Deep Infections after Open and Closed Fractures

The PREP-IT Investigators

doi:10.2106/JBJS.24.01249

Deep Infections after Open and Closed Fractures

The PREP-IT Investigators

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

1 Scopus citations

Abstract

Background:The purpose of this study was to describe the culture and speciation results of patients with surgical site infection (SSI) from the PREPARE and Aqueous-PREP studies from the PREP-IT Investigators.Methods:Patients with suspected SSI underwent collection of deep or organ tissue samples for culture. The culture positivity rate was estimated as a percentage along with the exact binomial 95% confidence interval (CI). Microbial species were reported as percentages. Comparisons between open and closed fractures were conducted with the Z-test for proportions. Significance was set at p < 0.05.Results:Among the 2 primary studies, a total of 484 cases (defined as an anatomic fracture area; some patients had multiple fractures, which were each defined as a case if they developed an infection) had culture samples taken from deep or organ tissue. The culture positivity rate was 96.7% (95% CI, 94.7% to 98.0% [468 of 484 cases]). There were no significant differences (p = 0.507) in culture positivity between open fractures (97.2% [95% CI, 94.5% to 98.6%]; 273 of 281 cases) and closed fractures (96.1% [95% CI, 92.4% to 98.0%]; 195 of 203 cases). There was information on microbial species in 84.4% (395) of 468 cases. For patients with positive cultures, 43.3% (171 of 395 cases) were polymicrobial infections. Open fractures (47.8% [111 of 232 cases]), compared with closed fractures (36.8% [60 of 163 cases]), were more likely to be polymicrobial (p = 0.029). Staphylococcus aureus microbes (methicillin-sensitive S. aureus, methicillin-resistant S. aureus, and coagulase-negative S. aureus) accounted for 43.3% (462 of 1,066) of all positive cultures. The median time to infection was 58.5 days (95% CI, 49.0 to 67.0 days). The median time to infection was not significantly different in cases of open fractures (61.0 days [95% CI, 51.0 to 71.0 days]) compared with closed fractures (54.0 days [95% CI, 43.0 to 67.0 days]) (hazard ratio [HR], 0.92 [95% CI, 0.72 to 1.12]). SSIs associated with gram-negative bacteria had a shorter median time to infection at 46.0 days (95% CI, 36.0 to 58.0 days) compared with SSIs not associated with gram-negative bacteria at 70.0 days (95% CI, 56.0 to 88.0 days) (HR, 1.79 [95% CI, 1.55 to 2.03]). There was also a shorter median time to infection for patients with polymicrobial infections (47.0 days [95% CI, 38.8 to 52.1 days]) compared with patients with monomicrobial infections (78.6 days [95% CI, 57.2 to 86.8 days]) (HR, 1.26 [95% CI, 1.03 to 1.49]).Conclusions:In patients with SSI, tissue samples yielded high rates of microbial culture results. There was a higher proportion of gram-negative organisms in open fractures. Gram-negative infections were also associated with earlier time to infection. Clinicians should not hesitate to take deep-tissue culture samples in patients with suspected SSI and should be prepared to encounter polymicrobial infections.

Original language	English
Pages (from-to)	71-79
Number of pages	9
Journal	Journal of Bone and Joint Surgery
Volume	107
Issue number	Suppl 1
DOIs	https://doi.org/10.2106/JBJS.24.01249
State	Published - Jun 18 2025

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10.2106/JBJS.24.01249

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@article{0385e6113d634f548f270eab8cccdea2,

