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Aspiración y escleroterapia versus hidrocelectomía para el tratamiento del hidrocele

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Antecedentes

El hidrocele es una anomalía quística escrotal frecuente, descrita como una colección llena de líquido entre las capas visceral y parietal de la túnica vaginal del escroto. Existen dos enfoques para el tratamiento del hidrocele: la hidrocelectomía quirúrgica abierta y la aspiración seguida de escleroterapia.

Objetivos

Se compararon los efectos beneficiosos y perjudiciales de la aspiración y la escleroterapia versus la hidrocelectomía para el tratamiento del hidrocele.

Métodos de búsqueda

Se realizaron búsquedas en el registro especializado del Grupo Cochrane de Riñón (Cochrane Renal Group) hasta el 2 de agosto de 2014 mediante contacto con el coordinador de búsqueda de ensayos y se utilizaron términos de búsqueda relevantes para esta revisión.

Criterios de selección

Ensayos controlados aleatorios (ECA) y ensayos controlados cuasialeatorios que compararan la aspiración y la escleroterapia versus la hidrocelectomía para el tratamiento del hidrocele.

Obtención y análisis de los datos

Dos autores extrajeron datos y evaluaron el riesgo de sesgo de los estudios incluidos de forma independiente. Se realizaron metanálisis de efectos aleatorios con el uso del riesgo relativo (RR) para los resultados dicotómicos, y las diferencias de medias (DM) para los resultados continuos, con intervalos de confianza (IC) del 95%.

Resultados principales

Se encontraron cuatro pequeños estudios que cumplieron los criterios de inclusión. Estos estudios incluyeron a 275 pacientes y 282 hidroceles. Los participantes fueron asignados al azar a la aspiración y escleroterapia (155 pacientes con 159 hidroceles) y a la cirugía (120 pacientes con 123 hidroceles). Se consideró que todos los estudios tenían riesgo de sesgo bajo o incierto en cuanto al sesgo de selección, el sesgo de detección, el sesgo de deserción y el sesgo de notificación selectivo. El cegamiento no fue posible para los participantes y los investigadores sobre la base del tipo de intervención. El cegamiento para los estadísticos no se informó en ninguno de los estudios incluidos.

No hubo diferencias significativas en la curación clínica entre los dos grupos (tres estudios, 215 participantes: RR 0,45; IC del 95%: 0,18 a 1,10), aunque hubo heterogeneidad significativa (I² = 95%). Al realizar investigación adicional, un estudio fue responsable de toda la heterogeneidad. Lo anterior podría haberse debido al agente utilizado o quizás al hecho de que se trata de un estudio mucho más antiguo que los otros dos incluidos en este análisis. Cuando se eliminó este estudio del análisis, la heterogeneidad fue del 0% y el resultado fue significativo (a favor de la cirugía) (dos estudios, 136 participantes: CR 0,74; IC del 95%: 0,64 a 0,85). Hubo un aumento significativo de la recurrencia en los que recibieron escleroterapia en comparación con la cirugía (tres estudios, 196 participantes: RR 9,37; IC del 95%: 1,83 a 48,4). Un estudio informó una disminución no significativa de la fiebre en el grupo de escleroterapia (60 participantes: RR 0,25; IC del 95%: 0,06 a 1,08). Hubo un número mayor de infecciones en el grupo de cirugía; sin embargo, este aumento no fue estadísticamente significativo (cuatro estudios, 275 participantes): RR 0,31; IC del 95%: 0,09 a 1,05; I² = 0%). Tres estudios informaron que la frecuencia del dolor en el grupo de cirugía fue mayor que en el grupo de aspiración y escleroterapia, aunque debido a las diferentes herramientas de medición aplicadas en estos estudios, no fue posible agrupar los resultados. La curación radiológica no se informó en ninguno de los estudios incluidos. No hubo diferencias significativas en la formación de hematomas entre los dos grupos (tres estudios, 189 participantes: RR 0,57; IC del 95%: 0,17 a 1,90; I² = 0%). Sólo un estudio informó la satisfacción del paciente a los tres y seis meses; no hubo diferencias significativas entre los dos grupos.

