Reproductive surgery

(Redirected from Surgical sperm retrieval)

Reproductive surgery is surgery in the field of reproductive medicine. It can be used for contraception, e.g. in vasectomy, wherein the vasa deferentia of a male are severed, but is also used plentifully in assisted reproductive technology. Reproductive surgery is generally divided into three categories: surgery for infertility, in vitro fertilization, and fertility preservation.[1]

Reproductive surgery
SpecialtyReproductive medicine
Reproductive Surgeon
Occupation
Names
  • Physician
  • Surgeon
Occupation type
Specialty
Activity sectors
Medicine, Surgery
Description
Education required
Fields of
employment
Hospitals, Clinics

A reproductive surgeon is an obstetrician-gynecologist or urologist who specializes in reproductive surgery.[2]

Reproductive surgeries will be referred to based on biological sex, and terms such male and female will be used to denote to men and women respectively.

Uses

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Reproductive surgery aims to address concerns spanning from male and female fertility to gender-affirming care.[3][4] Uses for reproductive surgery may encompass different abnormalities, dysfunctions, and areas of focus that are unable to be treated solely through medication or nonsurgical treatment.[4] Screening measures may be completed to determine the necessity of surgery. For example, intrauterine pathology may be assessed by utilizing techniques such as hysteroscopy to identify complications for reproductive surgical interventions.[4]

Assisted reproductive technology (ART) supports enhancement of fertility success through processes such as in vitro fertilization (IVF).[4] Screening and reproductive surgery also have a role in identifying and addressing abnormalities, such as notable cysts, prior to initiating IVF.[4] Surgical sperm retrieval is an alternative means of semen collection, where other means are not possible in circumstances like posthumous sperm retrieval or male infertility.[5][6]

These surgical techniques may also be utilized as a form of permanent contraception referred to as sterilization.[7] A vasectomy or tubal ligation would be examples of this procedure for male and female individuals respectively.[8][9] Reproductive surgeons can potentially perform a reverse vasectomy to restore male reproductive function following the vasectomy. Individuals may choose to reverse the procedure due to pain experience after the surgery.[9]

People might find themselves wanting to preserve their fertility. Biological material such as sperm or oocyte are capable of being surgically collected and preserved cryogenically.[6] Fertility preservation also provides individuals who are receiving gender-affirming surgeries the option of preserving gametes if having biological children is desired following the procedures and hormonal therapy.[6][7]

Reproductive surgery is also considered for complications such as endometriosis, polycystic ovary syndrome, ectopic pregnancy, and vas deferens obstruction.[1]

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History

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Albeit an increase in overall use of assisted reproductive technology (ART), surgeries on the fallopian tubes and ovaries have decreased, leading to a rise in insecurity in the field of reproductive surgery.[10] Reproductive surgery in women has largely been complementary to other ART methods such as medication, except for in tubal infertility, where surgery remains the main treatment.[11] Although reproductive surgery has been most relevant for severe symptoms, there has been a strong interest in greater analysis surrounding this topic of research.[10]

Reproductive surgery first began with fertility sparing surgeries, such as uterine myomectomy, and was transitioned later into the addition of surgeries for infertility and the advancement of success rates for fertility. Hysterectomies and myomectomies date back to ancient times, where fascination grew around fertility sparing surgeries, specifically for young women who were able to conceive but were considered to have suspected ailments.[10] However, the lack of knowledge of medicine eventually led to mortality, thereby causing myomectomies to become more uncommon. Overtime, various advancements and extensive research allowed for the discovery of minimally invasive myomectomies, which became popular among women who were capable of bearing children.[10]

Laparoscopy continues to be a common procedure approach as it is minimally invasive and is thought to be associated with a decrease in hospital stay and surgical complications.[10] The development of newer technology and surgical techniques allowed for the increase in success rates for various other surgeries, such as endometriosis and adenomyosis surgeries or adnexal surgeries.

