Uterine volume an aid to determine the route and technique

1. I “UTERINE VOLUME : AN AID TO DETERMINE THE ROUTE AND TECHNIQUE OF HYSTERECTOMY ” BY Dr. SMITHA SURENDRAN M.B.B.S., Dissertation submitted to the Rajiv Gandhi University of Health Sciences, Karnataka, Bangalore. In Partial fulfillment Of the requirement for the degree of MASTER OF SURGERY IN OBSTETRICS AND GYNAECOLOGY Under the guidance of Dr. D.B. DHARMA REDDY M.D.,D.G.O., Professor DEPARTMENT OF OBSTETRICS & GYNAECOLOGY J.J.M. MEDICAL COLLEGE DAVANGERE – 577 004. 2011

2. II Rajiv Gandhi University of Health Sciences, Karnataka, Bangalore DECLARATION BY THE CANDIDATE I declare that this dissertation entitled “UTERINE VOLUME: AN AID TO DETERMINE THE ROUTE AND TECHNIQUE OF HYSTERECTOMY” has been prepared by me under the direct guidance and supervision of DR. D.B DHARMA REDDY M.D., Professor of Obstetrics and Gynecology, J.J.M Medical College, Davanagere. This dissertation has not been submitted by previously by me for the award of any diploma or degree, to any other university. PLACE: DAVANAGERE (Dr. SMITHA SURENDRAN) DATE:

3. III CERTIFICATE BY THE GUIDE This is to certify that dissertation entitled “UTERINE VOLUME: AN AID TO DETERMINE THE ROUTE AND TECHNIQUE OF HYSTERECTOMY”, is a bonafide research work done by DR. SMITHA SURENDRAN in partial fulfillment of the requirement for the degree of Master of Surgery in Obstetrics and Gynaecology. PLACE: Davangere DATE: Dr. D.B. DHARMA REDDY, M.B.B.S, M.D Professor, Department of Obstetrics and Gynecology, J.J.M. Medical College Davangere – 577004

4. IV ENDORSEMENT BY THE HOD, PRINCIPAL / HEAD OF THE INSTITUTION This is to certify that dissertation entitled “UTERINE VOLUME: AN AID TO DETERMINE THE ROUTE AND TECHNIQUE OF HYSTERECTOMY”, is a bonafide research work done by DR. SMITHA SURENDRAN under the guidance of DR. D.B DHARMA REDDY M.D., Professor of Obstetrics and Gynecology, J.J.M Medical College, Davanagere. Dr. DAKSHAYINI B.R., M.B.B.S, M.D Professor and Head Department of O.B.G. J.J.M. Medical College Davangere – 577004 Date : Place : Davangere Dr. H.R. CHANDRASHEKHAR M.D Principal, J.J.M. Medical College Davangere – 577004 Date : Place : Davangere

5. V COPYRIGHT Declaration by the Candidate I hereby declare that the Rajiv Gandhi University of Health Sciences, Karnataka, shall have the rights to preserve, use and disseminate this dissertation / thesis in print or electronic format for academic / research purpose. Date: (Dr. SMITHA SURENDRAN) Place: Davangere

6. VI ACKNOWLEDGEMENT It gave me great pleasure in preparing this dissertation and I take this opportunity to thank everyone who have made this possible. I take this opportunity to convey my heart felt gratitude and sincere thanks to my guide Dr. D.B. DHARMA REDDY, M.D.,D.G.O., Professor of Obstetrics and Gynecology, Department of OBG, J.J.M Medical College, Davanagere, who with his exhaustive knowledge and professional expertise has provided able guidance and constant encouragement through out the course of my study and in the preparation of this dissertation. I am greatful to Dr. Rajshekhar M.D., Professor and Director of P.G. Studies, for his constant support and suggestion throughout my Post Graduate Studies. It gives me immense pleasure to thank Dr. B.R. Dakshayini M.D., Professor and H.O.D, of O.B.G for her valuable guidance during this study. I express sincere thanks to my professors Dr. T.G. Shasishidhara, M.D., Dr. V.S Raju, M.D., Dr. K.C. Nataraj,M.D., Dr. Manjunath,M.D., Dr. H.N. Mallikarjunappa, M.D., Dr. H.M. Shivamurthy, M.D., and Dr. Shukla Shetty, M.D., Dr. Prabhakhar M.D., Department of O.B.G for their valuable help and encouragement. I am also grateful to my professors Dr. Ravi Gowda, M.D., Dr. Shoba Dhananjaya, M.D., Dr. A.C. Ramesh, M.D., Dr. Sarvamangala, M.D., Dr. Agasimani, M.D., Dr. Vanitha, M.D., Dr Sapna I.S., M.D., and Dr. Anitha, M.D., I am also thankful to my readers Dr. Sowbhagya Koujalagi M.D., Dr. Shashirekha, M.D., Dr. Bandamma, M.D., Dr. Veena G.R., M.D., Dr. Smitha A.J., M.D., Dr. Lakshmi Devi, M.D., Dr. Anuradha M.D., Dr Girija, M.D., and Dr. Nivedita, D.G.O.,

