Feasibility of Using Functional Progression to Guide the Treatment of Adolescent Low Back Pain

Low Back Pain Clinical Trial

Official title:

Feasibility of Using Functional Progression to Guide the Treatment of Adolescent Low Back Pain

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT02861456
• Other study ID #: IRB16-00032
• Status: Completed
• Phase: N/A
• Start date: August 2016
• Est. completion date: August 2018

Study information

• Verified date: September 2018
• Source: Nationwide Children's Hospital
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The goal of the proposed research is to test the feasibility of a functional progression program to reduce cost and possible radiation exposure for adolescent athletes with low back pain. Specifically the investigators plan to test the feasibility of using progression in rehabilitation to pragmatically differentially diagnose and treat adolescent athletes with low back pain, instead of using advanced imaging which is the current practice. The investigators propose to recruit 20 participants, with 10 of usual care (advanced imaging) and 10 of proposed intervention (functional progression) to assess the feasibility of using functional progress to guide treatment. The outcomes measured will be number of days for rest, time to start regular rehabilitation, pain experienced, functional outcomes, ability to return to sport, time needed to return to sport. If this pilot demonstrates the feasibility and a decreased rate of advanced imaging and similar clinical outcomes the investigators plan to progress this work into larger trials.

Description:

Low back pain (LBP) is a common complaint in adolescent athletes, with rates reported as high as 50% by the mid-teen years. Although low back pain in adolescent athletes may result from several different pathologies, spondylolysis--a fracture at the pars interarticularis--is the most common cause in this demographic, with a prevalence as high as 47%. The recommended treatment of spondylolysis and non-specific mechanical LBP is quite different. Patients with mechanical LBP are recommended to stay active, and perform rehabilitation if necessary, while the primary treatment for spondylolysis is rest for 3 months, physical therapy and bracing as needed. With the diagnosis of spondylolysis being fairly common in young athletes with low back pain, physicians need to have a high index of suspicion in making the diagnosis. Advanced imaging is often necessary to confidently rule in or out the diagnosis of spondylolysis. Advanced imaging increases diagnostic accuracy, but adds to the cost and potentially considerable radiation exposure. However, advanced imaging may not be necessary to effectively treat adolescents with low back pain.

Function, not imaging, is used to determine when a patient has healed from a spondylolytic injury. In fact, results of healing on imaging have no association with clinical outcome. Most defects do not heal with non-operative treatment suggesting that a successful clinical outcome does not depend on healing of the lesion. The functional progress that patients make is markedly different between patients with mechanical LBP and patients with a spondylolysis. The majority of adolescents with mechanical LBP can make a full functional recovery on their own or with a short period of rehabilitation. A patient with a spondylolytic injury may demonstrate an inability to make a full return to activity with rehabilitation and requires a period of rest from sport and high level activity to make a full functional recovery. Due to the differences in progression between mechanical LBP and spondylolysis, functional progress could be used to differentially diagnose these conditions. If effective, using functional progress instead of advanced imaging would be more cost-effective and expose the patient to significantly less radiation. In a retrospective review of adolescent patients presenting to the investigators sports medicine clinic with LBP, 80% had advanced imaging performed due to a concern of spondylolysis. Thirty-two percent of patients were positive for spondylolysis on advanced imaging, and 11% of patients had multiple advanced imaging performed due to lack of progress. No other significant findings were noted on advanced imaging. By using functional progress to determine the course of care, and only using advanced imaging when a patient does not respond to conservative care, there is the potential to significantly reduce the need for advanced imaging.

