Experience with an Enhanced Recovery After Spine Surgery protocol at an academic community hospital.

OBJECTIVE: Enhanced Recovery After Surgery (ERAS) protocols have rapidly gained popularity in multiple surgical specialties and are recognized for their potential to improve patient outcomes and decrease hospitalization costs. However, they have only recently been applied to spinal surgery. The goal in the present work was to describe the development, implementation, and impact of an Enhanced Recovery After Spine Surgery (ERASS) protocol for patients undergoing elective spine procedures at an academic community hospital. METHODS: A multidisciplinary team, drawing on prior publications and spine surgery best practices, collaborated to develop an ERASS protocol. Patients undergoing elective cervical or lumbar procedures were prospectively enrolled at a single tertiary care center; interventions were standardized across the cohort for pre-, intra-, and postoperative care using standardized order sets in the electronic medical record. Protocol efficacy was evaluated by comparing enrolled patients to a historic cohort of age- and procedure-matched controls. The primary study outcomes were quantity of opiate use in morphine milligram equivalents (MMEs) on postoperative day (POD) 1 and length of stay. Secondary outcomes included frequency and duration of indwelling urinary catheter use, discharge disposition, 30-day readmission and reoperation rates, and complication rates. Multivariable linear regression was used to determine whether ERASS protocol use was independently predictive of opiate use on POD 1. RESULTS: In total, 97 patients were included in the study cohort and were compared with a historic cohort of 146 patients. The patients in the ERASS group had lower POD 1 opiate use than the control group (26 ± 33 vs 42 ± 40 MMEs, p < 0.001), driven largely by differences in opiate-naive patients (16 ± 21 vs 38 ± 36 MMEs, p < 0.001). Additionally, patients in the ERASS group had shorter hospitalizations than patients in the control group (51 ± 30 vs 62 ± 49 hours, p = 0.047). On multivariable regression, implementation of the ERASS protocol was independently predictive of lower POD 1 opiate consumption (ß = -7.32, p < 0.001). There were no significant differences in any of the secondary outcomes. CONCLUSIONS: The authors found that the development and implementation of a comprehensive ERASS protocol led to a modest reduction in postoperative opiate consumption and hospital length of stay in patients undergoing elective cervical or lumbar procedures. As suggested by these results and those of other groups, the implementation of ERASS protocols may reduce care costs and improve patient outcomes after spine surgery.

Targeted expression of human vitamin d receptor in the skin promotes the initiation of the postnatal hair follicle cycle and rescues the alopecia in vitamin D receptor null mice.

Alopecia is a predominant feature of vitamin D receptor inactivation in mice and humans. To determine the role of vitamin D receptor in the regulation of hair growth directly, we used the human keratin 14 promoter to target human vitamin D receptor expression to the skin of transgenic mice, and generated vitamin D receptor null mice that express the human vitamin D receptor transgene. Parallel studies were carried out in littermates of wild-type, vitamin D receptor null, transgenic, and human vitamin D receptor-expressing null mice in two transgenic lines. The transgenic mice were grossly normal. The vitamin D receptor null and vitamin D receptor null/human vitamin D receptor mice were growth retarded and developed hypocalcemia, secondary hyperparathyroidism, and rickets. In contrast to the vitamin D receptor null mice that developed alopecia, however, the vitamin D receptor null/human vitamin D receptor mice displayed a normal hair coat, and their hair shaft and skin histology were indistinguishable from those of the wild-type mice. Immunohistochemical analyses revealed that the human vitamin D receptor was highly expressed in the basal layer of the epidermis and outer root sheath of the hair follicle. During follicular morphogenesis, no major histologic differences were seen in the skin of wild-type, vitamin D receptor null, transgenic, and vitamin D receptor null/human vitamin D receptor littermates. When anagen was induced by hair depilation at day 20 after birth, the vitamin D receptor null mice failed to initiate the hair cycle, whereas the vitamin D receptor null/human vitamin D receptor mice displayed the same pattern of anagen follicle formation as the wild-type mice. Interestingly, the transgenic mice initiated the follicular cycle earlier than the wild-type and vitamin D receptor null/human vitamin D receptor mice in a gene concentration-dependent manner. Taken together, these data provide direct evidence that vitamin D receptor is required for the initiation of the postnatal hair follicular cycle in mice.