Conclusiones de los autores

Las complicaciones posoperatorias así como el costo y el tiempo hasta el retorno al trabajo fueron menos significativas en el grupo de aspiración y escleroterapia; sin embargo, la tasa de recurrencia fue mayor. La tasa de curación en el seguimiento a corto plazo fue similar entre los grupos; sin embargo, hay dudas significativas en cuanto a este resultado debido a la heterogeneidad alta. Se necesitan ECA adicionales metodológicamente rigurosos que evalúen la efectividad de diferentes tipos de agentes esclerosantes, la concentración de la solución esclerosante y el volumen de inyección para el tratamiento del hidrocele. Es importante que los ECA tengan un tamaño de la muestra suficientemente grande y un período de seguimiento largo. Los estudios deben evaluar los resultados clínicos como el dolor, la recurrencia, la satisfacción, las complicaciones y la curación con instrumentos validados. Los protocolos para todos los estudios deben asentarse en los registros de ensayos clínicos, y los informes de estos estudios deben ajustarse a las guías internacionales del informe de ensayos como CONSORT. También deben realizarse estudios de costo‐efectividad.

Resumen en términos sencillos

Aspiración y escleroterapia versus hidrocelectomía para el tratamiento del hidrocele

El hidrocele es una anomalía quística escrotal común, descrita como una colección llena de líquido alrededor de los testículos. El hidrocele puede tratarse con drenaje del líquido junto con la inyección de un producto químico alrededor del testículo para prevenir la recurrencia, o con cirugía abierta. El objetivo de esta revisión es comparar estos dos tipos de tratamiento. Se encontraron cuatro estudios pequeños después de una extensa búsqueda en la literatura. Debido a la limitada información sobre el diseño de los estudios y al pequeño número de pacientes incluidos, los resultados deben interpretarse con precaución. El metanálisis mostró tasas inferiores de recurrencia en el grupo de cirugía; sin embargo, hubo pruebas insuficientes para establecer una conclusión sólida. Las complicaciones posoperatorias como la infección y la fiebre, así como el costo y el tiempo hasta el retorno al trabajo fueron menos significativas en el grupo de aspiración y escleroterapia; sin embargo, la tasa de recurrencia fue mayor. La curación en el momento del seguimiento a corto plazo fue similar entre los grupos; sin embargo, hay dudas significativas en cuanto a este resultado que pueden ser consecuencia de la antigüedad de uno de los estudios y del agente diferente utilizado en comparación con los otros estudios.

Authors' conclusions

Implications for practice

Based on the present study, there are insufficient evidence to draw a conclusion on the efficacy and effectiveness of aspiration and sclerotherapy versus hydrocoelectomy in the treatment of hydrocoeles. Fever, infection and haematoma formation, as well as cost and time to work resumption, were less in the aspiration and sclerotherapy group; however recurrence was higher. Cure at short‐term follow‐up was similar between the groups, however there is significant uncertainty in this result due to the high heterogeneity.

Implications for research

There is a great need for further methodologically rigorous RCTs that assess the effectiveness of different type of sclerosant agents, sclerosing solution concentrations, and injection volume for the treatment of hydrocoeles. It is important that the RCTs have sufficiently large and have a long follow‐up period. The studies should evaluate clinical outcomes such as pain, recurrence, satisfaction, complications and cure by using validated instruments. The protocols of studies should be registered in clinical trial registries and the reports of these studies should conform with international guidelines of trial reporting such as CONSORT (Schulz 2010). Cost‐effectiveness studies should also be undertaken.

Background

Description of the condition

Hydrocoeles are common cystic scrotal abnormalities, described as a fluid‐filled collection between the visceral and parietal layers of the tunica vaginalis of the scrotum. Hydrocoeles are responsible for most painless scrotal swellings (Micallef 2000). These masses are either congenital or acquired, and can present in any age group, from neonates to the elderly (Epstein 1988). Accumulation of fluid resulting from communication between the tunica vaginalis and the peritoneal cavity leads to formation of congenital hydrocoeles. Acquired hydrocoeles are most commonly idiopathic, although they can occur secondary to intrascrotal infections, regional or systemic diseases, inguinal or scrotal surgery, or neoplasms (Rubenstein 2004). The prevalence of idiopathic hydrocoele in adult male population is unclear but some experts reported the incidence of hydrocoele to be 1% in adult male population in USA (Rudkin 2012).