7. VII I am also thankful to Asst. Professors Dr. Ashwini M.S., Dr. Halesh M.S., Dr. Madhu K.N. M.S., Dr. Saroja M.S., Dr. Abhinetri M.S., Dr. Latha M.S., and Dr. Charitha M.S., I am extremely grateful to Dr. H.R. Chandrashekhar , M.D., Principal J.J.M Medical College and Dr. H. Gurupadappa, M.D., Director of P.G Studies and research, J.J.M Medical College Davanagere for their valuable help and cooperation. I am indebted to my Husband, Parents , Parent in-laws and My brother and My daughter Sraddha for their constant encouragement for fulfilling my dream of becoming an Obstetrician and Gynecologist. My sincere thanks to all post graduate colleagues, friends and special thanks to Dr. Vani and Dr. Megha for their whole hearted support. My sincere thanks to Superintendents of, Chigateri General Hospital, Bapuji Hospital and Women and Children hospital. I thank all my patients, who formed the back bone of this study without whom, this study would not have been possible. I also thank to Mr. Mahesh, Librarian , JJMMC, Davangere My special thanks to, Mr. Thomas of Thomas Computers for their Meticulous typing and styling of this script . I am grateful to the ALMIGHTY for showering his blessings on me. Place: Davangere Date: (DR. SMITHA SURENDRAN)

8. VIII ABBREVIATIONS A.H. - Abdominal hysterectomy LAVH- Laparoscopic Assisted Vaginal Hysterectomy NDVH- Non Descent Vaginal Hysterectomy TAH - Total Abdominal Hysterectomy TLH - Total Laparoscopic Hysterectomy VH - Vaginal Hysterectomy

9. IX ABSTRACT OBJECTIVE: to assess the value of uterine volume estimated sonographically, in decision making for route and technique of hysterectomy. METHODS: uterine volume was measured ultrasonographically in 50 cases posted for hysterectomy. Intraoperative difficulties, accessibility and ease of surgery were noted. Also, uterine weight postoperatively was compared with the volume. RESULTS: Vaginal hysterectomy was done without difficulty up to 300cm³. With uterine volume >300cm³, debulking was required. With uterine volume>500cm³, i.e., approximately>16 weeks pregnant uterus size the surgeons preferred abdominal rather than vaginal route. Uterine volume correlated well with the uterine weight measured post operatively. CONCLUSION: considering the uterine volume rather than the level of fundal height for assessing the feasibility of vaginal hysterectomy has proved useful. KEY WORDS: hysterectomy, uterine volume.

10. X CONTENTS 1. Introduction ---------------------------------------------------------------------- 01 2. Aim of the Study----------------------------------------------------------------- 02 3. Review of Literature ------------------------------------------------------------ 03 4. Materials and Methods --------------------------------------------------------- 45 5. Observation and Results ------------------------------------------------------- 47 6. Discussion ----------------------------------------------------------------------- 51 7. Summary ------------------------------------------------------------------------- 53 8. Conclusion ----------------------------------------------------------------------- 54 9. Bibliography --------------------------------------------------------------------- 55 10. Annexure ------------------------------------------------------------------------ a. Proforma ---------------------------------------------------------------- 58 b. Master Chart ----------------------------------------------------------- 62

11. XI LIST OF TABLES Sl. No Tables Page No 1 Non gravid uterine size and uterine volume estimated sonographically 16 2 Uterine Volume compared with weight Uterine Weight (g) 16 3 Uterine Volume in cm3 and VH 16 4 Peroperative Score Under Anesthesia 23 5 Indications for Hysterectomy 47 6 Comparison of Uterine Size and Uterine Volume 48 7 Comparison of Uterine Volume and Uterine Weight 48 8 Route of Hysterectomy for all the cases 49

12. XII LIST OF GRAPH Sl. No Graph Page No 1 Age Distribution 47

13. XIII LIST OF FIGURES Sl. No Figures Page No 1 Radiographic Calculation of Uterine Volume 17 2 Incision on the Posterior vaginal wall 29 3 Incision on the Anterior vaginal wall 29 4 Mobilization of the bladder 30 5 UV Fold of Peritoneum 30 6 Uterosacral Clamp 32 7 Uterine Clamp 32 8 Adnexal Clamp 33 9 Bisection of Uterus 33

14. 1 INTRODUCTION Hysterectomy is the most common non pregnancy related surgical procedure performed on women in India. The main indication for vaginal hysterectomy remains the treatment of uterovaginal prolapse where as the other common indications of surgery like enlarged uterus, menstrual abnormalities are treated by the abdominal route, unless associated with a significant degree of prolapse. This may be attributed to personal preference, but mainly to lack of training as experience leading to reluctance to perform the procedure by vaginal route, in cases of enlarged uterus, absence of uterine descent, previous pelvic surgeries. The feasibility of vaginal hysterectomy is judged primarily on the findings at bimanual pelvic examinations, especially under anesthesia. Though bimanual pelvic examination gives three dimensional idea of the size of the uterus, in actuality for decision making, only one dimension, uterine length (which denotes the uterine size in weeks), is utilized by almost all gynecologists. The present study is to show that pre-operative sonographic estimation of uterine volume helps in decision making for the choice of route of hysterectomy as well as for anticipating problems during hysterectomy.

