Accelerometric Assessment of Gastric Contractility Using the Atmo Wireless Motility Capsule

William L. Hasler; Thomas Abell; Ashok Attaluri; William D. Chey; Michael Cline; Richard B. Gearry; Peter R. Gibson; Vincent Ho; Allen A. Lee; Anthony J. Lembo; Amir Masoud; Richard McCallum; Baharak Moshiree; Eamonn M.M. Quigley; Satish S.C. Rao; Mayra Sanchez; Irene Sarosiek; Abigail Stocker; Brian Surjanhata; Phoebe A. Thwaites; Jerry Zhou; Braden Kuo

doi:10.1111/nmo.70255

Accelerometric Assessment of Gastric Contractility Using the Atmo Wireless Motility Capsule

William L. Hasler, Thomas Abell, Ashok Attaluri, William D. Chey, Michael Cline, Richard B. Gearry, Peter R. Gibson, Vincent Ho, Allen A. Lee, Anthony J. Lembo, Amir Masoud, Richard McCallum, Baharak Moshiree, Eamonn M.M. Quigley, Satish S.C. Rao, Mayra Sanchez, Irene Sarosiek, Abigail Stocker, Brian Surjanhata, Phoebe A. ThwaitesJerry Zhou, Braden Kuo

Research output: Contribution to journal › Article › peer-review

Abstract

BACKGROUND: Patients with gastric dysmotility exhibit abnormal transit and reduced contractility, for which quantification is limited with current methodologies. The Atmo Capsule is a wireless motility capsule that measures regional gastrointestinal transit. We tested its technical capabilities to evaluate gastric contractility by detecting changes in capsule acceleration during transit.

METHODS: Data from 91 healthy controls and 182 patients with suspected dysmotility who ingested the Atmo Capsule following a standardized protocol were included. Gastric emptying times (GET) ≥ 5 h were considered delayed. Contraction frequencies (cycles per minute [cpm]) and amplitudes (as arbitrary units [au]) were identified following Fast Fourier Transformation of accelerometer data using 5-min windows and were assessed in 30-min windows post-ingestion (early gastric phase) and before gastric emptying (late gastric phase). Data were compared via ANOVA, using Bonferroni corrections, between healthy controls, patients with normal gastric emptying, and patients with delayed gastric emptying.

KEY RESULTS: Gastric emptying was delayed in 53/182 (29%) patients. Three cpm contraction frequencies were identified across both gastric phases in controls and patients. Contraction amplitudes did not differ between groups in the early gastric phase. In the late phase, mean amplitudes were lower in patients with delayed gastric emptying (6.4 au) compared with subjects with normal gastric emptying (controls, 9.7 au, p < 0.0001; patients, 8.6 au, p < 0.0001).

CONCLUSIONS & INFERENCE: The Atmo Capsule enables precise quantification of gastric contraction profiles, permitting differentiation of normal from pathological motor patterns. Findings of this technical assessment support its potential for evaluating gastric physiology and detecting pathophysiological patterns of gastric dysmotility.

Original language	English (US)
Article number	e70255
Pages (from-to)	e70255
Journal	Neurogastroenterology and Motility
Volume	38
Issue number	2
DOIs	https://doi.org/10.1111/nmo.70255
State	Published - Feb 2026

Keywords

contractility
dysmotility
gastroparesis
stomach
wireless motility capsule
Accelerometry/methods
Gastrointestinal Motility/physiology
Humans
Middle Aged
Male
Gastroparesis/physiopathology
Gastric Emptying/physiology
Young Adult
Female
Adult
Gastrointestinal Transit/physiology
Aged
Muscle Contraction/physiology
Capsule Endoscopy/methods

ASJC Scopus subject areas

Physiology
Endocrine and Autonomic Systems
Gastroenterology

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10.1111/nmo.70255

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Hasler, W. L., Abell, T., Attaluri, A., Chey, W. D., Cline, M., Gearry, R. B., Gibson, P. R., Ho, V., Lee, A. A., Lembo, A. J., Masoud, A., McCallum, R., Moshiree, B., Quigley, E. M. M., Rao, S. S. C., Sanchez, M., Sarosiek, I., Stocker, A., Surjanhata, B., ... Kuo, B. (2026). Accelerometric Assessment of Gastric Contractility Using the Atmo Wireless Motility Capsule. Neurogastroenterology and Motility, 38(2), e70255. Article e70255. https://doi.org/10.1111/nmo.70255