title = "Deep Infections after Open and Closed Fractures",

abstract = "Background:The purpose of this study was to describe the culture and speciation results of patients with surgical site infection (SSI) from the PREPARE and Aqueous-PREP studies from the PREP-IT Investigators.Methods:Patients with suspected SSI underwent collection of deep or organ tissue samples for culture. The culture positivity rate was estimated as a percentage along with the exact binomial 95\% confidence interval (CI). Microbial species were reported as percentages. Comparisons between open and closed fractures were conducted with the Z-test for proportions. Significance was set at p < 0.05.Results:Among the 2 primary studies, a total of 484 cases (defined as an anatomic fracture area; some patients had multiple fractures, which were each defined as a case if they developed an infection) had culture samples taken from deep or organ tissue. The culture positivity rate was 96.7\% (95\% CI, 94.7\% to 98.0\% [468 of 484 cases]). There were no significant differences (p = 0.507) in culture positivity between open fractures (97.2\% [95\% CI, 94.5\% to 98.6\%]; 273 of 281 cases) and closed fractures (96.1\% [95\% CI, 92.4\% to 98.0\%]; 195 of 203 cases). There was information on microbial species in 84.4\% (395) of 468 cases. For patients with positive cultures, 43.3\% (171 of 395 cases) were polymicrobial infections. Open fractures (47.8\% [111 of 232 cases]), compared with closed fractures (36.8\% [60 of 163 cases]), were more likely to be polymicrobial (p = 0.029). Staphylococcus aureus microbes (methicillin-sensitive S. aureus, methicillin-resistant S. aureus, and coagulase-negative S. aureus) accounted for 43.3\% (462 of 1,066) of all positive cultures. The median time to infection was 58.5 days (95\% CI, 49.0 to 67.0 days). The median time to infection was not significantly different in cases of open fractures (61.0 days [95\% CI, 51.0 to 71.0 days]) compared with closed fractures (54.0 days [95\% CI, 43.0 to 67.0 days]) (hazard ratio [HR], 0.92 [95\% CI, 0.72 to 1.12]). SSIs associated with gram-negative bacteria had a shorter median time to infection at 46.0 days (95\% CI, 36.0 to 58.0 days) compared with SSIs not associated with gram-negative bacteria at 70.0 days (95\% CI, 56.0 to 88.0 days) (HR, 1.79 [95\% CI, 1.55 to 2.03]). There was also a shorter median time to infection for patients with polymicrobial infections (47.0 days [95\% CI, 38.8 to 52.1 days]) compared with patients with monomicrobial infections (78.6 days [95\% CI, 57.2 to 86.8 days]) (HR, 1.26 [95\% CI, 1.03 to 1.49]).Conclusions:In patients with SSI, tissue samples yielded high rates of microbial culture results. There was a higher proportion of gram-negative organisms in open fractures. Gram-negative infections were also associated with earlier time to infection. Clinicians should not hesitate to take deep-tissue culture samples in patients with suspected SSI and should be prepared to encounter polymicrobial infections.",

