Ben-Yakir S. – The Israeli Veterinary Institute for Holistic Medicine
Primary evaluation of homeopathic remedies injected via acupuncture points to reduce chronic high somatic cell counts in modern dairy farms
Friedman S. and Lavon Y., 2018
Selective dry cow treatment – based evidences
Lifshitz Z et al – Microbial Drug Resistance, 2018 24 (6): 868-875
Distinctiveness and Similarities Between Extended-Spectrum β-Lactamase-Producing Escherichia coli Isolated from Cattle and the Community in Israel.
Ovadia Y. et al – Israel Journal of Veterinary Medicine, 2018 73 (4): 14-22
The Effect of Iodophor Post-Milking Teat Disinfection on Iodine Content in Goat Milk
Seroussi E et al – PLOS-ONE 2018
Application of pancreatic phospholipase A2 for treatment of bovine mastitis
Leitner G et al – Israel Journal of Veterinary Medicine, 2017 72 (2): 3 -10
Major Considerations in Managing Subclinical Mastitis During Lactation in Modern Dairy Farms
Lavon Y. et al – Journal of Dairy Science, 2016 99 3: 2268–2275
Two approaches to improve fertility of subclinical mastitic dairy cows
Leitner G, Lavon Y, Matzrafi Z, Merin U – Oct.2016
Pricing of Cow’s Milk in Relation to Bulk Milk Somatic Cell Count in the Threshold Range of 400×10 3 cells per Milliliter
Leitner G et al – International Dairy Journal, 2016 58: 9-13
Somatic cell counts, chemical composition and coagulation properties of goat and sheep bulk tank milk
Silanikove N. et al – RSC Advances, 2016 6(15): 114644 – 114657
Reduced use of glucose by normoxic cow’s mammary gland under acute inflammation: an example of homeostatic aerobic glycolysis
Wolfenson D, Leitner G, Lavon Y. – Italian Journal of Animal Science 14 (4): 2015
The disruptive effects of mastitis on reproduction and fertility in dairy cows
Lysnyansky I, et al – The Veterinary Journal, 2015 207: 180-183
An overview of Mycoplasma bovis mastitis in Israel (2004-2014)
Menis D, et al – IDF-Animal-Health-Newsletter, 2013 7: 13-15
Effect of Manure Treatment Methods in Cowsheds on Udder Health and Milk Quality
Leitner G et al – Israel Journal of Veterinary Medicine, 2012 67 :
Options for handling chronic subclinical mastitis during lactation in modern dairy farms
Ginsberg R., Rak D., Arazi A., Aizinbud E. – Proceedings Annual Meeting of the National Mastitis Council. 2011: 167-168
Detection and Prevention of Milking Routine Problems by Computerized Monitoring of Milking Irregularities
Ginsberg R. – Proceedings Udder Health and Communication Conference, 2011: 407 – 414
Influence of milk yield and take-off settings on milking parlour performance and udder health
Silanikove N. et al – Journal of Dairy Science, 2011 94: 4468-4475
Lipopolysaccharide challenge of the mammary gland in bovine induced a transient glandular shift to anaerobic metabolism
Ginsberg R. et al. – Proceedings 5th IDF Mastitis Conference, 2010: 464 – 467
Electronic computerised monitoring of milking efficiency and milking parlour turnover
Klaas I.C. Bjerg B. Freidman S. Bar D. – Dansk Veterinærtidsskrift, 2010 9: 20-29
Cultivated barns for dairy cows
Feuermann Y., Mabjeesh S.J., Shamay A. – International Journal of Endocrinology, 2009
Mammary Fat Can Adjust Prolactin Effect on Mammary Epithelial Cells via Leptin and Estrogen
Feuermann Y., Shamay A., Mabjeesh S.J – Journal of Dairy Science, 2008 91: 4183-4189
Leptin Up-Regulates the Lactogenic Effect of Prolactin in the Bovine Mammary Gland In Vitro
Leitner G et al – Journal of Dairy Science, 2008 91: 337-3342
Concentrations of Ganglioside Type M1 and Immunoglobulin G in Colostrum Are Inversely Related to Bacterial Infection at Early Lactation in Cows
Leitner G., Silanikove N. and Merin U. – Small Ruminant Research, 2008 74 (1-3): 221-225
Estimate of milk and curd yield loss of sheep and goat with intramammary infection and its relation to somatic cell count
Mabjeesh S.J, Kerem Z., Sabastian C. and Shamay A – The Open Agriculture Journal, 2007 1: 1-4
Disruption of Tight Junction Integrity, and Induced Mammary Involution in Lactating Goats by Saponins