15. 2 AIMS AND OBJECTIVES To prove that uterine volume rather than fundal height is useful in assessing the route and technique of hysterectomy and in anticipating ease or difficulties during surgery. To prove that vaginal hysterectomy could be successfully done for uterine size of up to 500 cm3 by various techniques of debulking.

16. 3 REVIEW OF LITERATURE HISTORICAL ASPECT The operation of hysterectomy is one of the most common in surgical practice. But the removal of the uterus differs from the removal of the other organs in that it can be performed either by an open incision in the abdomen or, by via naturals, the access provided by the vaginal approach. Vaginal hysterectomy has been performed many centuries before abdominal hysterectomy was attempted. The origins of vaginal hysterectomy are lost in the mists of time. The first was reportedly performed in AD 120 by Soranus in the city of Ephesus which was then situated in Greece but is now on the Turkish coast just North of Bodrum. According to the medical historian Leonardo, the procedure performed by Soranus was the removal of an inverted uterus that had become gangrenous and had turned black in colour. The uterus, and often the bladder were invariably part of these early surgical excisions, and patients often died. Schenck of Grabenberg reported 26 cases during the early part of the 17th century and operation was also perfomed in by Andreas de Crusce in 1560 and Vallmeor of Nuremberg in 1675. In 1670 a case of Faitt Howard, a 46 year old peasant women who performed the operation on herself was well documented and reported by Percival Willonghby. An early midwife and life long friend of William Harvey who famously discovered

17. 4 the secret of blood circulation. Apparently while she was carrying a heavy load of coal, one day Faith’s uterus prolapsed completely and frustrated by this frequent occurrence, she grabbed the offending organ, and pulled as hard as possible and cut the whole lot with a short knife and faith lived for many years after this with “water passing from her insensible day and night obviously from a vesicovaginal fistula.” THE FIRST ELECTIVE VAGINAL HYSTERECTOMY Baudelocque from France introduced the technique of artificially prolapsing and then in favorable cases cutting away the uterus and the appendages. He performed 23 such procedures during the last 16 years following 1800 but gave Lauvariol the credit for having performed the first operation in France. Most of these procedures were performed on the puerperal uteri and were undertaken on an emergency basis. The first planned vaginal hysterectomy was performed by Osiander of Gattingen in 1801. He didn’t report the case until he had operated his 9th patient. In 1810 Wriskberg in a prize essay read before the Vienna royal academy of medicine advocated vaginal hysterectomy for cancer and two years later Paletta performed the operation. Conrad Langenbeck from Gattingen had read Wrisberg’s paper and also report of Paletta and this encouraged him to perform first deliberately planned Vaginal Hysterectomy for Carcinoma in 1813. He however didn’t report the operation until 1817. Because of the abuse that he was subjected to be probably regretted even doing it.

18. 5 FURTHER DEVELOPMENTS IN TECHNIQUE AT THE END OF THE 19TH CENTURY: In 1829 Recamier pointed out the necessity of isolating and controlling the uterine vessels. Surgeons from France were successful in designing clamp methods for securing the ligaments and vascular pedicles and they devised remarkable morcellation and hemi section techniques and even proposed vaginal approach for pelvic inflammatory disease. The first vaginal myomectomy was done by Anussat in France in 1940. In 1843 Esselman of Nashville successfully removed an inverted myomatous uterus vaginally. Lawson Trait in 1882 reported 30 cases with 33% mortality rates for vaginal hysterectomy done for fibroids provided the size of the fibroid allowed it. In 1880 Schroeder a German presented his technique of opening the cul-de-sac and pulling the fundus through posteriorly and then cutting the bladder flap, the broad ligament were ligated with a single ligature or in separate portions from above downwards. The peritoneum was closed, stumps of ligament sutured into the vagina everting them around the T shaped drainage tube which was removed between the stumps. In 1894 Richelot reported on an operative manual of vaginal Hysterectomy with vertical and oblique morcellation of the anterior wall of the uterus. In 1893 Schuchardt of Germany performed the first extensive vaginal hysterectomy for cervical cancer. The abdominal operation was refined by Wertheim and vaginal operation by Schauta both of Vienna.

