ABSTRACT
Purpose:
Management of Fournier’s Gangrene (FG) includes broad-spectrum antibiotics with adequate surgical debridement, which should be performed within the first 24 hours of onset. However, this treatment may cause significant loss of tissue and may delay healing with the presence of ischemia. Hyperbaric oxygen therapy (HBOT) has been proposed as adjunctive therapy to assist the healing process. However, its benefit is still debatable. Therefore, this systematic review and meta-analysis aimed to evaluate the effect of HBOT as an adjunct therapy for FG.
Materials and Methods:
This study complied with the Preferred Reporting Items for Systematic Reviews and Meta-analyses protocol to obtain studies investigating the effect of HBOT on patients with FG. The search is systematically carried out on different databases such as MEDLINE, Embase, and Scopus based on population, intervention, control, and outcomes criteria. A total of 10 articles were retrieved for qualitative and quantitative analysis.
Results:
There was a significant difference in mortality as patients with FG who received HBOT had a lower number of deaths compared to patients who received conventional therapy (Odds Ratio 0.29; 95% CI 0.12 – 0.69; p = 0.005). However, the mean length of stay with Mean Difference (MD) of -0.18 (95% CI: -7.68 – 7.33; p=0.96) and the number of debridement procedures (MD 1.33; 95% CI: -0.58 – 3.23; p=0.17) were not significantly different.
Conclusion:
HBOT can be used as an adjunct therapy to prevent an increased risk of mortality in patients with FG.
Keywords:
Fournier Gangrene; Hyperbaric Oxygenation; Debridement
INTRODUCTION
Fournier’s Gangrene (FG) is a progressive infectious disease marked by necrotizing fasciitis of the perineum and external genitalia (11 Kahramanca S, Kaya O, Özgehan G, Irem B, Dural I, Küçükpınar T, et al. Are neutrophil-lymphocyte ratio and platelet-lymphocyte ratio as effective as Fournier’s gangrene severity index for predicting the number of debridements in Fourner’s gangrene? Ulus Travma Acil Cerrahi Derg. 2014; 20:107-12., 22 Partin AW, Wein AJ, Kavoussi LR, Peters CA, Dmochowski RR. Campbell Walsh Wein Urology, E-Book. Elsevier Health Sciences; 2020; pp. 1289.). It is considered an emergency in Urology due to its tendency to develop into a severe soft tissue infection associated with systemic sepsis. In several cases, it also required amputation of the penis (33 Ciftci H, Verit A, Oncel H, Altunkol A, Savas M, Yeni E, et al. Amputation of the penis and bilateral orchiectomy due to extensive debridement for Fournier’s gangrene: case report and review of the literature. J Pak Med Assoc. 2012; 62:280-2.). FG mortality rate ranges from 18 to 50%, with an average of 20 to 30% (44 Chernyadyev SA, Ufimtseva MA, Vishnevskaya IF, Bochkarev YM, Ushakov AA, Beresneva TA, et al. Fournier’s Gangrene: Literature Review and Clinical Cases. Urol Int. 2018; 101:91-7.). Management of FG includes aggressive resuscitation, broad-spectrum antibiotics, and surgical debridement, which should be done in under 24 hours (55 Singh G, Chawla S. Aggressiveness - the key to a successful outcome in Fournier’s Gangrene. Med J Armed Forces India. 2004; 60:142-5.). Despite this current standard therapy, FG still causes high mortality. It is possibly due to poor local blood supply in FG patients, causing infection and damage to the blood vessels, thus may delay healing. Aggressive debridement, in this case, may cause significant loss of tissue which prolongs the healing process causing long hospital stays and a high mortality rate (66 Eskes A, Vermeulen H, Lucas C, Ubbink DT. Hyperbaric oxygen therapy for treating acute surgical and traumatic wounds. Cochrane Database Syst Rev. 2013; 12:CD008059.).