Shwimmer A. et al – Zoonoses Public Health, 2007 54 : 353–357
Mastitis Caused by Yersinia pseudotuberculosis in Israeli Dairy Cattle and Public Health Implications
Feuermann Y. et al – Journal of Endocrinology, 2006 191: 407–413
Prolactin affects leptin action in the bovine mammary gland via the mammary fat pad
Leitner G et al – International Dairy Journal, 2006 16: 648–654
Interactions between bacteria type, proteolysis of casein and physico-chemical properties of bovine milk
Chaffer M, Friedman S, Saran A, Younis A – New Zealand Veterinary Journal, 2005 53(4): 261-264
An outbreak of Streptococcus canis mastitis in a dairy herd in Israel
Goshen T. , Shwimer A., Fridman S. and Shpigel N. Y. – Israeli Dairy Conference, 2005
Efficacy of Combined Intra Mammary and Systemic Penicillin Therapy for Streptococcal Mastitis during the Lactation
Mabjeesh S. J. et al – Journal of Dairy Science, 2005 88 (6): 2055-64
Aminopeptidase N Gene Expression and Abundance in Caprine Mammary Gland is Influenced by Circulating Plasma Peptide
Pinchasov Y. et al – Israel Journal of Veterinary Medicine, 2005 60 (3):
The Safety and Efficacy of the Immunotherapy Treatment Y-Complex in a Clinical Mastitis Study Under Field Conditions
Shamay A et al – Journal of Dairy Science, 2005 88: 569-576
Expression of Albumin in Nonhepatic Tissues and its Synthesis by the Bovine Mammary Gland
Feuermann Y., Mabjeesh S.J., Shamay A. – Journal of Dairy Science, 2004 87: 2941-2946
Leptin Affects Prolactin Action on Milk Protein and Fat Synthesis in the Bovine Mammary Gland
Friedman S. et al – Israel Journal of Veterinary Medicine, 2004 59 (1-2):
Economical losses from clinical mastitis in 4 dairy herds in Israel
Lavon Y et al – Journal of Dairy Science, 2004 99: 2268-2275
Two approaches to improve fertility of subclinical mastitic dairy cows
Leitner G, Merin U and Silanikove N. – Journal of Dairy Science, 2004 87: 1250-1258
Changes in Milk Composition as Affected by Subclinical Mastitis in Goats
Leitner G et al – Journal of Dairy Science, 2004 87: 46-52
Changes in Milk Composition as Affected by Subclinical Mastitis in Sheep
Leitner G et al – Journal of Dairy Research, 2004 71: 311 – 315
Effect of subclinical intramammary infection on somatic cell counts, NAGase activity and gross composition of goats’ milk
Leitner G et al – South African Journal of Animal Science, 2004 34 (Supplement 1) 162 – 164
Factors Influencing milk quantity and quality in Assaf sheep and goat crossbreds
Merin U et al – South African Journal of Animal Science, 2004 34 (Supplement 1): 188 -191
Changes in milk composition as affected by subclinical mastitis in sheep and goats
Leitner G et al – Veterinary Immunology and Immunopathology, 2003 93: 31–38
Development of a Staphylococcus aureus vaccine against mastitis in dairy cows I. Challenge trials
Leitner G et al – Veterinary Immunology and Immunopathology, 2003 93: 153–158
Development of a Staphylococcus aureus vaccine against mastitis in dairy cows. II. Field trial
Leitner G et al – Journal Veterinary Medicine, 2003 B 50: 45–52
Immune Cell Differentiation in Mammary Gland Tissues and Milk of Cows Chronically Infected with Staphylococcus aureus
Leitner G et al – Israel Journal of Veterinary Medicine, 2003 59 (4):
MASTIVAC I: Staphylococcus Aureus Vaccine – Prevention of new udder infection and therapeutic effect on cows chronically infected with S. Aureus under field conditions
Leitner G et al – Immunology and Medical Microbiology, 2003 35: 99-106
Staphylococcus aureus strains isolated from bovine mastitis: virulence, antibody production and protection from challenge in a mouse model
Leitner G et al – Small Ruminant Research, 2003 49: 157–164
Udder infection and milk somatic cell count, NAGase activity and milk composition—fat, protein and lactose—in Israeli-Assaf and Awassi sheep
Shamay A et al – Journal of Dairy Science, 2003 86: 1250–1258
Infusions of casein hydrolyzates into the mammary gland disrupt tight junction integrity and induce involution in cows
Shpigel N. Y. et al – Journal of Dairy Science, 2003 86: 3927–3932
