Digital Care Program for Chronic Low Back Pain

Not Applicable

Completed

Conditions: Chronic Low-back Pain

Registration Number: NCT04808141

Lead Sponsor: Sword Health, SA

Brief Summary: New ways of delivering care are much needed to address chronic low back pain. Crucially, these need to: a) address the three pillars of care to achieve good and sustained clinical outcomes; b) overcome barriers to access; c) ensure patients are engaged throughout the programs; d) be scalable and cost-efficient. SWORD Health has developed a digital care program to address these needs. This study aims to assess the clinical outcomes of this rehabilitation program versus conventional physical therapy.

Detailed Description: Low back pain (LBP) has for long been the world's leading cause of years leaved with disability,1 and, considering that the overall life expectancy is rising, this pandemic only tends to get worse. Nearly everyone is affected by LBP at some moment in life (70-80% of lifetime prevalence). As a consequence, LBP is also presented as a leading cause of work absenteeism worldwide. Thus, although the estimate costs of LBP may be difficult to compare between different countries, its overwhelming socio-economic impact in modern society is evident.

In the absence of an effective treatment, LBP can become chronic, causing a huge impact in patients' daily life, and ultimately promoting a high consumption of healthcare resources. In the US alone, health expenditures for adults with spinal problems were estimated at $6000 per person, representing a total cost of $102 billion each year.

The dim picture described above highlights the urgent need for effective interventions that minimize disability, improve quality of life and decrease productivity losses.

Current guidelines on CLBP management recommend patient education, exercise, physical therapy (PT), and behavioural therapy as the mainstay treatments for this condition.

Despite some discrepancy in the type of exercise program (e.g. aquatic exercises, stretching, back schools, McKenzie exercise approach, yoga, tai-chi) and mode of delivery (e.g., individually designed programs, supervised home exercise, and group exercise), exercise therapy is recommended nearly transversally, with most studies concluding that exercise intervention programs should include a combination of muscular strength, flexibility and aerobic fitness exercises. Moreover, home exercises with a regular therapist follow-up has proven highly effective.

This is not, however, how LBP is currently managed. Appropriate patient education and structured behavioural training are rarely provided, and opioid prescription is also a common practice, despite known opioid-related morbidity and mortality rates. Because the prevalence of CLBP is continuously rising, and opioid misuse is an issue of great concern globally, identifying effective nonopioid alternatives for CLBP is of paramount importance.

Further compounding this problem, from the patients who are directed to PT, almost half give up after just 4 sessions, and only 30% complete their programs.

In this context, new ways of delivering care are much needed. Crucially, these need to: a) address the three pillars of care to achieve good and sustained clinical outcomes; b) overcome barriers to access; c) ensure patients are engaged throughout the programs; d) be scalable and cost-efficient.

This study aims to assess the clinical outcomes of a digital program for chronic low back pain versus conventional PT.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 140

Inclusion Criteria

Subjects aged between 18 and 80 years of age at enrolment
Reporting intermittent or persistent low back pain for at least 12 weeks, and/or present at least 50% of the time in the past 6 months
Ability to understand complex motor tasks

Exclusion Criteria

Known pregnancy
Submitted to spinal surgery less than 3 months ago
Symptoms and/or signs indicative of possible infectious disorder
Known disorder with indication for spine surgery (i.e., tumor, cauda equina syndrome)
Cancer diagnosis or undergoing treatment for cancer
Cardiac, respiratory or other known disorder incompatible with at least 20 minutes of light to moderate physical activity
Concomitant neurological disorder (e.g. Stroke, multiple sclerosis, Parkinson's disease)
Dementia or psychiatric disorders precluding patient from complying with a home-based exercise program
Illiteracy and/or serious visual or auditory impairment interfering with communication or compliance

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
Oswestry Disability Index Score (ODI)	Baseline and 8 weeks after initiation of rehabilitation program	The minimum value of the score is 0% and the maximum is 100%, with lower scores translating into lower disability. In this study, we will be assessing the change between baseline and 8 weeks in Oswestry Disability Index score.

