Renal reactivity: acid‐base compensation during incremental ascent to high altitude

Abstract: Key points Ascent to high altitude imposes an acid‐base challenge in which renal compensation is integral for maintaining pH homeostasis, facilitating acclimatization and helping prevent mountain sicknesses. The time‐course and extent of plasticity of this important renal response during incremental ascent to altitude is unclear. We created a novel index that accurately quantifies renal acid‐base compensation, which may have laboratory, fieldwork and clinical applications. Using this index, we found that rena… Show more

“…; Zouboules et al . ), exposure to chronic elevated CO 2 also has acid–base implications, albeit in the opposite direction (see Fig. ).…”

“…Similar to the HVR-mediated hypocapnia and the resulting respiratory alkalosis associated with high altitude ascent (e.g. Forster et al 1975;Zouboules et al 2018), exposure to chronic elevated CO 2 also has acid-base implications, albeit in the opposite direction (see Fig. 1).…”

“…Thus, our integrative illustrations of idealized responses to chronic CO 2 perturbations (see Fig. 1), guided by data from Forster et al (1975) and Zouboules et al (2018) (for hypoxic hypocapnia) and Schaefer et al (1963) and Burgraff et al (2018) (for relative hypercapnia), are largely speculative. However, the stimuli and responses illustrated are instructive toward an integrative understanding of chronic acid-base perturbations.…”

“…Due to its relatively high solubility in body fluids, CO 2 retention represents a challenge for acid–base homeostasis, which is maintained in concert by the respiratory and renal systems (Zouboules et al . ).…”

“…Elimination of metabolically derived CO 2 is critically important to air breathing organisms. Due to its relatively high solubility in body fluids, CO 2 retention represents a challenge for acid-base homeostasis, which is maintained in concert by the respiratory and renal systems (Zouboules et al 2018).…”

The exhausting work of acclimating to chronically elevated CO₂

“…; Zouboules et al . ), exposure to chronic elevated CO 2 also has acid–base implications, albeit in the opposite direction (see Fig. ).…”

“…Similar to the HVR-mediated hypocapnia and the resulting respiratory alkalosis associated with high altitude ascent (e.g. Forster et al 1975;Zouboules et al 2018), exposure to chronic elevated CO 2 also has acid-base implications, albeit in the opposite direction (see Fig. 1).…”

“…Thus, our integrative illustrations of idealized responses to chronic CO 2 perturbations (see Fig. 1), guided by data from Forster et al (1975) and Zouboules et al (2018) (for hypoxic hypocapnia) and Schaefer et al (1963) and Burgraff et al (2018) (for relative hypercapnia), are largely speculative. However, the stimuli and responses illustrated are instructive toward an integrative understanding of chronic acid-base perturbations.…”

“…Due to its relatively high solubility in body fluids, CO 2 retention represents a challenge for acid–base homeostasis, which is maintained in concert by the respiratory and renal systems (Zouboules et al . ).…”

“…Elimination of metabolically derived CO 2 is critically important to air breathing organisms. Due to its relatively high solubility in body fluids, CO 2 retention represents a challenge for acid-base homeostasis, which is maintained in concert by the respiratory and renal systems (Zouboules et al 2018).…”

The exhausting work of acclimating to chronically elevated CO₂

Partial Pressure of Arterial Oxygen in Healthy Adults at High Altitudes

Acid-Base Homeostasis at the High Altitude