Background Minimally invasive transforaminal lumbar interbody fusion (MIS TLIF) for lumbar spondylolisthesis allows for the surgical treatment of back/leg pain while minimizing tissue injury and ...accelerating the patient's recovery. Although previous results have shown shorter hospital stays and decreased intraoperative blood loss for MIS versus open TLIF, short- and long-term outcomes have been similar. Therefore, we performed comparative effectiveness and cost-utility analysis for MIS versus open TLIF. Methods A total of 100 patients (50 MIS, 50 open) undergoing TLIF for lumbar spondylolisthesis were prospectively studied. Back-related medical resource use, missed work, and quality-adjusted life years were assessed. Cost of in-patient care, direct cost (2-year resource use × unit costs based on Medicare national allowable payment amounts), and indirect cost (work-day losses × self-reported gross-of-tax wage rate) were recorded, and the incremental cost-effectiveness ratio was calculated. Results Length of hospitalization and time to return to work were less for MIS versus open TLIF ( P = 0.006 and P = 0.03, respectively). MIS versus open TLIF demonstrated similar improvement in patient-reported outcomes assessed. MIS versus open TLIF was associated with a reduction in mean hospital cost of $1758, indirect cost of $8474, and total 2-year societal cost of $9295 ( P = 0.03) but similar 2-year direct health care cost and quality-adjusted life years gained. Conclusions MIS TLIF resulted in reduced operative blood loss, hospital stay and 2-year cost, and accelerated return to work. Surgical morbidity, hospital readmission, and short- and long-term clinical effectiveness were similar between MIS and open TLIF. MIS TLIF may represent a valuable and cost-saving advancement from a societal and hospital perspective.
Background:
The epidemiology of sports-related concussion (SRC) among student-athletes has been extensively researched. However, recent data at the collegiate level are limited.
Purpose:
To describe ...the epidemiology of SRC in 25 National Collegiate Athletic Association (NCAA) sports.
Study Design:
Descriptive epidemiology study.
Methods:
SRC data from the NCAA Injury Surveillance Program during the 2009-2010 to 2013-2014 academic years were analyzed. Concussion injury rates, rate ratios (RRs), and injury proportion ratios were reported with 95% CIs. National estimates were also calculated to examine linear trends across time.
Results:
During the study period, 1670 SRCs were reported, representing a national estimate of 10,560 SRCs reported annually. Among the 25 sports, the overall concussion rate was 4.47 per 10,000 athlete-exposures (AEs) (95% CI, 4.25-4.68). Overall, more SRCs occurred in competitions (53.2%). The competition rate (12.81 per 10,000 AEs) was larger than the practice rate (2.57 per 10,000 AEs) (competition vs practice, RR = 4.99; 95% CI, 4.53-5.49). Of all SRCs, 9.0% were recurrent. Most SRCs occurred from player contact (68.0%). The largest concussion rates were in men’s wrestling (10.92 per 10,000 AEs; 95% CI, 8.62-13.23), men’s ice hockey (7.91 per 10,000 AEs; 95% CI, 6.87-8.95), women’s ice hockey (7.50 per 10,000 AEs; 95% CI, 5.91-9.10), and men’s football (6.71 per 10,000 AEs; 95% CI, 6.17-7.24). However, men’s football had the largest annual estimate of reported SRCs (n = 3417), followed by women’s soccer (n = 1113) and women’s basketball (n = 998). Among all SRCs, a linear trend did not exist in national estimates across time (P = .17). However, increases were found within specific sports, such as men’s football, women’s ice hockey, and men’s lacrosse.
Conclusion:
The estimated number of nationally reported SRCs has increased within specific sports. However, it is unknown whether these increases are attributable to increased reporting or frequency of concussions. Many sports report more SRCs in practice than in competition, although competition rates are higher. Men’s wrestling and men’s and women’s ice hockey have the highest reported concussion rates. Men’s football had the highest annual national estimate of reported SRCs, although the annual participation count was also the highest. Future research should continue to longitudinally examine SRC incidence while considering differences by sex, division, and level of competition.
Ongoing monitoring of concussion rates and distributions is important in assessing temporal patterns. Examinations of high school sport-related concussions need to be updated. This study describes ...the epidemiology of concussions in 20 high school sports during the 2013-2014 to 2017-2018 school years.
In this descriptive epidemiology study, a convenience sample of high school athletic trainers provided injury and athlete exposure (AE) data to the National High School Sports-Related Injury Surveillance Study (High School Reporting Information Online). Concussion rates per 10 000 AEs with 95% confidence intervals (CIs) and distributions were calculated. Injury rate ratios and injury proportion ratios examined sex differences in sex-comparable sports (soccer, basketball, baseball and softball, cross country, track, and swimming). We also assessed temporal trends across the study period.
