PaIn MItIGatIon In CattLe                                                   169


              77.  Whay HR, Waterman AE, Webster AJF et al. The influence of lesions type on the duration of hyperal-
                gesia associated with hindlimb lamenss in dairy cattle. Vet J 1998; 156:23–29.
              78.  National Dairy FARM Program: Farmers Assuring Responsible Management, 2016. Available at: www.
                nationaldairyfarm.com/. Accessed September 28, 2017.
              79.  Validus Ventures, LLC, 2017. Available at: www.validusservices.com/. Accessed September 13, 2017.
              80.  NYS Department of Agriculture and Markets, New York State Cattle Health Assurance Program
                (NYSCHAP), 2002. Available at: http://nyschap.vet.cornell.edu/. Accessed September 28, 2017.
              81.  Anderson  DE,  Muir  WM.  Pain management in cattle.  Vet Clin North Am Food Anim Pract  2005;
                21:623–635.
              82.  Freedom of Information Summary: Flunixin Transdermal Solution. US FDA. Available at:  https://
                animaldrugsatfda.fda.gov/adafda/app/search/public/document/downloadFoi/1944. Accessed September
                29, 2017.
              83.  Chapinal N, de Passillé AM, Rushen J, et al. Effect of analgesia during hoof trimming on gait, weight
                distribution, and activity of dairy cattle. J Dairy Sci 2010; 93:3039–3046.
              84.  Chapinal N, de Passillé AM, Rushen J, et al. Automated methods for detecting lameness and measuring
                analgesia in dairy cattle. J Dairy Sci 2010; 93:2007–2013.
              85.  Rushen J, Pombourcq E, de Passillé AM. Validation of two measures of lameness in dairy cows. App
                Anim Behav Sci 2006; 106:173–177.
              86.  Schulz  KL,  Anderson  DE,  Coetzee  JF,  et al.  Effect of flunixin meglumine on the amelioration of
                  lameness in dairy steers with amphotericin D induced transient synovitis-arthritis. Am J Vet Res 2011;
                72:1431–1438.
              87.  Whay HR, Webster AJF, Waterman-Pearson AE. Role of ketoprofen in the modulation of hyperalgesia
                associated with lameness in dairy cattle. Vet Rec 2005; 157:729–733.
              88.  Flower FC, Sedlbauer M, Carter E, et al. Analgesics improve the gait of lame dairy cattle. J Dairy Sci
                2008; 91:3010–3014.
              89.  Flower FC, Weary DM. Effect of hoof pathologies on subjective assessments of dairy cow gait. J Dairy
                Sci 2006; 89:139–146.
              90.  Thomas HJ, Miguel-Pacheco GG, Bollard NJ, et al. Evaluation of treatments for claw horn lesions in
                dairy cows in a randomized controlled trial. J Dairy Sci 2015; 98(7):4477–4486.
              91.  Janssen  S,  Wunderlich  C,  Heppelmann  M,  et al.  Short communication: Pilot study on hormonal,
                  metabolic, and behavioral stress response to treatment of claw horn lesions in acutely lame dairy cows.
                J Dairy Sci 2016; 99:7481–7488.
              92.  Nagel D, Wieringa R, Ireland J, et al. The use of meloxicam oral suspension to treat musculoskeletal
                lameness in cattle. Vet Med-Res Reports 2016; 7:149–155.
              93.  Offinger J, Herdtweck S, Rizk A, et al. Postoperative analgesic efficacy of meloxicam in lame dairy
                cows undergoing resection of the distal interphalangeal joint. J Dairy Sci 2013; 96(2):866–876.
              94.  Coetzee  JF,  Mosher  RA,  Anderson  DE,  et al.  Impact of oral meloxicam administered alone or in
                  combination with gabapentin on experimentally induced lameness in beef calves. J Anim Sci 2014;
                92:816–829.
              95.  Rushen  J,  Pombourcq  E,  de Passillé  AM.  Validation of two measures of lameness in dairy cows.
                App Anim Behav Sci 2006; 106:173–177.