The future of reproductive surgery

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With respect to the future of reproductive surgeries, greater advancements of surgical techniques and equipment are growing in popularity to increase the potential of fertility success rates. For example, vaginal natural orifice transluminal endoscopic surgery (vNOTES) is a new innovative approach that has been used for ovarian torsion, tubal ectopic pregnancy, and ovarian cystectomies.[10] This surgical approach is minimally invasive and has emerged in an effort to reduce pain, risks, and potential for scarring.[12] Another technique that has emerged is radiofrequency ablation (RFA) which has been used for uterine fibroids. It works to necrotize fibroids through the use of laparoscopic and transcervical procedures with two devices, Acessa (Hologic) and Sonata (Gynesonics). However, these two medical devices come with the caveat that fertility may not be preserved in those with uterine leiomyoma.[10] Although not ideal for people who are able to and wanting to bear children, RFA still poses as an alternative successful technique to reducing the volume of fibroids.[13]

A new common interest in alliance with reproductive surgery is the use of regenerative medicine. Although it has not been studied in its entirety, the use of stem cells to restore damaged endometrium has shown promising improvements.[14][15] Regenerative medicine has been used for premature ovarian failure and will continue to be studied for in vitro fertilization (IVF).[10] With the use of various stem cells, researchers hope to mitigate and treat any future signs of infertility with the use of two specific stem cells, induced pluripotent stem cells (iPSCs) and mesenchymal stem cells (MSC).[16]

Risks/complications

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The risks and complications of reproductive surgery depend on patient specific characteristics and the degree of the surgery itself; however, some common complications of general reproductive surgery are hemorrhage, visceral damage, infection, and blot clotting.[17]

In vasectomies, infection and hematomas are the most frequently reported complications of surgery, with the incidence rate of infection being 3-4% and the incidence rate of hematoma ranging around 0-29%.[18] An important note to consider is the fact that the surgical technique of the vasectomy did have an impact on the incident rates of these complications. No-scalpel vasectomy (NSV) is widely recognized due to its low incident rate of complications.[18] Another common complication of vasectomy is post-vasectomy pain syndrome (PVPS). PVPS involves chronic pain that may be persistent or intermittent in one or both of the testicles, and lasting longer than three months after the procedure.[19] While the pathophysiology of PVPS is unknown, various causes include damage to structures of the testis, buildup of pressure from epididymal congestion, and compression of nerves in the testis. The pain in PVPS can manifest in various forms, such as pain and tenderness in the scrotum, pressure or pain after ejaculation, pain with sex, etc.[19] Incidence rates of PVPS are around 1-14%.[18]

In hysterectomies, complications of the procedure include infection, gastrointestinal injury, and venous thromboembolic injury. Similar to vasectomies, one of the most common complications is infection, with the incidence rate being 10.5% for abdominal hysterectomy, 13% for vaginal hysterectomy, and 9% for laparoscopic hysterectomy.[20]

Today, one of the most effective forms of ART is in vitro fertilization (IVF).[21] While it is very effective in those experiencing infertility, there are numerous risks of IVF, such as multiple births, premature delivery, and ovarian hyper-stimulation syndrome. Ovarian hyper-stimulation syndrome is a condition that involves enlargement of the ovaries as the result of the injected fertility drugs causing increased capacity of the blood vessels to allow molecules to go in and out.[21][22] It can lead to abdominal pain, soreness, and nausea for those experiencing it.[22] The symptoms and severity of ovarian hyper-stimulation syndrome can be classified amongst various grades. Grade 1 involves mild discomfort and abdominal distention, and as the grades increase, severity and symptoms also increase. Grade 4 and grade 5 encompass severe ovarian hyper-stimulation syndrome and involve changes in blood volume and viscosity due to the condition.[22] Those who have a history of heightened response to gonadotropins, history of previous ovarial hyper-stimulation, and/or have a history of polycystic ovary syndrome (PCOS) are at increased risk of developing this complication.[22]

Contraindications

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There are no existing medical guidelines that outline the absolute contraindications to reproductive surgery. However, there are relative contraindications recommended in the current literature. There are several circumstances under which having reproductive surgery is contraindicated. This is because surgery itself may cause extensive tissue damage to the person, the success of the procedure is limited (i.e. the condition is invasive or metastatic), or the surgery's potential risk outweighs the potential benefits.[17] However, each person's situation is different and the possibility of reproductive surgery should be consulted with a healthcare professional.