Overall, 9542 concussions were reported for an overall rate of 4.17 per 10 000 AEs (95% CI: 4.09 to 4.26). Football had the highest concussion rate (10.40 per 10 000 AEs). Across the study period, football competition-related concussion rates increased (33.19 to 39.07 per 10 000 AEs); practice-related concussion rates decreased (5.47 to 4.44 per 10 000 AEs). In all sports, recurrent concussion rates decreased (0.47 to 0.28 per 10 000 AEs). Among sex-comparable sports, concussion rates were higher in girls than in boys (3.35 vs 1.51 per 10 000 AEs; injury rate ratio = 2.22; 95% CI: 2.07 to 2.39). Also, among sex-comparable sports, girls had larger proportions of concussions that were recurrent than boys did (9.3% vs 6.4%; injury proportion ratio = 1.44; 95% CI: 1.11 to 1.88).
Rates of football practice-related concussions and recurrent concussions across all sports decreased. Changes in concussion rates may be associated with changes in concussion incidence, diagnosis, and management. Future research should continue to monitor trends and examine the effect of prevention strategies.
Background:
Limited data exist among collegiate student-athletes on the epidemiology of sports-related concussion (SRC) outcomes, such as symptoms, symptom resolution time, and return-to-play time.
...Purpose:
This study used the National Collegiate Athletic Association (NCAA) Injury Surveillance Program (ISP) to describe the epidemiology of SRC outcomes in 25 collegiate sports.
Study Design:
Descriptive epidemiology study.
Methods:
SRC data from the NCAA ISP during the 2009-2010 to 2013-2014 academic years were analyzed regarding symptoms, time to resolution of symptoms, and time to return to play. Findings were also stratified by sex in sex-comparable sports (ie, ice hockey, soccer, basketball, lacrosse, baseball/softball) and whether SRCs were reported as recurrent.
Results:
Of the 1670 concussions reported during the 2009-2010 to 2013-2014 academic years, an average (±SD) of 5.29 ± 2.94 concussion symptoms were reported, with the most common being headache (92.2%) and dizziness (68.9%). Most concussions had symptoms resolve within 1 week (60.1%); however, 6.2% had a symptom resolution time of over 4 weeks. Additionally, 8.9% of concussions required over 4 weeks before return to play. The proportion of SRCs that required at least 1 week before return to play increased from 42.7% in 2009-2010 to 70.2% in 2013-2014 (linear trend, P < .001). Within sex-comparable sports analyses, the average number of symptoms and symptom resolution time did not differ by sex. However, a larger proportion of concussions in male athletes included amnesia and disorientation; a larger proportion of concussions in female athletes included headache, excess drowsiness, and nausea/vomiting. A total of 151 SRCs (9.0%) were reported as recurrent. The average number of symptoms reported with recurrent SRCs (5.99 ± 3.43) was greater than that of nonrecurrent SRCs (5.22 ± 2.88; P = .01). A greater proportion of recurrent SRCs also resulted in a long symptom resolution time (14.6% vs 5.4%, respectively; P < .001) and long return-to-play time (21.2% vs 7.7%, respectively; P < .001) compared with nonrecurrent SRCs.
Conclusion:
Trends in return-to-play time may indicate changing concussion management practices in which team medical staff members withhold players from participation longer to ensure symptom resolution. Concussion symptoms may differ by sex and recurrence. Future research should continue to examine the trends and discrepancies in symptom resolution time and return-to-play time.
Abstract Background context Given the unsustainable costs of the US health-care system, health-care purchasers, payers, and hospital systems are adopting the concept of value-based purchasing by ...shifting care away from low-quality providers or hospitals. Legislation now allows public reporting of these quality rankings. True measures of quality, such as surgical morbidity and validated questionnaires of effectiveness, are burdensome and costly to collect. Hence, patients' satisfaction with care has emerged as a commonly used metric as a proxy for quality because of its feasibility of collection. However, patient satisfaction metrics have yet to be validated as a measure of overall quality of surgical spine care. Purpose We set out to determine whether patient satisfaction is a valid measure of safety and effectiveness of care in a prospective longitudinal spine registry. Study design Prospective longitudinal cohort study. Patient population All patients undergoing elective spine surgery for degenerative conditions over a 6-month period at a single medical center. Outcome measures Patient-reported outcome instruments (numeric rating scale NRS, Oswestry disability index ODI, neck disability index NDI, short-form 12-item survey SF-12, Euro-Qol-5D EQ-5D, Zung depression scale, and Modified Somatic Perception Questionnaire MSPQ anxiety scale), return to work, patient satisfaction with outcome , and patient satisfaction with provider care. Methods All patients undergoing elective spine surgery for degenerative conditions over a 6-month period at a single medical center were enrolled into a prospective longitudinal registry. Data collected on all patients included demographics, disease characteristics, treatment variables, readmissions/reoperations, and all 90-day surgical morbidity. Patient-reported outcome instruments (NRS, ODI, NDI, SF-12, EQ-5D, Zung depression scale, and MSPQ anxiety