author = "\{The PREP-IT Investigators\} and Michael Polmear and Hagen, \{Jennifer E.\} and Schrank, \{Gregory M.\} and Marilyn Heng and Marcano-Fern{\'a}ndez, \{Francesc A.\} and Jeray, \{Kyle J.\} and Gage, \{Mark J.\} and Slobogean, \{Gerard P.\} and Sheila Sprague and Terrie Vasilopoulos and Slobogean, \{Gerard P.\} and Sheila Sprague and Jeffrey Wells and Mohit Bhandari and Harris, \{Anthony D.\} and Mullins, \{C. Daniel\} and Lehana Thabane and Amber Wood and \{Della Rocca\}, \{Gregory J.\} and Joan Hebden and O'Hara, \{Lyndsay M.\} and Robert Zura and Christopher Lee and Joseph Patterson and Gardner, \{Michael J.\} and Jenna Blasman and Jonah Davies and Stephen Liang and Monica Taljaard and Devereaux, \{P. J.\} and Guyatt, \{Gordon H.\} and Debra Marvel and Jana Palmer and Jeff Friedrich and Frances Grissom and D'Alleyrand, \{Jean Claude\} and Jessica Rivera and Max Talbot and Joshi, \{Manjari G.\} and Franca Mossuto and Michelle Medeiros and Genevieve Polk and Eric Kettering and Nirmen Mahal and David Pogorzelski and Shannon Dodds and Jordan Leonard and Silvia Li and Alejandra Rojas and \{Del Fabbro\}, Gina and Szasz, \{Olivia Paige\} and Diane Heels-Ansdell and Sofia Bzovsky and Paula McKay and Alexandra Minea and Kevin Murphy and O'Toole, \{Robert V.\} and O'Hara, \{Nathan N.\} and Gregory Schrank and Andrew Eglseder and Aaron Johnson and Christopher Langhammer and Jason Nascone and Raymond Pensy and Andrew Pollak and Marcus Sciadini and Eric Hempen and Yasmin Degani and Andrea Howe and Megan Camara and Heather Phipps and Joshua Rudnicki and Christine Holler and Katherine Aumann and Jennifer Spelta and Jed Nieves and Bryce Smetzer and Julia Dunning and Kimberly Krudener and Erin Lock and Lea Marineau and Petrisor, \{Brad A.\} and Herman Johal and Bill Ristevski and Dale Williams and Matthew Denkers and Krishan Rajaratnam and Jamal Al-Asiri and Jodi Gallant and Kaitlyn Pusztai and Sarah MacRae and Sara Renaud and Marko Gjorgjievski and Jeray, \{Kyle J.\} and Adams, \{John D.\} and Beckish, \{Michael L.\} and Bray, \{Christopher C.\} and Brown, \{Timothy R.\} and Cross, \{Andrew W.\} and Timothy Dew and Faucher, \{Gregory K.\} and Gurich, \{Richard W.\} and Lazarus, \{David E.\} and Millon, \{S. John\} and Moody, \{M. Christian\} and Palmer, \{M. Jason\} and Porter, \{Scott E.\} and Schaller, \{Thomas M.\} and Sridhar, \{Michael S.\} and Sanders, \{John L.\} and Rudisill, \{L. Edwin\} and Garitty, \{Michael J.\} and Poole, \{Andrew S.\} and Sims, \{Michael L.\} and Walker, \{Clark M.\} and Robert Carlisle and Hofer, \{Erin A.\} and Brandon Huggins and Michael Hunter and William Marshall and Ray, \{Shea B.\} and Cory Smith and Altman, \{Kyle M.\} and Erin Pichiotino and Quirion, \{Julia C.\} and Loeffler, \{Markus F.\} and Pichiotino, \{Erin R.\} and Cole, \{Austin A.\} and Maltz, \{Ethan J.\} and Wesley Parker and Ramsey, \{T. Bennett\} and Alex Burnikel and Michael Colello and Russell Stewart and Jeremy Wise and Matthew Anderson and Joshua Eskew and Benjamin Judkins and Miller, \{James M.\} and Tanner, \{Stephanie L.\} and Snider, \{Rebecca G.\} and Townsend, \{Christine E.\} and Pham, \{Kayla H.\} and Abigail Martin and Emily Robertson and Emily Bray and Sykes, \{J. Wilson\} and Krystina Yoder and Kelsey Conner and Harper Abbott and Natoli, \{Roman M.\} and McKinley, \{Todd O.\} and Virkus, \{Walter W.\} and Sorkin, \{Anthony T.\} and Szatkowski, \{Jan P.\} and Mullis, \{Brian H.\} and Yohan Jang and Lopas, \{Luke A.\} and Hill, \{Lauren C.\} and Diaz, \{Maricela M.\} and Garst, \{Katelyn M.\} and Denari, \{Emma W.\} and Patrick Osborn and Justin Fowler and Sarah Pierrie and Saam Morshed and Theodore Miclau and Meir Marmor and Amir Matityahu and McClellan, \{R. Trigg\} and David Shearer and Paul Toogood and Anthony Ding and Jothi Murali and \{El Naga\}, Ashraf and Jennifer Tangtiphaiboontana and Tigist Belaye and Eleni Berhaneselase and Dmitry Pokhvashchev and Obremskey, \{William T.\} and Jahangir, \{Amir Alex\} and Manish Sethi and Robert Boyce and Stinner, \{Daniel J.\} and Phillip Mitchell and Karen Trochez and Elsa Rodriguez and Charles Pritchett and Natalie Hogan and Moreno, \{A. Fidel\} and Hagen, \{Jennifer E.\} and Matthew Patrick and Richard Vlasak and Thomas Krupko and Michael Talerico and Marybeth Horodyski and Marissa Pazik and Elizabeth Lossada-Soto and Gary, \{Joshua L.\} and Warner, \{Stephen J.\}",

note = "Publisher Copyright: {\textcopyright} 2025 BY THE JOURNAL OF BONE AND JOINT SURGERY, INCORPORATED.",

year = "2025",

month = jun,

day = "18",

doi = "10.2106/JBJS.24.01249",

language = "English",

volume = "107",

pages = "71--79",

journal = "Journal of Bone and Joint Surgery",

issn = "0021-9355",

number = "Suppl 1",

}

TY - JOUR

T1 - Deep Infections after Open and Closed Fractures

AU - The PREP-IT Investigators

AU - Polmear, Michael

AU - Hagen, Jennifer E.

AU - Schrank, Gregory M.