The primary risk of using functional progress in physical therapy (PT) instead of advanced imaging to determine to the course of care in adolescents with LBP is a delayed diagnosis for those who fail to respond to conservative care. The risk of missing a sinister pathology mimicking LBP can be minimized with a thorough clinical evaluation and radiographs if warranted. The results of the investigators' previous work demonstrate that early PT care in patients with a spondylolytic injury is safe and reduces time to return to sport. In a retrospective review with a cross-sectional follow-up, patients with an acute spondylolysis who began physical therapy as soon a 4 weeks (mean of 2 months) made a quicker functional recovery back to all activity and had similar clinical outcomes at 1-5 year follow-ups. A delayed diagnosis does not negatively impact long-term functional outcomes for patients with a spondylolysis as duration of symptoms is not found to be associated with outcome. Using logistic regression on the same dataset as above to determine factors associated with good short and long-term clinical outcomes, duration of symtpoms or time to diagnosis was not found to impact outcomes. On the other hand, delaying PT care to obtain advanced imaging is found to negatively impact outcomes in patients with mechanical LBP.

This project will lay the groundwork to demonstrate the feasibility of a functional progression to treat adolescent athletes with LBP. If successful, additional study will be proposed to test the effectiveness of intervention (functional progression) as compared to usual care (imaging) in improving the recovery outcome of LBP. Ultimately, this research would lead to change in the way adolescent athletes with LBP are treated, resulting in decreased cost, decreased exposure to radiation, and decreased time to begin rehabilitation. The results of this work would positively impact patients, clinicians, and decreased the costs to the health care system.

Control Cohort A series of 10 individuals who meet the inclusion criteria and are patients of the sports medicine physicians (Dr.s James MacDonald, Ravindran), physicians who are not recruiting patients for the experimental cohort but are still co-investigators, will serve as a non-randomized control cohort of typical clinical care and outcomes.

Description of the functional progression to guide treatment protocol. (Figure 1) Patients will be evaluated by their physician to determine appropriateness for participation in this study. Patients who meet the inclusion criteria and consent to participate in the pilot study as a part of the experimental cohort will not have advanced imaging done and will be referred directly to PT care for 2 times per week for 3 weeks. The functional progression protocol will be performed by physical therapists trained in the treatment and progression protocol. Patients will perform phase I of the PT protocol and progress to phase II as able without an increase in pain and with sufficiently proper mechanics. (Table 1) Patients will be assessed at each session to determine if they meet the criteria to begin the next step of functional PT progression back to sport. (Table 2) Those patients who meet these criteria within the designated 3 week period will progress into the next phase of functional PT for return to sport activity with an additional 2 weeks of PT. If these patients progress well in this third phase, and are able to meet the return to sport criteria, they will be discharged from PT and monitored by phone for recurrence of symptoms until 2 months. (Table 3) Those patients who do not progress through phase I or II functionally or without pain will be braced, as determined by their physician, and placed on rest from all activities excepting ADL's and their PT home exercise program and will be treated as patients with a presumed spondylolysis. Additionally, patients who are unable to meet the return to sport criteria within 5 weeks of PT will be braced, as deemed necessary by their physician, and placed on rest from all activities except ADL's and their PT home exercise program and will be treated as having a presumed spondylolysis. These patients will follow care appropriate for the condition. They will rest from sport until >2 months after initial evaluation , be braced as necessary, and ultimately complete 4 weeks of PT care to progress them as able back to sport activity. Patients who are treated as having a presumed spondylolysis will not be returned to sport before 3 months of rest as this period of rest has been found to produce optimal results.(El Rassi et al., 2013) Patients will have monthly re-evaluations with their physician until discharge. If at any point the patient is not responding as expected or the physician has concerns over the patient's safety, the physician can take the appropriate steps they feel are necessary for the safety of the patient. Patients who are classified as non-responders will be those who do not progress as expected for the typical course of mechanical LBP or spondylolysis.

Specific Outcome Variables

1. Advanced imaging use during the episode of care: Computed tomography (CT), single-photon emission computed tomography (SPECT), and magnetic resonance imaging (MRI).

2. Total cost will be calculated as the billed costs of physician visits, physical therapy visits, radiographs, advanced imaging, prescribed brace, and prescribed medication.

3. Total number of PT visits will be calculated as the number of physical therapy visits completed for the LBP episode of care.