This problem leads to Hyperbaric Oxygen Therapy (HBOT) as adjunctive therapy for FG. Hyperbaric oxygen therapy (HBOT) is a therapeutic option involving inhaling pressurized 100% oxygen in sealed chamber (77 Feres O, Feitosa MR, Ribeiro da Rocha JJ, Miranda JM, Dos Santos LE, Féres AC, et al. Hyperbaric oxygen therapy decreases mortality due to Fournier’s gangrene: a retrospective comparative study. Med Gas Res. 2021; 11:18-23.). HBOT allows the speeding up of the healing process, which increases tissue oxygen tension, and inhibits and kills anaerobic bacteria. HBOT possessed a bactericidal effect on anaerobic infection due to aerobic or anaerobic bacteria. Recent studies have reported the role of HBOT in significantly decreasing mortality in Fournier Gangrene patients (88 Singh A, Ahmed K, Aydin A, Khan MS, Dasgupta P. Fournier’s gangrene. A clinical review. Arch Ital Urol Androl. 2016; 88:157-64.). There is no consensus regarding the role of adjunctive therapy of HBOT in FG, and it is still debated whether it can be used to manage FG (44 Chernyadyev SA, Ufimtseva MA, Vishnevskaya IF, Bochkarev YM, Ushakov AA, Beresneva TA, et al. Fournier’s Gangrene: Literature Review and Clinical Cases. Urol Int. 2018; 101:91-7., 99 Ersoz F, Sari S, Arikan S, Altiok M, Bektas H, Adas G, et al. Factors affecting mortality in Fournier’s gangrene: experience with fifty-two patients. Singapore Med J. 2012; 53:537-40.). Therefore, this study aims to evaluate the effect of HBOT as an adjunct therapy for FG.
MATERIALS AND METHODS
This study was in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) protocol. Preliminary searching was performed to ensure that the PICO characteristics were yet to be investigated and avoid duplication of meta-analysis. Literature searches were conducted through MEDLINE, EMBASE, and Scopus databases. Applied key words were specified as (“Fournier Gangrene” or “penile necrotizing fasciitis”) and (“hyperbaric oxygen” or “hyperbaric oxygen therapy” or “hyperbaric oxygen treatment”). The expanded searching terms are presented in Table-1. The protocol of this study was registered on PROSPERO (CRD42021283421).
Inclusion and Exclusion Criteria
Articles permitted for inclusion must have been a randomized controlled trial or observational research, written in English, comprising a minimum of two arms, reporting the number of debridement, length of stay, and mortality rates in patients with FG who were treated with HBOT as opposed to only conventional therapy. Experimental trials in animals, unpublished articles, and abstract-only findings were excluded. Hyperbaric oxygen therapy (HBOT) is an adjunctive treatment in which the patients inhale 100% O2 fraction while being exposed to rising atmospheric pressure. The interventional arm was compared to the standard conventional therapy without HBOT.
Data Extraction
Two independent investigators retrieved the data according to the extraction template. Any discrepancies and disagreements regarding data extraction would be discussed and decided by a third investigator as needed. The extracted items included study characteristics (authors, time of publication, number of samples, study design, inclusion and exclusion criteria, duration of follow-up); baseline characteristics of the subjects (age, type of intervention, affected anatomical region, and location of the study); and quantitative outcomes (length of stay, number of debridement procedures, and number of deaths).
Quality Assessment
The risk of research bias was assessed using The Newcastle-Ottawa Scale (NOS), including selection, comparability, and exposure parameters. This scoring system was used to assess the risk of bias in non-randomized studies. The result from NOS instrument assessment is classified into three categories. A score of 0-3 indicates a low-quality study, while 4-6 indicates a medium quality study, and 7-9 indicates a high-quality study.
Statistical Analysis
The measured endpoints were the mean number of debridement, mean length of stay, and mortality rate. The dichotomous variable was analysed using Odds Ratio (OR) at 95% Confidence Interval (CI), with a p-value below 0.05 regarded as statistically significant. Secondary outcomes were measured as a continuous variable with Weighted Mean Difference (WMD). Analysis of heterogeneity between studies was calculated using I2. Heterogeneity is considered high if the I2 is above 50%. Subsequently the random-effects model will be applied for pooled analysis. Otherwise in I2 <50%, the statistical fixed-effects model will be used. Statistical analysis was performed using RevMan 5.4 for Windows software and presented in the form of forest plots and descriptive narratives.
RESULTS
Systematic search results
The initial search of the study database using specific key words (Table-1) yielded 454 studies. However, we removed 194 studies with irrelevant abstracts or titles and 230 duplicate studies. A total of 30 full-text studies were then assessed for eligibility. Finally, ten eligible studies were included in the analysis of this study (Figure-1).
