Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning Approach

Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning Approach

Abstract BackgroundTransvaginal insertion of polypropylene mesh was extensively used in surgical procedures to treat pelvic organ prolapse (POP) due to its cost-efficiency and durability. However, studies have reported a high rate of complications, including mesh exposure thro...

Full description

Saved in:
Bibliographic Details
Main Authors: Mihyun Lim Waugh, Tyler Mills, Nicholas Boltin, Lauren Wolf, Patti Parker, Ronnie Horner, Thomas L Wheeler II, Richard L Goodwin, Melissa A Moss
Format: Article
Language:English
Published: JMIR Publications 2025-05-01
Series:JMIR Formative Research
Online Access:https://formative.jmir.org/2025/1/e59631
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1850144660637351936
author Mihyun Lim Waugh
Tyler Mills
Nicholas Boltin
Lauren Wolf
Patti Parker
Ronnie Horner
Thomas L Wheeler II
Richard L Goodwin
Melissa A Moss
author_facet Mihyun Lim Waugh
Tyler Mills
Nicholas Boltin
Lauren Wolf
Patti Parker
Ronnie Horner
Thomas L Wheeler II
Richard L Goodwin
Melissa A Moss
author_sort Mihyun Lim Waugh
collection DOAJ
description Abstract BackgroundTransvaginal insertion of polypropylene mesh was extensively used in surgical procedures to treat pelvic organ prolapse (POP) due to its cost-efficiency and durability. However, studies have reported a high rate of complications, including mesh exposure through the vaginal wall. Developing predictive models via supervised machine learning holds promise in identifying risk factors associated with such complications, thereby facilitating better informed surgical decisions. Previous studies have demonstrated the efficacy of anticipating medical outcomes by employing supervised machine learning approaches that integrate patient health care data with laboratory findings. However, such an approach has not been adopted within the realm of POP mesh surgery. ObjectiveWe examined the efficacy of supervised machine learning to predict mesh exposure following transvaginal POP surgery using 3 different datasets: (1) patient medical record data, (2) biomaterial-induced blood cytokine levels, and (3) the integration of both. MethodsBlood samples and medical record data were collected from 20 female patients who had prior surgical intervention for POP using transvaginal polypropylene mesh. Of these subjects, 10 had experienced mesh exposure through the vaginal wall following surgery, and 10 had not. Standardized medical record data, including vital signs, previous diagnoses, and social history, were acquired from patient records. In addition, cytokine levels in patient blood samples incubated with sterile polypropylene mesh were measured via multiplex assay. Datasets were created with patient medical record data alone, blood cytokine levels alone, and the integration of both data. The data were split into 70% and 30% for training and testing sets, respectively, for machine learning models that predicted the presence or absence of postsurgical mesh exposure. ResultsUpon training the models with patient medical record data, systolic blood pressure, pulse pressure, and a history of alcohol usage emerged as the most significant factors for predicting mesh exposure. Conversely, when the models were trained solely on blood cytokine levels, interleukin (IL)-1β and IL-12 p40 stood out as the most influential cytokines in predicting mesh exposure. Using the combined dataset, new factors emerged as the primary predictors of mesh exposure: IL-8, tumor necrosis factor-α, and the presence of hemorrhoids. Remarkably, models trained on the integrated dataset demonstrated superior predictive capabilities with a prediction accuracy as high as 94%, surpassing the predictive performance of individual datasets. ConclusionsSupervised machine learning models demonstrated improved prediction accuracy when trained using a composite dataset that combined patient medical record data and biomaterial-induced blood cytokine levels, surpassing the performance of models trained with either dataset in isolation. This result underscores the advantage of integrating health care data with blood biomarkers, presenting a promising avenue for predicting surgical outcomes in not only POP mesh procedures but also other surgeries involving biomaterials. Such an approach has the potential to enhance informed decision-making for both patients and surgeons, ultimately elevating the standard of patient care.
format Article
id doaj-art-b0bf70fcb78a404b9abbe6b411d7b20a
institution OA Journals
issn 2561-326X
language English
publishDate 2025-05-01
publisher JMIR Publications
record_format Article
series JMIR Formative Research
