Surgical Wound Infection Clinical Trial
Official title:
Prospective Study on the Incidence and Risk Factors for the Occurrence of Surgical Site Infection After Intramedullary Nailing of Diaphyseal Femoral and Tibial Fractures
Diaphyseal femoral and tibial fractures are in the spotlight within the traumatology-orthopedics scenario. Intramedullary nailing (IMN) remains the method of choice for treating these fractures, both open and closed ones. Occurrences of surgical site infection (SSI) related to this type of osteosynthesis are a challenge for all the professionals involved in patient healthcare. The reported incidence of SSI after IMN ranges from 0.9 to 17.5%. The majority of the data comes from retrospective studies and as part of case series descriptions, with little detail about the criteria used for defining and searching for cases of infection. Regarding the potential risk factors for this complication, previous use of external fixators, occurrence of open fractures and the severity of exposure according to the Gustilo-Anderson classification were indicated in a few retrospective studies as being possibly related to this complication. The objectives of the present observational cohort study are: 1. To determine the incidence of SSI related to IMN for fixation of diaphyseal femoral and tibial fractures in patients treated in a university traumatology and orthopedics reference hospital in São Paulo, Brazil; 2. To evaluate the risk factors related to the occurrence of this type of infection.
Diaphyseal femoral and tibial fractures are a important challenge faced by the orthopedic
surgeon, due to their high incidence and high social and economic impact. Currently, the
observed increases in the rates of injuries secondary to traffic, work and firearms-related
accidents, and also those related to sports practice, have led to significant growth of the
incidence of these fractures, especially among young and economically active individuals .
Although standardized criteria for indications of conservative treatment exist, surgery is
often recommended due to its better functional results and shorter rehabilitation period.
Intramedullary nailing (IMN) was introduced by Küntscher in 1939 and remains the method of
choice for treating these fractures, both closed and open ones, especially because the
surgical technique is considered to be simple, standardized and replicable; does not cause
major soft tissue damage and allows early loading. This technique is associated with a higher
consolidation rate and lower incidence of complications, among which infections are included.
Surgical site infection (SSI) after internal fracture fixation is considered to be a severe,
hard-to-treat complication, and it is important to remember that the presence of the implant
itself favors bacterial invasion and alters local immunity, thus hampering the action of
granulocytes. In addition, injury to the soft tissues adjacent to the fracture focus also
hampers this immunity and favors occurrence of infections.
Although complications are less frequent than in other internal fracture fixation methods,
they can occur during the postoperative period, relating to the use of IMN, and these may
include SSI. Its occurrence significantly increases recovery time and treatment costs, and it
compromises the long-term functional results and rehabilitation.
SSIs, including those related to IMN, are defined internationally in accordance with the
criteria established in the United States (USA) by the National Healthcare Safety Network
(NHSN), an agency belonging to the Centers for Disease Control and Prevention (CDC). 8 This
body is responsible for healthcare-related infection surveillance actions in that country. In
Brazil, as in other countries, adaptations made by the local health and epidemiological
surveillance authorities are followed.
In January 2015, the NHSN made available a document with new definitions of SSI, which came
into force in the USA from that moment onwards, with important changes. The period for
defining infections relating to fracture fixation procedures, regardless of the type of
synthesis material used, became only 90 days, instead of one year from the data of the
surgery. For better evaluation, however, for the present study, the surveillance period
remains one year for defining SSIs relating to IMN.
Different incidences of SSI after fixation of lower-limb fractures through IMN have been
reported in the literature. Most of these have come from retrospective studies and as part of
the description of series of cases of patients who underwent this procedure, with little
detail about the criteria used for defining and searching for SSI cases. Only two prospective
studies have so far reported the occurrence of this complication: these studies were not
specifically designed for evaluating SSI and only describe its occurrence superficially,
among other complications . Until recently, only Gaebler et al., in 2000, had described this
complication with greater methodological rigor. In 2015, however, because of the gap in
knowledge that existed, three authors published the results from retrospective studies that
had been specifically designed for evaluating SSIs relating to IMN for correcting lower-limb
fractures. Despite this recent interest in this subject among researchers, there continue to
be no prospective studies specifically designed for investigating the incidence of this
complication, or its risk factors. In Latin America, in particular, there are no studies of
any kind evaluating the incidence of SSI after fixation of lower-limb fractures using IMN.
Risk factors for occurrences of surgical site infections are generally divided into those
relating to the host, the surgical environment and the microbiota. For occurrences of SSI
after fracture fixation procedures, the following are considered also to be risk factors:
degree of energy of the associated trauma, degree of injury of the adjacent soft tissues,
degree of local contamination, duration of osteosynthesis surgery and immunological status of
the patient.
However, specifically with regard to risk factors relating to occurrences of SSI after
fixation of lower-limb fractures through IMN, information is scarce, given that the majority
of the studies that analyzed the incidence of this complication did not allow for analysis of
the risk factors relating to their occurrence. Until 2015, only Gaebler et al. had published
results from an analysis on these risk factors. They concluded from their retrospective study
that the risk of acquiring SSI after implantation of IMNs was 22.4 times higher among
patients with Gustilo III open fractures than among patients with other types of fractures.
