NCT05091502

Brief Summary

The ForceLoss study aims to develop personalised modeling and simulation procedures to enable the differential diagnosis for the loss of muscle force, namely dynapenia. Dynapenia can be caused by diffuse or selective sarcopenia, lack of activation, or improper motor control. Each of these causes requires different interventions, but a reliable differential diagnosis is currently impossible. While instrumental methods can provide information on each of these possible causes, it is left to the experience of the single clinician to integrate such information into a complete diagnostic picture. But an accurate diagnosis for dynapenia is important in a number of pathologies, including neurological diseases, age-related frailty, diabetes, and orthopaedic conditions. The hypothesis is that the use of a mechanistic, subject-specific model of maximum isometric knee extension, informed by a number of instrumental information can provide a robust differential diagnosis of dynapenia. In this preliminary study, on healthy volunteers, the investigators will develop and optimize (i) the experimental protocol and (ii) the modeling and simulation framework, assessing both feasibility and reliability of the proposed procedures. Medical imaging, electromyography (EMG) and dynamometry data will be collected and combined to inform a personalised musculoskeletal model of each participant. Biomechanical computer simulations of a Maximal Voluntary Isometric Contraction (MVIC) task will then be performed. To validate the proposed approach, the models' estimates will be compared to in vivo dynamometry measurements and experimental EMG data.

Trial Health

87
On Track

Trial Health Score

Automated assessment based on enrollment pace, timeline, and geographic reach

Enrollment
20

participants targeted

Target at P25-P50 for not_applicable healthy

Timeline
Completed

Started Sep 2022

Shorter than P25 for not_applicable healthy

Geographic Reach
1 country

1 active site

Status
completed

Health score is calculated from publicly available data and should be used for screening purposes only.

Trial Relationships

Click on a node to explore related trials.

Study Timeline

Key milestones and dates

First Submitted

Initial submission to the registry

September 23, 2021

Completed
1 month until next milestone

First Posted

Study publicly available on registry

October 25, 2021

Completed
10 months until next milestone

Study Start

First participant enrolled

September 2, 2022

Completed
2 months until next milestone

Primary Completion

Last participant's last visit for primary outcome

November 10, 2022

Completed
1 day until next milestone

Study Completion

Last participant's last visit for all outcomes

November 11, 2022

Completed
Last Updated

January 23, 2023

Status Verified

September 1, 2022

Enrollment Period

2 months

First QC Date

September 23, 2021

Last Update Submit

January 20, 2023

Conditions

Healthy

Keywords

Musculoskeletal modelingIn silico medicineMaximal Voluntary Isometric ContractionElectromyographyHealthy volunteersDynapeniaDynamometry

Outcome Measures

Primary Outcomes (3)

  • Muscle volume

    Full lower limb MRI data will be acquired with subjects in supine position. Individual muscle volumes (in cm3) will be segmented using commercial software and stored in anonymized form. Such data will serve as normative dataset/threshold in future studies that aim to assess (the severity of) sarcopenia in a patient population.

    at baseline (Day 0)

  • Co-contraction index (CCI)

    Experimental EMG data will be recorded from the major lower limb muscles involved in the knee extension, while participants perform a maximal voluntary isometric contraction on a dynamometer (i.e., MVIC test to quantify muscle strength). The co-contraction index, defined as the relative activation of agonist and antagonist muscles (for this task: quadriceps and hamstrings) in the act of kicking (MVIC test), will be computed according to Li et al (2020). EMG patterns (mV) will additionally be stored and will constitute a normative dataset, for qualitative comparisons to identify suboptimal muscle control or altered muscle activation patterns in dynapenic patients in future studies that aim to assess (the severity of) dynapenia in a patient population.

    at baseline (Day 0)

  • MVIC Torque

    Dynamometry data will be acquired while participants perform a MVIC leg extension test. The maximum torque values (Nm) measured over three repetitions will be recorded. These correspond to the values observed in correspondence of the plateaux of force, developed over a sustained contraction. Such data will serve as normative dataset/threshold in future studies that aim to assess (the severity of) dynapenia in a patient population.

    at baseline (Day 0)

Study Arms (1)

Healthy volunteers

OTHER
Diagnostic Test: Personalised musculoskeletal modeling

Interventions

Personalised musculoskeletal modelingDIAGNOSTIC_TEST

Magnetic resonance images, electromyography and dynamometry data will be used to develop personalised musculoskeletal models

Healthy volunteers

Eligibility Criteria

Age20 Years - 40 Years
Sexall
Healthy VolunteersYes
Age GroupsAdult (18-64)

You may qualify if:

  • Body mass index (BMI) between 15 and 30 kg / m²

You may not qualify if:

  • Neurological, rheumatic or tumoral diseases;
  • Pathologies or physical conditions incompatible with the use of magnetic resonance imaging and electrostimulation (i.e., active and passive implanted biomedical devices, epilepsy, severe venous insufficiency in the lower limbs, pregnancy);
  • Previous interventions or traumas to the joints of the lower limb.

Contact the study team to confirm eligibility.

Sponsors & Collaborators

Study Sites (1)

IRCCS Istituto Ortopedico Rizzoli

Bologna, Emilia-Romagna, 40136, Italy

Location

Related Publications (2)

  • Pons C, Borotikar B, Garetier M, Burdin V, Ben Salem D, Lempereur M, Brochard S. Quantifying skeletal muscle volume and shape in humans using MRI: A systematic review of validity and reliability. PLoS One. 2018 Nov 29;13(11):e0207847. doi: 10.1371/journal.pone.0207847. eCollection 2018.

    PMID: 30496308BACKGROUND

  • Nishikawa Y, Watanabe K, Takahashi T, Hosomi N, Orita N, Mikami Y, Maruyama H, Kimura H, Matsumoto M. Sex differences in variances of multi-channel surface electromyography distribution of the vastus lateralis muscle during isometric knee extension in young adults. Eur J Appl Physiol. 2017 Mar;117(3):583-589. doi: 10.1007/s00421-017-3559-3. Epub 2017 Feb 20.

    PMID: 28220239BACKGROUND

Study Officials

  • Marco Viceconti, Professor

    IRCCS Istituto Ortopedico Rizzoli

    PRINCIPAL INVESTIGATOR

Study Design

Study Type
interventional
Phase
not applicable
Allocation
NA
Masking
NONE
Purpose
DIAGNOSTIC
Intervention Model
SINGLE GROUP
Sponsor Type
OTHER
Responsible Party
SPONSOR

Study Record Dates

First Submitted

September 23, 2021

First Posted

October 25, 2021

Study Start

September 2, 2022

Primary Completion

November 10, 2022

Study Completion

November 11, 2022

Last Updated

January 23, 2023

Record last verified: 2022-09

Data Sharing

IPD Sharing
Will share

We plan to share a database of normative experimental data representative of a healthy adult population. The dataset will include the force profiles and the EMG data recorded during the MVIC test, and may include Magnetic Resonance Imaging data. All data will be irreversibly anonymized.

Time Frame
The (anonymized) database of normative values will be made available to the wider biomechanical community upon study completion
Access Criteria
Not yet defined

Locations

IT(1)