AU - Heng, Marilyn

AU - Marcano-Fernández, Francesc A.

AU - Jeray, Kyle J.

AU - Gage, Mark J.

AU - Slobogean, Gerard P.

AU - Sprague, Sheila

AU - Vasilopoulos, Terrie

AU - Slobogean, Gerard P.

AU - Sprague, Sheila

AU - Wells, Jeffrey

AU - Bhandari, Mohit

AU - Harris, Anthony D.

AU - Mullins, C. Daniel

AU - Thabane, Lehana

AU - Wood, Amber

AU - Della Rocca, Gregory J.

AU - Hebden, Joan

AU - O'Hara, Lyndsay M.

AU - Zura, Robert

AU - Lee, Christopher

AU - Patterson, Joseph

AU - Gardner, Michael J.

AU - Blasman, Jenna

AU - Davies, Jonah

AU - Liang, Stephen

AU - Taljaard, Monica

AU - Devereaux, P. J.

AU - Guyatt, Gordon H.

AU - Marvel, Debra

AU - Palmer, Jana

AU - Friedrich, Jeff

AU - Grissom, Frances

AU - D'Alleyrand, Jean Claude

AU - Rivera, Jessica

AU - Talbot, Max

AU - Joshi, Manjari G.

AU - Mossuto, Franca

AU - Medeiros, Michelle

AU - Polk, Genevieve

AU - Kettering, Eric

AU - Mahal, Nirmen

AU - Pogorzelski, David

AU - Dodds, Shannon

AU - Leonard, Jordan

AU - Li, Silvia

AU - Rojas, Alejandra

AU - Del Fabbro, Gina

AU - Szasz, Olivia Paige

AU - Heels-Ansdell, Diane

AU - Bzovsky, Sofia

AU - McKay, Paula

AU - Minea, Alexandra

AU - Murphy, Kevin

AU - O'Toole, Robert V.

AU - O'Hara, Nathan N.

AU - Schrank, Gregory

AU - Eglseder, Andrew

AU - Johnson, Aaron

AU - Langhammer, Christopher

AU - Nascone, Jason

AU - Pensy, Raymond

AU - Pollak, Andrew

AU - Sciadini, Marcus

AU - Hempen, Eric

AU - Degani, Yasmin

AU - Howe, Andrea

AU - Camara, Megan

AU - Phipps, Heather

AU - Rudnicki, Joshua

AU - Holler, Christine

AU - Aumann, Katherine

AU - Spelta, Jennifer

AU - Nieves, Jed

AU - Smetzer, Bryce

AU - Dunning, Julia

AU - Krudener, Kimberly

AU - Lock, Erin

AU - Marineau, Lea

AU - Petrisor, Brad A.

AU - Johal, Herman

AU - Ristevski, Bill

AU - Williams, Dale

AU - Denkers, Matthew

AU - Rajaratnam, Krishan

AU - Al-Asiri, Jamal

AU - Gallant, Jodi

AU - Pusztai, Kaitlyn

AU - MacRae, Sarah

AU - Renaud, Sara

AU - Gjorgjievski, Marko

AU - Jeray, Kyle J.

AU - Adams, John D.

AU - Beckish, Michael L.

AU - Bray, Christopher C.

AU - Brown, Timothy R.

AU - Cross, Andrew W.

AU - Dew, Timothy

AU - Faucher, Gregory K.

AU - Gurich, Richard W.

AU - Lazarus, David E.

AU - Millon, S. John

AU - Moody, M. Christian

AU - Palmer, M. Jason

AU - Porter, Scott E.

AU - Schaller, Thomas M.

AU - Sridhar, Michael S.

AU - Sanders, John L.

AU - Rudisill, L. Edwin

AU - Garitty, Michael J.

AU - Poole, Andrew S.

AU - Sims, Michael L.

AU - Walker, Clark M.

AU - Carlisle, Robert

AU - Hofer, Erin A.

AU - Huggins, Brandon

AU - Hunter, Michael

AU - Marshall, William

AU - Ray, Shea B.

AU - Smith, Cory

AU - Altman, Kyle M.

AU - Pichiotino, Erin

AU - Quirion, Julia C.

AU - Loeffler, Markus F.

AU - Pichiotino, Erin R.

AU - Cole, Austin A.

AU - Maltz, Ethan J.

