Topological network analysis of patient similarity for precision management of acute blood pressure in spinal cord injury

Abel Torres-Espín; Jenny Haefeli; Reza Ehsanian; Dolores Torres; Carlos A. Almeida; J. Russell Huie; Austin Chou; Dmitriy Morozov; Nicole Sanderson; Benjamin Dirlikov; Catherine G. Suen; Jessica L. Nielson; Nikos Kyritsis; Debra D. Hemmerle; Jason F. Talbott; Geoffrey T. Manley; Sanjay S. Dhall; William D. Whetstone; Jacqueline C. Bresnahan; Michael S. Beattie; Stephen L. McKenna; Jonathan Z. Pan; Adam R. Ferguson

doi:10.7554/eLife.68015

Topological network analysis of patient similarity for precision management of acute blood pressure in spinal cord injury

Abel Torres-Espín, Jenny Haefeli, Reza Ehsanian, Dolores Torres, Carlos A. Almeida, J. Russell Huie, Austin Chou, Dmitriy Morozov, Nicole Sanderson, Benjamin Dirlikov, Catherine G. Suen, Jessica L. Nielson, Nikos Kyritsis, Debra D. Hemmerle, Jason F. Talbott, Geoffrey T. Manley, Sanjay S. Dhall, William D. Whetstone, Jacqueline C. Bresnahan, Michael S. BeattieStephen L. McKenna, Jonathan Z. Pan, Adam R. Ferguson

Psychiatry & Behavioral Sciences

Research output: Contribution to journal › Article › peer-review

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Abstract

Background: Predicting neurological recovery after spinal cord injury (SCI) is challenging. Using topological data analysis, we have previously shown that mean arterial pressure (MAP) during SCI surgery predicts long-term functional recovery in rodent models, motivating the present multicenter study in patients. Methods: Intra-operative monitoring records and neurological outcome data were extracted (n=118 patients). We built a similarity network of patients from a low-dimensional space embedded using a non-linear algorithm, Isomap, and ensured topological extraction using persistent homology metrics. Confirmatory analysis was conducted through regression methods. Results: Network analysis suggested that time outside of an optimum MAP range (hypotension or hypertension) during surgery was associated with lower likelihood of neurological recovery at hospital discharge. Logistic and LASSO regression confirmed these findings, revealing an optimal MAP range of 76-[104-117] mmHg associated with neurological recovery. Conclusion: We show that deviation from this optimal MAP range during SCI surgery predicts lower probability of neurological recovery and suggest new targets for therapeutic intervention.

Original language	English (US)
Article number	e68015
Journal	eLife
Volume	10
DOIs	https://doi.org/10.7554/eLife.68015
State	Published - Nov 2021

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Torres-Espín, A., Haefeli, J., Ehsanian, R., Torres, D., Almeida, C. A., Huie, J. R., Chou, A., Morozov, D., Sanderson, N., Dirlikov, B., Suen, C. G., Nielson, J. L., Kyritsis, N., Hemmerle, D. D., Talbott, J. F., Manley, G. T., Dhall, S. S., Whetstone, W. D., Bresnahan, J. C., ... Ferguson, A. R. (2021). Topological network analysis of patient similarity for precision management of acute blood pressure in spinal cord injury. eLife, 10, Article e68015. https://doi.org/10.7554/eLife.68015

Torres-Espín, A, Haefeli, J, Ehsanian, R, Torres, D, Almeida, CA, Huie, JR, Chou, A, Morozov, D, Sanderson, N, Dirlikov, B, Suen, CG, Nielson, JL, Kyritsis, N, Hemmerle, DD, Talbott, JF, Manley, GT, Dhall, SS, Whetstone, WD, Bresnahan, JC, Beattie, MS, McKenna, SL, Pan, JZ & Ferguson, AR 2021, 'Topological network analysis of patient similarity for precision management of acute blood pressure in spinal cord injury', eLife, vol. 10, e68015. https://doi.org/10.7554/eLife.68015