scale), return to work, patient satisfaction with outcome, and patient satisfaction with provider care were recorded at baseline and 3 months after treatment. Receiver-operating characteristic (ROC) curve analysis was performed to determine whether extent of improvement in quality of life (SF-12 physical component summary PCS) and disability (ODI/NDI) accurately predicted patient satisfaction versus dissatisfaction. Standard interpretation of area under the curve (AUC) was used: less than 0.7, poor; 0.7 to 0.8, fair; and greater than 0.8, good accuracy. Multivariate logistic regression analysis was performed to determine if surgical morbidity (quality) or improvement in disability and quality of life (effectiveness of care) were independently associated with patient satisfaction. Results Four hundred twenty-two (84%) patients completed all questionnaires 3 months after surgery during the reviewed time period (mean age 55±14 years). Lumbar surgery was performed in 287 (68%) and cervical surgery in 135 (32%) patients. There were 51 (12.1%) 90-day complications, including 21 (5.0%) readmissions and 12 (2.8%) return to operating room. Three hundred fifty-eight (84.8%) patients were satisfied with provider care and 288 (68.2%) with their outcome. Satisfaction with provider care: In ROC analyses, extent of improvement in quality of life (SF-12) and disability (ODI/NDI) differentiated satisfaction versus dissatisfaction with care with very poor accuracy (AUC 0.49–0.69). In regression analysis, 3-month morbidity (odds ratio 95% confidence interval: 1.45 0.79–2.66), readmission (0.66 0.24–1.80), improvement in quality of life (SF-12 PCS), or improvement in general health (health transition index) were not associated with satisfaction with care. Satisfaction with outcome: In ROC analyses, improvement in quality of life (SF-12) and disability (ODI/NDI) failed to differentiate satisfaction with good accuracy (AUC 0.76). Neither 90-day morbidity (1.05 0.46–2.34) nor 90-day readmission (0.27 0.04–2.04) was associated with satisfaction with outcome in regression analysis. Conclusions Patient satisfaction is not a valid measure of overall quality or effectiveness of surgical spine care. Patient satisfaction metrics likely represent the patient's subjective contentment with health-care service, a distinct aspect of care. Satisfaction metrics are important patient-centered measures of health-care service but should not be used as a proxy for overall quality, safety, or effectiveness of surgical spine care.
IMPORTANCE: To our knowledge, little research has examined concussion across the youth/adolescent spectrum and even less has examined concussion-related outcomes (ie, symptoms and return to play). ...OBJECTIVE: To examine and compare sport-related concussion outcomes (symptoms and return to play) in youth, high school, and collegiate football athletes. DESIGN, SETTING, AND PARTICIPANTS: Athletic trainers attended each practice and game during the 2012 to 2014 seasons and reported injuries. For this descriptive, epidemiological study, data were collected from youth, high school, and collegiate football teams, and the analysis of the data was conducted between July 2015 and September 2015. The Youth Football Surveillance System included more than 3000 youth football athletes aged 5 to 14 years from 118 teams, providing 310 team seasons (ie, 1 team providing 1 season of data). The National Athletic Treatment, Injury, and Outcomes Network Program included 96 secondary school football programs, providing 184 team seasons. The National Collegiate Athletic Association Injury Surveillance Program included 34 college football programs, providing 71 team seasons. MAIN OUTCOMES AND MEASURES: We calculated the mean number of symptoms, prevalence of each symptom, and the proportion of patients with concussions that had long return-to-play time (ie, required participation restriction of at least 30 days). Generalized linear models were used to assess differences among competition levels in the mean number of reported symptoms. Logistic regression models estimated the odds of return to play at less than 24 hours and at least 30 days. RESULTS: Overall, 1429 sports-related concussions were reported among youth, high school, and college-level football athletes with a mean (SD) of 5.48 (3.06) symptoms. Across all levels, 15.3% resulted return to play at least 30 days after the concussion and 3.1% resulted in return to play less than 24 hours after the concussion. Compared with youth, a higher number of concussion symptoms were reported in high school athletes (β = 1.39; 95% CI, 0.55-2.24). Compared with college athletes, the odds of return to play at least 30 days after injury were larger in youth athletes (odds ratio, 2.75; 95% CI, 1.10- 6.85) and high school athletes (odds ratio, 2.89; 95% CI, 1.61-5.19). The odds of return to play less than 24 hours after injury were larger in youth athletes than high school athletes (odds ratio, 6.23; 95% CI, 1.02-37.98). CONCLUSIONS AND RELEVANCE: Differences in concussion-related outcomes existed by level of competition and may be attributable to genetic, biologic, and/or developmental differences or level-specific variations in concussion-related policies and protocols, athlete training management, and athlete disclosure. Given the many organizational, social environmental, and policy-related differences at each level of competition that were not measured in this study, further study is warranted to validate our findings.