Based on statistical findings, approximately more than three million people in the United States are injured in an automobile accident every year. In fact, auto accidents are considered to be one of the most common causes for trauma or injury. Neck injuries, such as whiplash, frequently occur due to the sudden back-and-forth movement of the head and neck from the force of the impact. The same mechanism of injury can also cause soft tissue injuries in other parts of the body, including the lower back as well as the lower extremities. Neck, hip, thigh and knee injuries are common types of injuries resulting from auto accidents.
Soft tissue injuries of the lower limb are common. In the United States, 36% of all injuries presenting to emergency departments are sprains and/or strains of the lower extremity. Among Ontario workers, approximately 19% of all approved lost time compensation claims are related to lower extremity injuries. Moreover, 27.5% of Saskatchewan adults injured in a traffic collision report pain in the lower extremity. Soft tissue injuries of the hip, thigh, and knee are costly and place a significant economic and disability burden on workplaces and compensation systems. According to the US Department of Labor Bureau of Statistics, the median time off work for lower extremity injuries was 12 days in 2013. Knee injuries were associated with the longest work absenteeism (median, 16 days).
Most soft tissue injuries of the lower limb are managed conservatively, and exercise is commonly used to treat these injuries. Exercise aims to promote good physical health and restore normal function of the joints and surrounding soft tissues through concepts which include range of motion, stretching, strengthening, endurance, agility, and proprioceptive exercises. However, the evidence about the effectiveness of exercise for managing soft tissue injuries of the lower limb is unclear.
Previous systematic reviews have investigated the effectiveness of exercise for the management of soft tissue injuries of the lower extremity. Reviews suggest that exercise is effective for the management of patellofemoral pain syndrome and groin injuries but not for patellar tendinopathy. To our knowledge, the only review reporting on the effectiveness of exercise for acute hamstring injuries found little evidence to support stretching, agility, and trunk stability exercises.
The purpose of our systematic review was to investigate the effectiveness of exercise compared to other interventions, placebo/sham interventions, or no intervention in improving self-rated recovery, functional recovery (eg, return to activities, work, or school), or clinical outcomes (eg, pain, health-related quality of life, depression) of patients with soft tissue injuries of the hip, thigh, and knee.
This systematic review protocol was registered with the International Prospective Register of Systematic Reviews on March 28, 2014 (CRD42014009140).
Population. Our review targeted studies of adults (?18 years) and/or children with soft tissue injuries of the hip, thigh, or knee. Soft tissue injuries include but are not limited to grade I to II sprains/strains; tendonitis; tendinopathy; tendinosis; patellofemoral pain (syndrome); iliotibial band syndrome; nonspecific hip, thigh, or knee pain (excluding major pathology); and other soft tissue injuries as informed by available evidence. We defined the grades of sprains and strains according to the classification proposed by the American Academy of Orthopaedic Surgeons (Tables 1 and 2). Affected soft tissues in the hip include the supporting ligaments and muscles crossing the hip joint into the thigh (including the hamstrings, quadriceps, and adductor muscle groups). Soft tissues of the knee include the supporting intra-articular and extra-articular ligaments and muscles crossing the knee joint from the thigh including the patellar tendon. We excluded studies of grade III sprains or strains, acetabular labral tears, meniscal tears, osteoarthritis, fractures, dislocations, and systemic diseases (eg, infection, neoplasm, inflammatory disorders).
Interventions. We restricted our review to studies that tested the isolated effect of exercise (ie, not part of a multimodal program of care). We defined exercise as any series of movements aimed at training or developing the body by routine practice or as physical training to promote good physical health.
Comparison Groups. We included studies that compared 1 or more exercise interventions to one another or one exercise intervention to other interventions, wait list, placebo/sham interventions, or no intervention.
Outcomes. To be eligible, studies had to include one of the following outcomes: (1) self-rated recovery; (2) functional recovery (eg, disability, return to activities, work, school, or sport); (3) pain intensity; (4) health-related quality of life; (5) psychological outcomes such as depression or fear; and (6) adverse events.
Study Characteristics. Eligible studies met the following criteria: (1) English language; (2) studies published between January 1, 1990, and April 8, 2015; (3) randomized controlled trials (RCTs), cohort studies, or case-control studies which are designed to assess the effectiveness and safety of interventions; and (4) included an inception cohort of a minimum of 30 participants per treatment arm with the specified condition for RCTs or 100 participants per group with the specified condition in cohort studies or case-control studies. Studies including other grades of sprains or strains in the hip, thigh, or knee had to provide separate results for participants with grades I or II sprains/strains to be included.
