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In This Article

  • Summary
  • Abstract
  • Introduction
  • Protocol
  • Results
  • Discussion
  • Disclosures
  • Acknowledgements
  • Materials
  • References
  • Reprints and Permissions

Summary

Varicocele accounts for 35%-40% of infertility cases among men of reproductive age. The international standard treatment method is microscopic varicocelectomy, typically performed under general anesthesia. This study proposes and implements microscopic varicocelectomy under local anesthesia, which provides more humane care for patients and reduces the economic burden.

Abstract

Varicocele, characterized by the dilation of veins within the spermatic cord, is a prevalent disease in males, accounting for 35%-40% of infertility cases among men of reproductive age. This condition may disrupt normal neuroregulation, blood supply, and temperature regulation in the testicles, thereby impacting sperm count, quality (morphology, fragmentation rate), and functionality (motility). It may even induce symptoms such as pain and testicular atrophy. The international standard treatment method is microscopic varicocelectomy, typically performed under general anesthesia. This requires patients to fast before surgery and necessitates recovery and fasting care postoperatively. The arterial blood pressure drop caused by anesthesia may obscure the fluctuation of the spermatic artery, making the precise intraoperative isolation and protection of the spermatic artery more challenging. Therefore, this study proposes and implements microscopic varicocelectomy under local anesthesia. This method facilitates rapid and precise identification of the fluctuating spermatic artery, reducing the risk of spermatic artery damage. It also provides more humane care for patients, reduces economic burden, and offers a new perspective on the treatment of varicocele.

Introduction

With the advancement of modern society, male infertility has gradually emerged as a global health issue, with varicocele being one of the predominant causes. The prevalence of varicocele is estimated at 15% in the general healthy population, 35% in those with primary infertility, and can be as high as 80% in the secondary infertility group1. Not only does varicocele lead to a decline in sperm count and quality2, but it also profoundly impacts the psychological well-being and quality of life of affected men.

Contemporary treatment modalities, such as microscopic varicocelectomy, have been widely adopted3,4. However, their limitations are becoming increasingly evident. Traditional microscopic varicocelectomy requires patients to undergo general anesthesia, which not only necessitates preoperative fasting and postoperative recovery inconveniences but also poses a significant challenge. The hemodynamic changes induced by anesthesia might obscure the pulsations of the spermatic artery, subsequently increasing the intricacy of isolating and preserving the vessel during the procedure5.

In light of these challenges, a method of performing microscopic varicocelectomy under local anesthesia was proposed and implemented. The salient advantage of this unique approach lies in its ability to swiftly and accurately pinpoint the pulsating spermatic artery, thus reducing the risk of injury to the vessel. Furthermore, local anesthesia offers a more patient-centric surgical experience, sidestepping the adverse effects of general anesthesia, and potentially reducing medical costs, presenting a more cost-effective and efficient treatment option. Additionally, considering the practical realities and clinical experiences in China, this innovative method proffers a fresh perspective in the treatment of varicocele and holds promise for broader clinical application. Through this research, a safer and more effective treatment alternative for patients would be provided, aiming to enhance their reproductive capabilities and overall quality of life.

Protocol

This research is approved by the Affiliated Hospital of the Shanghai Institute for Biomedical and Pharmaceutical Technologies, and the ethics number is 2022001. Written informed consent was obtained from the human subjects to participate in the study. The inclusion criteria were: (1) Diagnosis of varicocele by clinical ultrasound; (2) Age between 20 and 40 years old; (3) Abnormalities detected in semen examination, indicating the need for surgery and consent to undergo the procedure. The exclusion criteria were: (1) Abnormal fever exceeding 38.5 Β°C within the past 6 months; (2) Presence of major illnesses such as tumors, severe heart, lung, liver, and kidney dysfunction, and mental illnesses. The reagents and equipment needed for this procedure are listed in the Table of Materials.

1. Instrumentation

  1. Ensure the availability of sterilized instruments and other equipment needed for surgery, including the following specific important items: surgical microscope, titanium clips, and microscopic instruments.

2. Patient preparation

  1. Perform preoperative skin preparation.
    1. Apply compound lidocaine cream to cover an area from the anterior superior iliac spine laterally, inferiorly to the level of the pubic tubercle, and superiorly up to 3 cm below the umbilical line 1 h preoperatively (see Figure 1).
  2. Place the patient in the supine position on the operating table. Insert a vein-detained needle into the dorsal metacarpal vein, and use an ECG monitor to monitor the patient's heartbeat and blood pressure.
  3. Disinfect the surgical area using Iodophor solution and cover it with sterile drapes.