4. The number of days from when the physician initially evaluates the patient and places them on hold from sport activity to when the patient was cleared to return to sport.

5. , Clinical outcomes: Modified Odom's Criteria, and Micheli Functional Scale. Ability to return to sport This pilot study will not be randomized. All patients consenting to participate will be treated according to the treatment approach the co-investigating physicians have agreed to perform.

Blinding No blinding will be performed in this pilot trial as it is not feasible to blind either the clinicians or the patient to the treatment cohort.

Data Analysis Descriptive statistics of the patient demographics and outcome variables will be reported. The two treatment groups will be compared based on cost, imaging usage, and outcomes but will not perform statistical analysis due to the small sample size.

Treatment received Patient Characteristics (eg gender, age) Injury characteristics (eg duration of symptoms, type of symptoms Number of patients utilizing advanced imaging. Total cost of episode of care for LBP Total number of PT visits. Number of days to return to all sporting activity Clinical outcomes (eg pain, function, patient perceived improvement)

Recruitment information / eligibility

• Status: Completed
• Enrollment: 16
• Est. completion date: August 2018
• Est. primary completion date: August 2018
• Accepts healthy volunteers: No
• Gender: All
• Age group: 12 Years to 19 Years

Eligibility

Inclusion Criteria:

1. Age 12-19 years old

2. Primary complaint of acute low back pain (<3months)

3. Participates in some type of athletic activity on a regular basis (>2 times a week)

4. Pain increases with lumbar extension

Exclusion Criteria:

1. Advanced imaging performed already (MRI, SPECT, CT)

2. Red flags present (bowel/bladder problems, saddle anesthesia, progressive neurological deficits, recent fever or infection, unexplained weight loss, unable to change symptoms with mechanical testing)

3. Numbness and tingling in any lumbar dermatome

4. Previous rest from sport >4 weeks without improved symptoms

5. Other orthopedic injury or condition that would alter the plan of care for LBP (i.e. pregnancy, concomitant anterior cruciate ligament tear)

6. History of lumbar surgery

Related Conditions & MeSH terms

• Back Pain
• Low Back Pain
• Spondylolisthesis
• Spondylolysis

Intervention

Other:
• Standard Model of Care

• Alternative Model of Care

Locations

Country	Name	City	State
United States	Nationwide Children's Hospital Sports and Ortho PT East Broad	Columbus	Ohio
United States	Nationwide Children's Hospital Sports and Ortho PT Dublin	Dublin	Ohio
United States	Nationwide Children's Hospital Sports and Ortho PT New Albany	New Albany	Ohio
United States	Nationwide Children's Hospital Sports and Orthopedic PT Westerville location	Westerville	Ohio

Sponsors (1)

Lead Sponsor	Collaborator
Nationwide Children's Hospital

Country where clinical trial is conducted

United States, 

References & Publications (13)

Balagué F, Dutoit G, Waldburger M. Low back pain in schoolchildren. An epidemiological study. Scand J Rehabil Med. 1988;20(4):175-9. — View Citation

Burton AK, Clarke RD, McClune TD, Tillotson KM. The natural history of low back pain in adolescents. Spine (Phila Pa 1976). 1996 Oct 15;21(20):2323-8. — View Citation

Childs JD, Fritz JM, Wu SS, Flynn TW, Wainner RS, Robertson EK, Kim FS, George SZ. Implications of early and guideline adherent physical therapy for low back pain on utilization and costs. BMC Health Serv Res. 2015 Apr 9;15:150. doi: 10.1186/s12913-015-0830-3. Erratum in: BMC Health Serv Res. 2016 Aug 26;16(1):444. — View Citation