Baseline characteristics of the included studies
The characteristics of each included study are presented in Supplementary Table-1, which consists of the author and year of published studies, study design, description of the intervention, the mean age, comorbidities, and FGSI score. All included studies were retrospective studies that were published between 1998 and 2021. The total number of patients analysed in this meta-analysis was 657 patients consisting of 268 in the HBOT group and 369 in the non-HBOT group, with the average age of each study ranging from 46.13 to 68.3 years old. The intervention groups of each study were given a different dose of HBOT. However, only three studies mentioned the mean FGSI score of the included studies, ranging from 7.38 to 9 (1010 Creta M, Longo N, Arcaniolo D, Giannella R, Cai T, Cicalese A, et al. Hyperbaric oxygen therapy reduces mortality in patients with Fournier’s Gangrene. Results from a multi-institutional observational study. Minerva Urol Nefrol. 2020; 72:223-8.
11 Li C, Zhou X, Liu LF, Qi F, Chen JB, Zu XB. Hyperbaric Oxygen Therapy as an Adjuvant Therapy for Comprehensive Treatment of Fournier’s Gangrene. Urol Int. 2015; 94:453-8.-1212 Ferretti M, Saji AA, Phillips J. Fournier’s Gangrene: A Review and Outcome Comparison from 2009 to 2016. Adv Wound Care (New Rochelle). 2017; 6:289-95.). Fournier gangrene patients were associated with several comorbidities such as diabetes, alcoholism, hypertension, and smoking. The assessed outcome of this study includes mortality, mean length of stay, and mean number of debridement, as described in Table-2.
Risk of bias assessment
We used the NOS instrument to assess the risk of bias in this meta-analysis. The result from the assessment using NOS instrument of the included studies ranged from 6 to 8 which indicates a moderate to a high-quality assessment of the risk of bias (Table-3).
Meta-analysis results on mortality
Based on the analysis of ten included studies (77 Feres O, Feitosa MR, Ribeiro da Rocha JJ, Miranda JM, Dos Santos LE, Féres AC, et al. Hyperbaric oxygen therapy decreases mortality due to Fournier’s gangrene: a retrospective comparative study. Med Gas Res. 2021; 11:18-23., 1010 Creta M, Longo N, Arcaniolo D, Giannella R, Cai T, Cicalese A, et al. Hyperbaric oxygen therapy reduces mortality in patients with Fournier’s Gangrene. Results from a multi-institutional observational study. Minerva Urol Nefrol. 2020; 72:223-8.
11 Li C, Zhou X, Liu LF, Qi F, Chen JB, Zu XB. Hyperbaric Oxygen Therapy as an Adjuvant Therapy for Comprehensive Treatment of Fournier’s Gangrene. Urol Int. 2015; 94:453-8.
12 Ferretti M, Saji AA, Phillips J. Fournier’s Gangrene: A Review and Outcome Comparison from 2009 to 2016. Adv Wound Care (New Rochelle). 2017; 6:289-95.
13 Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7.
14 Anheuser P, Mühlstädt S, Kranz J, Schneidewind L, Steffens J, Fornara P. Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study. Urol Int. 2018; 101:467-71.
15 Ayan F, Sunamak O, Paksoy SM, Polat SS, As A, Sakoglu N, et al. Fournier’s gangrene: a retrospective clinical study on forty-one patients. ANZ J Surg. 2005; 75:1055-8.
16 Hollabaugh RS Jr, Dmochowski RR, Hickerson WL, Cox CE. Fournier’s gangrene: therapeutic impact of hyperbaric oxygen. Plast Reconstr Surg. 1998; 101:94-100.