Description of the intervention

Although most hydroceles do not require therapeutic intervention, two approaches are common in practice. Surgical open hydrocoelectomy is considered to be the current therapeutic standard (Beiko 2003; Epstein 1988). An alternative approach is percutaneous aspiration followed by sclerotherapy. Aspiration without sclerotherapy carries a significant risk of hydrocoele recurrence (Roosen 1991).    

How the intervention might work

Aspiration and sclerotherapy for the management of hydrocoeles involves aspirating the hydrocoele and then injecting a sclerosing solution into the hydrocoele sac. This solution fuses the visceral and parietal layers of the tunica vaginalis, obliterating the potential space for reformation of the hydrocoele (Moloney 1975; Shan 2003).

Why it is important to do this review

When treating hydrocoeles, physicians should consider issues such as success rate, morbidity, costs to patient, health care system, community and patient satisfaction. Although surgical open hydrocoelectomy has been done successfully since the 1970s and is considered as standard treatment, few published studies have reported absolute cure rates and complications following this procedure (Shan 2003).

Sclerotherapy, a minimally invasive approach used to treat hydrocoeles, evolved from demand and need for less aggressive surgical approaches. Successful sclerotherapy may avoid the need for surgery to treat hydrocoeles. Various sclerosing agents have been used in the management of hydrocoeles, including antazoline (Roosen 1991), tetracycline (Levin 1988), ethanolamine oleate (Tammela 1992), adhesive fibrin glue (Sirpa 1998), talc (Yilmaz 1998), blood, rifampin (Yilmaz 2000), polidocanol (Sigurdsson 1994), OK‐432 (Yamamoto 1994), phenol (Savion 1989), and sodium tetradecyl sulphate (Beiko 2003; Fracchia 1998; Stattin 1996). A number of sclerotherapy techniques have been used, and a variety of definitions of success applied in studies. The results of studies on sclerotherapy are therefore inconsistent and variable success rates from 33% to 100% have been reported for the same sclerosing agent (Fracchia 1998; Hu 1984; Levin 1988; Ozkan 1990).

Objectives

We compared the benefits and harms of aspiration and sclerotherapy versus hydrocoelectomy for the management of hydrocoeles.

Methods

Criteria for considering studies for this review

Types of studies

We included all reports of randomised controlled trials (RCTs) and quasi‐RCTs (studies in which allocation to treatment was obtained by alternation, use of date of birth, alternate medical records, or other predictable methods). There was no limitation in terms of language of publication or the date of the study.

Types of participants

We included men and boys over 14 years of age with primary hydrocoele. The diagnosis of hydrocoele was based on physical examination or ultrasonography. We excluded studies that included men and boys with recurrent hydrocoele, congenital hydrocoele, communicating hydrocoele (associated with inguinal hernia) and secondary hydrocoele due to scrotal pathologies (infections and malignancies), varicocoele surgery, scrotal surgery and scrotal trauma. We excluded patients who underwent sclerotherapy after hydrocoelectomy and vice‐versa.

Types of interventions

We included reports of studies that compared the effects of aspiration and sclerotherapy with any type of sclerosants (e.g. antazoline, tetracycline, rifampin, sodium tetradecyl sulphate) versus hydrocoelectomy.

Types of outcome measures

  • Single surgery versus single sclerotherapy

  • Single surgery versus two rounds of sclerotherapy and

  • Single surgery versus three rounds of sclerotherapy.

Primary outcomes

  1. Clinical cure: absence of hydrocoele on postoperative clinical assessment

  2. Radiological cure: absence of hydrocoele on postoperative ultrasound

  3. Recurrence: the accumulation of hydrocoele on postoperative ultrasound or clinical assessment, or both, that required re‐intervention after three months of surgery or sclerotherapy

  4. Postoperative complications

    1. Fever: oral temperature more than 38°C

    2. Acute pain: scrotal pain 48 h after intervention (pain should be assessed using the visual analogue scale (VAS; 0 = no pain; 10 = worst pain imaginable)

    3. Chronic pain: scrotal pain at follow‐up more than two days after intervention (pain should be assessed using the visual analogue scale (VAS; 0 = no pain; 10 = worst pain imaginable)

    4. Infection: the presence of either positive microbial culture from wound discharge, or a combination of fever, pain, local redness and discharge at the incision site

