Spine

Predicting postoperative complications in patients undergoing lumbar spinal fusion by using the modified five-item frailty index and nutritional status

CrossMark

TaeWook Kang

Orthopaedic Surgeon

Department of Orthopaedics Korea University College of Medicine, Anam Hospital, Seoul, Korea

Search for more papers by this author

Si Young Park

Orthopaedic Surgeon

Correspondence should be sent to Si Young Park. E-mail:

E-mail Address: [email protected]

Department of Orthopaedics Korea University College of Medicine, Anam Hospital, Seoul, Korea

Search for more papers by this author

Joon Suk Lee

Orthopaedic Surgeon

Department of Orthopaedics Korea University College of Medicine, Anam Hospital, Seoul, Korea

Search for more papers by this author

Soon Hyuck Lee

Orthopaedic Surgeon

Department of Orthopaedics Korea University College of Medicine, Anam Hospital, Seoul, Korea

Search for more papers by this author

Jong Hoon Park

Orthopaedic Surgeon

Department of Orthopaedics Korea University College of Medicine, Anam Hospital, Seoul, Korea

Search for more papers by this author

Seung Woo Suh

Orthopaedic Surgeon

Department of Orthopaedics Korea University College of Medicine, Anam Hospital, Seoul, Korea

Search for more papers by this author

Published Online:30 Nov 2020https://doi.org/10.1302/0301-620X.102B12.BJJ-2020-0874.R1

View article

Abstract

Aims

As the population ages and the surgical complexity of lumbar spinal surgery increases, the preoperative stratification of risk becomes increasingly important. Understanding the risks is an important factor in decision-making and optimizing the preoperative condition of the patient. Our aim was to determine whether the modified five-item frailty index (mFI-5) and nutritional parameters could be used to predict postoperative complications in patients undergoing simple or complex lumbar spinal fusion.

Methods

We retrospectively reviewed 584 patients who had undergone lumbar spinal fusion for degenerative lumbar spinal disease. The 'simple' group (SG) consisted of patients who had undergone one- or two-level posterior lumbar fusion. The 'complex' group (CG) consisted of patients who had undergone fusion over three or more levels, or combined anterior and posterior surgery. On admission, the mFI-5 was calculated and nutritional parameters collected.

Results

Complications occurred in 9.3% (37/396) of patients in the SG, and 10.1% (19/167) of patients in the CG. In the SG, the important predictors of complications were age (odds ratio (OR) 1.036; p = 0.002); mFI-5 (OR 1.026 to 2.411, as score increased to 1 ≥ 2 respectively; p = 0.023); albumin (OR 11.348; p < 0.001); vitamin D (OR 2.185; p = 0.032); and total lymphocyte count (OR 1.433; p = 0.011) . In the CG, the predictors of complications were albumin (OR 9.532; p = 0.002) and vitamin D (OR 3.815; p = 0.022).

Conclusion

The mFI-5 and nutritional status were effective predictors of postoperative complications in the SG, but only nutritional status was successful in predicting postoperative complications in the CG. The complexity of the surgery, as well as the preoperative frailty and nutritional status of patients, should be considered when determining if it is safe to proceed with lumbar spinal fusion.

Cite this article: Bone Joint J 2020;102-B(12):1717–1722.