3. Microscopic varicocelectomy

  1. Identify the external inguinal ring above the pubic tubercle by using fingers to palpate the spermatic cord at the base of the scrotum, following it upwards until the external inguinal ring is felt at 1.5 cm above the midpoint of the inguinal ligament.
  2. Use Hemostatic forceps to grasp the skin to assess the efficacy of anesthesia (Figure 2A), and mark the incision site with methylene blue (Figure 2B).
  3. Mix Lidocaine (5 mL, 0.1 g) and ropivacaine (10 mL, 0.1 g) in a 1:1 ratio and infiltrate using a 20 mL syringe in layers up to a depth of about 5 cm (see Figure 3).
  4. Make a 3 cm transverse incision at the external inguinal ring using a scalpel. Sequentially, incise the skin, the Camper's fascia, and the Scarpa's fascia using an electrotome.
  5. Identify the spermatic cord (under direct vision, it appears as a strip with dilated deep blue veins visible, and the vas deferens can be palpated below it) and exteriorize it from the incision with an appendiceal retractor.
    NOTE: Pay attention to the patient's heart rate and blood pressure during this step. If a decrease in blood pressure and heart rate is encountered, stop the operation and wait for 3-5 min. If necessary, administer 1 mg of atropine injection and 10 mg of dopamine injection intravenously. Secure the spermatic cord in place (see Figure 4).
    1. Use an electrotome to dissect the cremaster muscle and the external and internal spermatic fascia of the cord.
    2. Under 8-10x magnification, observe the pulsation of the arteries to determine their location.
    3. Carefully identify the spermatic artery (which is surrounded by small veins, has visible pulsation, and a tensed wall). Use micro-scissors and forceps for blunt dissection and mark it with a moistened strip for identification. If available, intraoperative Doppler ultrasound can be used for confirmation (Figure 5).
    4. Identify and isolate the large spermatic veins. Use micro-titanium clips to clamp both ends before cutting (Figure 6).
    5. Further dissect and identify small veins adjacent to the spermatic artery. Use micro-titanium clips to clamp them before cutting. For vessels that are difficult to clamp with titanium, use 4-0 coated braided silk to ligate before cutting.
    6. Ligate all varicose veins, ensuring at least one normal vein is preserved for venous return (Figure 7).
  6. After ligation, suture the cremaster muscle and both the internal and external spermatic fascia using a 6-0 absorbable surgical suture. Close and suture the incision (Figure 8).

4. Postoperative care

  1. Apply a 1 kg sandbag for compression and hemostasis 1 h postoperatively.
  2. Administer oral antibiotics postoperatively (fosfomycin trometamol powder, 3 g) for infection prevention. Administer anti-inflammatory analgesic suppositories rectally if postoperative pain is observed.
  3. Change the dressing in 3 days and remove the stitches in 7 days.
  4. Conduct a semen examination after 1 month.

Results

From July 2022 to May 2023, a total of 158 patients were diagnosed at our hospital with varicocele accompanied by a decline in semen quality and underwent surgery. The average age of the 158 males was 32.15 years Β± 4.8 years (range: 21-51 years). All the males signed informed consent forms to undergo varicocelectomy under local anesthesia, with an average surgery time of 100.11 min Β± 9.48 min. Patients experienced no significant pain during the surgery; however, 10 patients developed fat liquefaction postoperat...

Discussion

Varicocele presents a relatively high prevalence in infertile men of reproductive age, reaching 35%-44%6. The impact of this disease on male fertility cannot be overlooked, as it may lead to imbalances in testicular function, instability in blood supply, and thermoregulatory disturbances, subsequently affecting both the quality and quantity of sperm. More severe consequences include potential testicular atrophy and other related complications. Numerous studies have proved the effects of varicocele...

Disclosures

The author has no conflicts of interest to disclose.

Acknowledgements

No funding sources.