19. 6 Morcellation originated as a mean for the removal of large, pedunculated, submucous myomas in the pre-anesthetic, pre-antiseptic era. The concept was pioneered by in the 1830’s by Dupuytren and Velpeau, but it was Amussat, of France (on 11 June 1840) who is credited with performing the first vaginal excision of an enlarged submucous myoma by morcellation and enucleation ; the specimen weighed 440gms. The deliberate removal of the entire uterus by morcellation promptly followed the development of reliable methods of vaginal hysterectomy by the Viennese surgeons Czerny, Billroth, Muller and others, beginning in 1879. Muller published the first description of vaginal hysterectomy by midline hemi section in 1882. Vaginal hysterectomy by wedge morcellation was introduced soon thereafter by Pean, Segond and Richelot of Paris and by Jacobs of Brussels, between 1883 and 1890. Significant contribution to morcellation techniques was made by Pryor of New York and Doyen of Paris in 1890’s. Pryor popularized vaginal hysterectomy by hemi section as an effective approach to the treatment of advanced pelvic inflammatory disease, achieving a remarkable 0.4% mortality rate in 228 consecutive cases. Doyen, whose career extended from 1885 through the First World War, described a very efficient method of morcellation enlarged, solid myomas with coring tubes. Intramyometrial coring was introduced by Lash, of Chicago, in 1941. In his representation to the Chicago Gynecological society, Lash advocated the method as means of reducing uterine size without entering the uterine cavity in cases of pyometra, and with cancers of the isthmus and corpus. Although his rational was questioned, the technique was well received for the treatment of benign uterine enlargement.

20. 7 HYSTERECTOMY Hysterectomy is the most common surgery performed by a gynecologist. There are many indications for hysterectomy and the uterus can be removed using any variety of techniques and approaches including abdominal, vaginal or laparoscopic. The gynecologic surgeons should not only be technically adept at these various procedures, but also should use history, physical examinations and discussions with the patient to match the surgical procedure in order to obtain the most satisfactory outcome. Rate of hysterectomy varies between 6.1~8.6 per 1000 women of all ages. Women between the ages of 20 and 49 years constitute the largest segment of the women undergoing the procedure. INDICATIONS Uterine leiomyomas are consistently the leading indications for hysterectomy. Acute Conditions Pregnancy catastrophe Severe infection Operative complications Benign Diseases Leiomyomas Endometriosis Adenomyosis Chronic infection Adnexal mass

21. 8 Cancer or pre-malignant disease Invasive cancer Pre-invasive disease Adjacent or distant cancer Discomfort Chronic pelvic pain Pelvic relaxation Stress urinary incontinence Abnormal uterine bleeding Extenuating circumstances Sterilization Cancer prophylaxis TYPES OF HYSTERECTOMY ABDOMINAL VAGINAL LAPAROSCOPIC Types of ABDOMINAL HYSTERECTOMY • Total hysterectomy – removal of the whole of uterus including the cervix • Subtotal hysterectomy – in this the vaginal part of the cervix and a variable part of the supravaginal cervix is not removed. Advantages of this type are that it is technically easier and involves less risk to the ureters, bladder and rectum. It reduces the risk of subsequent prolapse by preserving the integrity of the supporting ligaments. As it does not disturb the anatomy and the length of the vagina coitus is not affected.

22. 9 Disadvantage is that the cervix remains a potential site for cancer. Also, the remaining portion of the cervix causes symptoms like, chronic discharge, and dyspareunia. Menstrual or ovulation bleeding can also occur, especially if the isthmus is not removed. Panhysterectomy – here the uterus is removed along with the tubes and ovaries. The term is best discarded in favor of the descriptive term total abdominal hysterectomy with bilateral salpingo oophorectomy. Radical hysterectomy – Rutledge has defined five classes of hysterectomy, depending on the extent of excision Class I – Extrafascial hysterectomy with bilateral salpingo oophorectomy Class II – Modified radical hysterectomy which is the original Wertheims hysterectomy. In this the medial half of the cardinal and uterosacral ligaments are also removed as well as the pelvic lymph nodes which are enlarged. Class III – Radical hysterectomy, Includes complete pelvic lymph node dissection, removal of whole of the cardinal and uterosacral ligaments and upper of the vagina. Class IV – Extended radical hysterectomy. Includes removal of the periureteral tissue, superior vesical artery and up to ¾ of the vagina. Class V – Partial exenteration. Here portions of the distal ureter and bladder is also dissected. Pelosi Minilap Hysterectomy- here hysterectomy is done through an abdominal incision of 2.5- 5 cm depending upon the size of the uterus.

23. 10 LAPAROSCOPIC HYSTERECTOMY The use of the laparoscope with hysterectomy was first reported in 1989 by Reich et al, who suggested using the laparoscope as a mode of access for hysterectomy. Three months later, Kovac reported a procedure that combined the use of the use of laparoscope with vaginal hysterectomy and the term laparoscopic assisted vaginal hysterectomy was suggested. Initially the terms laparoscopic and laparoscopic assisted vaginal hysterectomy was used interchangeably to describe any method of hysterectomy in which laparoscope was used. Various studies were conducted to define the role of laparoscopy in hysterectomy and its advantages over abdominal and vaginal routes. In 1993, Kovac and Reich attempted to define the use of the laparoscope with hysterectomy. The following definitions were proposed: DIAGNOSTIC LAPAROSCOPY FOLLOWED BY VAGINAL HYSTERECTOMY- the use of intraoperative laparoscopy to determine the patient’s feasibility for a vaginal hysterectomy. This procedure is performed only when there are concerns about the presence of extrauterine pathology that might limit the performance of a vaginal hysterectomy. LAPAROSCOPIC ASSISTED VAGINAL HYSTERECTOMY- the laparoscopic assessment has discovered and documented certain conditions that require surgical management such as dissection of adhesions, excision of endometriosis and if necessary, removal of the ovaries followed by completion of the procedure via the transvaginal route.

