Kids With Iron Deficiency and Scoliosis

Description

Adolescents undergoing spinal fusion surgery for scoliosis are poised to benefit from preoperative iron supplementation. Spinal fusion carries a risk of large surgical blood losses and perioperative red blood cell transfusion, which are associated with adverse outcomes in this population. These patients are mostly adolescent females, a group more susceptible to iron deficiency and resulting anemia at baseline due to iron losses with menses, and who suffer an additional insult to iron stores during surgery. Nevertheless, iron status is not routinely monitored in this setting and there is no standard of care for preoperative iron supplementation. Iron is a nutritionally essential trace element important not only for red blood cell production, but also for muscle function and neurotransmitter synthesis and signaling. Therefore, the treatment of preoperative iron deficiency is an important target for optimizing hemoglobin prior to surgery, reducing transfusion rates and associated complications such as alloimmunization, and improving patient outcomes. On its own and as the primary cause of anemia, iron deficiency was identified by the investigator’s team as the only risk factor for transfusion which is modifiable preoperatively.

In addition, iron supplementation is shown to alleviate impairments of physical and cognitive capacity associated with even mild forms of iron deficiency in adolescent females. A pilot study conducted at the investigator’s institution identified iron deficiency in 36% of scoliosis patients prior to surgery, with preoperative iron status highly correlated with iron status during surgical recovery. Consequently, the investigator plans to examine iron deficiency as a modifiable risk factor for transfusion and impaired postoperative cognitive and physical capacity in this vulnerable population. Previous trials of brief iron interventions in high-risk adult surgical patients, mostly with unknown iron status, do not inform the care of iron deficient adolescents and were not designed to address postoperative functional outcomes. This study will therefore perform a single-center randomized controlled trial in which adolescents with scoliosis will be screened for iron deficiency (n = ~275), and iron-deficient adolescents with scoliosis (n = ~90) will be randomized to a preoperative regimen of daily oral iron or placebo, to test the hypotheses that preoperative iron supplementation 1) reduces the rate of red blood cell transfusion, 2) improves postoperative neurocognition compared to a preoperative baseline, and 3) improves patient-reported physical functioning during recovery. Results will ultimately improve outcomes in this vulnerable pediatric population and provide evidence for patient blood management approaches to reduce transfusions amid recent severe blood shortages.