Hasler, WL, Abell, T, Attaluri, A, Chey, WD, Cline, M, Gearry, RB, Gibson, PR, Ho, V, Lee, AA, Lembo, AJ, Masoud, A, McCallum, R, Moshiree, B, Quigley, EMM, Rao, SSC, Sanchez, M, Sarosiek, I, Stocker, A, Surjanhata, B, Thwaites, PA, Zhou, J & Kuo, B 2026, 'Accelerometric Assessment of Gastric Contractility Using the Atmo Wireless Motility Capsule', Neurogastroenterology and Motility, vol. 38, no. 2, e70255, pp. e70255. https://doi.org/10.1111/nmo.70255

@article{331bd664e2464610a8106beaf8dadb1c,

title = "Accelerometric Assessment of Gastric Contractility Using the Atmo Wireless Motility Capsule",

abstract = "BACKGROUND: Patients with gastric dysmotility exhibit abnormal transit and reduced contractility, for which quantification is limited with current methodologies. The Atmo Capsule is a wireless motility capsule that measures regional gastrointestinal transit. We tested its technical capabilities to evaluate gastric contractility by detecting changes in capsule acceleration during transit.METHODS: Data from 91 healthy controls and 182 patients with suspected dysmotility who ingested the Atmo Capsule following a standardized protocol were included. Gastric emptying times (GET) ≥ 5 h were considered delayed. Contraction frequencies (cycles per minute [cpm]) and amplitudes (as arbitrary units [au]) were identified following Fast Fourier Transformation of accelerometer data using 5-min windows and were assessed in 30-min windows post-ingestion (early gastric phase) and before gastric emptying (late gastric phase). Data were compared via ANOVA, using Bonferroni corrections, between healthy controls, patients with normal gastric emptying, and patients with delayed gastric emptying.KEY RESULTS: Gastric emptying was delayed in 53/182 (29\%) patients. Three cpm contraction frequencies were identified across both gastric phases in controls and patients. Contraction amplitudes did not differ between groups in the early gastric phase. In the late phase, mean amplitudes were lower in patients with delayed gastric emptying (6.4 au) compared with subjects with normal gastric emptying (controls, 9.7 au, p < 0.0001; patients, 8.6 au, p < 0.0001).CONCLUSIONS \& INFERENCE: The Atmo Capsule enables precise quantification of gastric contraction profiles, permitting differentiation of normal from pathological motor patterns. Findings of this technical assessment support its potential for evaluating gastric physiology and detecting pathophysiological patterns of gastric dysmotility.",

keywords = "contractility, dysmotility, gastroparesis, stomach, wireless motility capsule, Accelerometry/methods, Gastrointestinal Motility/physiology, Humans, Middle Aged, Male, Gastroparesis/physiopathology, Gastric Emptying/physiology, Young Adult, Female, Adult, Gastrointestinal Transit/physiology, Aged, Muscle Contraction/physiology, Capsule Endoscopy/methods",

author = "Hasler, \{William L.\} and Thomas Abell and Ashok Attaluri and Chey, \{William D.\} and Michael Cline and Gearry, \{Richard B.\} and Gibson, \{Peter R.\} and Vincent Ho and Lee, \{Allen A.\} and Lembo, \{Anthony J.\} and Amir Masoud and Richard McCallum and Baharak Moshiree and Quigley, \{Eamonn M.M.\} and Rao, \{Satish S.C.\} and Mayra Sanchez and Irene Sarosiek and Abigail Stocker and Brian Surjanhata and Thwaites, \{Phoebe A.\} and Jerry Zhou and Braden Kuo",

note = "{\textcopyright} 2026 John Wiley \& Sons Ltd.",

year = "2026",

month = feb,

doi = "10.1111/nmo.70255",

language = "English (US)",

volume = "38",

pages = "e70255",

journal = "Neurogastroenterology and Motility",

issn = "1350-1925",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "2",

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TY - JOUR

T1 - Accelerometric Assessment of Gastric Contractility Using the Atmo Wireless Motility Capsule

AU - Hasler, William L.

AU - Abell, Thomas

AU - Attaluri, Ashok

AU - Chey, William D.

AU - Cline, Michael

AU - Gearry, Richard B.

AU - Gibson, Peter R.

AU - Ho, Vincent

AU - Lee, Allen A.

AU - Lembo, Anthony J.

AU - Masoud, Amir

AU - McCallum, Richard

AU - Moshiree, Baharak

AU - Quigley, Eamonn M.M.