References

1. DiPaola CP, Molinari RW. Posterior lumbar interbody fusion. J Am Acad Orthop Surg. 2008;16(3):130–139. Crossref, Medline, ISI, Google Scholar
2. Molinari RW, Gerlinger T. Functional outcomes of instrumented posterior lumbar interbody fusion in active-duty us servicemen: a comparison with nonoperative management. Spine J. 2001;1(3):215–224. Crossref, Medline, Google Scholar
3. Charest-Morin R, Street J, Zhang H, et al. Frailty and sarcopenia do not predict adverse events in an elderly population undergoing non-complex primary elective surgery for degenerative conditions of the lumbar spine. Spine J. 2018;18(2):245–254. Crossref, Medline, ISI, Google Scholar
4. Weaver DJ, Malik AT, Jain N, et al. The modified 5-Item frailty index: a Concise and useful tool for assessing the impact of frailty on postoperative morbidity following elective posterior lumbar fusions. World Neurosurg. 2019:e626–e632. Crossref, ISI, Google Scholar
5. Puvanesarajah V, Jain A, Kebaish K, et al. Poor nutrition status and lumbar spine fusion surgery in the elderly: readmissions, complications, and mortality. Spine (Phila Pa 1976). 2017;42(13):979–983. Crossref, Medline, ISI, Google Scholar
6. Klein JD, Hey LA, CS Yu, et al. Perioperative nutrition and postoperative complications in patients undergoing spinal surgery. Spine (Phila Pa 1976). 1996;21(22):2676–2682. Crossref, Medline, ISI, Google Scholar
7. Bistrian BR, Blackburn GL, Vitale J, Cochran D, Naylor J. Prevalence of malnutrition in general medical patients. JAMA. 1976;235(15):1567–1570. Crossref, Medline, ISI, Google Scholar
8. Jensen JE, Jensen TG, Smith TK, Johnston DA, Dudrick SJ. Nutrition in orthopaedic surgery. J Bone Joint Surg Am. 1982;64(9):1263–1272. Crossref, Medline, ISI, Google Scholar
9. MacBurney M, Wilmore DW. Rational decision-making in nutritional care. Surg Clin North Am. 1981;61(3):571–582. Crossref, Medline, ISI, Google Scholar
10. Dickhaut SC, DeLee JC, Page CP. Nutritional status: importance in predicting wound-healing after amputation. J Bone Joint Surg Am. 1984;66(1):71–75. Crossref, Medline, Google Scholar
11. Koval KJ, Maurer SG, Su ET, Aharonoff GB, Zuckerman JD. The effects of nutritional status on outcome after hip fracture. J Orthop Trauma. 1999;13(3):164–169. Crossref, Medline, ISI, Google Scholar
12. Yi PH, Frank RM, Vann E, et al. Is potential malnutrition associated with septic failure and acute infection after revision total joint arthroplasty? Clin Orthop Relat Res. 2015;473(1):175–182. Crossref, Medline, ISI, Google Scholar
13. Cross MB, Yi PH, Thomas CF, Garcia J, Della Valle CJ. Evaluation of malnutrition in orthopaedic surgery. J Am Acad Orthop Surg. 2014;22(3):193–199. Crossref, Medline, ISI, Google Scholar
14. Iqbal J, Denvir M, Gunn J. Frailty assessment in elderly people. Lancet. 2013;381(9882):1985–1986. Crossref, Medline, ISI, Google Scholar
15. Karam J, Tsiouris A, Shepard A, Velanovich V, Rubinfeld I. Simplified frailty index to predict adverse outcomes and mortality in vascular surgery patients. Ann Vasc Surg. 2013;27(7):904–908. Crossref, Medline, ISI, Google Scholar
16. Kim S-wook, Han H-S, Jung H-won, et al. Multidimensional frailty score for the prediction of postoperative mortality risk. JAMA Surg. 2014;149(7):633–640. Crossref, Medline, ISI, Google Scholar
17. Makary MA, Segev DL, Pronovost PJ, et al. Frailty as a predictor of surgical outcomes in older patients. J Am Coll Surg. 2010;210(6):901–908. Crossref, Medline, ISI, Google Scholar
18. Street JT, Lenehan BJ, DiPaola CP, et al. Morbidity and mortality of major adult spinal surgery. A prospective cohort analysis of 942 consecutive patients. Spine J. 2012;12(1):22–34. Crossref, Medline, ISI, Google Scholar
19. Flexman AM, Charest-Morin R, Stobart L, Street J, Ryerson CJ. Frailty and postoperative outcomes in patients undergoing surgery for degenerative spine disease. Spine J. 2016;16(11):1315–1323. Crossref, Medline, ISI, Google Scholar
20. Leven DM, Lee NJ, Kim JS, et al. Frailty is predictive of adverse postoperative events in patients undergoing lumbar fusion. Global Spine J. 2017;7(6):529–535. Crossref, Medline, ISI, Google Scholar
21. Simcox T, Antoku D, Jain N, Acosta F, Hah R. Frailty syndrome and the use of frailty indices as a preoperative risk stratification tool in spine surgery: a review. Asian Spine J. 2019;13(5):861–873. Crossref, Medline, ISI, Google Scholar
22. Chimukangara M, Helm MC, Frelich MJ, et al. A 5-item frailty index based on NSQIP data correlates with outcomes following paraesophageal hernia repair. Surg Endosc. 2017;31(6):2509–2519. Crossref, Medline, ISI, Google Scholar