    5. Other complications including haematocoele, oedema, haematoma: based on physician reports in studies.

Secondary outcomes

  1. Length of hospital stay

  2. Return to normal activities

  3. Total cost: addition of all intervention costs, cost of hospitalisation, drugs and materials. Loss of working days was not be including in the total cost. If possible, we provided a cost‐effectiveness analysis

  4. Patient satisfaction in terms of: decrease in hydrocoele size, relief from any hydrocoele‐related disability, and satisfaction with the overall experience and results of the procedure

  5. Spermogram result: semen volume (mL), concentration (million/mL), motility and morphology.

Search methods for identification of studies

Electronic searches

We searched the Cochrane Renal Group's Specialised Register (to 2 August 2014) through contact with the Trials' Search Co‐ordinator using search terms relevant to this review. The Cochrane Renal Group’s Specialised Register contains studies identified from the following sources.

  1. Quarterly searches of the Cochrane Central Register of Controlled Trials (CENTRAL)

  2. Weekly searches of MEDLINE OVID SP

  3. Handsearching of renal‐related journals and the proceedings of major renal conferences

  4. Searching of the current year of EMBASE OVID SP

  5. Weekly current awareness alerts for selected renal journals

  6. Searches of the International WHO ICTRP search portal and ClinicalTrials.gov.

Studies contained in the Specialised Register are identified through search strategies for CENTRAL, MEDLINE, and EMBASE based on the scope of the Cochrane Renal Group. Details of these strategies, as well as a list of handsearched journals, conference proceedings and current awareness alerts, are available in the specialised register section of information about the Cochrane Renal Group.

See Appendix 1 for search terms used in strategies for this review.

Searching other resources

  1. Reference lists of nephrology textbooks, clinical practice guidelines, review articles and relevant studies

  2. Citation tracking of identified RCTs and reviews using Science Citation Index

  3. Letters seeking information about unpublished or incomplete studies to investigators known to be involved in previous studies.

Data collection and analysis

Selection of studies

The search strategy was applied to identify all studies relevant to the review. Two authors independently screened titles and if necessary reviewed the full text and provided detailed descriptions of the included and excluded articles. Disagreement was resolved by discussion, and a third author arbitrated if necessary.

Data extraction and management

Data were extracted independently by two authors using a self‐developed data extraction form. Studies reported in non‐English language journals were translated before assessment. If more than one publication on each study were identified, reports were grouped together and the most recent or most complete report was included in the meta‐analyses. Where data from a study was conflicted or insufficient, authors were contacted to request further information. Relevant information obtained in this manner was included in the analysis. Disagreement was resolved by discussion, or consulting a third author if necessary.

Assessment of risk of bias in included studies

Two authors independently assessed the risk of bias in the selected studies based on articles’ full text. Disagreements was resolved with a third author (Higgins 2011) (see Appendix 2).

  • Was there adequate sequence generation (selection bias)?

  • Was allocation adequately concealed (selection bias)?

  • Was knowledge of the allocated interventions adequately prevented during the study (detection bias)?

    • Participants and personnel

    • Outcome assessors

  • Were incomplete outcome data adequately addressed (attrition bias)?

  • Are reports of the study free of suggestion of selective outcome reporting (reporting bias)?

  • Was the study apparently free of other problems that could put it at a risk of bias?

Measures of treatment effect

For dichotomous outcomes (e.g. cure, fever, patient satisfaction) results were expressed as risk ratio (RR) with 95% confidence intervals (CI). Where continuous scales of measurement are used to assess the effects of treatment (e.g. pain, length hospital stay, cost) the mean difference (MD) was used, or the standardised mean difference (SMD) if different scales were used.

Unit of analysis issues

Cross‐over studies were not included because this study design was not consistent with outcomes related to the treatment of hydrocoeles.

Dealing with missing data

Any further information required from the original author was requested by written correspondence and any relevant information obtained in this manner was included in the review. Evaluation of important numerical data such as screened, randomised patients as well as intention‐to‐treat (ITT), as‐treated and per‐protocol (PP) population were carefully performed. Attrition rates, for example drop‐outs, losses to follow‐up and withdrawals were investigated. Issues of missing data and imputation methods (for example, last‐observation‐carried‐forward (LOCF)) were critically appraised (Higgins 2011).