However, these authors did not evaluate the importance of other factors that are considered
to be associated with occurrences of SSI after fracture fixation.
Because of the lack of information on this important subject, in 2015 three authors published
results from retrospective investigations that enabled a few conclusions. Galvin et al., in
their study on closed tibial fractures in American soldiers, found higher incidence of SSI
after IMN in patients who presented clinical instability during the initial care, although
this difference was not statistically significant.
In turn, Metsemakers et al. concluded, after an initial univariate analysis, that previous
use of external fixators, occurrences of open fractures and the severity of exposure
according to Gustilo-Anderson would be factors associated with occurrences of SSI, as also
would greater time intervals between the fracture and its fixation through IMN. It needs to
be highlighted that these authors did not define the time interval above which the risk of
infection would be greater. After multiple logistic regression analysis, however, only
previous external fixation remained as a factor associated with occurrence of SSI after
internal fixation of the fracture with IMN. In the study conducted by Roussignol et al., only
the severity of the open fracture according to the Gustilo-Anderson classification had a
statistically significant correlation with occurrences of infection. Other variables,
including the severity according to the AO classification, previous external fixation, and
time interval between fracture and its internal fixation did not present correlations with
increased incidence of SSI associated with IMN.
It needs to be emphasized that none of the studies cited that presented information on the
factors associated with occurrences of SSI after fracture fixation through IMN were
prospective. This shows that the medical literature still lacks information obtained using
greater methodological rigor.
;
Status | Clinical Trial | Phase | |
---|---|---|---|
Completed |
NCT05529173 -
Povidone-Iodine for Nasal Decolonization
|
Phase 4 | |
Recruiting |
NCT03295955 -
Comparing Efficacy of Postoperative Oral Antibiotic Use in Trans-Oral Thyroidectomy
|
N/A | |
Not yet recruiting |
NCT05276687 -
Efficacy of Diluted Betadine vs Antibiotic Installation Before Surgical Wound Closure in Prevention of Post Cardiac Surgery Wound Infection
|
Phase 4 | |
Completed |
NCT02776774 -
Topical Antibiotic Treatment for Spine Surgical Site Infection
|
||
Terminated |
NCT00386477 -
Vaginal Cleansing at Cesarean Delivery to Reduce Infection: A Randomized, Controlled Trial
|
N/A | |
Not yet recruiting |
NCT03872544 -
Short Term Status of Free Dermal Fat Autografts for Complex Craniofacial Wounds
|
||
Recruiting |
NCT05077592 -
Addition of Pre-wound Closure Povidone Iodine Wash Versus Direct Wound Closure Effect on Surgical Site Infections
|
Phase 4 | |
Enrolling by invitation |
NCT03880188 -
Long Term Status of Free Dermal Fat Autografts for Complex Craniofacial Wounds
|
||
Completed |
NCT01890720 -
Incisional Negative Pressure Wound Therapy for Prevention of Postoperative Infections Following Caesarean Section
|
N/A | |
Recruiting |
NCT06319235 -
Clinical Trial to Demonstrate the Safety and Efficacy of DUOFAG®
|
Phase 1/Phase 2 | |
Completed |
NCT02919410 -
Bacterial Colonization With and Without Iodophor-impregnated Adhesive Drapes in Hip Surgery: a Prospective, Randomized Trial
|
N/A | |
Completed |
NCT02020018 -
Negative Pressure Wound Therapy for Prevention of Poststernotomy Infection
|
N/A | |
Completed |
NCT01741649 -
Clorhexidine Versus Povidone for the Prevention of Surgical Site Infection After Cesarean Section
|
N/A | |
Completed |
NCT01340534 -
Supplemental Perioperative Oxygen to Reduce the Incidence of Post-cesarean Wound Infection
|
Phase 3 | |
Not yet recruiting |
NCT01457859 -
Effectiveness of Triclosan Coated Sutures in Preventing Leg Wound Infection After Coronary Artery Bypass Surgery
|
Phase 4 | |
Completed |
NCT03365219 -
Alexis O-Ring Wound Retractor for the Prevention of Post-cesarean Surgical Site Infections
|
N/A | |
Completed |
NCT01026259 -
Local Warming of Surgical Incisions
|
Phase 3 | |
Completed |
NCT03574090 -
Study the Efficacy of Topical Antibiotherapy in the Prophylaxis of Incisional Surgical Infection in Colorectal Surgery
|
Phase 4 | |
Completed |
NCT03199911 -
Topical Antibiotic Prophylaxis for Eyelids
|
Phase 4 | |
Withdrawn |
NCT04053946 -
Clinical Assessment of Next Science Wound Gels in Healing Below the Knee Amputation Surgical Wound Compared to SOC
|
N/A |