Introduction
False penile fractures (FPF) represent a small percentage of urologic emergencies and sometimes have a presentation indistinguishable from true penile fractures (TPF). The absence or presence of tunica albuginea disruption sets the differential diagnosis between these two entities [
1]. The pathogenesis of FPF is commonly considered a rupture of the dorsal superficial vein of the penis, with circumcision as a predisposing factor due to stretching of the penile skin during intercourse [
2]. Coitus, manipulation, rolling in bed, or falling are the most reported causes for both [
1,
3]. The main difference between TPF and FPF is that the latter can, in some cases, be managed conservatively.
Due to the analogous pathogenesis, patients are often misdiagnosed as having true penile fractures by clinicians and submitted to surgery without additional imaging, for the most part, to confirm the diagnosis [
5], evaluating Buck's fascia and dorsal vein integrity [
6]. This leads to many unnecessary surgeries, causing severe discomfort for patients undergoing invasive operations and avoidable costs for the public health system.
No robust data exist to date aiming to evaluate the sensitivity and specificity of symptoms and signs such as pain, “snap” or “crack” sound, deviation, detumescence speed, or ecchymosis, which can differentiate between TPF and FPF. Therefore, we decided to systematically review the literature on FPF to evaluate the sensitivity of each of these signs and symptoms. The null hypothesis (H0) is that there is no clear difference in clinical presentation between true and false penile fractures.
This research and statistical analysis aim to provide evidence for clinicians to decide between further radiological examination or immediate surgery. Hopefully, this would prevent patients from undergoing unnecessary surgery in the case of false penile fractures.
Methods
This systematic review and meta-analysis were performed following a pre-defined protocol registered on the Open Science Framework (OSF) Registries on September 10, 2022 (
https://osf.io/ybgj3) [
7]. The research question was developed using the “PECO” approach; “P” stands for Patients, “E” for Exposure, “C” for Comparison, and “O” for Outcome. The PECO items were defined as follows:
Population: patients with false penile fracture;
Exposure: absence of snap sound and/or absence of penile detumescence and/or penile deviation;
Comparison: patients with no previous signs;
Outcome: surgical diagnosis of false penile fracture.
No patients were involved in the conduct of this study. Patient and public involvement were not planned or sought in this systematic review.
Eligibility criteria
Since it was clear, after a preliminary search, that the body of evidence consists only of uncontrolled clinical observations due to the total absence of diagnostic trials on the matter, the inclusion and exclusion criteria were tailored for case series and case reports. In the biomedical literature, a case report is the description of the clinical course of one individual, which may include specific exposures, symptoms, signs, interventions, or outcomes. A case report is the smallest publishable unit in the literature, whereas a case series report aggregates individual cases in one publication [
8]. Although sub-optimal, in some instances, a meta-analysis of this type of evidence can be performed [
9]. Studies meeting the following criteria were included in this systematic review:
Study design: Case series or case reports;
Exposure: Study reporting cases of false penile fractures;
Publication Type: Primary studies published in peer-reviewed journals.
Studies meeting the following criteria were excluded from the systematic review:
Study design: Cross-sectional (prevalence) studies;
Publication type: Studies reporting results that have been superseded by subsequent reports from the same study (note: this includes conditions when those reports include a mix of results that have or have not been updated).
The Medline, Scopus, and Cochrane databases were electronically searched on 15/09/2022 using the broadest search strategy due to the already known scarcity of evidence: (false AND penile AND fracture) OR (dorsal AND vein AND rupture). No filter or restriction was applied. It was not possible to search for MeshTerms related to penis fracture because they are not present on the National Library of Medicine site (Medline).
Selection process, data items, and data extraction
Three different authors independently searched for articles and collected data. Studies with missing or unclear data were excluded. Disagreements were discussed by the authors and resolved through consensus or by consulting a fourth author. For every study included in the meta-analysis, the following data were retrieved:
Publication year.
Country.
Number of included patients.
Number of patients reporting no snap sound.
Number of patients reporting no detumescence.
Number of patients reporting penile deviation.
The quality of the studies was evaluated using the JBI critical appraisal checklist for case reports and case series [
10].
Effect measures
The computed effect measure was the sensitivity of each reported “Exposure” item, i.e., absence of snap sound, penile detumescence, and penile deviation. Due to the absence of a comparison in the available evidence, specificity could not be calculated. Other incidentally retrieved information from the included articles, such as the usage of ultrasonography, presence of ecchymosis, and integrity of the tunica albuginea, were not used for the meta-analysis but were considered in a narrative synthesis.
Synthesis methods
The results have been reported both narratively and graphically and summarized in tables when appropriate. All studies meeting the inclusion criteria were selected for narrative synthesis.
