Self-Managed Strength Training for Active Duty Military With a Knee Injury: A Randomized Controlled Pilot Trial.
Study Goal
The researchers aimed to assess the feasibility and effectiveness of self-managed strengthening strategies, including NMES, for improving knee strength, function, pain, and activity in military members with knee injuries compared to usual PT.
Results Summary
The COMBO group (NMES + strength walking) showed statistically significant improvements in knee extension and flexion strength compared to PT-only, but NMES alone did not. Pain, function, and ADLS improved across all groups with no significant differences.
Population
Active duty military members with knee injuries.
Effective Dosage
Not specified (only adherence rates: NMES group completed 34% of recommended sessions, COMBO group 30%).
Duration
18 weeks.
Interactions
None mentioned.
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
combined NMES with strength walking (COMBO) | increase | knee extension strength in the injured knee | active duty military members with a knee injury | 10.6 kg change over 18 weeks | statistically higher improvement | #1 |
usual physical therapy (PT) alone | increase | knee extension strength in the injured knee | active duty military members with a knee injury | 2.1 kg change over 18 weeks | improvement | #2 |
combined NMES with strength walking (COMBO) | increase | injured knee flexion | active duty military members with a knee injury | 7.5 kg change over 18 weeks | significant difference | #3 |
usual physical therapy (PT) alone | decrease | injured knee flexion | active duty military members with a knee injury | -0.2 kg change over 18 weeks | change | #4 |
combined NMES with strength walking (COMBO) | increase | knee extension in the uninjured knee | active duty military members with a knee injury | 14.7 kg change over 18 weeks | significant difference | #5 |
usual physical therapy (PT) alone | increase | knee extension in the uninjured knee | active duty military members with a knee injury | 2.7 kg change over 18 weeks | change | #6 |
combined NMES with strength walking (COMBO) | increase | knee flexion in the uninjured knee | active duty military members with a knee injury | 6.5 kg change over 18 weeks | significant difference | #7 |
usual physical therapy (PT) alone | decrease | knee flexion in the uninjured knee | active duty military members with a knee injury | -0.2 kg change over 18 weeks | change | #8 |
graduated strength walking using a weighted vest (WALK) | decrease | self-reported daily step logs | active duty military members with a knee injury | 15% below goal | adherence below goal | #9 |
combined NMES with strength walking (COMBO) | decrease | self-reported daily step logs | active duty military members with a knee injury | 6% below goal | adherence below goal | #10 |
neuromuscular electrical stimulation (NMES) | decrease | recommended stimulation sessions | active duty military members with a knee injury | 34% of recommended | completed | #11 |
combined NMES with strength walking (COMBO) | decrease | recommended stimulation sessions | active duty military members with a knee injury | 30% of recommended | completed | #12 |
all groups (PT-only, WALK, NMES, COMBO) | decrease | overall pain | active duty military members with a knee injury | no significant group differences | improved | #13 |
all groups (PT-only, WALK, NMES, COMBO) | increase | function | active duty military members with a knee injury | no significant group differences | significantly improved | #14 |
all groups (PT-only, WALK, NMES, COMBO) | increase | activities of daily living scale (ADLS) | active duty military members with a knee injury | no significant group differences | significantly improved | #15 |
INTRODUCTION: Knee injuries among active duty military are one of the most frequent musculoskeletal injuries and are often caused by exercise or intense physical activity or combat training. These injuries pose a threat to force readiness. Our objective was to assess feasibility (including recruitment and retention rates) of three self-managed strengthening strategies for knee injuries and determine if they resulted in improvements in lower extremity strength, function, pain, and activity compared to usual physical therapy (PT) in military members. METHODS: A pilot study using a randomized controlled trial was conducted at three outpatient military medical treatment facilities. After baseline testing, 78 active duty military members with a knee injury were randomized to 1-4 trial arms: (1) neuromuscular electrical stimulation (NMES) applied to the quadriceps muscle; (2) graduated strength walking using a weighted vest (WALK); (3) combined NMES with strength walking (COMBO); (4) usual PT alone. All groups received usual PT. The primary outcome was the rates of change in knee extensor and flexor strength over 18 weeks. Secondary outcomes explored the rates of change in functional performance, pain, and activities of daily living scale (ADLS). The primary analysis for the endpoints used repeated measures, linear mixed-effects models. This study was approved by Institutional Review Boards at all facilities. RESULTS: The randomized sample (N = 78) included 19 participants in the PT-only, 20 in the WALK, 19 in the NMES and 20 in the COMBO groups. At baseline, there were no group differences. Fifty of the participants completed the 18-week study. The completers and non-completers differed at baseline on injury mechanism, with more completers injured during sports (45% vs 29%), and more non-completers during military training (36% vs 18%). Also, they differed in uninjured knee extension (completers 28% weaker), and uninjured knee flexion (completers 22% weaker). Adherence for self-reported daily step logs showed that the WALK group was 15% below goal and COMBO group 6% below goal. The 300 PV muscle stimulator showed the NMES group completed 34% of recommended stimulation sessions and the COMBO group 30%.Knee extension strength in the injured knee found only the COMBO group having a statistically higher improvement compared to PT-only (Change over 18 weeks: 10.6 kg in COMBO; 2.1 kg in PT-only). For the injured knee flexion changes, only the COMBO showed significant difference from PT-only (Change over 18 weeks: 7.5 kg in COMBO; -0.2 kg in PT-only). Similarly, for the uninjured knee, only the COMBO showed significant difference from PT-only in knee extension (Change over 18 weeks: 14.7 Kg in COMBO; 2.7 kg in PT-only) and knee flexion (Change over 18 weeks: 6.5 kg in COMBO; -0.2 kg in PT-only). Overall pain improved during the study for all groups with no significant group differences. Similarly, function and ADLS significantly improved over 18 weeks, with no significant group differences. CONCLUSIONS: Knee extensor strength improvements in the COMBO group were significantly higher compared to usual PT. Pain, functional measures, and ADLS all improved during the study with no group differences. Further research is required to confirm these findings.