We excluded studies with the following characteristics: (1) letters, editorials, commentaries, unpublished manuscripts, dissertations, government reports, books and book chapters, conference proceedings, meeting abstracts, lectures and addresses, consensus development statements, or guideline statements; (2) study designs including pilot studies, cross-sectional studies, case reports, case series, qualitative studies, narrative reviews, systematic reviews (with or without meta-analyses), clinical practice guidelines, biomechanical studies, laboratory studies, and studies not reporting on methodology; (3) cadaveric or animal studies; and (4) studies on patients with severe injuries (eg, grade III sprains/strains, fractures, dislocations, full ruptures, infections, malignancy, osteoarthritis, and systemic disease).
We developed our search strategy with a health sciences librarian (Appendix 1). The Peer Review of Electronic Search Strategies (PRESS) Checklist was used by a second librarian to review the search strategy for completeness and accuracy. We searched MEDLINE and EMBASE, considered to be the major biomedical databases, and PsycINFO, for psychological literature through Ovid Technologies, Inc; CINAHL Plus with Full Text for nursing and allied health literature through EBSCOhost; and the Cochrane Central Register of Controlled Trials through Ovid Technologies, Inc, for any studies not captured by the other databases. The search strategy was first developed in MEDLINE and subsequently adapted to the other bibliographic databases. Our search strategies combined controlled vocabulary relevant to each database (eg, MeSH for MEDLINE) and text words relevant to exercise and soft tissue injuries of the hip, thigh, or knee including grade I to II sprain or strain injuries (Appendix 1). We also hand searched the reference lists of previous systematic reviews for any additional relevant studies.
A 2-phase screening process was used to select eligible studies. Random pairs of independent reviewers screened citation titles and abstracts to determine the eligibility of studies in phase 1. Screening resulted in studies being classified as relevant, possibly relevant, or irrelevant. In phase 2, the same pairs of reviewers independently screened the possibly relevant studies to determine eligibility. Reviewers met to reach consensus on the eligibility of studies and resolve disagreements. A third reviewer was used if consensus could not be reached.
Independent reviewers were randomly paired to critically appraise the internal validity of eligible studies using the Scottish Intercollegiate Guidelines Network (SIGN) criteria. The impact of selection bias, information bias, and confounding on the results of a study was qualitatively evaluated using the SIGN criteria. These criteria were used to guide reviewers in making an informed overall judgment on the internal validity of studies. This methodology has been previously described. A quantitative score or a cutoff point to determine the internal validity of studies was not used for this review.
The SIGN criteria for RCTs were used to critically appraise the following methodological aspects: (1) clarity of the research question, (2) randomization method, (3) concealment of treatment allocation, (4) blinding of treatment and outcomes, (5) similarity of baseline characteristics between/among treatment arms, (6) cointervention contamination, (7) validity and reliability of outcome measures, (8) follow-up rates, (9) analysis according to intention-to-treat principles, and (10) comparability of results across study sites (where applicable). Consensus was reached through reviewer discussion. Disagreements were resolved by an independent third reviewer when consensus could not be reached. The risk of bias of each appraised study was also reviewed by a senior epidemiologist (PC). Authors were contacted when additional information was needed to complete the critical appraisal. Only studies with low risk of bias were included in our evidence synthesis.
Data were extracted from studies (DS) with low risk of bias to create evidence tables. A second reviewer independently checked the extracted data. We stratified results based on the duration of the condition (recent onset [0-3 months], persistent [N3 months], or variable duration [recent onset and persistent combined]).
We used standardized measures to determine the clinical importance of changes reported in each trial for common outcome measures. These include a between-group difference of 2/10 points on the Numeric Rating Scale (NRS), 2/10 cm difference on the Visual Analog Scale (VAS), and 10/100 point difference on the Kujala Patellofemoral scale, otherwise known as the Anterior Knee Pain Scale.
Agreement between reviewers for the screening of articles was computed and reported using the ? statistic and 95% confidence interval (CI). Where available, we used data provided in the studies with a low risk of bias to measure the association between the tested interventions and the outcomes by computing the relative risk (RR) and its 95% CI. Similarly, we computed differences in mean changes between groups and 95% CI to quantify the effectiveness of interventions. The calculation of 95% CIs was based on the assumption that baseline and follow-up outcomes were highly correlated (r = 0.80).