24. 11 LAPAROSCOPIC HYSTERECTOMY- the use of LAVH plus ureteral identification and laparoscopic ligation of the uterine arteries by electro surgery, sutures or staples. The uterosacral and the cardinal ligaments are ligated vaginally. TOTAL LAPAROSCOPIC HYSTERECTOMY- the uterus and the adnexal structures are removed through the laparoscopic access. In this procedure, the junction of the vagina and the cervix is separated and the vaginal cuff is closed and suspended laparoscopically. Laparoscopic hysterectomy is an efficient modality for the vaginal surgeon in the presence of adnexal disease, but does not replace the less expensive, quicker, and probably safer vaginal hysterectomy. Laparoscopic surgery is now termed ‘minimally invasive surgery ‘. But when it comes to hysterectomy, the vaginal route has been proven to be the most minimally invasive type of hysterectomy. VAGINAL HYSTERECTOMY Vaginal hysterectomy is the procedure of choice whether there is uterine prolapse or not. As a rule, uterus without surrounding pathology descends when traction is given under anesthesia. Uterine descent becomes progressively easier as the uterosacral and mackenrodt’s ligaments are cut. An enlarged uterus also can be removed by various techniques of debulking. So, when a hysterectomy is to be undertaken, it should be the endeavor of every gynecologist to consider the vaginal route first unless there is any contraindication to the same.

25. 12 UTERINE VOLUME High resolution Transvaginal sonography has been widely available since mid 1980’s and has gained acceptance as an integral part of Gynecologic and early obstetric sonographic examinations. Transabdominal sonography is performed through the full urinary bladder and provides a wider field of view than the Transvaginal approach. This provides better visualization of superficial structures remote from the Vagina than the Transvaginal approach. The Transvaginal approach bypasses attenuating tissue and allows a high frequency probe to be placed close to the target organs. It demonstrates anatomic details of uterus, ovary and adnexa which cannot be duplicated by TAS. Using TAS, visualization of the pelvic organs is limited by body habitus owing to sonic attenuation of the intervening anterior abdominal wall, subcutaneous and properitoneal fat. Ultrasound utilizes high frequency sound waves and the resultant echoes generated by these waves to evaluate fluids within a tissue medium. Essentially, the sound waves (1-5 MHz) are transmitted through the tissue via the probe / transducer. The sound waves travel through the tissue until reflected back to the probe. The intensity and time of wave transmission / reflection are assessed, and a 2-D image is displayed on the monitor. These calculations are preformed on millions of wave pulses and subsequent reflections (echoes) per moment in time. Generally TAS with full bladder is done first. For TAS we use a curvilinear probe of medium (5MHz) to low (3.5 MHz) frequency. Transverse, axial and sagittal scanning planes are performed through the short and long access of the uterus. Transvaginal probe insonate at higher frequencies of 7~9 MHz, with improved spatial resolution over the lower frequency TAS probes. TV probes is covered with a

26. 13 protective sheath usually a condom and adequate coupling gel is applied. Here sagittal and semi coronal planes are imaged. Uterine volume is a vital piece of pre operative information. The normal uterine volume varies between 30~80 cm3 . It is important to assess the uterine volume as often the fundal height may be the same in two fibroids, but uterus may be bigger in transverse or antero-posterior diameter. The volume may be calculated by multiplying length by breadth by antero-posterior diameter by 0.542. Various studies also formulated a close positive correlation between estimated uterine volume and actual uterine weight. Equation was: Uterine weight (gms) = 50.0+0.71 x volume (cm3 ) With utilization of this equation uterine size in vivo can thus be expressed as a concrete objective value instead of weeks size by comparison with pregnant uterus. Uterus Size based on age: Prepubertal Length 2 – 4.4 cm NOTE: uterine growth begins at 7-8 yrs. and continues to ~20yrs Adults of Reproductive Age Nulliparous: Length 6 – 8.5 cm Width 3 – 5 cm AP 2 – 4 cm

27. 14 Multiparous: Length 8 – 10.5 cm Width 4 – 6 cm AP 3 – 5 cm Postmenopausal: Length 3.5 – 7.5 cm (>5 years) Width 2 – 4 cm AP 1.7 – 3.3 cm ADVANTAGES 1. Confidence and clues on how to access a fibroid site for enucleation or morcellation. 2. Knowledge about the uterine volume will guide the surgeon as to whether uterine delivery is possible from anterior or posterior operative space or whether the uterus needs debulking before an attempt at delivery. 3. Provide information on endometrial thickness which is a must in all women with menorrhagia to exclude suspected endometrial malignancy. 4. Detect pathology such as ovarian cyst or renal tract pathology.

