Impact of insurance status on healthcare resource utilization and outcomes in adolescent patients presenting with spinal cord injuries.

OBJECTIVE Insurance disparities have been suggested to influence the medical and surgical outcomes of adult patients with spinal cord injury (SCI), with a paucity of studies demonstrating their impact on the outcomes of pediatric and adolescent SCI patients. The aim of this study was to assess the impact of insurance status on healthcare utilization and outcomes in adolescent patients presenting with SCI. METHODS An administrative database study was performed using the 2017 admission year from 753 facilities using the National Trauma Data Bank. Adolescent patients (11-17 years old) with cervical/thoracic SCIs were identified using International Classification of Diseases, Tenth Revision, Clinical Modification coding. Patients were categorized by governmental insurance versus private insurance/self-pay. Patient demographics, comorbidities, imaging, procedures, hospital adverse events (AEs), and length of stay (LOS) data were collected. Multivariate regression analyses were used to determine the effect of insurance status on LOS, any imaging or procedure, or any AE. RESULTS Of the 488 patients identified, 220 (45.1%) held governmental insurance while 268 (54.9%) were privately insured. Age was similar between the cohorts (p = 0.616), with the governmental insurance cohort (GI cohort) having a significantly lower proportion of non-Hispanic White patients than the private insurance cohort (PI cohort) (GI: 43.2% vs PI: 72.4%, p < 0.001). While transportation accident was the most common mechanism of injury for both cohorts, assault was significantly greater in the GI cohort (GI: 21.8% vs PI: 3.0%, p < 0.001). A significantly greater proportion of patients in the PI cohort received any imaging (GI: 65.9% vs PI: 75.0%, p = 0.028), while there were no significant differences in procedures performed (p = 0.069) or hospital AEs (p = 0.386) between the cohorts. The median (IQR) LOS (p = 0.186) and discharge disposition (p = 0.302) were similar between the cohorts. On multivariate analysis, with respect to governmental insurance, private insurance was not independently associated with obtaining any imaging (OR 1.38, p = 0.139), undergoing any procedure (OR 1.09, p = 0.721), hospital AEs (OR 1.11, p = 0.709), or LOS (adjusted risk ratio -2.56, p = 0.203). CONCLUSIONS This study suggests that insurance status may not independently influence healthcare resource utilization and outcomes in adolescent patients presenting with SCIs. Further studies are needed to corroborate these findings.

[1]  Ming Yang,et al.  Clinical characteristics and treatment of spinal cord injury in children and adolescents , 2022, Chinese journal of traumatology = Zhonghua chuang shang za zhi.

[2]  N. Williams,et al.  An audit of computed tomography request practices for suspected cervical spine injury post‐guideline change in a tertiary referral paediatric hospital , 2021, ANZ journal of surgery.

[3]  R. Marino,et al.  Factors associated with post-acute functional status and discharge dispositions in individuals with spinal cord injury , 2021, The journal of spinal cord medicine.

[4]  S. Hall,et al.  Paediatric spinal trauma presenting to a UK major trauma centre , 2021, Child's Nervous System.

[5]  David I. Lee,et al.  Prolonged Length of Stay After Robotic Prostatectomy: Causes and Risk Factors , 2020, Annals of Surgical Oncology.

[6]  J. Kuiper,et al.  Scoliosis in paediatric onset spinal cord injuries , 2020, Spinal Cord.

[7]  A. Cross,et al.  The paralyzing effect of insurance status on throughput of acute spinal cord patients. , 2019, American journal of surgery.

[8]  S. Vira,et al.  Traumatic Fracture of the Pediatric Cervical Spine: Etiology, Epidemiology, Concurrent Injuries, and an Analysis of Perioperative Outcomes Using the Kids' Inpatient Database , 2019, International Journal of Spine Surgery.

[9]  C. Sedney,et al.  Traumatic spinal cord injury in West Virginia: Disparities by insurance and discharge disposition from an acute care hospital , 2018, The journal of spinal cord medicine.

[10]  Naresh Kumar,et al.  Factors influencing extended hospital stay in patients undergoing metastatic spine tumour surgery and its impact on survival , 2018, Journal of Clinical Neuroscience.

[11]  A. Crawford,et al.  Cervical Spine Evaluation in Pediatric Trauma: A Review and an Update of Current Concepts , 2018, Indian journal of orthopaedics.

[12]  J. Piatt,et al.  Epidemiology of spinal injury in childhood and adolescence in the United States: 1997-2012. , 2018, Journal of neurosurgery. Pediatrics.

[13]  P. Gamble,et al.  Readmission after spinal cord injury: analysis of an institutional cohort of 795 patients. , 2016, Journal of neurosurgical sciences.

[14]  V. Waddell,et al.  Decreasing Radiation Exposure in Pediatric Trauma Related to Cervical Spine Clearance: A Quality Improvement Project. , 2018, Journal of trauma nursing : the official journal of the Society of Trauma Nurses.

[15]  R. Bold,et al.  Increased Rates of Prolonged Length of Stay, Readmissions, and Discharge to Care Facilities among Postoperative Patients with Disseminated Malignancy: Implications for Clinical Practice , 2016, PloS one.

[16]  C. Sadowsky,et al.  The epidemiology of childhood and adolescent traumatic spinal cord injury in the United States: 2007-2010. , 2014, Journal of neurotrauma.

[17]  J. Grauer,et al.  Preoperative Factors Affecting Length of Stay After Elective Anterior Cervical Discectomy and Fusion With and Without Corpectomy: A Multivariate Analysis of an Academic Center Cohort , 2014, Spine.

[18]  L. Vogel,et al.  Psychosocial Outcomes of Children and Adolescents With Early-Onset Spinal Cord Injury and Those With Spina Bifida , 2013, Pediatric physical therapy : the official publication of the Section on Pediatrics of the American Physical Therapy Association.

[19]  P. Sturm,et al.  Spinal cord injuries in young children: a review of children injured at 5 years of age and younger , 2012, Developmental medicine and child neurology.

[20]  T. Jones,et al.  Pediatric Cervical Spine Trauma , 2011, The Journal of the American Academy of Orthopaedic Surgeons.

[21]  H. Luft,et al.  Peering into the black box: billing and insurance activities in a medical group. , 2009, Health affairs.

[22]  John T. Wei,et al.  Risk factors for prolonged length of stay after urologic surgery: the National Surgical Quality Improvement Program. , 2008, Journal of the American College of Surgeons.

[23]  M. Vitale,et al.  Epidemiology of Pediatric Spinal Cord Injury in the United States: Years 1997 and 2000 , 2006, Journal of pediatric orthopedics.

[24]  R. Betz,et al.  Incidence and Degree Of Hip Subluxation/Dislocation In Chiloren With Spinal Cord Injury , 2004, The journal of spinal cord medicine.

[25]  L. Vogel,et al.  Spinal Cord Injuries in Children and Adolescents: A Review , 2003, The journal of spinal cord medicine.

[26]  M. Silen,et al.  Pediatric thoracic trauma , 2002, Critical care medicine.

[27]  L. Vogel,et al.  Adults With Pediatric-Onset Spinal Cord Injury: Part 1: Prevalence Of Medical Complications , 2002, The journal of spinal cord medicine.

[28]  N Theodore,et al.  Pediatric cervical spine injuries: report of 102 cases and review of the literature. , 2000, Journal of neurosurgery.

[29]  J. Daley,et al.  Risk factors for prolonged length of stay after major elective surgery. , 1999, Annals of surgery.

[30]  R R Betz,et al.  Scoliosis in Pediatric Spinal Cord‐Injured Patients , 1990, Journal of pediatric orthopedics.