This is a single-center, prospective, randomised, controlled study, with two parallel groups, designed to assess the clinical impact of a digital exercise program against conventional rehabilitation for shoulder tendonitis. The hypothesis is that all the clinical outcomes measured will significantly improve after the program, and patients using this novel system will attain at least the same outcomes than the ones attained by the conventional PT group.
Shoulder pain is highly prevalent, being the third main complaint in primary care settings.There is a wide range of reported incidence and prevalence rates, with a median of 24.8% of adults reporting shoulder pain every month. In developed countries, 1% of adults annually consult a primary care provider due to shoulder pain. Around 65 to 70% of shoulder pain complaints involve problems in the rotator cuff (RTC) tendons, with incidence rising higher after the 4th decade of life.Abundant data from across the world is available on the prevalence of RTC pathologies. RTC dysfunction represent a huge burden for healthcare systems, insurance companies and employers alike. Shoulder problems account for 2.4% of all general practitioner consultations in the UK, and 4.5 million visits to physicians annually in the USA. One study in the UK20 estimated that nearly £310 million is spent on medical appointments in the first 6 months of shoulder pain onset, and additional costs of surgical procedures are estimated at approximately £30 million/year, with up to 50% of these costs related to sick leave from paid employment. More than 300,000 surgical repairs for RTC pathologies are performed annually in the USA, and the annual financial burden of RTC management was also estimated at $3 billion. A myriad of international clinical practice guidelines have been put forth over the years, outlining the management of pain-causing shoulder disorders. Most causes of mild-to-moderate and gradual onset shoulder pain are treated initially with conservative care. Indeed, many recent studies and systematic reviews, as well as the American Academy of Orthopaedic Surgeons guidelines, support that firstly the patient should be directed to a physical therapy (PT) program and not surgery. For some specific conditions (e.g., symptomatic small to medium full-thickness RTC tears), strong evidence further supports that both PT and operative treatment attain significant improvements in patient-reported outcomes. Of note, another systematic review on treatment options for shoulder pain suggests that passive modalities, such as manual therapy, electrotherapy and taping should be avoided as mono-therapy but that they could, in specific cases, provide additional benefit when utilized in conjunction with therapeutic exercise programs. This suggests that the exercise component of PT is fundamental in the treatment of painful shoulder disorders. Regarding rehabilitation setting, some studies show that home-based therapy, based on exercise, could be as effective as conventional PT interventions. This is in line with the recent trends in healthcare delivery, moving away from inpatient care and towards home-based care with the intent of improving cost-effectiveness. Furthermore, the need for home-based digital solutions is now felt more acutely than ever, in the face of the current pandemic. In this context, solutions enabling home-based rehabilitation without requiring real-time human supervision can be key to improving effectiveness and lowering costs, while keeping all stakeholders safe. Indeed, there are studies demonstrating the potential and cost-effectiveness of shoulder postoperative care and rehabilitation through telehealth solutions. However, while evidence is growing that digital therapeutics (DTx) can improve outcomes, personalize care and decrease costs, there is still much ground to be explored in the field of digital therapy following RCR. Several studies can be found on the validation/development of systems/algorithms for monitoring shoulder motion to assist clinicians on patient evaluation but these do not meet the aforementioned needs and cannot be considered digital therapeutics. There have been some advances on new technologies for shoulder rehabilitation, namely using wearable sensors and augmented reality. Of note, some of these studies focus on systems based on inertial motion trackers that can be used by the patient at home, under remote monitoring from the physical therapist. However, these are either in very preliminary stages of development or validation, with no clinical validation studies performed, or are directed at rehabilitation after stroke. SWORD Health has developed a novel motion tracking-based digital biofeedback system for home-based physical rehabilitation - SWORD Phoenix - which is an FDA-listed class II medical device. The company has previously conducted two pilot studies (NCT03047252; NCT03045549) comparing a digital therapy program using this device against conventional face-to-face physical therapy. These studies have proven the feasibility, safety and effectiveness of this digital therapeutic on rehabilitation after total knee and hip arthroplasty. This is a single-center, prospective, randomised, controlled study, with two parallel groups, designed to assess the clinical impact of a digital exercise program against conventional rehabilitation for shoulder tendonitis. The hypothesis is that all the clinical outcomes measured will significantly improve after the program, and patients using this novel system will attain at least the same outcomes than the ones attained by the conventional PT group.
Patients in the digital intervention group will benefit from an 8-week program composed of therapeutic exercise, education and cognitive behavioural therapy (CBT) program provided by SWORD Health. Patients in this group will performed home-based rehabilitation sessions using SWORD Phoenix®, under remote monitoring by a physical therapist.
Patients in this group will benefit from a 8-week program consisting of two 30 min face-to-face physical therapy sessions per week in an outpatient clinic setting, for a total of 16 sessions. The program includes commonly used interventions adapted by the physical therapist to the specific needs of the participant. In addition to the face-to-face sessions, physical therapists will also be communicating with participants in this group through a secure messaging system (Mychart) used at UCSF or, alternatively, through a telephone check-ins (10-15 min calls, up to twice per week).
Physical Medicine and Rehabilitation Clinic
San Francisco, California, United States
Change in the Shortened Disabilities of the Arm, Shoulder and Hand Questionnaire (QuickDASH)
Shoulder physical function and symptoms will be measured using the shortened Disabilities of the Arm, Shoulder and Hand questionnaire QuickDASH, ranging from 0 (zero;non-disability) to 100 (maximum disability)
Time frame: 8 weeks after initiation of rehabilitation program
Change in Shoulder Pain - Worst Pain Level
Shoulder pain level within the will be 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 worst pain in the last 24 hours?".
Time frame: 8 weeks after initiation of rehabilitation program
Surgery Intent
Measured through the following question: "What do you think are the chances you will get shoulder surgery in the next 12 months, in %?". Minimum and maximum values of the scale are respectively 0 and 100%, with lower values representing a lower chance.
Time frame: 8 weeks after initiation of rehabilitation program
Anxiety
Change in the General Anxiety Disorder-7 scale score. Minimum score zero; maximum score 21. Lower scores indicate less severe anxiety.
Time frame: 8 weeks after initiation of rehabilitation program
Patient Satisfaction With Intervention
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.
Time frame: 8 weeks after initiation of rehabilitation program
Change in Shoulder Pain - Least Pain Level
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Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
90
Shoulder pain level within the will be 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 least pain in the last 24 hours?".
Time frame: 8 weeks after initiation of rehabilitation program
Change in Shoulder Pain - Average Pain Level
Shoulder pain level within the will be 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 over the last 7 days?".
Time frame: 8 weeks after initiation of rehabilitation program
Depression
Change in the Patient Health Questionnaire 9 - 7 scale score. Minimum score zero; maximum score 27. Lower scores indicate less severe depression.
Time frame: 8 weeks after initiation of rehabilitation program
Dropout Rate
Rate of patients who dropout from the program
Time frame: Program-end
Total Sessions
Number of sessions performed at program-end
Time frame: 8 weeks
Treatment Intensity
Total number of minutes spent doing exercise sessions.
Time frame: Between baseline and 8 weeks.
Frequency of Sessions Per Week
Number of sessions performed per week in the 8-week rehabilitation program
Time frame: 8 weeks
Retention Rate
Number of participants that completed the 8 week program.
Time frame: Between baseline and 8 weeks.