Can we improve time to patency with vasoepididymostomy with an innovative epididymal occlusion stitch?

IF 3.1 3区 医学 Q1 UROLOGY & NEPHROLOGY International Braz J Urol Pub Date : 2024-07-01 DOI:10.1590/S1677-5538.IBJU.2024.0222
Francesco Costantini Mesquita, Luis Felipe Savio, David Velasquez, Alexandra Varnum, Rodrigo Barros, David Miller, Francis Petrella, Ranjith Ramasamy
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Acquired instances of obstructive azoospermia may result from factors like vasectomy, infections, trauma, or unintentional injuries caused by medical procedures (5). This complex condition affecting male fertility, presents two main treatment options: microsurgical reconstruction and surgical extraction of sperm followed by in vitro fertilization (IVF). Microsurgical reconstruction proves to be the most cost-effective option for treating obstructive azoospermia when compared with assisted reproductive techniques (6, 7). However, success rates of reconstruction defined by patency are as high as 99% for vasovasostomy (VV) but decline to around 65% if vasoepididymostomy (VE) is required (8, 9). Thus, continued refinement in technique is necessary in order to attempt to improve patency for patients undergoing VE. In this video, we show a comprehensive demonstration of microsurgical VE, highlighting the innovative epididymal occlusion stitch. The goal of this innovative surgical technique is to improve outcomes for VE.</p><p><strong>Materials and methods: </strong>The patient is a 39-year-old male diagnosed with obstructive azoospermia who presents for surgical reconstruction via VE. His partner is a 37-years-old female with regular menstrual cycles. The comprehensive clinical data encompasses a range of factors, including FSH levels, results from semen analysis, and outcomes from testicular sperm aspiration. This thorough exploration aims to provide a thorough understanding of our innovative surgical technique and its application in addressing complex cases of obstructive azoospermia.</p><p><strong>Results: </strong>The procedure was started on the right, the vas deferens was identified and transected. The abdominal side of the vas was intubated and a vasogram performed, there was no obstruction. There was no fluid visible from the testicular side of the vas for analysis, thus we proceeded with VE. Upon inspection of the epididymis dilated tubules were identified. After selecting a tubule for VE, two 10-0 nylon sutures were placed, and it was incised. Upon inspection of the fluid motile sperm was identified. After VE, we performed a novel epididymal occlusion stitch technique. This was completed distal to the anastomosis by placing a 7-0 prolene through the tunica of the epididymis from the medial to lateral side. This stitch was then tightened down with the goal to largely occlude the epididymis so that sperm will preferentially travel through the anastomosis. The steps were then repeated on the left. At 3-month follow up, the patient had no change in testicular size as compared with preoperative size (18cc), he had no testicular or incisional discomfort, and on semen analysis he had presence of motile sperm. After 3 months post-surgery, the patient had motile sperm seen on semen analysis.</p><p><strong>Discussion: </strong>The introduction of a novel epididymal occlusion stitch demonstrates a targeted strategy to enhance the success of microscopic VE. Encouragingly, a 3-month post-surgery follow-up reveals the presence of motile sperm, reinforcing the potential efficacy of our approach. This is promising given the historical lower patency, delayed time to patency, and higher delayed failure rates that patients who require VE experience (10). In total, 40% of all azoospermia cases can be attributed to obstruction. The conventional treatments for obstructive azoospermia involve microsurgical reconstruction and surgical sperm retrieval followed by IVF. While microsurgical reconstruction has proven to be economically viable, the quest for enhanced success rates has led to the exploration of innovative techniques. Historically, the evolution of VV and VE procedures, initially performed in the early 20th century, laid the foundation for contemporary microsurgical approaches (11). Notably, the microscopic VV demonstrated significant improvements in patency rates and natural pregnancy likelihood, as evidenced by the seminal Vasovastomy Study Group study in 1991 (8). In contemporary literature, success rates particularly for VE remain unchanged for the past three decades since the original published success rates by the Vasectomy Reversal Study Group (12). VE is associated with a longer time to patency as well with patients taking 2.8 to 6.6 months to have sperm return to ejaculate as compared to 1.7 to 4.3 months for those undergoing VV. Additionally, of those patients who successfully have sperm return to the ejaculate after VE up to 50% will have delayed failure compared to 12% for those undergoing VV who are patent. Finally, of those who experience delayed failure after undergoing VE it usually occurs earlier with studies reporting as early as 6 months post-operatively (10). Given the lack of improvement and significantly worsened outcomes with VE further surgical refinement is a constant goal for surgeons performing this procedure.</p><p><strong>Conclusion: </strong>In conclusion, this video is both a demonstration and a call to action for commitment to surgical innovation. We aim to raise the bar in VE success rates, ultimately bringing tangible benefits to patients and contributing to the ongoing evolution of reproductive medicine. The novel epididymal occlusion stitch emerges as a beacon of progress, promising not only enhanced safety but also potential reductions in patency time. 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Abstract