17 Hung MC, Chou CL, Cheng LC, Ho CH, Niu KC, Chen HL, et al. The role of hyperbaric oxygen therapy in treating extensive Fournier’s gangrene. Urological Science 2016, 27, 3, 148-53.-1818 Tutino R, Colli F, Rizzo G, Cocorullo G, Gulotta G. Which is the role of hyperbaric oxygen therapy (hbot) in the treatment of fournier’s gangrene? Techniques in Coloproctology. 2020; 24:652.), patients with HBOT have a significantly lower mortality rate than patients without HBOT (OR 0.29; 95%CI 0.12, 0.69; p=0.005) (Figure-2). The random-effects model was used due to high heterogeneity between studies (P = 0.03; I2 = 51%). Of the ten studies, Creta et al. and Feres et al. have notable significance in the analysis due to the larger number of samples compared to other studies (77 Feres O, Feitosa MR, Ribeiro da Rocha JJ, Miranda JM, Dos Santos LE, Féres AC, et al. Hyperbaric oxygen therapy decreases mortality due to Fournier’s gangrene: a retrospective comparative study. Med Gas Res. 2021; 11:18-23., 1010 Creta M, Longo N, Arcaniolo D, Giannella R, Cai T, Cicalese A, et al. Hyperbaric oxygen therapy reduces mortality in patients with Fournier’s Gangrene. Results from a multi-institutional observational study. Minerva Urol Nefrol. 2020; 72:223-8.). Only two studies reported an increase in mortality in patients treated with HBOT (1313 Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7., 1818 Tutino R, Colli F, Rizzo G, Cocorullo G, Gulotta G. Which is the role of hyperbaric oxygen therapy (hbot) in the treatment of fournier’s gangrene? Techniques in Coloproctology. 2020; 24:652.).
Meta-analysis result on the length of stay
The forest plot analysis in this study also evaluated the difference in length of stay between HBOT and non-HBOT groups. The analysis results of two included studies (1111 Li C, Zhou X, Liu LF, Qi F, Chen JB, Zu XB. Hyperbaric Oxygen Therapy as an Adjuvant Therapy for Comprehensive Treatment of Fournier’s Gangrene. Urol Int. 2015; 94:453-8., 1313 Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7.) did not reveal any significant difference regarding the mean length of stay between the HBOT and non-HBOT groups in FG patients (MD -0.18; 95%CI: -7.68 – 7.33; p=0.96) (Figure-3a). The fixed-effects model was used due to low heterogeneity between studies (p = 0.94; I2 = 0%).
a) Forest plot for the length of stay of FG patients in HBOT and non-HBOT groups, b) Forest plot for the number of debridement of FG patients in HBOT and non-HBOT groups.
Meta-analysis results on the number of debridement
This meta-analysis also compared the number of debridement procedures performed in HBOT and non-HBOT groups. Three included studies (1111 Li C, Zhou X, Liu LF, Qi F, Chen JB, Zu XB. Hyperbaric Oxygen Therapy as an Adjuvant Therapy for Comprehensive Treatment of Fournier’s Gangrene. Urol Int. 2015; 94:453-8., 1313 Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7., 1414 Anheuser P, Mühlstädt S, Kranz J, Schneidewind L, Steffens J, Fornara P. Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study. Urol Int. 2018; 101:467-71.) in the analysis of this outcome revealed no significant difference in the mean number of debridement procedures between HBOT and non-HBOT in FG patients (MD 1.33; 95% CI -0.58-3.23; p=0.17) (Figure-3b). The random-effects model was used due to the heterogeneity between studies was high at 95% (<0.00001; I2 95%)
DISCUSSION
To the best of our knowledge, this is the first systematic review and meta-analysis study on the evaluation of HBOT in Fournier Gangrene patients. Oxygen therapy (HBOT) is an adjunctive treatment to the primary surgical debridement in the cases of soft tissue infection. This treatment involves inhaling 100% fraction of Oxygen in a pressurized environment. However, the benefit of HBOT for Fournier Gangrene (FG) is still controversial (1919 Hassan Z, Mullins RF, Friedman BC, Shaver JR, Brandigi C, Alam B, Mian MA. Treating necrotizing fasciitis with or without hyperbaric oxygen therapy. Undersea Hyperb Med. 2010;37:115-23.). Further investigation is needed before HBOT can be recommended for routine use in cases of FG. Our study demonstrated a significant result that HBOT might reduce the mortality rate in FG patients. However, the effect of HBOT on the length of stay and number of debridement was not proven in this study.