Uterine atony after fetal extraction, and pre-existing maternal bleeding disorders have been reported as accepted contraindications for cesarean myomectomies in women.[23][24] Contraindications to reproductive surgery used for tubal surgery and infertility include women ages 43 and older, tubal disease that surgery cannot treat (i.e., surgery cannot be safely performed without hurting the person or the patient has multiple medical conditions that reduces the chance of success), bipolar disease, and abnormal semen analysis.[25]

Many studies examining surgery for endometriosis excluded women who previously received medical or surgical treatment for endometriosis.[26] Women with a pre-operative diagnosis of a deep endometriosis of their bowel or bladder were also excluded from surgery.[27]

For male reproductive surgery for the treatment of varicocele by percutaneous embolization, current literature considers adolescents, allergies to contrast, men with a bilateral grade 3 varicocele, and men with primary infertility as relative contraindications to surgery.[28]

References

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  1. ^ a b Tulandi T, Marzal A (2012). "Redefining reproductive surgery". Journal of Minimally Invasive Gynecology. 19 (3): 296–306. doi:10.1016/j.jmig.2012.01.010. PMID 22348901.
  2. ^ "Reproductive Surgeon". Glossary. The InterNational Council on Infertility Information Dissemination (INCIID). 4 May 2004. Archived from the original on 23 December 2008.
  3. ^ Antonouli S, Di Nisio V, Messini C, Daponte A, Rajender S, Anifandis G (2023). "A comprehensive review and update on human fertility cryopreservation methods and tools". Frontiers in Veterinary Science. 10: 1151254. doi:10.3389/fvets.2023.1151254. PMC 10151698. PMID 37143497.
  4. ^ a b c d e Raff M, DeCherney A (August 2019). "Reproductive surgery and in vitro fertilization: the future reevaluated". Fertility and Sterility. 112 (2): 197–202. doi:10.1016/j.fertnstert.2019.06.010. PMID 31352958. S2CID 198965325.
  5. ^ Kresch E, Efimenko I, Gonzalez D, Rizk PJ, Ramasamy R (July 2021). "Novel methods to enhance surgical sperm retrieval: a systematic review". Arab Journal of Urology. 19 (3): 227–237. doi:10.1080/2090598X.2021.1926752. PMC 8451700. PMID 34552774.
  6. ^ a b c Antonouli S, Di Nisio V, Messini C, Daponte A, Rajender S, Anifandis G (2023). "A comprehensive review and update on human fertility cryopreservation methods and tools". Frontiers in Veterinary Science. 10: 1151254. doi:10.3389/fvets.2023.1151254. PMC 10151698. PMID 37143497.
  7. ^ a b Grin, Leonti; Girsh, Eliezer; Harlev, Avi (March 2021). "Male fertility preservation–Methods, indications and challenges". Andrologia. 53 (2): e13635. doi:10.1111/and.13635. ISSN 0303-4569. PMID 32390180. S2CID 218585277.
  8. ^ Patil, Eva; Jensen, Jeffrey (March 2016). "Permanent Contraception for Women". Seminars in Reproductive Medicine. 34 (3): 139–144. doi:10.1055/s-0036-1571434. ISSN 1526-8004. PMID 26960907. S2CID 8645303.
  9. ^ a b Patel AP, Smith RP (2016). "Vasectomy reversal: a clinical update". Asian Journal of Andrology. 18 (3): 365–371. doi:10.4103/1008-682X.175091. PMC 4854082. PMID 26975488.
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  12. ^ Lerner, Veronica T.; May, Grover; Iglesia, Cheryl B. (2023). "Vaginal Natural Orifice Transluminal Endoscopic Surgery Revolution: The Next Frontier in Gynecologic Minimally Invasive Surgery". Journal of the Society of Laparoendoscopic Surgeons. 27 (1): e2022.00082. doi:10.4293/JSLS.2022.00082. ISSN 1938-3797. PMC 9913063. PMID 36818766.
  13. ^ Lee, Bruce B.; Yu, Steve P. (2016). "Radiofrequency Ablation of Uterine Fibroids: a Review". Current Obstetrics and Gynecology Reports. 5 (4): 318–324. doi:10.1007/s13669-016-0183-x. ISSN 2161-3303. PMC 5114324. PMID 27917310.