Materials

NameCompanyCatalog NumberComments
0.9% sodium chloride solutionGuangdong Otsuka Pharmaceutical Co. LTD21M1204Preparation for injection of medication during surgery
20 MHz Microvascular Doppler SystemVascular Technology, Inc.102802Doppler ultrasound was used to identify the spermatic artery
4-0 coated, Braided SilkJiasheng Medical Products Co., Ltd1600-31Ligation of spermatic vein
5-0 absorbable surgical sutureHORCONMY313G4Skin and fascial suture
6-0 absorbable surgical sutureHORCONJE1264Deep tissue suturing
Compound lidocaine creamTongfang Pharmaceutical GroupH2006346625mg of propacaine and 25mg of lidocaine per gram for epidermal infiltration anesthesia
Dianerkang Iodophor Skin DisinfectantShanghai Likang Disinfectant HI-Tech Co,Lid31005102For skin disinfection and the effective iodine content is from 4.5g/L-5.5g/L
electrotomeShanghai Hutong Electronics Co., LtdGD350-BUsed to cut open the fascia layer
Fosfomycin Trometamol PowderShanxi C&Y Pharmaceutical Group Co., Ltd.H19994124Oral antibiotics for infection prevention
haemostatic forcepsSHINVAZH240RNUsed in surgical procedures
Lidocaine Hydrochloride InjectionShanghai Harvest Pharmaceutical Co., LtdH20023777Mixed with Ropivocoine Hydrochloride injection for deep infiltration anesthesia
methylene blueJUMPCANH32025285Skin marker
micro scissorsSHINVAZF123RNUsed in surgical procedures
micro tweezersSHINVAZD274RNUsed in surgical procedures
needle holderSHINVAZM234R/RN/RBUsed in surgical procedures
NeutroPhaseNovaBay Pharmaceuticals,IncCA 94608 USAWound Cleanser
ophthalmic scissorsSHINVAZC120R/RN/RBUsed in surgical procedures
Ropivocoine Hydrochloride injectionJiangsu Hengrui Pharmaceuticals Co., LtdH20060137Mixed with Lidocaine Hydrochloride Injection for deep infiltration anesthesia
Surgical MicroscopeCarl Zeiss Meditec AG20162224730for microscopic operations
Titanium ClipsWECK HORIZON002200used to clamp vena cava
Titanium ClipsWECK HORIZON005200used to clamp venule

References

  1. Alsaikhan, B., Alrabeeah, K., Delouya, G., Zini, A. Epidemiology of varicocele. Asian J Androl. 18 (2), 179-181 (2016).
  2. Damsgaard, J., et al. Varicocele is associated with impaired semen quality and reproductive hormone levels: A study of 7035 healthy young men from six European countries. Eur Urol. 70 (6), 1019-1029 (2016).
  3. Gupta, C., et al. Microscopic varicocelectomy as a treatment option for patients with severe oligospermia. Investig Clin Urol. 59 (3), 182-186 (2018).
  4. Addar, A. M., Nazer, A., Almardawi, A., Al Hathal, N., Kattan, S. The yield of microscopic varicocelectomy in men with severe oligospermia. Urol Ann. 13 (3), 268-271 (2021).
  5. Saredi, G., et al. Feasibility of local anesthesia for varicocele correction in one-day-surgery setting. A single center experience. Arch Ital Urol Androl. 93 (2), 233-236 (2021).
  6. Jensen, C. F. S., et al. Varicocele and male infertility. Nat Rev Urol. 14 (9), 523-533 (2017).
  7. Baazeem, A., et al. Varicocele and male factor infertility treatment: A new meta-analysis and review of the role of varicocele repair. European Urol. 60 (4), 796-808 (2011).
  8. Maheshwari, A., Muneer, A., Lucky, M., Mathur, R., Mceleny, K. A review of varicocele treatment and fertility outcomes. Hum Fertil (Camb). 25 (2), 209-216 (2020).
  9. Γ‡ayan, S., Akbay, E., Saylam, B., KadΔ±oğlu, A. Effect of varicocele and its treatment on testosterone in hypogonadal men with varicocele: Review of the literature. Balkan Med J. 37 (3), 121-124 (2020).
  10. Ulusoy, O., et al. Successful outcomes in adolescent varicocele treatment with high-level laparoscopic varicocelectomy. J Pediatr Surg. 55 (8), 1610-1612 (2020).
  11. Mehta, A., Goldstein, M. Microsurgical varicocelectomy: A review. Asian J Androl. 15 (1), 56-60 (2013).
  12. Marmar, J. L. The evolution and refinements of varicocele surgery. Asian J Androl. 18 (2), 171-178 (2016).
  13. Wang, X., et al. Prospective comparison of local anesthesia with general or spinal anesthesia in patients treated with microscopic varicocelectomy. J Clin Med. 11 (21), 6397 (2022).
  14. Al-Kandari, A. M., Shabaan, H., Ibrahim, H. M., Elshebiny, Y. H., Shokeir, A. A. Comparison of outcomes of different varicocelectomy techniques: Open inguinal, laparoscopic, and subinguinal microscopic varicocelectomy: A randomized clinical trial. Urology. 69 (3), 417-420 (2007).

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