This systematic review was organized and reported based on the Preferred Reporting Items for Systematic Reviews and Meta-Analyses statement.
Dr. Alex Jimenez’s Insight
As a doctor of chiropractic, automobile accident injuries are one of the most common reasons people seek chiropractic care. From neck injuries, such as whiplash, to headaches and back pain, chiropractic can be utilized to safely and effectively restore the integrity of the spine after a car crash. A chiropractor like myself will often use a combination of spinal adjustments and manual manipulations, as well as a variety of other non-invasive treatment methods, to gently correct any spinal misalignments resulting from an auto accident injury. Whiplash and other types of neck injuries occur when the complex structures along the cervical spine are stretched beyond their natural range of movement due to the sudden back-and-forth movement of the head and neck from the force of the impact. Back injury, particularly in the lower spine, are also common as a result of an automobile accident. When the complex structures along the lumbar spine are damaged or injured, symptoms of sciatica may radiate down the lower back, into the buttocks, hips, thighs, legs and down into the feet. Knee injuries may also occur upon impact during an auto accident. Exercise is frequently used with chiropractic care to help promote recovery as well as improve strength, flexibility and mobility. Rehabilitation exercises are offered to patients to further restore the integrity of their body. The following research studies demonstrate that exercise, compared to non-invasive treatment options, is a safe and effective treatment method for individuals suffering with neck and lower extremity injury from a car crash.
We screened 9494 citations based on the title and abstract (Figure 1). Of these, 60 full-text publications were screened, and 9 articles were critically appraised. The primary reasons for ineligibility during full text screening were (1) ineligible study design, (2) small sample size (n b 30 per treatment arm), (3) multimodal interventions not allowing isolation of the effectiveness of exercise, (4) ineligible study population, and (5) interventions not meeting our definition of exercise (Figure 1). Of those critically appraised, 3 studies (reported in 4 articles) had low risk of bias and were included in our synthesis. The interrater agreement for the screening of the articles was ? = 0.82 (95% CI, 0.69-0.95). The percentage agreement for the critical appraisal of studies was 75% (6/8 studies). Disagreement was resolved through discussion for 2 studies. We contacted authors from 5 studies during critical appraisal to request additional information and 3 responded.
The studies with low risk of bias were RCTs. One study, conducted in the Netherlands, examined the effectiveness of a standardized exercise program compared to a “wait and see” approach in participants with patellofemoral pain syndrome of variable duration. A second study, with outcomes reported in 2 articles, compared the benefit of closed vs open kinetic chain exercises in individuals with variable duration patellofemoral pain syndrome in Belgium. The final study, conducted in Denmark, investigated active training compared to a multimodal physiotherapy intervention for the management of persistent adductor-related groin pain.
Two RCTs used exercise programs that combined strengthening exercises with balance or agility training for the lower extremity. Specifically, the strengthening exercises consisted of both isometric and concentric contractions of the quadriceps, hip adductor, and gluteal muscles for the management of patellofemoral pain46 and hip adductors and muscles of the trunk and pelvis for adductor-related groin pain. The exercise programs ranged from 646 to 1243 weeks in duration and were supervised and clinic based with additional daily home exercises. The exercise programs were compared to a “wait and see” approach or to multimodal physiotherapy. The third RCT compared 2 different 5-week protocols which combined either closed or open kinetic chain strengthening and stretching exercises for the lower extremity musculature.
Meta-analysis was not performed due to heterogeneity of accepted studies with respect to patient populations, interventions, comparators, and outcomes. Principles of best evidence synthesis were used to develop evidence statements and perform a qualitative synthesis of findings from studies with low risk of bias.
The studies with low risk of bias had a clearly defined research question, used appropriate blinding methods where possible, reported adequate similarity of baseline characteristics between treatment arms, and performed an intention-to-treat analyses where applicable (Table 3). The RCTs had follow-up rates greater than 85%. However, these studies also had methodological limitations: insufficient detail describing methods for allocation concealment (1/3), insufficient detail describing methods of randomization (1/3), the use of outcome measures that have not been demonstrated to be valid or reliable (ie, muscle length and successful treatment) (2/3), and clinically important differences in baseline characteristics (1/3).
Of 9 relevant articles, 5 were deemed to have high risk of bias. These studies had the following limitations: (1) poor or unknown randomization methods (3/5); (2) poor or unknown allocation concealment methods (5/ 5); (3) outcome assessor not blinded (4/ 5); (4) clinically important differences in baseline characteristics (3/5); (5) dropouts not reported, insufficient information regarding dropouts per group or large differences in dropout rates between treatment arms (N15%) (3/5); and (6) a lack of information about or no intention-to-treat analysis (5/5).