Introduction: Obstructive azoospermia occurs when there is a blockage in the male reproductive tract, leading to a complete absence of sperm in the ejaculate. It constitutes around 40% of all cases of azoospermia (1, 2). Blockages in the male reproductive tract can arise from either congenital or acquired factors, affecting various segments such as the epididymis, vas deferens, and ejaculatory ducts (3). Examples of congenital causes encompass conditions like congenital bilateral absence of the vas deferens and unexplained epididymal blockages (4). Acquired instances of obstructive azoospermia may result from factors like vasectomy, infections, trauma, or unintentional injuries caused by medical procedures (5). This complex condition affecting male fertility, presents two main treatment options: microsurgical reconstruction and surgical extraction of sperm followed by in vitro fertilization (IVF). Microsurgical reconstruction proves to be the most cost-effective option for treating obstructive azoospermia when compared with assisted reproductive techniques (6, 7). However, success rates of reconstruction defined by patency are as high as 99% for vasovasostomy (VV) but decline to around 65% if vasoepididymostomy (VE) is required (8, 9). Thus, continued refinement in technique is necessary in order to attempt to improve patency for patients undergoing VE. In this video, we show a comprehensive demonstration of microsurgical VE, highlighting the innovative epididymal occlusion stitch. The goal of this innovative surgical technique is to improve outcomes for VE.

Materials and methods: The patient is a 39-year-old male diagnosed with obstructive azoospermia who presents for surgical reconstruction via VE. His partner is a 37-years-old female with regular menstrual cycles. The comprehensive clinical data encompasses a range of factors, including FSH levels, results from semen analysis, and outcomes from testicular sperm aspiration. This thorough exploration aims to provide a thorough understanding of our innovative surgical technique and its application in addressing complex cases of obstructive azoospermia.

Results: The procedure was started on the right, the vas deferens was identified and transected. The abdominal side of the vas was intubated and a vasogram performed, there was no obstruction. There was no fluid visible from the testicular side of the vas for analysis, thus we proceeded with VE. Upon inspection of the epididymis dilated tubules were identified. After selecting a tubule for VE, two 10-0 nylon sutures were placed, and it was incised. Upon inspection of the fluid motile sperm was identified. After VE, we performed a novel epididymal occlusion stitch technique. This was completed distal to the anastomosis by placing a 7-0 prolene through the tunica of the epididymis from the medial to lateral side. This stitch was then tightened down with the goal to largely occlude the epididymis so that sperm will preferentially travel through the anastomosis. The steps were then repeated on the left. At 3-month follow up, the patient had no change in testicular size as compared with preoperative size (18cc), he had no testicular or incisional discomfort, and on semen analysis he had presence of motile sperm. After 3 months post-surgery, the patient had motile sperm seen on semen analysis.

Discussion: The introduction of a novel epididymal occlusion stitch demonstrates a targeted strategy to enhance the success of microscopic VE. Encouragingly, a 3-month post-surgery follow-up reveals the presence of motile sperm, reinforcing the potential efficacy of our approach. This is promising given the historical lower patency, delayed time to patency, and higher delayed failure rates that patients who require VE experience (10). In total, 40% of all azoospermia cases can be attributed to obstruction. The conventional treatments for obstructive azoospermia involve microsurgical reconstruction and surgical sperm retrieval followed by IVF. While microsurgical reconstruction has proven to be economically viable, the quest for enhanced success rates has led to the exploration of innovative techniques. Historically, the evolution of VV and VE procedures, initially performed in the early 20th century, laid the foundation for contemporary microsurgical approaches (11). Notably, the microscopic VV demonstrated significant improvements in patency rates and natural pregnancy likelihood, as evidenced by the seminal Vasovastomy Study Group study in 1991 (8). In contemporary literature, success rates particularly for VE remain unchanged for the past three decades since the original published success rates by the Vasectomy Reversal Study Group (12). VE is associated with a longer time to patency as well with patients taking 2.8 to 6.6 months to have sperm return to ejaculate as compared to 1.7 to 4.3 months for those undergoing VV. Additionally, of those patients who successfully have sperm return to the ejaculate after VE up to 50% will have delayed failure compared to 12% for those undergoing VV who are patent. Finally, of those who experience delayed failure after undergoing VE it usually occurs earlier with studies reporting as early as 6 months post-operatively (10). Given the lack of improvement and significantly worsened outcomes with VE further surgical refinement is a constant goal for surgeons performing this procedure.