28. 15 Table – 1 : Non gravid uterine size and uterine volume estimated sonographically Size Volume (cm3) Normal 30-80 Up to 8 weeks 81-200 9-12 weeks 201-300 13-16 weeks 301-450 17-20 weeks 451-600 21-24 weeks 601-750 Table -2 : Uterine Volume compared with weight Uterine volume (cc) (excluding cervix 10 15cc) Uterine Weight (g) <50 30-65 51-100 48-124 101-300 96-352 301-400 270-458 401-500 270-458 >501 360-576 Table -3 : Uterine Volume in cm3 and VH Uterine Volume (cm3) Possibility of VH 100 Easy, average gynecologist should be able to do it 101-200 Interested gynecologist should be able to do it easily 201 - 400 Best performed by a gynecologist with expertise 300 - 350 Needs debulking 401- 500 Be scheduled as tentative or trial VH; needs debulking Consider / availability of LAVH and / or abdominal hysterectomy

29. 16 Fig. 1 - Radiological measurements for Calculation of uterine volume In the above view, the length, height, and width of the uterus are captured for volume measurements MRI Is a superior modality for- 1. Evaluation of adnexal mass 2. To confirm adenomyosis 3. Doubtful ultrasonography regarding location of fibroid MYOMA MAPPING Precise localization, measurement and characterization are essential for the appropriate clinical management of fibroids. The optimal selection of patients for medical therapy, noninvasive procedures, or surgery depends on these. Imaging

30. 17 techniques available for confirming the diagnosis of myomas include sonography, saline-infusion sonography, hysteroscopy,and MRI. Transvaginal sonography is the most readily available and least costly technique and may be helpful for differentiating myomas from other pelvic conditions. Large myomas may be best imaged with a combination of transabdominal and transvaginal sonography. Sonographic appearance of myomas can be variable, but frequently they appear as symmetrical, well-defined, hypoechoic, and heterogenous masses. However, areas of calcification or hemorrhage may appear hyperechoic, and cystic degeneration may appear anechoic. Sonography may be inadequate for determining the precise number and position of myomas, although transvaginal sonography is reasonably reliable for uteri <375 mL in total volume or containing four myomas or fewer. Saline-infusion sonography uses saline inserted into the uterine cavity to provide contrast and better define submucous myomas, polyps, endometrial hyperplasia, or carcinoma. Magnetic resonance imaging is an excellent method to evaluate the size, position, and number of uterine myomas and is the best modality for exact evaluation of submucous myoma penetration into the myometrium .The advantages of MRI include no dependence on operator techniques and the low interobserver variability in interpretation of images for submucous myomas, intramural myomas, and adenomyosis when compared with transvaginal sonography, saline-infusion sonograms, and hysteroscopy. Fibroids may be accessible or inaccessible

31. 18 Accessible fibroids - 1. Cervical 2. low on the uterine body 3. on the posterior wall 4. closer to the internal os 5. closer to accessible endometrium on the serosal wall 6. 5-7 cm in size with uterine size not more than 12-14 weeks, or 7. not more than 7-9 cm In size with uterine size not more than 14-16 wks Inaccessible fibroids - 1. High anteriorly placed or fundal fibroid with uterus greater than 12-14 wks 2. When distantly placed in the uterus 3. Large broad ligament fibroid 4. If the angle between the lateral cervical surface and the ascending uterine wall is reduced from 140˚ to 90˚ the difficulty in vaginal hysterectomy increases. CHOICE OF APPROACH About 75% of the hysterectomies are abdominal. With the introduction of laparoscopically assisted hysterectomy, there has been a resurgence of interest in vaginal hysterectomy. Transvaginal surgery is a special province of gynecologic surgeon and vaginal hysterectomy is a showcase operation. The diagnosis may make the choice of approach obvious in some patient, where as in others the decision to proceed with hysterectomy or not depends on the

32. 19 promise of low morbidity and a rapid return to functionality offered by a vaginal hysterectomy (VH). By definition, if the uterine vessels are ligated transvaginally, the procedure is described as laparoscopic assisted vaginal hysterectomy (LAVH). If the uterine vessels are ligated, coagulated or stapled through the laparoscope the operation is laparoscopic hysterectomy. The marketing appeal appears to be removing the uterus through three or four small key hole abdominal incisions. This method does not appear to offer any advantage over vaginal hysterectomy. There have been several large reviews of the results and complications of abdominal, vaginal and LH techniques. VH is least invasive, least expensive route with least morbidity and with most rapid post operative recovery. Operating time was shortest for VH and longest for LAVH. The length of hospital stay was similar for both VH and LAVH. Intra and post operative complications were more common with abdominal hysterectomy (AH). In VH early ambulation was possible. They can be allowed on regular diet earlier than AH. As advantages of vaginal hysterectomy become more evident, various guidelines were put forward to assign the patients prospectively to vaginal, abdominal or LAVH. This was based on uterine size, presumptive risk factors and the clinical immobility or inaccessibility of the uterus or adnexal structures. The ACOG established some guidelines for the route of hysterectomy by stating that the choice depends on the patient’s anatomy and the surgeon’s experience.