Several previous studies have proven that the most important intervention to control the progressivity of the rapidly infectious process of FG involves repeated surgical debridement, broad-spectrum antibiotics, and intensive care. However, FG patients still posses a high risk of mortality and morbidity. Finding an adjunctive treatment to the standard treatment was crucial and may significantly benefit survival and prevent higher mortality of FG patients. This meta-analysis revealed a significantly lower mortality rate in FG patients who received adjuvant HBOT than conventional therapy (OR 0.29; 95% CI 0.12, 0.69; p = 0.005), consistent with findings in several studies (1010 Creta M, Longo N, Arcaniolo D, Giannella R, Cai T, Cicalese A, et al. Hyperbaric oxygen therapy reduces mortality in patients with Fournier’s Gangrene. Results from a multi-institutional observational study. Minerva Urol Nefrol. 2020; 72:223-8., 1111 Li C, Zhou X, Liu LF, Qi F, Chen JB, Zu XB. Hyperbaric Oxygen Therapy as an Adjuvant Therapy for Comprehensive Treatment of Fournier’s Gangrene. Urol Int. 2015; 94:453-8., 2020 Escobar SJ, Slade JB Jr, Hunt TK, Cianci P. Adjuvant hyperbaric oxygen therapy (HBO2)for treatment of necrotizing fasciitis reduces mortality and amputation rate. Undersea Hyperb Med. 2005; 32:437-43., 2121 Mehl AA, Nogueira Filho DC, Mantovani LM, Grippa MM, Berger R, Krauss D, et al. Management of Fournier’s gangrene: experience of a university hospital of Curitiba. Rev Col Bras Cir. 2010; 37:435-41.). A study by Anheuser et al. (2018) reported that this promising result in the HBOT group was also influenced by the well availability of hyperbaric oxygen therapy and safe patient transfer despite the patient’s poor physical condition because delaying the patient transfer to surgical debridement may significantly increase mortality rate (1414 Anheuser P, Mühlstädt S, Kranz J, Schneidewind L, Steffens J, Fornara P. Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study. Urol Int. 2018; 101:467-71.). However, HBOT alone cannot replace the initial treatment of FG, which includes aggressive resuscitation, broad-spectrum antibiotic therapy, early colostomy, and adequate debridement (1717 Hung MC, Chou CL, Cheng LC, Ho CH, Niu KC, Chen HL, et al. The role of hyperbaric oxygen therapy in treating extensive Fournier’s gangrene. Urological Science 2016, 27, 3, 148-53.). Another study suggested that HBOT became an independent predictor for decreased mortality rate due to Fournier Gangrene (1212 Ferretti M, Saji AA, Phillips J. Fournier’s Gangrene: A Review and Outcome Comparison from 2009 to 2016. Adv Wound Care (New Rochelle). 2017; 6:289-95.). A study by Mindrup et al. (2005) has contradictory results regarding the HBOT group’s mortality rate. It revealed that patients who underwent HBOT have a higher mortality rate, 12.5% in the non-HBOT group and 26.9% in the HBOT group (1313 Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7.). On the other hand, a study by Pizzorno et al. (1997) showed 0% mortality rate in patients that did not undergo HBOT (2222 Pizzorno R, Bonini F, Donelli A, Stubinski R, Medica M, Carmignani G. Hyperbaric oxygen therapy in the treatment of Fournier’s disease in 11 male patients. J Urol. 1997; 158 (3 Pt 1): 837-40.), while other studies only reported a 3 and 9% mortality rate (2323 Korhonen K, Hirn M, Niinikoski J. Hyperbaric oxygen in the treatment of Fournier’s gangrene. Eur J Surg. 1998; 164:251-5., 2424 Sorensen MD, Krieger JN. Fournier’s Gangrene: Epidemiology and Outcomes in the General US Population. Urol Int. 2016; 97:249-59.). Differences may occur due to several factors which may affect mortality in the treatment of Fournier Gangrene patients, such as surgeon experience, early administration of antibiotic therapy, intensive care, and early surgical therapy (2222 Pizzorno R, Bonini F, Donelli A, Stubinski R, Medica M, Carmignani G. Hyperbaric oxygen therapy in the treatment of Fournier’s disease in 11 male patients. J Urol. 1997; 158 (3 Pt 1): 837-40., 2525 Sugihara T, Yasunaga H, Horiguchi H, Fujimura T, Ohe K, Matsuda S, et al. Impact of surgical intervention timing on the case fatality rate for Fournier’s gangrene: an analysis of 379 cases. BJU Int. 2012; 110 (11 Pt C): E1096-100.