AU - Parker, Wesley

AU - Ramsey, T. Bennett

AU - Burnikel, Alex

AU - Colello, Michael

AU - Stewart, Russell

AU - Wise, Jeremy

AU - Anderson, Matthew

AU - Eskew, Joshua

AU - Judkins, Benjamin

AU - Miller, James M.

AU - Tanner, Stephanie L.

AU - Snider, Rebecca G.

AU - Townsend, Christine E.

AU - Pham, Kayla H.

AU - Martin, Abigail

AU - Robertson, Emily

AU - Bray, Emily

AU - Sykes, J. Wilson

AU - Yoder, Krystina

AU - Conner, Kelsey

AU - Abbott, Harper

AU - Natoli, Roman M.

AU - McKinley, Todd O.

AU - Virkus, Walter W.

AU - Sorkin, Anthony T.

AU - Szatkowski, Jan P.

AU - Mullis, Brian H.

AU - Jang, Yohan

AU - Lopas, Luke A.

AU - Hill, Lauren C.

AU - Diaz, Maricela M.

AU - Garst, Katelyn M.

AU - Denari, Emma W.

AU - Osborn, Patrick

AU - Fowler, Justin

AU - Pierrie, Sarah

AU - Morshed, Saam

AU - Miclau, Theodore

AU - Marmor, Meir

AU - Matityahu, Amir

AU - McClellan, R. Trigg

AU - Shearer, David

AU - Toogood, Paul

AU - Ding, Anthony

AU - Murali, Jothi

AU - El Naga, Ashraf

AU - Tangtiphaiboontana, Jennifer

AU - Belaye, Tigist

AU - Berhaneselase, Eleni

AU - Pokhvashchev, Dmitry

AU - Obremskey, William T.

AU - Jahangir, Amir Alex

AU - Sethi, Manish

AU - Boyce, Robert

AU - Stinner, Daniel J.

AU - Mitchell, Phillip

AU - Trochez, Karen

AU - Rodriguez, Elsa

AU - Pritchett, Charles

AU - Hogan, Natalie

AU - Moreno, A. Fidel

AU - Hagen, Jennifer E.

AU - Patrick, Matthew

AU - Vlasak, Richard

AU - Krupko, Thomas

AU - Talerico, Michael

AU - Horodyski, Marybeth

AU - Pazik, Marissa

AU - Lossada-Soto, Elizabeth

AU - Gary, Joshua L.

AU - Warner, Stephen J.

PY - 2025/6/18

Y1 - 2025/6/18

N2 - Background:The purpose of this study was to describe the culture and speciation results of patients with surgical site infection (SSI) from the PREPARE and Aqueous-PREP studies from the PREP-IT Investigators.Methods:Patients with suspected SSI underwent collection of deep or organ tissue samples for culture. The culture positivity rate was estimated as a percentage along with the exact binomial 95% confidence interval (CI). Microbial species were reported as percentages. Comparisons between open and closed fractures were conducted with the Z-test for proportions. Significance was set at p < 0.05.Results:Among the 2 primary studies, a total of 484 cases (defined as an anatomic fracture area; some patients had multiple fractures, which were each defined as a case if they developed an infection) had culture samples taken from deep or organ tissue. The culture positivity rate was 96.7% (95% CI, 94.7% to 98.0% [468 of 484 cases]). There were no significant differences (p = 0.507) in culture positivity between open fractures (97.2% [95% CI, 94.5% to 98.6%]; 273 of 281 cases) and closed fractures (96.1% [95% CI, 92.4% to 98.0%]; 195 of 203 cases). There was information on microbial species in 84.4% (395) of 468 cases. For patients with positive cultures, 43.3% (171 of 395 cases) were polymicrobial infections. Open fractures (47.8% [111 of 232 cases]), compared with closed fractures (36.8% [60 of 163 cases]), were more likely to be polymicrobial (p = 0.029). Staphylococcus aureus microbes (methicillin-sensitive S. aureus, methicillin-resistant S. aureus, and coagulase-negative S. aureus) accounted for 43.3% (462 of 1,066) of all positive cultures. The median time to infection was 58.5 days (95% CI, 49.0 to 67.0 days). The median time to infection was not significantly different in cases of open fractures (61.0 days [95% CI, 51.0 to 71.0 days]) compared with closed fractures (54.0 days [95% CI, 43.0 to 67.0 days]) (hazard ratio [HR], 0.92 [95% CI, 0.72 to 1.12]). SSIs associated with gram-negative bacteria had a shorter median time to infection at 46.0 days (95% CI, 36.0 to 58.0 days) compared with SSIs not associated with gram-negative bacteria at 70.0 days (95% CI, 56.0 to 88.0 days) (HR, 1.79 [95% CI, 1.55 to 2.03]). There was also a shorter median time to infection for patients with polymicrobial infections (47.0 days [95% CI, 38.8 to 52.1 days]) compared with patients with monomicrobial infections (78.6 days [95% CI, 57.2 to 86.8 days]) (HR, 1.26 [95% CI, 1.03 to 1.49]).Conclusions:In patients with SSI, tissue samples yielded high rates of microbial culture results. There was a higher proportion of gram-negative organisms in open fractures. Gram-negative infections were also associated with earlier time to infection. Clinicians should not hesitate to take deep-tissue culture samples in patients with suspected SSI and should be prepared to encounter polymicrobial infections.

