Longitudinal Assessment of Maximal Inspiratory Pressure and Functional Capacity Following Inspiratory Muscle Training in Frail Older Adults (IMT-2)

Maximal Inspiratory Pressure (MIP)

Maximal Inspiratory Pressure (MIP) will be measured using a calibrated handheld manometer following standardized respiratory assessment guidelines. Participants will be instructed to perform a maximal inspiratory effort from residual volume through the mouthpiece with their nose occluded. At least three maneuvers will be recorded, ensuring less than 10% variability between attempts. The highest reproducible value (cmH₂O) will be used for analysis. This measure reflects global inspiratory muscle strength and is widely validated in older and frail populations.

Time frame: Before-intervention; Immediately after intervention; 1-month after intervention; 3 months after intervention

Six-Minute Walk Test (6MWT)

Functional exercise capacity will be assessed using the Six-Minute Walk Test (6MWT). Participants will be instructed to walk at their fastest possible pace for six minutes along a 30-meter corridor, covering the greatest distance possible. The total distance walked (in meters) will be recorded. Participants will be continuously accompanied by the therapist and may use assistive devices and/or supplemental oxygen if required.

Time frame: Before-intervention; Immediately after intervention; 1-month after intervention; 3 months after intervention

Timed Up and Go Test (TUG)

Functional mobility and fall risk will be evaluated using the Timed Up and Go (TUG) test. Participants will start seated in a chair with armrests. On command, they will stand up, walk 3 meters, turn around, return to the chair, and sit down. The total time to complete the task will be recorded in seconds. Interpretation criteria: \< 20 seconds: normal performance ≥ 20 seconds: increased risk of falls

Time frame: Before-intervention; Immediately after intervention; 1-month after intervention; 3 months after intervention

Five Times Sit-to-Stand Test (5STS)

Lower limb functional strength will be assessed using the Five Times Sit-to-Stand Test (5STS). Participants will sit on a 43-45 cm high chair without armrests, with arms crossed over the chest, and will be instructed to stand up and sit down five times as quickly as possible. The total time to complete the test will be recorded in seconds. The minimal detectable change ranges from 3.6 to 4.2 seconds, and the minimal clinically important difference is 2.3 seconds. Age-related normative values will be considered for interpretation.

Time frame: Before-intervention; Immediately after intervention; 1-month after intervention; 3 months after intervention

Upper Limb Muscle Strength (Handgrip Dynamometry)

Upper limb muscle strength will be assessed using handgrip dynamometry following the recommendations of the American Society of Hand Therapists. Participants will be seated with the shoulder in adduction and neutral rotation, the elbow flexed at 90°, the forearm in neutral position, and the wrist positioned between 0° and 30° of extension. Three maximal grip strength measurements will be obtained from the dominant hand, with 1 minute of rest between trials. The highest value will be selected for analysis. Handgrip strength will be measured using a JAMAR dynamometer (Lafayette Instrument, Lafayette, IN, USA).

Time frame: Before-intervention; Immediately after intervention; 1-month after intervention; 3 months after intervention

Lower Limb Muscle Strength (Isometric Knee Extension Dynamometry)

Lower limb muscle strength will be assessed using isometric dynamometry to evaluate maximal voluntary contraction (MVC) of the knee extensors. The protocol described by Hung et al. will be followed. Participants will perform two maximal isometric contractions, each lasting 5 seconds, with 3 minutes of rest between contractions to allow phosphocreatine resynthesis. Participants will be seated at the edge of a physiotherapy table with the knee positioned at 90° of flexion. The dynamometer will be placed at the level of the malleoli to standardize the lever arm and ensure maximal isometric contraction. The peak force achieved during each contraction will be recorded and normalized to body weight, with results expressed in Newtons (N). Lower limb dynamometry will be performed using the ActiveForce 2 device (Activbody, San Diego, CA, USA).

Time frame: Before-intervention; Immediately after intervention; 1-month after intervention; 3 months after intervention

Muscle Oxygenation

Muscle oxygen saturation (SmO₂) will be assessed using the Moxy Monitor (Fortiori Design LLC, Hutchinson, MN, USA), a wireless and portable device based on near-infrared spectroscopy (NIRS). The measurement protocol described by Contreras-Briceño et al. will be followed and will consist of a 180-second resting measurement, followed by continuous monitoring during the Six-Minute Walk Test (6MWT). Outcome values will correspond to the mean SmO₂ (%) recorded during the final 30 seconds of each phase. The sensor will be placed over the muscle belly of the vastus lateralis following standard NIRS placement recommendations.

Time frame: Before-intervention; Immediately after intervention; 1-month after intervention; 3 months after intervention

Total Hemoglobin Concentration (THb)

Total hemoglobin concentration (THb) will be assessed using the same NIRS device (Moxy Monitor, Fortiori Design LLC, Hutchinson, MN, USA). Data acquisition and analysis will be performed using dedicated software (Moxy Software v1.5.5; Idiag, Fehraltorf, Switzerland). The same protocol will be applied: a 180-second resting measurement followed by continuous monitoring during the Six-Minute Walk Test (6MWT). Outcome values will correspond to the mean THb values recorded during the final 30 seconds of each phase. The sensor placement will be identical to that used for SmO₂ assessment (vastus lateralis).

Time frame: Before-intervention; Immediately after intervention; 1-month after intervention; 3 months after intervention