26 Furr J, Watts T, Street R, Cross B, Slobodov G, Patel S. Contemporary Trends in the Inpatient Management of Fournier’s Gangrene: Predictors of Length of Stay and Mortality Based on Population-based Sample. Urology. 2017; 102:79-84.-2727 Osbun N, Hampson LA, Holt SK, Gore JL, Wessells H, Voelzke BB. Low-Volume vs High-Volume Centers and Management of Fournier’s Gangrene in Washington State. J Am Coll Surg. 2017; 224:270-275.e1.). Another study also reported that the surface area of the infected body is also a factor that affects survival and mortality (2828 Dahm P, Roland FH, Vaslef SN, Moon RE, Price DT, Georgiade GS, et al. Outcome analysis in patients with primary necrotizing fasciitis of the male genitalia. Urology. 2000; 56:31-5.). Hyperbaric oxygen therapy was considered to be safe because it did not cause a delay in surgical debridement or interrupt the standard therapy.
The length of stay between the two studies did not reveal a significant difference (MD -0.18; 95%CI: -7.68 – 7.33). Only one study reported a reduction in length of stay among patients with FG receiving HBOT (2929 Eksi M, Arikan Y, Simsek A, Ozdemir O, Karadag S, Gurbuz N, et al. Factors affecting length of stay in Fournier’s gangrene: a retrospective analysis of 10 years’ data. Aktuelle Urol. 2020; 21. ahead of print.). However, the sample of this study was consisted of HBOT and NPWT treatment thus it was difficult to confirm specifically the adjunctive effect of HBOT treatment in FG patients. According to a study by Anheuser et al., there was no difference in patients with FG receiving HBOT in terms of length of stay (1414 Anheuser P, Mühlstädt S, Kranz J, Schneidewind L, Steffens J, Fornara P. Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study. Urol Int. 2018; 101:467-71.). Other study also reported a shorter length of stay along and decreased mortality rates (1010 Creta M, Longo N, Arcaniolo D, Giannella R, Cai T, Cicalese A, et al. Hyperbaric oxygen therapy reduces mortality in patients with Fournier’s Gangrene. Results from a multi-institutional observational study. Minerva Urol Nefrol. 2020; 72:223-8.). In relation to the length of stay, physical disability is a significant predictor of longer hospitalization (1313 Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7.). It could be due to community issues, as approximately 30% of FG patients require treatment at rehabilitation centres, long-term care facilities, or local hospitals (1313 Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7.). The length of stay was also influenced by the need to perform concurrent surgeries such as colostomy. Regarding Fournier Gangrene Severity Index score, sepsis significantly influences the length of stay in FG patients. Understanding the importance of predicting length of stay may provide strategy in patient-based treatment and aid in decision-making in treatment choice.
Pooled analysis of the number of debridement procedures suggested no significant difference between HBOT and conventional therapy (MD 1.33; 95% CI: -0.58 – 3.23). A previous study reported that the average number of surgical debridement procedures was similar between HBOT and conventional therapy leading to the interpretation that HBOT had no advantage in decreasing the number of debridement procedures when used as an adjuvant treatment of FG (3030 Shupak A, Shoshani O, Goldenberg I, Barzilai A, Moskuna R, Bursztein S. Necrotizing fasciitis: an indication for hyperbaric oxygenation therapy? Surgery. 1995; 118:873-8.). A lower number of debridement procedures among control that did not receive HBOT has also been reported. The number of required debridement was an important parameter because complete recovery in FG patients may be determined with a lower number of repeated debridement (1111 Li C, Zhou X, Liu LF, Qi F, Chen JB, Zu XB. Hyperbaric Oxygen Therapy as an Adjuvant Therapy for Comprehensive Treatment of Fournier’s Gangrene. Urol Int. 2015; 94:453-8.).
Based on a study reported by Mindrup et al., the cost of HBOT was not negligible, as hospital charges were significantly higher among HBOT group (1313 Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7.). A study conducted in Germany stated that the availability of HBOT was relatively low. In addition, the expense of a patient treated with the HBOT ranges from 8,000 to 25,000 EUR and is not covered by health insurance (1414 Anheuser P, Mühlstädt S, Kranz J, Schneidewind L, Steffens J, Fornara P. Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study. Urol Int. 2018; 101:467-71.). Therefore, the recommendations of HBOT as adjunctive therapy requires more cost analysis studies before it can be implemented for routine use in FG cases.
