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CLINICAL STUDIES

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Scientific Evidence Supporting the Squegg™ Smart Dynamometer

Varadarajan, K., Gunjan, S., & Francis, G. (2026)

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App-Guided Grip Strength Assessment: Feasibility and Validity of Self-administered Testing with a Smart Dynamometer

Francis, G., DeTreux, K., Enright, M., George, L., Lambrides, Y., Mangudi Varadarajan, K., & Tsui, W. (2026) medRxiv 2026.01.29.26345154

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Investigation of Inter-Device Reliability Between the Squegg® Smart Dynamometer and the Baseline BIMS Digital Hand Grip Dynamometer

Yiğit, S., & Ergen, H. İbrahim. (2025) European Journal of Therapeutics, 31(4), 255–265.

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Interinstrument Reliability Between the Squegg® Smart Dynamometer and Hand Grip Trainer and the Jamar® Hydraulic Hand Dynamometer: A Pilot Study.

Stamate, A., Bertolaccini, J., Deriaz, M., Gunjan, S., Marzan, M., Spiru, L. (2023). The American Journal of Occupational Therapy, Vol. 77(5), 7705205150.

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Concurrent Validity and Test-Retest Reliability of Squegg - Smart Dynamometer and Handgrip Trainer in Healthy Individuals

Amin, Z., Gutierrez, G., & True, L. (2024). Hand Therapy, 29(2), 68–74. 

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Validity and Reliability of Squegg Device in Measuring Isometric Handgrip Strength.

Bairapareddy, K.C., Khaleel, A., Akbar, S., Maherban, H., Mehdiyeva, F., Rasti, F., Tamim, M., Abdelbasset, W.K., Ezzat, W., Reddy, R.S., Tedla, J.S., Ramakrshnan, R., Hussein, R.S., Alaparthi, G.K., Elsayed, S.H. (2023) European Review Medical Pharmacological and Science, 27 (21): 10247-10254.

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Natural, longitudinal recovery of adults with COVID-19 using standardized rehabilitation measures.

Ciro CA., James, SA., McGuire, H., Lepak, V., Dresser, S., Costner-Lark, A., Robinson, W., Fritz, T. (2022). Frontiers in Aging Neuroscience, Vol 14.

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Normative Grip Strength Reference Values for the Squegg® Smart Dynamometer and Hand Grip Trainer

Varadarajan, K., Agnihotri, A., Gunjan, S. Verma, S., Tsui, W., Francis, G. OSF Preprint, (2023).

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Use of a novel bluetooth-connected device to measure handgrip strength: A practical tool to help healthcare professionals identify adults at nutritional risk

Varadarajan, K., Sharn, A. R., Kadhe, G., Shaikh, I., Sulo, S., & Bhattacharyya, S. (2024). Clinical Nutrition Open Science, 55, 193-204.

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Is the Squegg digital grip device more reliable than the adapted sphygmomanometer? A clinical measurement study.

Packam, T., Roque, M., Herrington, J., Southmayd, D., Batthish, M., & Xiao, E. (2024).

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Exploring the connections between grip strength, nutritional status, frailty, depression, and cognition as initial assessment tools in geriatric rehabilitation — A pilot study

Vancea Nemirschi, A.T., Lupu, A.A., Aivaz, K.-A., Iliescu, M.G., Deriaz, M.; Marzan, M., Spiru, L. (2024). Medicina, 60, 1916.

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Squegg demonstrates good interdevice reliability in measuring grip strength in healthy volunteers

Iannarelli, L., Packham, T. (2025). Journal of Hand Therapy, 38, 645-647.

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A third of adults as young as early forties may be at nutritional risk: Findings from global handgrip strength study using a digital tool

Sharn, A., et al. (2025). ESPEN Conference.

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Optimising physiotherapy for people with lateral elbow tendinopathy – Results of a mixed-methods pilot and feasibility randomised controlled trial (OPTimisE)

Bateman, M., et al. (2024). Musculoskeletal Science and Practice, 69, 102905.

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