of cell proliferation induced by low power laser irradiation, J Biomed Sci, 16. ; Seidel (2003), Embryo transfer in dairy cattle s Dairyman Book, USA. ; Breitbart (1996), Changes in calcium transport in mammalian sperm mitochondria and plasma membrane irradiated at nm laser, J Photochem Photobiol, 633. ; Gavish (2004), Low level laser irradiation stimulates mitochondrial membrane potential and disperses subnuclear promyelocytic leukemia protein Lasers, null, 369. ; Manchini (2014), Amelioration of cardiac function and activation of anti - inflammatory vasoactive peptides expression in the rat myocardium by low level laser therapy One, null, 101. ; Abdel (null), Laser researches on livestock semen and oocytes brief, review Res, 2015. ; Gavet (2010), Progressive activation of cyclinB coordinates entry to mitosis, Dev Cell, 18, 1. ; Hudson (2013), DE DO Penetration of Laser Light at nm in Bovine Tissue Samples, Photomed Laser Surg, 31, 808. ; Pryor (null), Therapeutic Laser in the Vet, Veterinary Medicine Clin Am Small Pract, 2015. ; Lafri (2002), Influence of CIDR treatment during superovulation on embryo production and hormonal patterns in cattle, null, 1141. ; Tonhati (1999), and heritability of response to superovulation in Holstein cows, Theriogenology, 1151. ; Schindl (2003), Direct stimulatory effect of low - intensity nm laser irradiation on human endothelial cell proliferation, J Dermatol, 670. ; Merton (2003), Factors affecting oocyte quality and quantity in commercial application of embryo technologies in the cattle breeding industry, Theriogenology, 59. ; Gavish (2006), Low - level laser irradiation modulates matrix metalloproteinase activity and gene expression in porcine aortic smooth muscle cells Lasers, Med, 779. ; Niemz (2013), Laser - Tissue Interactions Fundamentals and Applications, null, 307. ; Jaffaldano (2010), The irradiation of rabbit sperm cells with He - Ne laser prevents their in vitro liquid storage dependent damage, Anim Reprod Sci, 119. ; Van Breugel (1993), Bar PR Ne laser irradiation affects proliferation of cultured rat Schwann cells in a dose dependent manner, J Neurocytol, 22, 185. ; Shefer (2002), Low laser irradiation promotes the survival and cell cycle entry of skeletal muscle satellite cells, energy J Cell Sci, 115. ; AlGhamdi (2012), KM NA Low - level laser therapy : a useful technique for enhancing the proliferation of various cultured cells Lasers, Med Sci, 27, 237. ; Tuby (2007), Low - Level Laser Irradiation Promotes Proliferation of Mesenchymal and Cardiac Stem Cells in Culture Lasers, Med, 39. ; Fernandes (null), The effect of low - level laser irradiation on sperm motility and integrity of the plasma membrane and acrosome in cryopreserved bovine sperm one, null, 2015, doi.org/10.1371/journal.pone.0121487 ; Karu (2012), TI Lasers in infertility treatment irradiation of oocytes and spermatozoa, Photomed Laser Surg, 30, 239. ; Lerner (1986), dose of FSH and other factors affecting superovulation in Holstein cows, Age J Anim Sci, 176. ; Stein (2005), Low - level laser irradiation promotes proliferation and differentiation of human osteoblasts in vitro, Photomed Laser Surg, 23, 161. ; Žilaitis (2013), The prevalence of subclinical metritis and fertility indices in cows treated with low - intensity laser irradiation and antibiotics in the postpartum period, Archiv, 1. ; Canipari (2000), granulosa interaction, cell Hum Reprod, 279. ; Looney (1986), in beef females In of th Annual Convention of Texas, Proceedings, 16. ; Basford (1986), Low Laser Treatment of Hype or Hokum, Energy Pain Wounds Mayo Clin proc, 671. ; Kipshidze (2001), Neon laser irradiation enhances production of vascular endothelial growth factor and promotes growth of endothelial cells in vitro, Lasers Med, 28, 355. ; Zhang (2008), Low Laser Irradiation Activates Src Tyrosine Kinase Through Reactive Oxygen Species - Mediated Signaling Pathway, Power J Cell Physiol, 217. ; Rico (2009), Anti - mullerian hormone is an endocrine marker of ovarian gonadotropin - responsive follicles and can help to predict superovulatory responses in the cow, Biol Reprod, 80, 50. ; Keller (1990), Effect of variability in response to superovulation on donor cow selection differentials in nucleus breeding schemes, J Dairy Sci, 73.

DOI

10.1515/pjvs-2017-0037

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