Older Adults' Drop in Cerebral Oxygenation on Standing Correlates With Postural Instability and May Improve With Sitting Prior to Standing

Laura K Fitzgibbon-Collins; George A Heckman; Ikdip Bains; Mamiko Noguchi; William E McIlroy; Richard L Hughson

doi:10.1093/gerona/glaa194

Older Adults' Drop in Cerebral Oxygenation on Standing Correlates With Postural Instability and May Improve With Sitting Prior to Standing

J Gerontol A Biol Sci Med Sci. 2021 May 22;76(6):1124-1133. doi: 10.1093/gerona/glaa194.

Authors

Laura K Fitzgibbon-Collins^{1

2}, George A Heckman¹, Ikdip Bains¹, Mamiko Noguchi², William E McIlroy², Richard L Hughson^{1

2}

Affiliations

¹ Schlegel-University of Waterloo Research Institute for Aging, Ontario, Canada.
² Department of Kinesiology, University of Waterloo, Ontario, Canada.

PMID: 32766776
DOI: 10.1093/gerona/glaa194

Abstract

Background: Impaired blood pressure (BP) recovery with orthostatic hypotension on standing occurs in 20% of older adults. Low BP is associated with low cerebral blood flow but mechanistic links to postural instability and falls are not established. We investigated whether posture-related reductions in cerebral tissue oxygenation (tSO2) in older adults impaired stability upon standing, if a brief sit before standing improved tSO2 and stability, and if Low-tSO2 predicted future falls.

Method: Seventy-seven older adults (87 ± 7 years) completed (i) supine-stand, (ii) supine-sit-stand, and (iii) sit-stand transitions with continuous measurements of tSO2 (near-infrared spectroscopy). Total path length (TPL) of the center of pressure sway quantified stability. K-cluster analysis grouped participants into High-tSO2 (n = 62) and Low-tSO2 (n = 15). Fall history was followed up for 6 months.

Results: Change in tSO2 during supine-stand was associated with increased TPL (R = -.356, p = .001). When separated into groups and across all transitions, the Low-tSO2 group had significantly lower tSO2 (all p < .01) and poorer postural stability (p < .04) through 3 minutes of standing compared to the High-tSO2 group. There were no effects of transition type on tSO2 or TPL for the High-tSO2 group, but a 10-second sitting pause improved tSO2 and enhanced postural stability in the Low-tSO2 group (all p < .05). During 6-month follow-up, the Low-tSO2 group had a trend (p < .1) for increased fall risk.

Conclusions: This is the first study to show an association between posture-related cerebral hypoperfusion and quantitatively assessed instability. Importantly, we found differences among older adults suggesting those with lower tSO2 and greater instability might be at increased risk of a future fall.

Keywords: Arterial blood pressure; Balance; Falls; Near-infrared spectroscopy; Orthostatic hypotension.

MeSH terms

Accidental Falls
Aged
Aged, 80 and over
Blood Pressure / physiology*
Brain Chemistry / physiology*
Cerebrovascular Circulation / physiology*
Female
Humans
Hypotension, Orthostatic / physiopathology*
Male
Oxygen / analysis*
Posture / physiology
Sitting Position
Spectroscopy, Near-Infrared

Substances

Oxygen