For quantitative synthesis, all data from the retrieved case reports were grouped under the category “case reports.” Since quantitative synthesis involved the analysis of case series, sometimes with a 100% event rate, the Laplace succession rule was used: for each series, 2 pseudo-observations were added, one with the reported “Exposure” item and one without, assuming that no prior sensitivity distribution was known [
11].
Given the data type and the involvement of different populations, a Random Effects empirical Bayes model was chosen for the meta-analysis. Statistical heterogeneity was calculated using the
I2 statistic [
12]. Confidence Intervals (CIs),
I2, and
p values were calculated to highlight potential precision issues. Stata
® SE v.17.0 and Microsoft Excel MSO 2016 were used for calculations and graph drawing.
This systematic review and meta-analysis were reported according to the 2020 Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines [
13].
Discussion
False penile fractures (FPF) represent an urgent condition in andrology, but only a small percentage requires surgery, leading to unnecessary or harmful procedures [
24]. However, there is currently no strong evidence to guide clinicians in their decision-making process. Our research identified the most common signs and symptoms in FPF reports and series [
3,
5,
20]: absence of a “snap” sound, slow detumescence, penile deviation, ecchymosis of the shaft, and absence of tunical defects.
The cracking or snapping sound is typically considered crucial in diagnosing true penile fractures (TPF) and indicates a rupture of the tunica albuginea. According to the literature, this sound correlates with a true fracture in 72–84% of cases, increasing to 92% when accompanied by immediate detumescence [
18,
25]. Our meta-analysis showed that the absence of a cracking sound has a sensitivity of 82% in FPF, rising to 96% when combined with slow detumescence. However, a series of 11 fractured penises reported a 55% incidence of snapping sound in TPF, raising concerns about the reliability of this sign [
26].
Detumescence is always described as “slow” in FPF, with an overall sensitivity of 81%. In contrast, in TPF, it is always described as “quick” and is reported in 100% of patients [
25]. Penile ecchymosis, resulting from blood spread through intact tunica layers, has a sensitivity of 100% in our study. Differentiating from TPF, where a large hematoma with a “rolling sign” is considered pathognomonic, FPF often presents with ecchymosis limited to the shaft [
27]. Uncommon shapes of penile ecchymosis associated with FPF include rectangular-shaped ecchymosis in the suprapubic area with swelling of the distal penile skin, indicating complete transection of the dorsal penile vein [
16]. A butterfly hematoma is described in a small percentage of TPF cases [
25].
Tunical defects were not included in our statistical analysis due to limited reporting by authors. However, tunic defects are reported in only 34% of TPF cases [
25]. Albuginea's injury results in penile deviation contralateral to the injury, causing an eggplant deformity [
28]. Penile angulation is reported in 64% of TPF patients but is also described in FPF, with a sensitivity of 86%. When combined with the absence of snap and detumescence, the sensitivity rises to 97% for each combination of signs.
Ultrasound is an additional tool for clinicians, providing an inexpensive and non-invasive means of investigation. Although lacking a pathognomonic pattern, ultrasound can increase awareness of FPF by showing intact tunica albuginea, dorsal vein thrombosis, and/or hematoma with ruptured or dilated veins [
6,
14]. Some authors suggest performing ultrasound only in cases of unusual presentation and monitoring suspected FPF patients for clinical stability. Surgery may be considered if the hematoma worsens or symptoms/blood exams deteriorate [
14,
26,
29].
The use of penile cavernosography for imaging remains controversial due to limitations in visualizing small cavernosal defects and the risk of penile fibrosis from contrast medium leakage. Additionally, it is an invasive technique associated with a high radiation exposure, which is considered detrimental in younger patients [
26]. Magnetic resonance imaging is the gold standard for evaluating albuginea injuries, but its high costs and long execution times discourage routine use in emergency settings [
26,
30].
Surgeons may be concerned about the risk of complications when opting for watchful waiting instead of immediate surgery. While TPF requires prompt management, only Al-Reshaid et al. reported a case of penile abscess and necrotizing fasciitis in a not recognized FPF [
15].
Conclusions
This study is the first to systematically review studies on false penile fractures (FPF) and provide a meta-analysis to depict the typical clinical presentation. Surgeons often fail to recognize FPF and perform unnecessary operations due to the overlap in pathogenesis with true penile fractures (TPF). We identified the absence of a cracking sound, slow detumescence, penile deviation, and ecchymosis of the shaft were identified as highly sensitive signs for diagnosing FPF. Employing these signs to suspect FPF, eventually associated with ultrasound examination, surgeons acquire an additional tool helpful for decision-making when managing blunt penile traumas suspected of fracture.
The main limitation of the study is the lack of diagnostic randomized controlled trials (RCTs), and we had to rely on case reports and case series to derive evidence. These limitations could not be overcome but were represented in the study quality appraisal. Additionally, the specificity of identified signs could not be assessed due to the absence of a control group for false positives, and no receiver operating characteristic (ROC) curve could be proposed.
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