Assessment of heterogeneity

Heterogeneity was analysed using a Chi² test on N‐1 degrees of freedom, with an alpha of 0.05 used for statistical significance and with the I² test (Higgins 2003). I² values of 25%, 50% and 75% correspond to low, medium and high levels of heterogeneity. We assessed the potential sources of clinical heterogeneity by exploring clinical and methodological characteristics of these studies (e.g. differences in study quality, participants, intervention, or outcome assessment). 

Assessment of reporting biases

We planned to construct funnel plots to assess for the potential existence of small study bias (Higgins 2011). This was not possible due to the small number of studies identified.

Data synthesis

We pooled all primary and secondary outcomes data using the random‐effects model. The fixed‐effect model was also to be used to ensure robustness of the model chosen and susceptibility to outliers, however due to the small number of studies identified this was not done.

Subgroup analysis and investigation of heterogeneity

We planned to perform the following subgroup analyses.

  • Intervention: e.g. different kinds of sclerosant agents

  • Study quality: e.g. RCTs and quasi‐RCTs.

If possible, the risk difference with 95% CI was to be calculated for each adverse effect, either compared with no treatment or another agent; this was not done.

Sensitivity analysis

We planned to perform the following sensitivity analyses in order to explore the influence of the following factors on effect size, however due to the small number of studies identified this was not done.

  • Repeating the analysis excluding unpublished studies

  • Repeating the analysis taking into account the risk of bias, as specified above

  • Repeating the analysis excluding in large studies to establish the degree of their impact on the results

  • Repeating the analysis excluding studies using the following filters: diagnostic criteria; language of publication; source of funding (industry versus other); and country.

Results

Description of studies

Results of the search

After searching the Cochrane Renal Group's Specialised Register we identified seven potentially relevant studies. Reference and citation tracking identified seven additional studies. We identified two additional potentially relevant studies after contact with experts and investigators in order to seek published and unpublished studies. After reviewing titles and abstracts, we excluded four studies. The full text of the remaining 12 studies were retrieved, and eight were excluded. These selection process resulted in four small studies that met our inclusion criteria (Agrawal 2009a; Khaniya 2009; Latif 2008; Osman 1994) (Figure 1).


Study selection flow diagram.

Study selection flow diagram.

Included studies

Authors of the four included studies were contacted for clarification regarding methodology and some missing data, however no further information was received. These studies included 275 patients with 282 hydroceles. The patients were randomised to aspiration and sclerotherapy (155 patients; 159 hydroceles) and surgery (120 patients; 123 hydroceles). The types of sclerosant agent, dose and frequency of treatments varied among the studies. Khaniya 2009 and Latif 2008 used sodium tetradecyl sulphate, Osman 1994 used tetracycline, and Agrawal 2009a used phenol and polidocanol as sclerosant agents in two separate groups. The characteristics of the methods, populations, interventions and outcomes in the included studies are reported in the Characteristics of included studies.

Excluded studies

We excluded four studies based on titles and abstracts. Eight studies were excluded after review of the full text. The reasons for exclusion were that the studies were not randomised (5); they enrolled the wrong population (1), or they investigated the wrong intervention (2) (see Characteristics of excluded studies).

Risk of bias in included studies

Details are available for each study in Characteristics of included studies, Figure 2 and Figure 3.


Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.


Risk of bias summary: review authors' judgements about each risk of bias item for each included study.

Risk of bias summary: review authors' judgements about each risk of bias item for each included study.

Allocation

Randomisation was by computer random number generator in Khaniya 2009. The method of randomisation was unclear in other three studies. Allocation concealment was unclear in all included studies.

Blinding

Blinding was not possible for participants and investigators based on the type of interventions. Blinding for statisticians was not reported in any of the included studies.

Incomplete outcome data

Included studies had short follow‐up time, therefore the loss to follow‐up was not a significant problem in two included studies (Agrawal 2009a; Latif 2008). In Khaniya 2009 there were some missing data regarding patient satisfaction. The risk of attrition bias was unclear in Osman 1994.

Selective reporting

The protocols of the included studies were not available, therefore judgement was not possible.

Other potential sources of bias

There were insufficient data to permit judgment.