AB - Background:The purpose of this study was to describe the culture and speciation results of patients with surgical site infection (SSI) from the PREPARE and Aqueous-PREP studies from the PREP-IT Investigators.Methods:Patients with suspected SSI underwent collection of deep or organ tissue samples for culture. The culture positivity rate was estimated as a percentage along with the exact binomial 95% confidence interval (CI). Microbial species were reported as percentages. Comparisons between open and closed fractures were conducted with the Z-test for proportions. Significance was set at p < 0.05.Results:Among the 2 primary studies, a total of 484 cases (defined as an anatomic fracture area; some patients had multiple fractures, which were each defined as a case if they developed an infection) had culture samples taken from deep or organ tissue. The culture positivity rate was 96.7% (95% CI, 94.7% to 98.0% [468 of 484 cases]). There were no significant differences (p = 0.507) in culture positivity between open fractures (97.2% [95% CI, 94.5% to 98.6%]; 273 of 281 cases) and closed fractures (96.1% [95% CI, 92.4% to 98.0%]; 195 of 203 cases). There was information on microbial species in 84.4% (395) of 468 cases. For patients with positive cultures, 43.3% (171 of 395 cases) were polymicrobial infections. Open fractures (47.8% [111 of 232 cases]), compared with closed fractures (36.8% [60 of 163 cases]), were more likely to be polymicrobial (p = 0.029). Staphylococcus aureus microbes (methicillin-sensitive S. aureus, methicillin-resistant S. aureus, and coagulase-negative S. aureus) accounted for 43.3% (462 of 1,066) of all positive cultures. The median time to infection was 58.5 days (95% CI, 49.0 to 67.0 days). The median time to infection was not significantly different in cases of open fractures (61.0 days [95% CI, 51.0 to 71.0 days]) compared with closed fractures (54.0 days [95% CI, 43.0 to 67.0 days]) (hazard ratio [HR], 0.92 [95% CI, 0.72 to 1.12]). SSIs associated with gram-negative bacteria had a shorter median time to infection at 46.0 days (95% CI, 36.0 to 58.0 days) compared with SSIs not associated with gram-negative bacteria at 70.0 days (95% CI, 56.0 to 88.0 days) (HR, 1.79 [95% CI, 1.55 to 2.03]). There was also a shorter median time to infection for patients with polymicrobial infections (47.0 days [95% CI, 38.8 to 52.1 days]) compared with patients with monomicrobial infections (78.6 days [95% CI, 57.2 to 86.8 days]) (HR, 1.26 [95% CI, 1.03 to 1.49]).Conclusions:In patients with SSI, tissue samples yielded high rates of microbial culture results. There was a higher proportion of gram-negative organisms in open fractures. Gram-negative infections were also associated with earlier time to infection. Clinicians should not hesitate to take deep-tissue culture samples in patients with suspected SSI and should be prepared to encounter polymicrobial infections.

UR - https://www.scopus.com/pages/publications/105009316533

U2 - 10.2106/JBJS.24.01249

DO - 10.2106/JBJS.24.01249

M3 - Article

C2 - 40531188

AN - SCOPUS:105009316533

SN - 0021-9355

VL - 107

SP - 71

EP - 79

JO - Journal of Bone and Joint Surgery

JF - Journal of Bone and Joint Surgery

IS - Suppl 1

ER -

Deep Infections after Open and Closed Fractures

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