AU - Rao, Satish S.C.

AU - Sanchez, Mayra

AU - Sarosiek, Irene

AU - Stocker, Abigail

AU - Surjanhata, Brian

AU - Thwaites, Phoebe A.

AU - Zhou, Jerry

AU - Kuo, Braden

PY - 2026/2

Y1 - 2026/2

N2 - BACKGROUND: Patients with gastric dysmotility exhibit abnormal transit and reduced contractility, for which quantification is limited with current methodologies. The Atmo Capsule is a wireless motility capsule that measures regional gastrointestinal transit. We tested its technical capabilities to evaluate gastric contractility by detecting changes in capsule acceleration during transit.METHODS: Data from 91 healthy controls and 182 patients with suspected dysmotility who ingested the Atmo Capsule following a standardized protocol were included. Gastric emptying times (GET) ≥ 5 h were considered delayed. Contraction frequencies (cycles per minute [cpm]) and amplitudes (as arbitrary units [au]) were identified following Fast Fourier Transformation of accelerometer data using 5-min windows and were assessed in 30-min windows post-ingestion (early gastric phase) and before gastric emptying (late gastric phase). Data were compared via ANOVA, using Bonferroni corrections, between healthy controls, patients with normal gastric emptying, and patients with delayed gastric emptying.KEY RESULTS: Gastric emptying was delayed in 53/182 (29%) patients. Three cpm contraction frequencies were identified across both gastric phases in controls and patients. Contraction amplitudes did not differ between groups in the early gastric phase. In the late phase, mean amplitudes were lower in patients with delayed gastric emptying (6.4 au) compared with subjects with normal gastric emptying (controls, 9.7 au, p < 0.0001; patients, 8.6 au, p < 0.0001).CONCLUSIONS & INFERENCE: The Atmo Capsule enables precise quantification of gastric contraction profiles, permitting differentiation of normal from pathological motor patterns. Findings of this technical assessment support its potential for evaluating gastric physiology and detecting pathophysiological patterns of gastric dysmotility.

AB - BACKGROUND: Patients with gastric dysmotility exhibit abnormal transit and reduced contractility, for which quantification is limited with current methodologies. The Atmo Capsule is a wireless motility capsule that measures regional gastrointestinal transit. We tested its technical capabilities to evaluate gastric contractility by detecting changes in capsule acceleration during transit.METHODS: Data from 91 healthy controls and 182 patients with suspected dysmotility who ingested the Atmo Capsule following a standardized protocol were included. Gastric emptying times (GET) ≥ 5 h were considered delayed. Contraction frequencies (cycles per minute [cpm]) and amplitudes (as arbitrary units [au]) were identified following Fast Fourier Transformation of accelerometer data using 5-min windows and were assessed in 30-min windows post-ingestion (early gastric phase) and before gastric emptying (late gastric phase). Data were compared via ANOVA, using Bonferroni corrections, between healthy controls, patients with normal gastric emptying, and patients with delayed gastric emptying.KEY RESULTS: Gastric emptying was delayed in 53/182 (29%) patients. Three cpm contraction frequencies were identified across both gastric phases in controls and patients. Contraction amplitudes did not differ between groups in the early gastric phase. In the late phase, mean amplitudes were lower in patients with delayed gastric emptying (6.4 au) compared with subjects with normal gastric emptying (controls, 9.7 au, p < 0.0001; patients, 8.6 au, p < 0.0001).CONCLUSIONS & INFERENCE: The Atmo Capsule enables precise quantification of gastric contraction profiles, permitting differentiation of normal from pathological motor patterns. Findings of this technical assessment support its potential for evaluating gastric physiology and detecting pathophysiological patterns of gastric dysmotility.

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KW - dysmotility

KW - gastroparesis

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KW - wireless motility capsule

KW - Accelerometry/methods

KW - Gastrointestinal Motility/physiology

KW - Humans

KW - Middle Aged

KW - Male

KW - Gastroparesis/physiopathology

KW - Gastric Emptying/physiology

KW - Young Adult

KW - Female

KW - Adult

KW - Gastrointestinal Transit/physiology

KW - Aged

KW - Muscle Contraction/physiology

KW - Capsule Endoscopy/methods

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SN - 1350-1925

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ER -

Accelerometric Assessment of Gastric Contractility Using the Atmo Wireless Motility Capsule

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Keywords

ASJC Scopus subject areas

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