Effects of interventions

Primary outcomes

Clinical cure

Three studies (Agrawal 2009a; Latif 2008; Osman 1994) reported clinical cure after single sclerotherapy versus surgery. There was no significant difference in clinical cure between the two treatment groups (Analysis 1.1.1 (3 studies, 215 participants): RR 0.45, 95% CI 0.18 to 1.10). Significant heterogeneity was seen between the studies (Chi² = 38.12, P < 0.00001, I² = 95%). On further investigation Osman 1994 contributed all of the heterogeneity ‐ this could be due to the agent used or perhaps due to the fact that this is a much older study than the other two studies included in this analysis. When this study was removed from the analysis the heterogeneity was 0% and the result was significant (in favour of surgery) (Analysis 1.1.3 (2 studies, 136 participants): RR 0.74; 95% CI 0.64 to 0.85).

Recurrence

Three studies (Khaniya 2009; Latif 2008; Osman 1994) reported recurrence as an outcome. Osman 1994 assessed recurrence at the sixth month follow‐up, and in Khaniya 2009 and Latif 2008 recurrence was evaluated at three months after the intervention. Ignoring these assessment times, pooling results there was a significant increase in recurrence in the sclerotherapy group compared with surgical group (Analysis 1.2 (3 studies, 189 participants): RR 9.43, 95% CI 1.82 to 48.77). Heterogeneity was moderate (Chi² = 4.60, P = 0.10, I² = 56%). The two studies assessing recurrence at three months also showed a significant increase in the rate of recurrence with sclerotherapy compared with surgery (Analysis 1.2.1 (2 studies, 110 participants): RR 5.26, 95% CI 1.04 to 26.75). There was no significant heterogeneity (Chi² = 1.48, P = 0.22, I² = 33%).

Fever

Khaniya 2009 reported a non‐significant decrease in fever in the sclerotherapy group (Analysis 1.3 (1 study, 60 participants): RR 0.25, 95% CI 0.06 to 1.08).

Infection

All four studies reported post intervention infection rates. There was an increased number of infections in the surgery group however this increase was not statistically significant (Analysis 1.4 (4 studies, 275 participants): RR 0.31, 95% CI 0.09 to 1.05; I² = 0%).

Haematoma

Three studies (Khaniya 2009; Latif 2008; Osman 1994) compared haematoma formation as an adverse event. There was no significant difference between the two groups (Analysis 1.5 (3 studies, 189 participants): RR 0.57, 95% CI 0.17 to 1.90; I² = 0%).

Radiological cure

This outcome was not reported in any of the included studies.

Postoperative pain

This outcome was not assessed using the VAS in the included studies. Latif 2008 and Khaniya 2009 reported postoperative pain as dichotomous data, while Osman 1994 reported this outcome in three grades (mild, moderate and severe) but did not define these categories. These studies reported the frequency of pain in the surgery group was higher than aspiration and sclerotherapy group but because of different measurement tools applied in these studies, we did not pool the results.

Secondary outcomes

Time to resumption of work

Khaniya 2009 reported a significantly shorter work absence among those who underwent sclerotherapy (Analysis 1.6 (60 participants): MD ‐5.94 days, 95% CI ‐7.15 to ‐4.73).

Cost

Two studies (Khaniya 2009; Latif 2008) considered cost of treatment for patients. In both studies, cost of sclerotherapy was significantly lower. Khaniya 2009 summarized total cost in groups with median cost: "The cost of treatment (median) of hydrocele was NC Rs 300 (US$4.3) and NC Rs 1527 (US$ 21.8) in the group 1 and 2 respectively (p< 0.001) (1US$ = 70NC Rs)"; while Latif 2008 reported this as an average cost: "Average cost of sclerotherapy was 224 Rupees (125‐350 Rs. Including cost of repeat procedures). The average cost of surgery was Rs. 1663 (Rs.1375 to 1950).". Due to variety of the settings, different cost currency and diversity of reported summary measures, we could not meta‐analyse these studies.

Satisfaction

Khaniya 2009 reported no significant difference in patient satisfaction assessed at three months (Analysis 1.7.1 (48 participants): RR 0.90, 95% CI 0.66 to 1.24) and six months (Analysis 1.7.2 (41 participants): RR 0.72 95% CI 0.51 to 1.02) between the two groups.

Length of hospital stay

Agrawal 2009a, Latif 2008 and Osman 1994 reported that length of hospital stay was significantly lower in the sclerotherapy group compared to the surgery group. These studies did not provide data for this comparison and we could not pool the results.

Spermogram result

This outcome was not reported in any of the included studies.

Fixed‐effect analyses

Due to small number of studies and moderate to high heterogeneity for our primary outcomes, fixed‐effect analyses were not performed.

