Determinants of the Diurnal Course of Salivary Alpha-amylase

Overview

Journal Psychoneuroendocrinology

Specialties Endocrinology
Neurology
Psychiatry

Date 2007 Apr 10

PMID 17418498

Citations 194

Authors

Urs M Nater

Nicolas Rohleder

Wolff Schlotz

Ulrike Ehlert

Clemens Kirschbaum

Affiliations

Soon will be listed here.

Abstract

Objective: Previous data from our group and others have shown that salivary alpha-amylase activity increases in response to stress. It has been suggested that salivary alpha-amylase may be a marker for adrenergic activity. Less is known about other determinants of salivary alpha-amylase activation. The objective of the current study was to describe the diurnal pattern of salivary amylase and its determinants.

Methods: Saliva samples were collected immediately after waking-up, 30 and 60 min later, and each full hour between 0900 and 2000 h by 76 healthy volunteers (44 women, 32 men). Compliance was controlled by electronic monitors. In order to control factors which might influence the diurnal profile of salivary alpha-amylase (such as momentary stress, mood, food, or body activity), at each sampling time point the subjects filled out a diary examining the activities they had carried out during the previous hour.

Results: Salivary alpha-amylase activity shows a distinct diurnal profile pattern with a pronounced decrease within 60 min after awakening and a steady increase of activity during the course of the day. Mixed models showed a relative independence of diurnal salivary alpha-amylase from momentary stress and other factors, but significant associations with chronic stress and mood.

Conclusions: Our results suggest that diurnal profiles of salivary alpha-amylase are relatively robust against momentary influences and therefore may prove useful in the assessment of sympathetic nervous system activity. The findings underscore the need to control for time of day in studies using salivary alpha-amylase as a dependent variable.

Citing Articles

The Impact of Human Salivary Amylase Gene Copy Number and Starch on Oral Biofilms.

Superdock D, Johnson L, Ren J, Khan A, Eno M, Man S Microorganisms. 2025; 13(2).

PMID: 40005827 PMC: 11858026. DOI: 10.3390/microorganisms13020461.

Pilot application of an inflammation and physiological dysregulation index based on noninvasive salivary biomarkers.

Egorov A, Xue W, Kobylanski J, Fuzawa M, Griffin S, Wade T BMC Res Notes. 2025; 18(1):53.

PMID: 39910646 PMC: 11796071. DOI: 10.1186/s13104-024-07056-4.

A pilot study on the effects of olfactory stimulation with white musk aromatic oil on psychophysiological activity: a crossover study.

Zennifa F, Nakashima T, Xu Y, Koshio S, Tomimatsu E, Isa A Sci Rep. 2025; 15(1):1723.

PMID: 39799151 PMC: 11724847. DOI: 10.1038/s41598-024-83887-2.

Longitudinal analysis of academic stress and its effects on salivary cortisol, alpha-amylase, and academic outcomes: Study protocol.

Castillo-Navarrete J, Guzman-Castillo A, Bustos C PLoS One. 2024; 19(12):e0315650.

PMID: 39705290 PMC: 11661652. DOI: 10.1371/journal.pone.0315650.

Salivary alpha-amylase: A marker of stress in gynecological residents during a shoulder dystocia simulation scenario.

Aita A, Galozzi P, Zemin F, Principi G, Contran N, Musso G PLoS One. 2024; 19(11):e0314234.

PMID: 39585877 PMC: 11588261. DOI: 10.1371/journal.pone.0314234.