Several limitations existed in this study. Firstly, other factors that may affect the outcome cannot be entirely analysed, leaving the possibility of influence on the outcome results. Secondly, cost analysis could not yet be performed as only a few included studies mentioned this aspect in relation to the given intervention. Thirdly, the high heterogeneity of the included studies occurred due to various characteristics among study population, including patient comorbidities in both arms, the manner of the intervention, and the endpoint for analysis. Therefore, it is necessary to conduct research with a uniform design setting and population. Lastly, all included studies were retrospective observational studies. The nature of this design may raise several biases. More studies on this topic should be done, especially randomized-control trial studies, to create an adequate analysis of the usage of Hyperbaric Oxygen for Fournier’s Gangrene Patients.
CONCLUSION
The adjunctive therapy of Hyperbaric Oxygen possessed a significantly lower mortality rate compared to conventional therapy. However, the effect of HBOT on the length of stay and number of debridement was not proven in this study. The influence of multiple factors warrants the need for future randomized controlled trials.
ABBREVIATIONS
- HBOT Hyperbaric Oxygen Therapy
- FG Fournier’s Gangrene
- PRISMA Preferred Reporting Items for Systematic Review and Meta-Analyses
- PICO Population-Intervention-Comparison-Outcome
- MD Mean Difference
- OR Odds Ratio
- CI Confidence Interval
- NOS Newcastle-Ottawa Scale
- WMD Weighted Mean Difference
- FGSI Fournier’s Gangrene Severity Index
REFERENCES
-
1Kahramanca S, Kaya O, Özgehan G, Irem B, Dural I, Küçükpınar T, et al. Are neutrophil-lymphocyte ratio and platelet-lymphocyte ratio as effective as Fournier’s gangrene severity index for predicting the number of debridements in Fourner’s gangrene? Ulus Travma Acil Cerrahi Derg. 2014; 20:107-12.
-
2Partin AW, Wein AJ, Kavoussi LR, Peters CA, Dmochowski RR. Campbell Walsh Wein Urology, E-Book. Elsevier Health Sciences; 2020; pp. 1289.
-
3Ciftci H, Verit A, Oncel H, Altunkol A, Savas M, Yeni E, et al. Amputation of the penis and bilateral orchiectomy due to extensive debridement for Fournier’s gangrene: case report and review of the literature. J Pak Med Assoc. 2012; 62:280-2.
-
4Chernyadyev SA, Ufimtseva MA, Vishnevskaya IF, Bochkarev YM, Ushakov AA, Beresneva TA, et al. Fournier’s Gangrene: Literature Review and Clinical Cases. Urol Int. 2018; 101:91-7.
-
5Singh G, Chawla S. Aggressiveness - the key to a successful outcome in Fournier’s Gangrene. Med J Armed Forces India. 2004; 60:142-5.
-
6Eskes A, Vermeulen H, Lucas C, Ubbink DT. Hyperbaric oxygen therapy for treating acute surgical and traumatic wounds. Cochrane Database Syst Rev. 2013; 12:CD008059.
-
7Feres O, Feitosa MR, Ribeiro da Rocha JJ, Miranda JM, Dos Santos LE, Féres AC, et al. Hyperbaric oxygen therapy decreases mortality due to Fournier’s gangrene: a retrospective comparative study. Med Gas Res. 2021; 11:18-23.
-
8Singh A, Ahmed K, Aydin A, Khan MS, Dasgupta P. Fournier’s gangrene. A clinical review. Arch Ital Urol Androl. 2016; 88:157-64.
-
9Ersoz F, Sari S, Arikan S, Altiok M, Bektas H, Adas G, et al. Factors affecting mortality in Fournier’s gangrene: experience with fifty-two patients. Singapore Med J. 2012; 53:537-40.
-
10Creta M, Longo N, Arcaniolo D, Giannella R, Cai T, Cicalese A, et al. Hyperbaric oxygen therapy reduces mortality in patients with Fournier’s Gangrene. Results from a multi-institutional observational study. Minerva Urol Nefrol. 2020; 72:223-8.
-
11Li C, Zhou X, Liu LF, Qi F, Chen JB, Zu XB. Hyperbaric Oxygen Therapy as an Adjuvant Therapy for Comprehensive Treatment of Fournier’s Gangrene. Urol Int. 2015; 94:453-8.
-
12Ferretti M, Saji AA, Phillips J. Fournier’s Gangrene: A Review and Outcome Comparison from 2009 to 2016. Adv Wound Care (New Rochelle). 2017; 6:289-95.
-
13Mindrup SR, Kealey GP, Fallon B. Hyperbaric oxygen for the treatment of fournier’s gangrene. J Urol. 2005; 173:1975-7.
