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Desmond Millender

Associate Professor

Desmond Millender

Associate Professor

Academic Appointment(s)

College of Education and Human Development
Department of Kinesiology

  • DMILLENDER@augusta.edu
  • CFH 195

Education

  • Ph.D., Sports, Kinesiology, and Physi University of New Mexico, 2022

  • MED, Exercise Science and Kinesiolo Auburn University Montgomery, 2018

  • BS, Exercise Science and Kinesiolo Troy University, 2016

Certifications

  • Exercise Physiologist American College of Sports Medicine, 2016

Courses Taught Most Recent Academic Year

  • KNHS 3312

    Curr. Iss. Health and Diseases

  • KNHS 4210

    Fitness Assessment & Ex. Pres

  • KNHS 3100

    Intro to Kines & Health Sci

Teaching Interests

My teaching interests include exercise physiology, fitness assessment, and the role of exercise in health and disease. My teaching philosophy is grounded in evidence-based practice in science and health, with an emphasis on engaging students through active learning and exposure to current research. I strive to create interactive, student-centered learning experiences that connect theory to real-world application and foster strong analytical skills and confidence in interpreting scientific evidence.

Scholarship

Selected Recent Publications

  • Differences in Metabolic Stress Using a Breathing Restrictive Mask Compared to Hypobaric Hypoxia During Cycling at a Matched Workload, 2022
    Journal Article, Academic Journal
  • Metabolic Profile of Reciprocal Supersets in Young, Recreationally Active Women and Men, 2022
    Journal Article, Academic Journal
  • The Effect of Rest Interval Length on Upper and Lower Body Exercises in Resistance-Trained Females., 2021
    Journal Article, Academic Journal
  • Bodyweight High-intensity Exercise Induces Lower Oxygen Consumption But Higher Lactate Concentration Compared With High-intensity Running, 2021
    Journal Article, Academic Journal

Research Interests

My research interests center on the validation of methodologies used in fitness testing and body composition assessment, with an emphasis on improving the accuracy and applicability of these tools in both research and applied settings. I am also interested in determining the minimal effective dose of resistance training required to elicit meaningful muscular adaptations, with the goal of optimizing training efficiency and outcomes. Additional interests include the characterization of cardiometabolic responses to various resistance exercise modalities, as well as the investigation of physiological mechanisms underlying responses to ergogenic aids and their impact on performance and health.

Department Service

  • Sport Management Search Committee 2025 - Present

    Role: Committee Member

  • K+1 2025 - Present

    Role: Other

Professional Service

  • International Journal of Exercise Science 2025 - Present

    Role: Reviewer