23. Chen SY, Stem M, Cerullo M, et al. The effect of frailty index on early outcomes after combined colorectal and liver resections. J Gastrointest Surg. 2018;22(4):640–649. Crossref, Medline, ISI, Google Scholar
24. Subramaniam S, Aalberg JJ, Soriano RP, Divino CM. New 5-Factor modified frailty index using American College of surgeons NSQIP data. J Am Coll Surg. 2018;226(2):173–181. Crossref, Medline, ISI, Google Scholar
25. Fritzell P, Hagg O, Nordwall A, Swedish Lumbar Spine Study Group. Complications in lumbar fusion surgery for chronic low back pain: comparison of three surgical techniques used in a prospective randomized study. A report from the Swedish lumbar spine Study Group. Eur Spine J. 2003;12(2):178–189. Crossref, Medline, ISI, Google Scholar
26. Ciol MA, Deyo RA, Howell E, Kreif S. An assessment of surgery for spinal stenosis: time trends, geographic variations, complications, and reoperations. J Am Geriatr Soc. 1996;44(3):285–290. Crossref, Medline, ISI, Google Scholar
27. Fritzell P, Hägg O, Wessberg P, Nordwall A, Swedish Lumbar Spine Study Group. 2001 Volvo Award winner in clinical studies: lumbar fusion versus nonsurgical treatment for chronic low back pain: a multicenter randomized controlled trial from the Swedish lumbar spine Study Group. Spine. 2001;26(23):2521–2532. discussion 32-4. Crossref, Medline, ISI, Google Scholar
28. Deyo RA, Mirza SK, Martin BI, et al. Trends, major medical complications, and charges associated with surgery for lumbar spinal stenosis in older adults. JAMA. 2010;303(13):1259–1265. Crossref, Medline, ISI, Google Scholar
29. Yagi M, Michikawa T, Hosogane N, et al. Treatment for frailty does not improve complication rates in corrective surgery for adult spinal deformity. Spine. 2019;44(10):723–731. Crossref, Medline, ISI, Google Scholar
30. Machado GC, Ferreira PH, Yoo RI, et al. Surgical options for lumbar spinal stenosis. Cochrane Database Syst Rev. 2016;11:CD012421. Medline, Google Scholar
31. van Stijn MFM, Korkic-Halilovic I, Bakker MSM, et al. Preoperative nutrition status and postoperative outcome in elderly general surgery patients: a systematic review. JPEN J Parenter Enteral Nutr. 2013;37(1):37–43. Crossref, Medline, ISI, Google Scholar
32. Jevsevar DS, Karlin LI. The relationship between preoperative nutritional status and complications after an operation for scoliosis in patients who have cerebral palsy. J Bone Joint Surg Am. 1993;75(6):880–884. Crossref, Medline, ISI, Google Scholar
33. Delmi M, Rapin CH, Bengoa JM, et al. Dietary supplementation in elderly patients with fractured neck of the femur. Lancet. 1990;335(8696):1013–1016. Crossref, Medline, ISI, Google Scholar
34. Eneroth M, Olsson U-B, Thorngren K-G. Nutritional supplementation decreases hip fracture-related complications. Clin Orthop Relat Res. 2006;451:212–217. Crossref, Medline, Google Scholar
35. Jie B, Jiang Z-M, Nolan MT, et al. Impact of preoperative nutritional support on clinical outcome in abdominal surgical patients at nutritional risk. Nutrition. 2012;28(10):1022–1027. Crossref, Medline, ISI, Google Scholar
36. Adogwa O, Martin JR, Huang K, et al. Preoperative serum albumin level as a predictor of postoperative complication after spine fusion. Spine. 2014;39(18):1513–1519. Crossref, Medline, ISI, Google Scholar
37. Segal DN, Wilson JM, Staley C, Michael KW. The 5-Item modified frailty index is predictive of 30-day postoperative complications in patients undergoing Kyphoplasty vertebral augmentation. World Neurosurg. 2018;116:e225–e231. Crossref, Medline, ISI, Google Scholar
38. Traven SA, Reeves RA, Sekar MG, Slone HS, Walton ZJ. New 5-Factor modified frailty index predicts morbidity and mortality in primary hip and knee arthroplasty. J Arthroplasty. 2019;34(1):140–144. Crossref, Medline, ISI, Google Scholar
39. Wilson JM, Boissonneault AR, Schwartz AM, Staley CA, Schenker ML. Frailty and malnutrition are associated with inpatient postoperative complications and mortality in hip fracture patients. J Orthop Trauma. 2019;33(3):143–148. Crossref, Medline, ISI, Google Scholar
40. Uhl RL, Rosenbaum AJ, Dipreta JA, Desemone J, Mulligan M. Diabetes mellitus: musculoskeletal manifestations and perioperative considerations for the orthopaedic surgeon. J Am Acad Orthop Surg. 2014;22(3):183–192. Crossref, Medline, ISI, Google Scholar

Vol. 102-B, No. 12

Supplemental Materials

Metrics

Downloaded 420 times

History

Published online 30 November 2020

Published in print 1 December 2020

Information

Keywords

PDF download