spelling doaj-art-b0bf70fcb78a404b9abbe6b411d7b20a2025-08-20T02:28:18ZengJMIR PublicationsJMIR Formative Research2561-326X2025-05-019e59631e5963110.2196/59631Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning ApproachMihyun Lim Waughhttp://orcid.org/0000-0002-9171-9138Tyler Millshttp://orcid.org/0009-0007-5334-2679Nicholas Boltinhttp://orcid.org/0000-0003-2808-8211Lauren Wolfhttp://orcid.org/0000-0002-0389-6450Patti Parkerhttp://orcid.org/0000-0003-0907-1705Ronnie Hornerhttp://orcid.org/0000-0002-9967-216XThomas L Wheeler IIhttp://orcid.org/0000-0001-9658-9101Richard L Goodwinhttp://orcid.org/0000-0002-2537-2535Melissa A Mosshttp://orcid.org/0000-0003-4092-5297 Abstract BackgroundTransvaginal insertion of polypropylene mesh was extensively used in surgical procedures to treat pelvic organ prolapse (POP) due to its cost-efficiency and durability. However, studies have reported a high rate of complications, including mesh exposure through the vaginal wall. Developing predictive models via supervised machine learning holds promise in identifying risk factors associated with such complications, thereby facilitating better informed surgical decisions. Previous studies have demonstrated the efficacy of anticipating medical outcomes by employing supervised machine learning approaches that integrate patient health care data with laboratory findings. However, such an approach has not been adopted within the realm of POP mesh surgery. ObjectiveWe examined the efficacy of supervised machine learning to predict mesh exposure following transvaginal POP surgery using 3 different datasets: (1) patient medical record data, (2) biomaterial-induced blood cytokine levels, and (3) the integration of both. MethodsBlood samples and medical record data were collected from 20 female patients who had prior surgical intervention for POP using transvaginal polypropylene mesh. Of these subjects, 10 had experienced mesh exposure through the vaginal wall following surgery, and 10 had not. Standardized medical record data, including vital signs, previous diagnoses, and social history, were acquired from patient records. In addition, cytokine levels in patient blood samples incubated with sterile polypropylene mesh were measured via multiplex assay. Datasets were created with patient medical record data alone, blood cytokine levels alone, and the integration of both data. The data were split into 70% and 30% for training and testing sets, respectively, for machine learning models that predicted the presence or absence of postsurgical mesh exposure. ResultsUpon training the models with patient medical record data, systolic blood pressure, pulse pressure, and a history of alcohol usage emerged as the most significant factors for predicting mesh exposure. Conversely, when the models were trained solely on blood cytokine levels, interleukin (IL)-1β and IL-12 p40 stood out as the most influential cytokines in predicting mesh exposure. Using the combined dataset, new factors emerged as the primary predictors of mesh exposure: IL-8, tumor necrosis factor-α, and the presence of hemorrhoids. Remarkably, models trained on the integrated dataset demonstrated superior predictive capabilities with a prediction accuracy as high as 94%, surpassing the predictive performance of individual datasets. ConclusionsSupervised machine learning models demonstrated improved prediction accuracy when trained using a composite dataset that combined patient medical record data and biomaterial-induced blood cytokine levels, surpassing the performance of models trained with either dataset in isolation. This result underscores the advantage of integrating health care data with blood biomarkers, presenting a promising avenue for predicting surgical outcomes in not only POP mesh procedures but also other surgeries involving biomaterials. Such an approach has the potential to enhance informed decision-making for both patients and surgeons, ultimately elevating the standard of patient care.https://formative.jmir.org/2025/1/e59631
spellingShingle Mihyun Lim Waugh
Tyler Mills
Nicholas Boltin
Lauren Wolf
Patti Parker
Ronnie Horner
Thomas L Wheeler II
Richard L Goodwin
Melissa A Moss
Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning Approach
JMIR Formative Research
title Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning Approach
title_full Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning Approach
title_fullStr Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning Approach
title_full_unstemmed Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning Approach
title_short Predicting Transvaginal Surgical Mesh Exposure Outcomes Using an Integrated Dataset of Blood Cytokine Levels and Medical Record Data: Machine Learning Approach
title_sort predicting transvaginal surgical mesh exposure outcomes using an integrated dataset of blood cytokine levels and medical record data machine learning approach
url https://formative.jmir.org/2025/1/e59631
work_keys_str_mv AT mihyunlimwaugh predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach
AT tylermills predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach
AT nicholasboltin predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach
AT laurenwolf predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach
AT pattiparker predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach
AT ronniehorner predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach
AT thomaslwheelerii predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach
AT richardlgoodwin predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach
AT melissaamoss predictingtransvaginalsurgicalmeshexposureoutcomesusinganintegrateddatasetofbloodcytokinelevelsandmedicalrecorddatamachinelearningapproach

Similar Items