Patellofemoral Pain Syndrome of Variable Duration. Evidence from 1 RCT suggests that a clinic-based progressive exercise program may provide short- and long-term benefit over usual care for the management of patellofemoral pain syndrome of variable duration. van Linschoten et al randomized participants with a clinical diagnosis of patellofemoral pain syndrome of 2 months to 2 years duration to (1) a clinic-based exercise program (9 visits over 6 weeks) consisting of progressive, static, and dynamic strengthening exercises for the quadriceps, adductor, and gluteal muscles and balance and flexibility exercises, or (2) a usual care “wait and see” approach. Both groups received standardized information, advice, and home-based isometric exercises for the quadriceps based on recommendations from Dutch General Practitioner guidelines (Table 4). There were statistically significant differences favoring the exercise group for (1) pain (NRS) at rest at 3 months (mean change difference 1.1/10 [95% CI, 0.2-1.9]) and 6 months (mean change difference 1.3/10 [95% CI, 0.4-2.2]); (2) pain (NRS) with activity at 3 months (mean change difference 1.0/10 [95% CI, 0.1-1.9]) and 6 months (mean change difference 1.2/10 [95% CI, 0.2-2.2]); and (3) function (Kujala Patellofemoral Scale [KPS]) at 3 months (mean change difference 4.9/100 [95% CI, 0.1-9.7]). However, none of these differences were clinically important. Furthermore, there were no significant differences in the proportion of participants reporting recovery (fully recovered, strongly recovered), but the exercise group was more likely to report improvement at 3-month follow-up (odds ratio [OR], 4.1 [95% CI, 1.9-8.9]).
Evidence from a second RCT suggests that physiotherapist- supervised closed kinetic chain leg exercises (where the foot remains in constant contact with a surface) may provide short-term benefit compared to supervised open kinetic chain exercises (where the limb moves freely) for some patellofemoral pain syndrome symptoms (Table 4). All participants trained for 30 to 45 minutes, 3 times per week for 5 weeks. Both groups were instructed to perform static lower limb stretching after each training session. Those randomized to closed chain exercises performed supervised (1) leg presses, (2) knee bends, (3) stationary biking, (4) rowing, (5) step-up and step-down exercises, and (6) progressive jumping exercises. Open chain exercise participants performed (1) maximal quad muscle contraction, (2) straight-leg raises, (3) short arc movements from 10° to full knee extension, and (4) leg adduction. Effect sizes were not reported, but the authors reported statistically significant differences favoring closed kinetic chain exercise at 3 months for (1) frequency of locking (P = .03), (2) clicking sensation (P = .04), (3) pain with isokinetic testing (P = .03), and (4) pain during night (P = .02). The clinical significance of these results is unknown. There were no statistically significant differences between groups for any other pain or functional measures at any follow-up period.
Evidence from 1 RCT suggests that a clinic-based group exercise program is more effective than a multimodal program of care for persistent adductor-related groin pain. Hölmich et al studied a group of male athletes with a clinical diagnosis of adductor-related groin pain of greater than 2 months duration (median duration, 38-41 weeks; range, 14-572 weeks) with or without osteitis pubis. Participants were randomized to (1) a clinic-based group exercise program (3 sessions per week for 8-12 weeks) consisting of isometric and concentric resistance strengthening exercises for the adductors, trunk, and pelvis; balance and agility exercises for the lower extremity; and stretching for the abdominals, back, and lower extremity (with the exception of the adductor muscles) or (2) a multimodal physiotherapy program (2 visits per week for 8-12 weeks) consisting of laser; transverse friction massage; transcutaneous electrical nerve stimulation (TENS); and stretching for the adductors, hamstrings, and hip flexors (Table 4). Four months after the intervention, the exercise group was more likely to report that their condition was “much better” (RR, 1.7 [95% CI, 1.0-2.8]).
None of the included studies commented on the frequency or nature of adverse events.