Conclusion: In conclusion, this video is both a demonstration and a call to action for commitment to surgical innovation. We aim to raise the bar in VE success rates, ultimately bringing tangible benefits to patients and contributing to the ongoing evolution of reproductive medicine. The novel epididymal occlusion stitch emerges as a beacon of progress, promising not only enhanced safety but also potential reductions in patency time. Surgical excellence and methodological refinement, as exemplified in this video, lay the foundation for a future where male reproductive surgery continues to break new ground.

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创新性附睾闭塞缝合术能否缩短输精管附睾吻合术的通畅时间?
简介梗阻性无精子症是指男性生殖道堵塞,导致射出的精液中完全没有精子。在所有无精子症病例中,梗阻性无精子症约占 40%(1, 2)。男性生殖道堵塞可由先天或后天因素造成,影响附睾、输精管和射精管等多个部位(3)。先天性原因包括先天性双侧输精管缺失和原因不明的附睾堵塞(4)。后天性梗阻性无精子症可能由输精管结扎、感染、外伤或医疗过程中的意外伤害等因素造成(5)。这种影响男性生育能力的复杂病症主要有两种治疗方案:显微外科重建和手术提取精子后体外受精(IVF)。与辅助生殖技术相比,显微外科重建被证明是治疗梗阻性无精子症最具成本效益的方案(6,7)。然而,输精管造口术(VV)以通畅为标准的重建成功率高达 99%,但如果需要进行输精管附睾切除术(VE),成功率则会下降到 65% 左右(8、9)。因此,有必要不断改进技术,努力提高接受 VE 患者的通畅率。在这段视频中,我们全面展示了显微外科 VE,重点介绍了创新的附睾闭塞缝合术。这项创新手术技术的目的是改善 VE 的治疗效果:患者是一名 39 岁的男性,被诊断为梗阻性无精子症,前来接受 VE 手术重建。他的伴侣是一名 37 岁的女性,月经周期规律。综合临床数据涵盖了一系列因素,包括 FSH 水平、精液分析结果和睾丸精子抽吸结果。这一深入探讨旨在全面了解我们的创新手术技术及其在解决复杂的梗阻性无精子症病例中的应用:手术从右侧开始,确定并横断输精管。对输精管腹侧进行插管,并进行输精管造影,未发现梗阻。从输精管睾丸一侧看不到可供分析的液体,因此我们继续进行输精管造影。检查附睾时发现了扩张的小管。在选择一个小管进行VE后,放置了两根10-0尼龙线,并将其切开。检查附睾液时发现了活动精子。VE后,我们采用了新颖的附睾闭塞缝合技术。在吻合口远端,从内侧到外侧将 7-0 prolene 缝线穿过附睾外膜。然后收紧缝线,目的是在很大程度上闭塞附睾,使精子优先通过吻合口。然后在左侧重复上述步骤。在 3 个月的随访中,患者的睾丸大小与术前相比没有变化(18cc),没有睾丸或切口不适感,精液分析显示有活动精子。术后 3 个月,患者的精液分析结果显示精子有活力:讨论:新型附睾闭塞缝合术的引入展示了一种有针对性的策略,可提高显微 VE 的成功率。令人鼓舞的是,术后 3 个月的随访显示,患者体内存在活动精子,这增强了我们方法的潜在疗效。考虑到需要 VE 的患者历来通畅率较低、通畅时间较长、延迟失败率较高(10),我们的方法很有希望。在所有无精子症病例中,有 40% 可归因于梗阻。梗阻性无精子症的传统治疗方法包括显微外科重建和手术取精,然后进行试管婴儿。虽然显微外科重建被证明是经济可行的,但为了提高成功率,人们开始探索创新技术。从历史上看,最初在 20 世纪初进行的 VV 和 VE 手术的演变为当代显微外科方法奠定了基础(11)。值得注意的是,显微镜下输精管吻合术在通畅率和自然妊娠几率方面都有显著改善,这在 1991 年开创性的输精管吻合术研究小组的研究中得到了证明(8)。在当代文献中,自输精管结扎逆转术研究小组最初公布成功率(12)以来,过去三十年中输精管结扎逆转术的成功率尤其保持不变。VE 的通畅时间也较长,患者需要 2.8 至 6.6 个月才能恢复精子射精,而接受 VV 的患者则需要 1.7 至 4.3 个月。
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来源期刊
International Braz J Urol
International Braz J Urol UROLOGY & NEPHROLOGY-
CiteScore
4.60
自引率
21.60%
发文量
246
审稿时长
6-12 weeks
期刊介绍: Information not localized
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