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title = "Topological network analysis of patient similarity for precision management of acute blood pressure in spinal cord injury",

abstract = "Background: Predicting neurological recovery after spinal cord injury (SCI) is challenging. Using topological data analysis, we have previously shown that mean arterial pressure (MAP) during SCI surgery predicts long-term functional recovery in rodent models, motivating the present multicenter study in patients. Methods: Intra-operative monitoring records and neurological outcome data were extracted (n=118 patients). We built a similarity network of patients from a low-dimensional space embedded using a non-linear algorithm, Isomap, and ensured topological extraction using persistent homology metrics. Confirmatory analysis was conducted through regression methods. Results: Network analysis suggested that time outside of an optimum MAP range (hypotension or hypertension) during surgery was associated with lower likelihood of neurological recovery at hospital discharge. Logistic and LASSO regression confirmed these findings, revealing an optimal MAP range of 76-[104-117] mmHg associated with neurological recovery. Conclusion: We show that deviation from this optimal MAP range during SCI surgery predicts lower probability of neurological recovery and suggest new targets for therapeutic intervention.",

author = "Abel Torres-Esp{\'i}n and Jenny Haefeli and Reza Ehsanian and Dolores Torres and Almeida, {Carlos A.} and Huie, {J. Russell} and Austin Chou and Dmitriy Morozov and Nicole Sanderson and Benjamin Dirlikov and Suen, {Catherine G.} and Nielson, {Jessica L.} and Nikos Kyritsis and Hemmerle, {Debra D.} and Talbott, {Jason F.} and Manley, {Geoffrey T.} and Dhall, {Sanjay S.} and Whetstone, {William D.} and Bresnahan, {Jacqueline C.} and Beattie, {Michael S.} and McKenna, {Stephen L.} and Pan, {Jonathan Z.} and Ferguson, {Adam R.}",

year = "2021",

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AU - Torres-Espín, Abel

AU - Haefeli, Jenny

AU - Ehsanian, Reza

AU - Torres, Dolores

AU - Almeida, Carlos A.

AU - Huie, J. Russell

AU - Chou, Austin

AU - Morozov, Dmitriy

AU - Sanderson, Nicole

AU - Dirlikov, Benjamin

AU - Suen, Catherine G.

AU - Nielson, Jessica L.

AU - Kyritsis, Nikos

AU - Hemmerle, Debra D.

AU - Talbott, Jason F.

AU - Manley, Geoffrey T.

AU - Dhall, Sanjay S.

AU - Whetstone, William D.

AU - Bresnahan, Jacqueline C.

AU - Beattie, Michael S.

AU - McKenna, Stephen L.

AU - Pan, Jonathan Z.

AU - Ferguson, Adam R.

PY - 2021/11

Y1 - 2021/11

N2 - Background: Predicting neurological recovery after spinal cord injury (SCI) is challenging. Using topological data analysis, we have previously shown that mean arterial pressure (MAP) during SCI surgery predicts long-term functional recovery in rodent models, motivating the present multicenter study in patients. Methods: Intra-operative monitoring records and neurological outcome data were extracted (n=118 patients). We built a similarity network of patients from a low-dimensional space embedded using a non-linear algorithm, Isomap, and ensured topological extraction using persistent homology metrics. Confirmatory analysis was conducted through regression methods. Results: Network analysis suggested that time outside of an optimum MAP range (hypotension or hypertension) during surgery was associated with lower likelihood of neurological recovery at hospital discharge. Logistic and LASSO regression confirmed these findings, revealing an optimal MAP range of 76-[104-117] mmHg associated with neurological recovery. Conclusion: We show that deviation from this optimal MAP range during SCI surgery predicts lower probability of neurological recovery and suggest new targets for therapeutic intervention.

AB - Background: Predicting neurological recovery after spinal cord injury (SCI) is challenging. Using topological data analysis, we have previously shown that mean arterial pressure (MAP) during SCI surgery predicts long-term functional recovery in rodent models, motivating the present multicenter study in patients. Methods: Intra-operative monitoring records and neurological outcome data were extracted (n=118 patients). We built a similarity network of patients from a low-dimensional space embedded using a non-linear algorithm, Isomap, and ensured topological extraction using persistent homology metrics. Confirmatory analysis was conducted through regression methods. Results: Network analysis suggested that time outside of an optimum MAP range (hypotension or hypertension) during surgery was associated with lower likelihood of neurological recovery at hospital discharge. Logistic and LASSO regression confirmed these findings, revealing an optimal MAP range of 76-[104-117] mmHg associated with neurological recovery. Conclusion: We show that deviation from this optimal MAP range during SCI surgery predicts lower probability of neurological recovery and suggest new targets for therapeutic intervention.

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Topological network analysis of patient similarity for precision management of acute blood pressure in spinal cord injury

Abstract

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