33. 20 PRE-OPERATIVE ASSESSMENT Examination under Anesthesia The final assessment on which the surgeon should base his decision about the route of hysterectomy depends on the careful examination under anesthesia just before beginning the operation. The decision for the route of hysterectomy may be reverted after this assessment. STEP 1: Size and mobility of the uterus In addition to the size the uterus has to be evaluated in all dimensions. An antero-posterior or lateral enlargement reduces space around the uterus making VH more difficult. Mobility of the uterus is assessed both antero-posteriorly as well as laterally. This provided an accurate assessment of parauterine space. Slightly restricted mobility is no longer a contra indication for an experienced surgeon. STEP II: Descent of the Cervix If the cervix is visualized on introduction of the Sims speculum, it indicated descent. The descent of cervix is also assessed by volsellum test. Volsellum is applied on the anterior lip and cervix is pulled downwards. Physiological descent of the uterus is up to first degree. If there is less than first degree descent, one should proceed with VH cautiously (Possibility of adhesions should be kept in mind) STEP III: Mobility of vaginal mucosa Applying a volsellum on the anterior cervical lip and then on the posterior cervical lip and moving the uterus up and down gives a fair idea of the mobility of the vaginal mucosa.

34. 21 STEP IV: Depth of fornix The length of the fornix is assessed by measuring the distance between the cervix at the level of external os and the lateral fornix. If the fornix is shallow with short cervix placed distally VH becomes difficult. STEP V: Assessment of fibroids The decision on what size of the uterus should be attempted vaginally is dependent on the experience of the surgeon. Accessibility of the fibroid and its position is also important. Fibroids distally placed broad ligament fibroid or those fundal and anterior diffusely enlarging the uterus are inaccessible and difficult to debulk. Consideration is also given to laxity or rigidity of tissues and availability of space, which is essential in these cases where debulking, may be required. STEP VI: Vaginal and Pelvic Accessibility The breadth of the vagina should be assessed and should be at least two finger breadths especially at the fornix. The pelvis is assessed by subpubic angle and the inter-tuberous diameter. The subpubic angle should be at least 80 degrees and the inter-tuberous diameter should be at least four knuckles tight (9 cm). PER OPERATIVE SCORE Per operative clinical score taking into consideration all factors responsible for the success of surgery was evolved. The score varied from a minimum of zero to a maximum of twenty.

35. 22 Table – 4 : Peroperative Score Under Anesthesia Score 0 1 2 Size of uterus < 8 Wk 8~10 Wks > 10 wks Mobility of uterus Good Fair Poor Intertuberous distance > 4 knuckles 4 knuckles < 4 knuckles Subpubic angle > 90 degree 90 degree < 90 degree Digital exam of vagina 3 finger loose 3 finger tight 2 finger tight Mobility of vaginal mucosa Good Fair Poor Fornix depth > 1 finger crease 1 finger crease < 1 finger crease Descent with volsellum > 1 degree 1 degree < 1 degree Surgeon's experience > 10 yrs 5~10 Yrs < 5 yrs History of previous surgery NIL 1 > 1 ABSOLUTE CONTRA INDICATIONS OF VAGINAL HYSTERECTOMY Uterine volume > 500 cm3 (depends on surgeons experience) Previous vesicovaginal or rectovaginal fistula repair Cervix flushed with vault Adnexal pathology Very limited vaginal space Severely restricted uterine mobility Poor per operative score ASSESSMENT OF FITNESS FOR SURGERY Physical: There should be a general and systemic examination to reveal fitness for surgery. Investigations: Opinions of physicians and anesthetist about fitness for surgery, precautions if any to be taken and the preferential mode of anesthesia are essential. Also cardiologist

36. 23 opinion for women, in geriatric age group, have an abnormal ECG, past history of cardiac disorders, have hypertension or diabetes. Complete blood count Blood group and RH typing Blood sugar Serum creatinine and blood urea HBSAg and HIV BT, CT, PT and platelet count Urine routine examination Chest radiograph ECG Ultrasonongraphy ASSESSMENT FOR ANESTHESIA Neuraxial block (Subarachnoid, Epidural or combined spinal epidural) is the primary regional anesthetic technique of choice. Epidural anesthesia often relieves the extra load on the circulation, provides safety and remains ideal choice in high risk cases. They provide optimum intra operative and post operative pain relief. Advantages of using regional anesthesia Decreased blood loss Decreased transfusion requirements Improved intra operative and post operative pain control Decreased length of hospital stay Decreased incidence of post operative emesis Decreased incidence of post operative deep vein thrombosis