Subgroup analysis

There were not enough studies to properly investigate planned subgroup analyses.

Sensitivity analysis

No unpublished studies were included, and all studies were published in English. Since the included studies had similar risk of bias and numbers of participants, sensitivity analysis was not performed. All studies used similar diagnostic criteria for detecting patients; there was little variation, and hence, sensitivity analysis was not feasible.

Discussion

Summary of main results

We identified four small studies enrolling 275 patients (282 hydroceles) that met our inclusion criteria (Agrawal 2009a; Khaniya 2009; Latif 2008; Osman 1994). Our results suggest that the short‐term cure rate was not significantly different between surgery and aspiration and sclerotherapy. However recurrence after sclerotherapy was significantly higher than surgical treatment. The included studies did not adequately report their methods, which in turn limits our ability to draw strong conclusions.

Some complications (hematoma and infection) were not significantly different between the two groups. Pain was not assessed using the VAS in the included studies. The variability of measurement tools for pain assessment in the included studies made meta‐analysis impossible. Nevertheless three studies (Khaniya 2009; Latif 2008; Osman 1994) reported the frequency of pain in the surgery group was higher than the aspiration and sclerotherapy group.

Only one study assessed the time to work resumption and two studies considered cost of treatment for patients. Because of diverse settings, different currencies and a variety of reported summary measures, pooling of the results could not be performed, however these studies reported lower absence from work and cost in the sclerotherapy group. Notably, the difference in the cost and absence from work was reported in comparison of single sclerotherapy versus surgery. The recurrence rate after sclerotherapy is higher than surgery and patients needed to repeat the aspiration and sclerotherapy. The necessity of repeating the procedure may lead to an increase in the absence from work and cost, however, these studies did not assess these outcomes.

In one study satisfaction of the patients were assessed and the satisfaction rate was lower in sclerotherapy group. The reason for dissatisfaction in aspiration and sclerotherapy was the high recurrence rate.

Overall completeness and applicability of evidence

The included studies provided data about different type of sclerosant agents, sclerosing solution concentration and injection volume. This may have caused some degree of heterogeneity but we still believe there are still similar enough that could be combined. The results of present review may be generally applicable for similar kinds of sclerosant agents represented in this review.

Quality of the evidence

Our review was based on the results of four small studies. There are three limitations that must be acknowledged and addressed regarding our included studies. First, the relatively small sample size of identified studies and variability in aspiration and sclerotherapy procedure. Included studies used different type of sclerosant agents, sclerosing solution concentration and injection volume. This in turn may have caused some of the heterogeneity seen in this review. Nevertheless we still believe there are still similar enough that could be combined. Second, the included studies had short‐term follow‐up period and did not assess the long term effects of interventions. Thirdly, the methodological aspects of the identified studies were not clear. Our efforts to obtain more information from the authors were not successful; no responses were received. This lack of clarity may affect the reliability of findings.

Potential biases in the review process

The strength of this review is that it is the first systematic review of aspiration and sclerotherapy versus hydrocoelectomy for treating hydrocoeles. Our search strategy was comprehensive and broad and we did not have any restriction in time and language.

Agreements and disagreements with other studies or reviews

Three other studies have compared aspiration and sclerotherapy versus hydrocoelectomy for treating hydrocoeles; one study was not randomised (Beiko 2003) and two studies included patients with recurrent (Roosen 1991) or secondary (Shan 2003) hydrocoeles.

Shan 2003 reported the results of a RCT comparing the safety and effectiveness of sclerotherapy with phenol and surgical treatment for hydrocoele. Of the 33 subjects in sclerotherapy group, 47.5%, 30%, 12.5%, 5% and 2.5% of the hydroceles were cured with one to five injections, respectively. Of the 34 patients in the hydrocelectomy group 97.5% and 2.5% of hydroceles were cured with one and two operations, respectively. They concluded that sclerotherapy with phenol is as efficacious as hydrocelectomy. Also, they noted that the efficacy of a single hydrocelectomy was higher than single round sclerotherapy and it avoided the need for several follow‐up visits. They reported that when follow‐up is difficult, hydrocelectomy was the intervention of choice.