Congeni J, McCulloch J, Swanson K. Lumbar spondylolysis. A study of natural progression in athletes. Am J Sports Med. 1997 Mar-Apr;25(2):248-53. — View Citation

d'Hemecourt PA, Zurakowski D, d'Hemecourt CA, Curtis C, Ugrinow V, Deriu L, Micheli LJ. Validation of a new instrument for evaluating low back pain in the young athlete. Clin J Sport Med. 2012 May;22(3):244-8. doi: 10.1097/JSM.0b013e318249a3ce. — View Citation

Ebrall PS. The epidemiology of male adolescent low back pain in a north suburban population of Melbourne, Australia. J Manipulative Physiol Ther. 1994 Sep;17(7):447-53. — View Citation

El Rassi G, Takemitsu M, Glutting J, Shah SA. Effect of sports modification on clinical outcome in children and adolescent athletes with symptomatic lumbar spondylolysis. Am J Phys Med Rehabil. 2013 Dec;92(12):1070-4. doi: 10.1097/PHM.0b013e318296da7e. — View Citation

Iwamoto J, Sato Y, Takeda T, Matsumoto H. Return to sports activity by athletes after treatment of spondylolysis. World J Orthop. 2010 Nov 18;1(1):26-30. doi: 10.5312/wjo.v1.i1.26. Retraction in: World J Orthop. 2018 Mar 18;9(3):58-59. — View Citation

Iwamoto J, Takeda T, Wakano K. Returning athletes with severe low back pain and spondylolysis to original sporting activities with conservative treatment. Scand J Med Sci Sports. 2004 Dec;14(6):346-51. — View Citation

Klein G, Mehlman CT, McCarty M. Nonoperative treatment of spondylolysis and grade I spondylolisthesis in children and young adults: a meta-analysis of observational studies. J Pediatr Orthop. 2009 Mar;29(2):146-56. doi: 10.1097/BPO.0b013e3181977fc5. — View Citation

Micheli LJ, Wood R. Back pain in young athletes. Significant differences from adults in causes and patterns. Arch Pediatr Adolesc Med. 1995 Jan;149(1):15-8. — View Citation

Miller R, Beck NA, Sampson NR, Zhu X, Flynn JM, Drummond D. Imaging modalities for low back pain in children: a review of spondyloysis and undiagnosed mechanical back pain. J Pediatr Orthop. 2013 Apr-May;33(3):282-8. doi: 10.1097/BPO.0b013e318287fffb. — View Citation

Selhorst M, Fischer A, Graft K, Ravindran R, Peters E, Rodenberg R, Welder E, MacDonald J. Timing of Physical Therapy Referral in Adolescent Athletes With Acute Spondylolysis: A Retrospective Chart Review. Clin J Sport Med. 2017 May;27(3):296-301. doi: 10.1097/JSM.0000000000000334. — View Citation

* Note: There are 13 references in all — Click here to view all references

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Utilization of advanced imaging	Advanced imaging will be defined as anything beyond radiography (x-ray) used to diagnose patients low back pain	Approximately 3 months (Discharge from medical care (both physician and physical therapist))
Primary	Total cost of care	Total billed from hospital for the low back pain episode of care	Approximately 3 months (Discharge from medical care (both physician and physical therapist))
Secondary	The number of days to return to all sporting activity.	The total number of days from when the patient begins the study to the date when they are released to return to sport by the health care provider	Approximately 3 months (Discharge from medical care (both physician and physical therapist))
Secondary	Change in Numeric Pain Rating Scale	The Numeric Pain rating scale asks the patient their highest pain in the last 24 hours. The Numeric Pain Rating Scale is a 0-10 scale subjectively assessing a patients perceived level of pain. With 0 on the scale = to no pain, and 10 = to the worst pain imaginable.	Baseline, Approximately 3 months (Discharge from medical care (both physician and physical therapist))
Secondary	Change in Micheli Functional Scale	The Micheli Functional Scale is a self-reported measure of functional ability and pain on a 0-100 scale with 0 being no disability and 100 representing maximum disability. This scale has been found to have validity and reliability in young athletes with LBP.	Baseline, Approximately 3 months (Discharge from medical care (both physician and physical therapist))