Secondary Outcome Measures

Name	Time	Method
Pain Level	Baseline and 8 weeks after initiation of rehabilitation program	Change in pain level Measured through the following question: "On a scale of 0 to 10, where 0 is no pain and 10 the worst pain imaginable, how would you rate your pain in the last 24 hours?" Minimum and maximum values of the scale are respectively 0 and 10, with lower values representing less pain.
Work Productivity and Activity Impairment (WPAI) Overall	Baseline and 8 weeks after initiation of rehabilitation program	Change in WPAI overall scores. WPAI outcomes are expressed as impairment percentages, with higher numbers indicating greater impairment and less productivity, i.e., worse outcomes, with a minimum of 0% and a maximum of 100%.
Interest in Undergoing Surgery	Baseline and 8 weeks after initiation of rehabilitation program	Change in surgery intent measured through the following question: "On a scale of 0 to 10, where 0 is not at all and 10 is extremely interested, how interested are you in undergoing back surgery in the next 12 months"? Minimum and maximum values of the scale are respectively 0 and 10, with lower values representing a lower interest.
Medication Consumption	Baseline and 8 weeks after initiation of rehabilitation program	Change in medication consumption, measured through the following questions: i. "Are you taking any medication for your low back pain?"; binary score ii. "If yes, are you taking opioids for your low back pain?"; binary score iii. "If yes, on how many days in a week, on average, are you taking medication for your low back pain" minimum 0; max 7 days, with 7 being worse.
Fear Avoidance Beliefs - Physical Activity (FABQ-PA)	Baseline and 8 weeks after initiation of rehabilitation program	Change in Fear avoidance beliefs-Physical Activity questionnaire - Physical Activity subscale. The questionnaire consists of 4 items in which a patient rates their agreement with each statement on a 7-point Likert scale. Where 0= completely disagree, 6=completely agree. There is a maximum score of 24 and a minimum score of 0. Lower scores mean lower fear avoidance.
Anxiety	Baseline and 8 weeks after initiation of rehabilitation program	Change in the General Anxiety Disorder-7 scale score. Minimum score zero; maximum score 21. Lower scores indicate less severe anxiety.
Patient Satisfaction With Intervention	8 weeks after initiation of rehabilitation program.	Measured through the following question: "On a scale from 0 to 10, how likely would you recommend this program to a friend or colleague?". Minimum value is zero and maximum is 10. Higher scores translate higher satisfaction.
Physical Activity Levels	Baseline and 8 weeks after initiation of rehabilitation program	Change in the International Physical Activity Questionnaire- Short Form. The scale scores are calculated to provide a qualitative score: low, moderate and high with higher scores translating into higher activity levels.
Depression	Baseline and 8 weeks after initiation of rehabilitation program	Change in the Patient Health Questionnaire 9 - 7 scale score. Minimum score zero; maximum score 27. Lower scores indicate less severe depression.
Retention Rate	Between baseline and 8 weeks.	Number of participants that complete the 8 week program.
Treatment Intensity	Between baseline and 8 weeks.	Total number of minutes spent doing exercise sessions.
Work Productivity and Activity Impairment (WPAI) Work	Baseline and 8 weeks after initiation of rehabilitation program	Change in WPAI work scores. WPAI outcomes are expressed as impairment percentages, with higher numbers indicating greater impairment and less productivity, i.e., worse outcomes, with a minimum of 0% and a maximum of 100%
Work Productivity and Activity Impairment (WPAI) Time	Baseline and 8 weeks after initiation of rehabilitation program	Change in WPAI time scores. WPAI outcomes are expressed as impairment percentages, with higher numbers indicating greater impairment and less productivity, i.e., worse outcomes, with a minimum of 0% and a maximum of 100%
Work Productivity and Activity Impairment (WPAI) Activity	Baseline and 8 weeks after initiation of rehabilitation program	Change in WPAI Activity scores. WPAI outcomes are expressed as impairment percentages, with higher numbers indicating greater impairment and less productivity, i.e., worse outcomes, with a minimum of 0% and a maximum of 100%
Dropout Rate	Program-end	Rate of patients who dropout from the program
Frequency of Sessions Per Week	8-weeks	Number of sessions performed per week in the 8-week rehabilitation program
Total Sessions	8 weeks	Number of sessions performed at program-end

Trial Locations

Locations (1): Emory Orthopaedic and Spine Center (Atlanta, Ga)
🇺🇸
Atlanta, Georgia, United States
Emory Orthopaedic and Spine Center (Atlanta, Ga)
🇺🇸Atlanta, Georgia, United States