In vitro antimicrobial susceptibility of Escherichia coli isolates from clinical bovine mastitis in Finland and Israel
Yeruham I, Friedman S, Elad D, Perl S. – Epidemiology and Infection, 2003 131(2): 947-55
Corynebacterium pseudotuberculosis infection in Israeli dairy cattle
Younis A. et al – Journal Veteterinary Medicine, 2003 B 50: 1– 7
Staphylococcus aureus Exosecretions and Bovine Mastitis
Younis A. et al – Journal Veteterinary Medicine, 2003 B 50: 1– 7
Staphylococcus aureus Exosecretions and Bovine Mastitis
Leitner G et al – Journal Veterinary Medicine, 2002 B 49: 354–360
Influence of Staphylococcus aureus Exosecretions Isolated from Bovine Mastitis on Leukocyte Activity In Vitro
Meiri-Bendek I et al – Journal of Dairy Science, 2002 85: 1717–1723
A PCR-based method for the detection of Streptococcus agalactiae in milk
Leitner G et al – Small Ruminant Research, 2001 39 (2): 107-112
Udder disease etiology, milk somatic cell counts and NAGase activity in Israeli Assaf sheep throughout lactation
Shpigel N. Y. – University of Helsinki, 2001
Clinical and therapeutic aspects of coliform mastitis in dairy cows under intensive management
Leitner G et al – Journal Veterinary Medicine, 2000 B 47: 133–138
Milk Leucocyte Populations in Heifers Free of Udder Infection
Leitner G et al – Journal Veterinary Medicine, 2000 B 47: 581-589
Milk Leucocyte Population Patterns in Bovine Udder Infection of Different Aetiology
Leitner G et al – Research in Veterinary Science, 2000, 69: 181–184
Systemic and local immune response of cows to intramammary infection with Staphylococcus aureus
Shamay A., Mabjeesh S. J., Shapiro F. and Silanikove N. – Small Ruminant Research, 2000 38 (3): 255-259
Adrenocorticotrophic hormone and dexamethasone failed to affect milk yield in dairy goats: Comparative aspects
Shoshani E, et al – Journal of Dairy Research, 2000 67: 155-169
Mammary infection with Staphylococcus aureus in cows: progress from inoculation to chronic infection and its detection
Yeruham I, Friedman S, Elad D, Perl S. – Australian Veterinary Journal, 2000 78 (4): 250 -253
Association between milk production, somatic cell count and bacterial dermatoses in three dairy cattle herds
Shem-Tov M et al – Journal of Veterinary Pharmacology & Therapeutics, 1998 21(3): 209-213
Pharmacokinetics and penetration of danofloxacin from the blood into the milk of cows
Shoshani E, Berman A. – Journal of Dairy Research, 1998 65: 31-41
Subclinical mastitis assessed by deviations in milk yield and electrical resistance
Shpigel N.Y, Winkler M, Ziv G, Saran A. – Preventive Veterinary Medicine, 1998 35 : 1–9
Clinical, bacteriological and epidemiological aspects of clinical mastitis in Israeli dairy herds
Shpigel N. Y. et al – Journal of. Dairy Science, 1997 80: 318–323
Efficacy of cefquinome for treatment of cows with mastitis experimentally induced using Escherichia coli
Weller J. I. et al. – Journal of Dairy Science, 1992 75: 2532-2540
Genetic and environmental relationships among somatic cell count, bacterial infection, and clinical mastitis
Sobak S. et al, – Journal of Dairy Science, 1990 73: 661466
Systemic dry cow therapy–a preliminary report
Shamay A., Cohen N., Madar Z., Levin I. – Journal of Dairy Science, 1989 72: 1169-1174
Effect of Prolactin on Casein and Fat Synthesis and Casein Secretion in Explants of Bovine Mammary Tissue Pretreated in Athymic Nude Mice
Ziv G. – Antimicrobial Agents and Chemotherapy, 1976 9: 418-421
Activity of four cephalosporin antibiotics in vitro against bovine udder pathogens and pathogenic bacteria isolated from newborn calves
Ziv G., Sulman F.G – Journal of Dairy Science, 1975 58: 1637-1644
Absorption of Antibiotics by the Bovine Udder
Sompolinsky D, Cohen M, Ziv G. – Infect Immun. 1974 (2):217-28
Epidemiological and biochemical studies on thiamine-less dwarf-colony variants of Staphylococcus aureus as etiological agents of bovine mastitis.
Ziv G, Sulman FG. – Antimicrobial Agents and Chemotherapy, 1972 : 206-213
Binding of antibiotics to bovine and ovine serum