Endometrial cytology, biopsy, and bacteriology for the diagnosis of subclinical endometritis in grazing dairy cows.

The objectives of this study were to assess the agreement between endometrial cytology and uterine biopsy for the diagnosis of subclinical endometritis (SEND) in grazing dairy cows, the interobserver agreement of the biopsy's readings, and the bacterial population isolated from the uterus of cows having SEND. In experiment 1, lactating Holstein cows (n=44) 31 to 59 d in milk (DIM) at sampling were enrolled. Clinical endometritis was diagnosed by direct evaluation of vaginal discharge and SEND by endometrial cytology evaluation. Two hundred cells per smear were counted to determine the percentage of polymorphonuclear neutrophilic leukocytes (PMNL). Cut-off values used were ≥8% PMNL at ≤33 DIM, ≥6% PMNL at 34 to 47 DIM, and ≥4% PMNL at ≥48 DIM. Biopsies were assessed blindly by 2 observers who categorized them into 4 groups according to their inflammatory changes: none, minimal, moderate, and severe inflammatory changes. Data were analyzed using the kappa coefficient and logistic regression. In experiment 2, lactating Holstein cows (n=60) 21 to 62 DIM were enrolled. Clinical endometritis and SEND were diagnosed as previously described. Samples were cultured for aerobic and anaerobic bacteria by routine methods of bacteriological testing. Data were analyzed with logistic regression. In experiment 1, little agreement was observed between cytology and biopsy outputs (kappa=0.151), and strong agreement between the 2 operators (kappa=0.854). The likelihood of having a normal biopsy (no inflammatory change) was greater for healthy cows than for those having SEND (odds ratio=13.145). The probability for getting normal uterine tissue decreased 2.1% for every increasing percentage point in PMNL. In experiment 2, no bacteria were isolated from cows with SEND, coagulase-negative staphylococci were commonly isolated from healthy cows, and Trueperella pyogenes was frequently isolated from cows with clinical endometritis. The likelihood of isolating T. pyogenes from uterine samples increased with the percentage of PMNL (odds ratio=1.100). In conclusion, biopsy showed low agreement with cytology for the diagnosis of SEND. Nevertheless, fertility trials using uterine biopsies to predict pregnancy outcomes are needed to determine its diagnostic usefulness. Finally, bacteriology would not be recommended as a diagnostic tool because no bacteria were isolated from cows with SEND.

[1]  W. Barański,et al.  The diagnosis and prevalence of subclinical endometritis in cows evaluated by different cytologic thresholds. , 2012, Theriogenology.

[2]  S. Messier,et al.  Comparison of swabbing and biopsy for studying the flora of the bovine uterus. , 1984, The Canadian veterinary journal = La revue veterinaire canadienne.

[3]  J. Griffin,et al.  Non-specific uterine infection and bovine fertility , 1974 .

[4]  H. Erb,et al.  Prevalence of endometritis and its effects on reproductive performance of dairy cows. , 2005, Theriogenology.

[5]  J. Handelsman,et al.  Cloning the Soil Metagenome: a Strategy for Accessing the Genetic and Functional Diversity of Uncultured Microorganisms , 2000, Applied and Environmental Microbiology.

[6]  T. Orro,et al.  Bacteriological and cytological findings during the late puerperal period after two different treatments of retained placenta followed by acute puerperal metritis , 2010, Acta veterinaria Scandinavica.

[7]  M. Sözmen,et al.  Comparison of the cytobrush technique, vaginoscopy and transrectal ultrasonography methods for the diagnosis of postpartum endometritis in cows. , 2009 .

[8]  C. Pomba,et al.  Genomic and phenotypic characterization of Escherichia coli isolates recovered from the uterus of puerperal dairy cows. , 2009, Journal of dairy science.

[9]  R. Gilbert,et al.  Association between virulence factors of Escherichia coli, Fusobacterium necrophorum, and Arcanobacterium pyogenes and uterine diseases of dairy cows. , 2012, Veterinary microbiology.

[10]  W. Heuwieser,et al.  Subclinical endometritis and its impact on reproductive performance in grazing dairy cattle in Argentina. , 2010, Animal reproduction science.

[11]  J. Walton,et al.  Definitions and diagnosis of postpartum endometritis in dairy cows. , 2010, Journal of dairy science.

[12]  J. L. Walters,et al.  Neutrophil function and energy status in Holstein cows with uterine health disorders. , 2006, Veterinary immunology and immunopathology.

[13]  Kenney Rm Cyclic and pathologic changes of the mare endometrium as detected by biopsy, with a note on early embryonic death. , 1978 .