Our systematic review examined the effectiveness of exercise for the management of soft tissue injuries of the hip, thigh, or knee. Evidence from 1 RCT suggests that a clinic-based progressive combined exercise program may offer additional short- or long-term benefit compared to providing information and advice for the management of patellofemoral pain syndrome of variable duration. There is also evidence that supervised closed kinetic chain exercises may be beneficial for some patellofemoral pain syndrome symptoms compared to open kinetic chain exercises. For persistent adductor-related groin pain, evidence from 1 RCT suggests that a clinic-based group exercise program is more effective than a multimodal program of care. Despite the common and frequent use of exercise prescription, there is limited high-quality evidence to inform the use of exercise for the management of soft tissue injuries of the lower extremity. Specifically, we did not find high-quality studies on exercise for the management of some of the more commonly diagnosed conditions including patellar tendinopathy, hamstring sprain and strain injuries, hamstring tendinopathy, trochanteric bursitis, or capsular injuries of the hip.
Our results are consistent with findings from previous systematic reviews, concluding that exercise is effective for the management of patellofemoral pain syndrome and groin pain. However, the results from previous systematic reviews examining the use of exercise for the management of patellar tendinopathy and acute hamstring injuries are inconclusive. One review noted strong evidence for use of eccentric training, whereas others reported uncertainty of whether isolated eccentric exercises were beneficial for tendinopathy compared to other forms of exercise. Furthermore, there is limited evidence of a positive effect from stretching, agility and trunk stability exercises, or slump stretching for the management of acute hamstring injuries. Differing conclusions between systematic reviews and the limited number of studies deemed admissible in our work may be attributed to differences in methodology. We screened reference lists of previous systematic reviews, and most studies included in the reviews did not meet our inclusion criteria. Many studies accepted in other reviews had small sample sizes (b30 per treatment arm). This increases the risk of residual confounding while also reducing the effect size precision. Furthermore, a number of systematic reviews included case series and case studies. These types of studies are not designed to assess the effectiveness of interventions. Finally, previous reviews included studies where exercise was part of a multimodal intervention, and as a consequence, the isolated effect of exercise could not be ascertained. Of the studies that satisfied our selection criteria, all were critically appraised in our review, and only 3 had low risk of bias and were included in our synthesis.
Our review has many strengths. First, we developed a rigorous search strategy that was independently reviewed by a second librarian. Second, we defined clear inclusion and exclusion criteria for the selection of possibly relevant studies and only considered studies with adequate sample sizes. Third, pairs of trained reviewers screened and critically appraised eligible studies. Fourth, we used a valid set of criteria (SIGN) to critically appraise studies. Finally, we restricted our synthesis to studies with low risk of bias.
Our review also has limitations. First, our search was limited to studies published in the English language. However, previous reviews have found that the restriction of systematic reviews to English language studies has not led to a bias in reported results. Second, despite our broad definition of soft tissue injuries of the hip, thigh, or knee, our search strategy may not have captured all potentially relevant studies. Third, our review may have missed potentially relevant studies published before 1990. We aimed to minimize this by hand searching the reference lists of previous systematic reviews. Finally, critical appraisal requires scientific judgment that may differ between reviewers. We minimized this potential bias by training reviewers in the use of the SIGN tool and using a consensus process to determine study admissibility. Overall, our systematic review highlights a deficit of strong research in this area.
High-quality studies on the effectiveness of exercise for the management of soft tissue injuries of the lower extremity are needed. Most studies included in our review (63%) had a high risk of bias and could not be included in our synthesis. Our review identified important gaps in the literature. Specifically, studies are needed to inform the specific effects of exercises, their long-term effects, and the optimal doses of intervention. Furthermore, studies are needed to determine the relative effectiveness of different types of exercise programs and if the effectiveness varies for soft tissue injuries of the hip, thigh, and knee.
There is limited high-quality evidence to inform the use of exercise for the management of soft tissue injuries of the hip, thigh, and knee. The current evidence suggests that a clinic-based progressive combined exercise program may lead to improved recovery when added to information and advice on resting and avoiding pain provoking activities for the management of patellofemoral pain syndrome. For persistent adductor-related groin pain, a supervised clinic- based group exercise program is more effective than multimodal care in promoting recovery.
This study was funded by the Ontario Ministry of Finance and the Financial Services Commission of Ontario (RFP no. OSS_00267175). The funding agency was not involved in the collection of data, data analysis, interpretation of data, or drafting of the manuscript. The research was undertaken, in part, thanks to funding from the Canada Research Chairs program. Pierre Côté has previously received funding from a Grant from the Ontario Ministry of Finance; consulting for the Canadian Chiropractic Protective Association; speaking and/or teaching arrangements for the National Judicial Institute and Société des Médecins Experts du Quebec; trips/travel, European Spine Society; board of directors, European Spine Society; grants: Aviva Canada; fellowship support, Canada Research Chair Program–Canadian Institutes of Health Research. No other conflicts of interest were reported for this study.
