IRIS Institutional Research Information System - AIR Archivio Istituzionale della Ricerca

Background: Objective assessment of postural control is central to the clinical evaluation of vestibular disorders. Although force-platform-based posturography is considered the gold standard, its use may be limited by cost and infrastructural requirements. Wearable inertial measurement units (IMUs) represent a promising alternative; however, their clinical validation should account for intrinsic differences in measurement paradigms rather than strict metric equivalence. Objective: To preliminarily evaluate the within-session reliability of a wearable IMU-based medical device for balance assessment (Gravity), and its agreement with established static (SBP) and computerised dynamic posturographic systems (CDP) in healthy subjects. Methods: Sixty-three healthy adults were enrolled in two independent method comparison studies: a wearable IMU-based balance system versus a static stabilometric platform (GRAVITY vs. SVEP; n = 42) and a wearable IMU-based balance system versus computerised dynamic posturography (Gravity vs. EquiTest; n = 21). Gravity measurements were obtained simultaneously with reference systems across standardised sensory conditions. Within-session reliability and method agreement were assessed. Results: Within-session reliability of Gravity was outcome-dependent. Length-based components demonstrated higher repeatability (ICC (single) = 0.25-0.35; ICC (average) = 0.41-0.52), with narrower limits of agreement (LoA = ±9-12%) and lower measurement error (SEM = 3.3-4.3%). In comparison with SBP, length-based measures exhibited narrower limits (LoA = ±12-17) and more consistent relationships. Comparison with CDP revealed moderate agreement for composite and preferential scores (LoA: -2.20-7.07; -5.54-8.12). Conclusions: Gravity sensor may represent a clinically meaningful, outcome-dependent performance, with superior reliability and comparability for length-based postural measures compared with area-based measures. The device could provide balance assessments compatible with both static and dynamic posturographic systems, accounting for physiological variability. These findings support the potential clinical use of wearable IMU-based posturography, particularly in settings where conventional force-platform systems are not readily available, and warrant further validation in larger, more clinically diverse populations.

A New Wearable System for Postural Balance Assessment: Comparison with EquiTest and Static Posturography in Healthy Adults / V.M. Di Pasquale Fiasca, A.G. Nanni, M. Pozzi, L. Collino, B. Martino, P. Ranieri, E. Filipponi, G. Dehesh, A. Beghi, F. Di Berardino. - In: AUDIOLOGY RESEARCH. - ISSN 2039-4349. - 16:2(2026 Apr), pp. 1-13. [10.3390/audiolres16020045]

A New Wearable System for Postural Balance Assessment: Comparison with EquiTest and Static Posturography in Healthy Adults

B. Martino;E. Filipponi;F. Di Berardino
Ultimo
2026

Abstract

Background: Objective assessment of postural control is central to the clinical evaluation of vestibular disorders. Although force-platform-based posturography is considered the gold standard, its use may be limited by cost and infrastructural requirements. Wearable inertial measurement units (IMUs) represent a promising alternative; however, their clinical validation should account for intrinsic differences in measurement paradigms rather than strict metric equivalence. Objective: To preliminarily evaluate the within-session reliability of a wearable IMU-based medical device for balance assessment (Gravity), and its agreement with established static (SBP) and computerised dynamic posturographic systems (CDP) in healthy subjects. Methods: Sixty-three healthy adults were enrolled in two independent method comparison studies: a wearable IMU-based balance system versus a static stabilometric platform (GRAVITY vs. SVEP; n = 42) and a wearable IMU-based balance system versus computerised dynamic posturography (Gravity vs. EquiTest; n = 21). Gravity measurements were obtained simultaneously with reference systems across standardised sensory conditions. Within-session reliability and method agreement were assessed. Results: Within-session reliability of Gravity was outcome-dependent. Length-based components demonstrated higher repeatability (ICC (single) = 0.25-0.35; ICC (average) = 0.41-0.52), with narrower limits of agreement (LoA = ±9-12%) and lower measurement error (SEM = 3.3-4.3%). In comparison with SBP, length-based measures exhibited narrower limits (LoA = ±12-17) and more consistent relationships. Comparison with CDP revealed moderate agreement for composite and preferential scores (LoA: -2.20-7.07; -5.54-8.12). Conclusions: Gravity sensor may represent a clinically meaningful, outcome-dependent performance, with superior reliability and comparability for length-based postural measures compared with area-based measures. The device could provide balance assessments compatible with both static and dynamic posturographic systems, accounting for physiological variability. These findings support the potential clinical use of wearable IMU-based posturography, particularly in settings where conventional force-platform systems are not readily available, and warrant further validation in larger, more clinically diverse populations.
No
English
EquiTest Gravity; IMU-based posturography; SOT; Svep; balance assessment; computerised dynamic posturography; inertial wearable sensors; posturography; stability
Settore MEDS-18/B - Audiologia e foniatria
Settore MEDS-18/A - Otorinolaringoiatria
Settore IBIO-01/A - Bioingegneria
Articolo
Esperti anonimi
Ricerca applicata
Pubblicazione scientifica
Goal 3: Good health and well-being
apr-2026
17-mar-2026
AUDIOLOGY RESEARCH
MDPI
16
2
1
13
13
Pubblicato
Periodico con rilevanza internazionale
crossref
W7138333108
41874078
Aderisco
info:eu-repo/semantics/article
A New Wearable System for Postural Balance Assessment: Comparison with EquiTest and Static Posturography in Healthy Adults / V.M. Di Pasquale Fiasca, A.G. Nanni, M. Pozzi, L. Collino, B. Martino, P. Ranieri, E. Filipponi, G. Dehesh, A. Beghi, F. Di Berardino. - In: AUDIOLOGY RESEARCH. - ISSN 2039-4349. - 16:2(2026 Apr), pp. 1-13. [10.3390/audiolres16020045]
open
Prodotti della ricerca::01 - Articolo su periodico
10
262
Article (author)
Periodico senza Impact Factor
V.M. Di Pasquale Fiasca, A.G. Nanni, M. Pozzi, L. Collino, B. Martino, P. Ranieri, E. Filipponi, G. Dehesh, A. Beghi, F. Di Berardino
01 - Articolo su periodico
File in questo prodotto:
File Dimensione Formato  
133. dpf gravity.pdf

accesso aperto

Tipologia: Publisher's version/PDF
Licenza: Creative commons
Dimensione 1.57 MB
Formato Adobe PDF
Visualizza/Apri
1.57 MB Adobe PDF Visualizza/Apri
Pubblicazioni consigliate

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1234921
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus ND
  • ???jsp.display-item.citation.isi??? ND
  • OpenAlex 0
social impact