[14]  E. Studer,et al.  Postpartum evaluation of bovine reproductive potential: comparison of findings from genital tract examination per rectum, uterine culture, and endometrial biopsy. , 1978, Journal of the American Veterinary Medical Association.

[15]  H. Dobson,et al.  Effect of postpartum manual examination of the vagina on uterine bacterial contamination in cows , 2002, Veterinary Record.

[16]  K. Meade,et al.  Endometrial biopsy: a valuable clinical and research tool in bovine reproduction. , 2010, Theriogenology.

[17]  J. Griffin,et al.  Non-specific uterine infection and bovine fertility. I. Infection patterns and endometritis during the first seven weeks post-partum. , 1974, Theriogenology.

[18]  M. Mitchell,et al.  Relationships between cytology, bacteriology and vaginal discharge scores and reproductive performance in dairy cattle. , 2011, Theriogenology.

[19]  H. Erb,et al.  Incidence of endometritis and effects on reproductive performance of dairy cows , 1998 .

[20]  R. Gilbert,et al.  Metagenomic analysis of the uterine bacterial microbiota in healthy and metritic postpartum dairy cows. , 2011, Journal of dairy science.

[21]  D T Galligan,et al.  Principal descriptors of body condition score in Holstein cows. , 1994, Journal of dairy science.

[22]  L. Gregory,et al.  Comparison of ultrasonography and histopathology for the diagnosis of endometritis in Holstein-Friesian cows. , 2012, Journal of dairy science.

[23]  H. Dobson,et al.  Clinical evaluation of postpartum vaginal mucus reflects uterine bacterial infection and the immune response in cattle. , 2005, Theriogenology.

[24]  C. Waldner,et al.  A comparison of diagnostic techniques for postpartum endometritis in dairy cattle. , 2008, Theriogenology.

[25]  M. Drillich,et al.  The relationship between endometrial cytology during estrous cycle and cutoff points for the diagnosis of subclinical endometritis in grazing dairy cows. , 2013, Journal of dairy science.

[26]  R. Bicalho,et al.  Diversity and Succession of Bacterial Communities in the Uterine Fluid of Postpartum Metritic, Endometritic and Healthy Dairy Cows , 2012, PloS one.

[27]  R. Gilbert,et al.  Antimicrobial resistance and presence of virulence factor genes in Arcanobacterium pyogenes isolated from the uterus of postpartum dairy cows. , 2010, Veterinary microbiology.

[28]  R. Gilbert,et al.  Effect of prostaglandin F2alpha on subclinical endometritis and fertility in dairy cows. , 2009, Journal of dairy science.

[29]  W. Heuwieser,et al.  A clinical approach to determine false positive findings of clinical endometritis by vaginoscopy by the use of uterine bacteriology and cytology in dairy cows. , 2010, Theriogenology.

[30]  R. Gilbert,et al.  A novel diagnostic technique to determine uterine health of Holstein cows at 35 days postpartum. , 2012, Journal of dairy science.

[31]  R. Gilbert,et al.  Molecular and epidemiological characterization of bovine intrauterine Escherichia coli. , 2010, Journal of dairy science.

[32]  K. Meade,et al.  Histopathological and molecular evaluation of Holstein-Friesian cows postpartum: toward an improved understanding of uterine innate immunity. , 2009, Theriogenology.

[33]  C Washington Winn,et al.  Koneman's Color Atlas and Textbook of Diagnostic Microbiology , 1994 .

[34]  J. Walton,et al.  Endometrial cytology and ultrasonography for the detection of subclinical endometritis in postpartum dairy cows. , 2004, Theriogenology.

[35]  W. Heuwieser,et al.  Relationship between bacteriological findings in the second and fourth weeks postpartum and uterine infection in dairy cows considering bacteriological results. , 2012, Journal of dairy science.

[36]  Paul D. Allison,et al.  Logistic regression using sas®: theory and application , 1999 .

[37]  J. Bromfield,et al.  Specific Strains of Escherichia coli Are Pathogenic for the Endometrium of Cattle and Cause Pelvic Inflammatory Disease in Cattle and Mice , 2010, PloS one.

[38]  J. Santos,et al.  Prevalence of periparturient diseases and effects on fertility of seasonally calving grazing dairy cows supplemented with concentrates. , 2013, Journal of dairy science.

[39]  J. Walton,et al.  A comparison of the cytobrush and uterine lavage techniques to evaluate endometrial cytology in clinically normal postpartum dairy cows. , 2005, The Canadian veterinary journal = La revue veterinaire canadienne.