Heiner, J. S. (2023). Respiratory anatomy, physiology, pathophysiology, and anesthesia management. In S. Elisha, J. S. Heiner, & J. J. Nagelhout (Eds.), Nurse anesthesia (7th ed., pp. 614-679). Elsevier.
Krogh, M. A. (2023). Obesity and anesthesia practice. In S. Elisha, J. S. Heiner, & J. J. Nagelhout (Eds.), Nurse anesthesia (7th ed., pp. 1092-1108). Elsevier.
Fernandez-Bustamante, A., & Bucklin, B. A. (2024). Anesthesia and obesity. In B. F. Cullen, M. C. Stock, R. Ortega, C. W. Connor, & N. Nathan (Eds.), Barash, Cullen, and Stoelting's clinical anesthesia (9th ed., pp. 3814-3876). Wolters Kluwer.
Lung protective tidal volume is dosed to predicted (ideal) body weight, not actual weight, because lung volume tracks height rather than adiposity (Hallman, 2024, p. 4828). IBW for men is 50 + 2.3 x (height in inches - 60); for women, 45.5 + 2.3 x (height in inches - 60) (Hallman, 2024, p. 4828).
The vault's intraoperative protective ventilation table sets tidal volume at 5 to 7 mL/kg predicted body weight, a starting rate of 6 to 12 breaths/min titrated to PETCO2, an I:E ratio of 1:2, and PEEP of 5 to 8 cm H2O (Tharp & Dosch, 2023, pp. 276-280). Keep plateau pressure below 28 and driving pressure below 16 cm H2O, and FiO2 as low as possible (avoid above 0.8) to hold SpO2 at 88 to 95% (Tharp & Dosch, 2023, p. 277).
Tharp, D. L., & Dosch, M. P. (2023). Anesthesia equipment. In Elisha, Heiner, & Nagelhout (Eds.), Nurse anesthesia (7th ed., pp. 246-290). Elsevier.