Roosen 1991 reported a RCT comparing aspiration and sclerotherapy versus hydrocoelectomy in men with recurring hydrocoele after single round of aspiration. A total of 76 patients were randomly divided into two groups. One group underwent antazoline sclerotherapy and the other underwent hydrocelectomy. Of the 40 patients treated with antazoline sclerotherapy, 11 were cured after a single round sclerotherapy and 14 patients underwent second round sclerotherapy and 13 were cured. In the surgery group, only 16 patients from 36 patients completed the study and the cure rate was 100%.

Beiko 2003 compared the effects of aspiration and sclerotherapy using sodium tetradecyl sulphate and hydrocoelectomy as first‐line treatment in patients with hydrocoeles; 27 patients with 28 symptomatic hydrocoeles were prospectively enrolled in an aspiration and sclerotherapy protocol. This group was compared with a group of patients who underwent hydrocoelectomy two years before starting of this study. At the end of the study the patient satisfaction was 75% for aspiration and sclerotherapy and 88% for hydrocoelectomy. The overall success rate for aspiration and sclerotherapy was 76% compared with 84% for hydrocelectomy. The complications included oedema, haematoma, wound infection and cellulitis were seen only 8% in the aspiration and sclerotherapy group, but 40% in the surgery group. Comparative costs per procedure showed that surgery was more expensive than aspiration and sclerotherapy ($905 versus $104).

Study selection flow diagram.
Figures and Tables -
Figure 1

Study selection flow diagram.

Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.
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Figure 2

Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

Risk of bias summary: review authors' judgements about each risk of bias item for each included study.
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Figure 3

Risk of bias summary: review authors' judgements about each risk of bias item for each included study.

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 1 Clinical cure.
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Analysis 1.1

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 1 Clinical cure.

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 2 Recurrence.
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Analysis 1.2

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 2 Recurrence.

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 3 Fever.
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Analysis 1.3

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 3 Fever.

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 4 Infection.
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Analysis 1.4

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 4 Infection.

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 5 Haematoma.
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Analysis 1.5

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 5 Haematoma.

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 6 Time to work resumption.
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Analysis 1.6

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 6 Time to work resumption.

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 7 Satisfaction.
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Analysis 1.7

Comparison 1 Aspiration and sclerotherapy versus hydrocoelectomy, Outcome 7 Satisfaction.

Comparison 1. Aspiration and sclerotherapy versus hydrocoelectomy

Outcome or subgroup title

No. of studies

No. of participants

Statistical method

Effect size

1 Clinical cure Show forest plot

3

Risk Ratio (M‐H, Random, 95% CI)

Subtotals only

1.1 One round of sclerotherapy

3

215

Risk Ratio (M‐H, Random, 95% CI)

0.45 [0.18, 1.10]

1.2 Two rounds of sclerotherapy

2

129

Risk Ratio (M‐H, Random, 95% CI)

0.58 [0.21, 1.65]

1.3 Osman 1994 removed (one round of sclerotherapy)

2

136

Risk Ratio (M‐H, Random, 95% CI)

0.74 [0.64, 0.85]

2 Recurrence Show forest plot

3

189

Risk Ratio (M‐H, Random, 95% CI)

9.43 [1.82, 48.77]

2.1 Follow‐up at 3 months

2

110

Risk Ratio (M‐H, Random, 95% CI)

5.26 [1.04, 26.75]

2.2 Follow‐up at 6 months

1

79

Risk Ratio (M‐H, Random, 95% CI)

25.55 [3.66, 178.47]

3 Fever Show forest plot

1

Risk Ratio (M‐H, Random, 95% CI)

Totals not selected

4 Infection Show forest plot

4

275

Risk Ratio (M‐H, Random, 95% CI)

0.31 [0.09, 1.06]

5 Haematoma Show forest plot

3

189

Risk Ratio (M‐H, Random, 95% CI)

0.57 [0.17, 1.90]

6 Time to work resumption Show forest plot

1

Mean Difference (IV, Random, 95% CI)

Totals not selected

7 Satisfaction Show forest plot

1

Risk Ratio (M‐H, Random, 95% CI)

Totals not selected

7.1 At 3 months

1

Risk Ratio (M‐H, Random, 95% CI)

0.0 [0.0, 0.0]

7.2 At 6 months

1

Risk Ratio (M‐H, Random, 95% CI)

0.0 [0.0, 0.0]

Figures and Tables -
Comparison 1. Aspiration and sclerotherapy versus hydrocoelectomy