A Retrospective Look at a Cervical Spine Clearance Protocol in Pediatric Trauma Patients at a Level-1 Trauma Center.

BACKGROUND: Adult studies have demonstrated the efficacy of written protocols for clearance of the cervical spine. However, less than half of recently surveyed pediatric trauma centers report using a documented protocol. Little data exists on such protocols in pediatric populations, but interest remains because of potential reductions in radiation exposure, time to clearance, hospital stay, and specialist referral. However, missed injury can have devastating consequences. The purpose of this study is to examine the efficacy in detecting injury of an implemented cervical spine clearance protocol at a level-1 pediatric trauma hospital. METHODS: A retrospective review was performed on pediatric patients presenting as activated traumas to the emergency department of a single level-1 pediatric trauma hospital between May 2010 and October 2018. This institution has utilized a written cervical spine clearance protocol throughout this time. Presence of cervical spine injury, documented clearance, cervical spine imaging, and follow-up documentation were reviewed for any missed injuries. RESULTS: There were no missed cervical spine injuries. Five-hundred sixty-three clinically significant cervical spine injuries were identified, representing 16.5% of patients. Of these, 96 were fractures, dislocations, or ligamentous injuries, representing 2.8% of all patients. Most cervical spine clearances were performed by trauma surgery. Advanced imaging of the cervical spine was ordered for 43.2% of patients overall and trended down over time. CONCLUSION: Documented cervical spine clearance protocols are effective for detection of significant injury in pediatric trauma patients. This study suggests these protocols minimize risk of missed injury and may prevent unnecessary radiation exposure, delayed clearance, prolonged hospitalization, or unnecessary specialist referral. CLINICAL RELEVANCE: Utilization of a standard written protocol for cervical spine clearance likely prevents missed injury and helps to minimize radiation exposure in pediatric populations. Further research is needed on evaluation and management of pediatric cervical spine trauma.

Fructose Promotes Cytoprotection in Melanoma Tumors and Resistance to Immunotherapy.

Checkpoint blockade immunotherapy relies on the empowerment of the immune system to fight cancer. Why some patients fail to achieve durable clinical responses is not well understood, but unique individual factors such as diet, obesity, and related metabolic syndrome could play a role. The link between obesity and patient outcomes remains controversial and has been mired by conflicting reports and limited mechanistic insight. We addressed this in a C57BL/6 mouse model of diet-induced obesity using a Western diet high in both fats and sugars. Obese mice bearing B16 melanoma or MC38 carcinoma tumors had impaired immune responses to immunotherapy and a reduced capacity to control tumor progression. Unexpectedly, these compromised therapeutic outcomes were independent of body mass and, instead, were directly attributed to dietary fructose. Melanoma tumors in mice on the high-fructose diet were resistant to immunotherapy and showed increased expression of the cytoprotective enzyme heme oxygenase-1 (HO-1). This increase in HO-1 protein was recapitulated in human A375 melanoma cells exposed to fructose in culture. Induced expression of HO-1 shielded tumor cells from immune-mediated killing and was critical for resistance to checkpoint blockade immunotherapy, which could be overcome in vivo using a small-molecule inhibitor of HO-1. This study reveals dietary fructose as a driver of tumor immune evasion, identifying HO-1 expression as a mechanism of resistance and a promising molecular target for combination cancer immunotherapy.See article by Khojandi et al., p. 214.