Furthermore, other non-invasive interventions, as well as non-pharmacological interventions, are also commonly utilized to help treat symptoms of neck pain and headaches associated with neck injuries, such as whiplash, caused by automobile accidents. As mentioned before, whiplash is one of the most common types of neck injuries resulting from auto accidents. Chiropractic care, physical therapy and exercise, can be used to improve the symptoms of neck pain, according to the following research studies.
To update findings of the 2000–2010 Bone and Joint Decade Task Force on Neck Pain and its Associated Disorders and evaluate the effectiveness of non-invasive and non-pharmacological interventions for the management of patients with headaches associated with neck pain (i.e., tension-type, cervicogenic, or whiplash-related headaches).
We searched five databases from 1990 to 2015 for randomized controlled trials (RCTs), cohort studies, and case–control studies comparing non-invasive interventions with other interventions, placebo/sham, or no interventions. Random pairs of independent reviewers critically appraised eligible studies using the Scottish Intercollegiate Guidelines Network criteria to determine scientific admissibility. Studies with a low risk of bias were synthesized following best evidence synthesis principles.
We screened 17,236 citations, 15 studies were relevant, and 10 had a low risk of bias. The evidence suggests that episodic tension-type headaches should be managed with low load endurance craniocervical and cervicoscapular exercises. Patients with chronic tension-type headaches may also benefit from low load endurance craniocervical and cervicoscapular exercises; relaxation training with stress coping therapy; or multimodal care that includes spinal mobilization, craniocervical exercises, and postural correction. For cervicogenic headaches, low load endurance craniocervical and cervicoscapular exercises; or manual therapy (manipulation with or without mobilization) to the cervical and thoracic spine may also be helpful.
The management of headaches associated with neck pain should include exercise. Patients who suffer from chronic tension-type headaches may also benefit from relaxation training with stress coping therapy or multimodal care. Patients with cervicogenic headache may also benefit from a course of manual therapy.
Non-invasive interventions, Tension-type headache, Cervicogenic headache, Headache attributed to whiplash injury, Systematic review
We would like to acknowledge and thank all of the individuals who have made important contributions to this review: Robert Brison, Poonam Cardoso, J. David Cassidy, Laura Chang, Douglas Gross, Murray Krahn, Michel Lacerte, Gail Lindsay, Patrick Loisel, Mike Paulden, Roger Salhany, John Stapleton, Angela Verven, and Leslie Verville. We would also like to thank Trish Johns-Wilson at the University of Ontario Institute of Technology for her review of the search strategy.
Dr. Pierre Côté has received a grant from the Ontario government, Ministry of Finance, funding from the Canada Research Chairs program, personal fees from National Judicial Institute for lecturing, and personal fees from European Spine Society for teaching. Drs. Silvano Mior and Margareta Nordin have received reimbursement for travel expenses to attend meetings for the study. The remaining authors report no declarations of interest.
This work was supported by the Ontario Ministry of Finance and the Financial Services Commission of Ontario [RFP# OSS_00267175]. The funding agency had no involvement in the study design, collection, analysis, interpretation of data, writing of the manuscript or decision to submit the manuscript for publication. The research was undertaken, in part, thanks to funding from the Canada Research Chairs program to Dr. Pierre Côté, Canada Research Chair in Disability Prevention and Rehabilitation at the University of Ontario Institute of Technology.
In conclusion, exercise included in chiropractic care and other non-invasive interventions should be utilized as an essential part of treatment to further help improve the symptoms of neck injury as well as that of hip, thigh and knee injury. According to the above research studies, exercise, or physical activity, is beneficial towards speeding up recovery time for patients with automobile accident injuries and for restoring strength, flexibility and mobility to the affected structures of the spine. Information referenced from the National Center for Biotechnology Information (NCBI). The scope of our information is limited to chiropractic as well as to spinal injuries and conditions. To discuss the subject matter, please feel free to ask Dr. Jimenez or contact us at 915-850-0900 .
Curated by Dr. Alex Jimenez
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Sciatica is referred to as a collection of symptoms rather than a single type of injury or condition. The symptoms are characterized as radiating pain, numbness and tingling sensations from the sciatic nerve in the lower back, down the buttocks and thighs and through one or both legs and into the feet. Sciatica is commonly the result of irritation, inflammation or compression of the largest nerve in the human body, generally due to a herniated disc or bone spur.
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