-
14Anheuser P, Mühlstädt S, Kranz J, Schneidewind L, Steffens J, Fornara P. Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study. Urol Int. 2018; 101:467-71.
-
15Ayan F, Sunamak O, Paksoy SM, Polat SS, As A, Sakoglu N, et al. Fournier’s gangrene: a retrospective clinical study on forty-one patients. ANZ J Surg. 2005; 75:1055-8.
-
16Hollabaugh RS Jr, Dmochowski RR, Hickerson WL, Cox CE. Fournier’s gangrene: therapeutic impact of hyperbaric oxygen. Plast Reconstr Surg. 1998; 101:94-100.
-
17Hung MC, Chou CL, Cheng LC, Ho CH, Niu KC, Chen HL, et al. The role of hyperbaric oxygen therapy in treating extensive Fournier’s gangrene. Urological Science 2016, 27, 3, 148-53.
-
18Tutino R, Colli F, Rizzo G, Cocorullo G, Gulotta G. Which is the role of hyperbaric oxygen therapy (hbot) in the treatment of fournier’s gangrene? Techniques in Coloproctology. 2020; 24:652.
-
19Hassan Z, Mullins RF, Friedman BC, Shaver JR, Brandigi C, Alam B, Mian MA. Treating necrotizing fasciitis with or without hyperbaric oxygen therapy. Undersea Hyperb Med. 2010;37:115-23.
-
20Escobar SJ, Slade JB Jr, Hunt TK, Cianci P. Adjuvant hyperbaric oxygen therapy (HBO2)for treatment of necrotizing fasciitis reduces mortality and amputation rate. Undersea Hyperb Med. 2005; 32:437-43.
-
21Mehl AA, Nogueira Filho DC, Mantovani LM, Grippa MM, Berger R, Krauss D, et al. Management of Fournier’s gangrene: experience of a university hospital of Curitiba. Rev Col Bras Cir. 2010; 37:435-41.
-
22Pizzorno R, Bonini F, Donelli A, Stubinski R, Medica M, Carmignani G. Hyperbaric oxygen therapy in the treatment of Fournier’s disease in 11 male patients. J Urol. 1997; 158 (3 Pt 1): 837-40.
-
23Korhonen K, Hirn M, Niinikoski J. Hyperbaric oxygen in the treatment of Fournier’s gangrene. Eur J Surg. 1998; 164:251-5.
-
24Sorensen MD, Krieger JN. Fournier’s Gangrene: Epidemiology and Outcomes in the General US Population. Urol Int. 2016; 97:249-59.
-
25Sugihara T, Yasunaga H, Horiguchi H, Fujimura T, Ohe K, Matsuda S, et al. Impact of surgical intervention timing on the case fatality rate for Fournier’s gangrene: an analysis of 379 cases. BJU Int. 2012; 110 (11 Pt C): E1096-100.
-
26Furr J, Watts T, Street R, Cross B, Slobodov G, Patel S. Contemporary Trends in the Inpatient Management of Fournier’s Gangrene: Predictors of Length of Stay and Mortality Based on Population-based Sample. Urology. 2017; 102:79-84.
-
27Osbun N, Hampson LA, Holt SK, Gore JL, Wessells H, Voelzke BB. Low-Volume vs High-Volume Centers and Management of Fournier’s Gangrene in Washington State. J Am Coll Surg. 2017; 224:270-275.e1.
-
28Dahm P, Roland FH, Vaslef SN, Moon RE, Price DT, Georgiade GS, et al. Outcome analysis in patients with primary necrotizing fasciitis of the male genitalia. Urology. 2000; 56:31-5.
-
29Eksi M, Arikan Y, Simsek A, Ozdemir O, Karadag S, Gurbuz N, et al. Factors affecting length of stay in Fournier’s gangrene: a retrospective analysis of 10 years’ data. Aktuelle Urol. 2020; 21. ahead of print.
-
30Shupak A, Shoshani O, Goldenberg I, Barzilai A, Moskuna R, Bursztein S. Necrotizing fasciitis: an indication for hyperbaric oxygenation therapy? Surgery. 1995; 118:873-8.
Publication Dates
-
Publication in this collection
26 Aug 2022 -
Date of issue
Sep-Oct 2022
History
-
Received
27 Feb 2022 -
Accepted
08 Apr 2022 -
Published
10 May 2022