  14. ^ Lv, Qiaoying; Wang, Lulu; Luo, Xuezhen; Chen, Xiaojun (June 2021). "Adult stem cells in endometrial regeneration: Molecular insights and clinical applications". Molecular Reproduction and Development. 88 (6): 379–394. doi:10.1002/mrd.23476. ISSN 1040-452X. PMC 8362170. PMID 34014590.
  15. ^ Wang, Jing; Liu, Chi; Fujino, Masayuki; Tong, Guoqing; Zhang, Qinxiu; Li, Xiao-Kang; Yan, Hua (2019). "Stem Cells as a Resource for Treatment of Infertility-related Diseases". Current Molecular Medicine. 19 (8): 539–546. doi:10.2174/1566524019666190709172636. ISSN 1875-5666. PMC 6806537. PMID 31288721.
  16. ^ Saha, Sarama; Roy, Partha; Corbitt, Cynthia; Kakar, Sham S. (2021-06-28). "Application of Stem Cell Therapy for Infertility". Cells. 10 (7): 1613. doi:10.3390/cells10071613. ISSN 2073-4409. PMC 8303590. PMID 34203240.
  17. ^ a b Mann Jr WJ (May 2023). Sharp HT, Eckler K (eds.). "Complications of gynecologic surgery". UpToDate. Retrieved 2023-07-25.
  18. ^ a b c Yang F, Li J, Dong L, Tan K, Huang X, Zhang P, et al. (July 2021). "Review of Vasectomy Complications and Safety Concerns". The World Journal of Men's Health. 39 (3): 406–418. doi:10.5534/wjmh.200073. PMC 8255399. PMID 32777870.
  19. ^ a b "Post-vasectomy pain syndrome - Symptoms and causes". Mayo Clinic. Retrieved 2023-07-26.
  20. ^ Clarke-Pearson DL, Geller EJ (March 2013). "Complications of hysterectomy". Obstetrics and Gynecology. 121 (3): 654–673. doi:10.1097/AOG.0b013e3182841594. PMID 23635631. S2CID 25380233.
  21. ^ a b "In vitro fertilization (IVF) - Mayo Clinic". www.mayoclinic.org. Retrieved 2023-07-26.
  22. ^ a b c d Kumar P, Sait SF, Sharma A, Kumar M (May 2011). "Ovarian hyperstimulation syndrome". Journal of Human Reproductive Sciences. 4 (2): 70–75. doi:10.4103/0974-1208.86080. PMC 3205536. PMID 22065820.
  23. ^ Tinelli A, Nezhat CH, Likić-Ladjević I, Andjić M, Tomašević D, Papoutsis D, et al. (2021-12-15). "Myomectomy during cesarean section or non-caesarean myomectomy in reproductive surgery: this is the dilemma". Clinical and Experimental Obstetrics & Gynecology. 48 (6): 1250–1258. doi:10.31083/j.ceog4806199. ISSN 0390-6663. S2CID 245235424.
  24. ^ Goyal M, Dawood AS, Elbohoty SB, Abbas AM, Singh P, Melana N, Singh S (January 2021). "Cesarean myomectomy in the last ten years; A true shift from contraindication to indication: A systematic review and meta-analysis". European Journal of Obstetrics, Gynecology, and Reproductive Biology. 256: 145–157. doi:10.1016/j.ejogrb.2020.11.008. PMID 33232889. S2CID 227168195.
  25. ^ Coughlan C, Li TC (2011-10-01). "An update on surgical management of tubal disease and infertility". Obstetrics, Gynaecology & Reproductive Medicine. 21 (10): 273–280. doi:10.1016/j.ogrm.2011.07.002. ISSN 1751-7214.
  26. ^ Leonardi, Mathew; Gibbons, Tatjana; Armour, Mike; Wang, Rui; Glanville, Elizabeth; Hodgson, Ruth; Cave, Adele E.; Ong, Jozarino; Tong, Yui Yee Felice; Jacobson, Tal Z.; Mol, Ben W.; Johnson, Neil P.; Condous, George (2020-02-01). "When to Do Surgery and When Not to Do Surgery for Endometriosis: A Systematic Review and Meta-analysis". Journal of Minimally Invasive Gynecology. 27 (2): 390–407.e3. doi:10.1016/j.jmig.2019.10.014. ISSN 1553-4650. PMID 31676397. S2CID 207833633.
  27. ^ Alkatout, Ibrahim; Mettler, Liselotte; Beteta, Carmen; Hedderich, Jürgen; Jonat, Walter; Schollmeyer, Thoralf; Salmassi, Ali (2013). "Combined surgical and hormone therapy for endometriosis is the most effective treatment: prospective, randomized, controlled trial". Journal of Minimally Invasive Gynecology. 20 (4): 473–481. doi:10.1016/j.jmig.2013.01.019. ISSN 1553-4669. PMID 23567095.
  28. ^ Halpern, J., Mittal, S., Pereira, K., Bhatia, S., & Ramasamy, R. (2016). Percutaneous embolization of varicocele: technique, indications, relative contraindications, and complications. Asian journal of andrology, 18(2), 234–238. doi:10.4103/1008-682X.169985