37. 24 ABDOMINAL HYSTERECTOMY Operative Techniques Positioning: Patient is placed in the supine position in the operating table. Abdomen from xiphoid to the mid thighs is painted and draped. Abdomen is opened by Pfannenstiel incision (preferred cosmetically) or Maylard or cherney’s incision. The pelvis and the abdominal organs are palpated and examined for any pathology. A slight Trendelenberg position is achieved and bowels packed. The uterus is elevated out of the pelvis and straight Kochers applied to each side of the cornu to include the origins of the tubes and round ligament approximately 1 cm from the uterine wall. When the uterus is elevated the round ligament becomes taut which is then clamped, cut and ligated. The round ligament tie is left long. The retroperitoneal space is now opened and the course of ureter is identified. If the ovaries are to be preserved, another clamp is applied to the tube and the ovarian ligament, clamped, cut, transfixed and ligated. If the ovaries are to be removed the infundibulopelvic ligament is identified and elevated and the clamp is placed on the lateral side of the ovary, clamped, cut and ligated. Procedure is repeated on the opposite side. Next step is to dissect the bladder from the anterior cervix. For this UV fold of peritoneum is identified and opened with Mayo’s scissors. The peritoneal incision is extended laterally to reach up to the round ligament pedicle taking care not to injure the ureter. Now bladder is mobilised down either by blunt or sharp dissection. This dissection is continued up to the lower limit of the cervix. The lower limit of the

38. 25 cervix is readily identified by the indentation as the cervix ends and the anterior fornix begins. Next the uterine vessel (ascending branch) is clamped at right angles to the uterine long axis. The pedicle is divided, cut and ligated. Now the parametrial tissue is divided by applying clamps parallel to the cervix, squeezing the paracervical tissue off the side of the cervix, clamped, cut and transfixed. The cervico vaginal junction is identified and ensured that bladder is reflected well beyond this. Large Zepplin clamps are used to clamp the vagina below the cervix. These clamps include the base of the cardinal ligaments laterally, the uterosacral ligament posteriorly, and the vaginal wall anteriorly and posteriorly. The clamps are applied from each side with the tips meeting at the middle. The vagina is now divided with knife or scissors and the uterus is delivered out. A single figure-of-eight suture is placed between the tips of the two clamps to close the mid portion of the vagina. A Heaney suture ligature is placed on each side of the lateral clamps with the second bite going through the uterosacral ligament posteriorly. Inclusion of the uterosacral and the cardinal ligament provides excellent support for the vaginal apex. The pedicles are inspected carefully for any bleeding and ensured that complete hemostasis is achieved. Mops and instrument count ensured and abdomen closed in layers. CERVICAL MYOMA Initial steps are similar to plain abdominal hysterectomy. After the anterior flap of peritoneum is separated, bladder is mobilised down. An incision is put over the capsule of the fibroid and with finger the exact plane of cleavage between the tumour and the capsule is defined. Enucleation of the tumour is carried out by traction with

39. 26 volsellum and digital separation of the tumour from its capsule. Hysterectomy is then proceeded with. In case of posterior cervical myoma, we have to bisect the uterus posteriorly to get access to the fibroid. Then the plane of cleavage is created and the tumour is enucleated out. BROAD LIGAMENT FIBROID These are divisible into two classes. The first variety is the true broad ligament myoma that springs from the muscle fibres normally found in the myometrium. These may be found in the round ligament, ovario uterine ligament or in the connective tissue surrounding the ovarian and uterine vessels. These tumours when small are easy to enucleate. But sometimes they may attain enormous size pushing upwards stretching the fallopian tube and often burrows between the layers of the pelvic mesocolon on the left side, the bowel itself lying on the tumour. Here the plane of easy cleavage can be identified between the muscularis of the intestine and the surface of the tumour. The ureter and the vessels supplying the intestine can be in danger and great care is necessary not to damage them. The false broad ligament myomas are those where the tumour arises from the lateral uterine wall or the cervix and bulges between the layers of the broad ligament. These tumours can be enucleated if possible, but when large or associated with other fibroids in the uterus hysterectomy may be done. The true ligament myomas can be differentiated by the fact that they are entirely separate from the uterus, which they displace but do not deform. The uterine artery lies beneath and the inner side of the tumour while the ureter is displaced

40. 27 inwards and posteriorly. These can be removed by enucleation or sometimes hysterectomy may be needed in case of adherent or highly vascular tumours. NON DESCENT VAGINAL HYSTERECTOMY Operative Technique Positioning: The lithotomy position with both hips and knees hyper flexed and a 15~30 degrees head down tilt is a good position for non descent vaginal hysterectomy. It not only provided good access to the vagina, but also moves the bowel away from the pouch of Douglas. The buttocks should be should be slightly over the edge of the table to facilitate posterior retraction without hindrance to instruments. The labial sutures applied and bladder is evacuated with a metal catheter to ensure it is empty. The cervix is held with volsellum and transverse incision is made on the anterior vaginal wall. The incision is deepened through the entire length with simultaneous traction on the cervix. The subepithelial tissues can be seen retracting upwards. The incision is further deepened to cut the pubo-vesico-cervical ligament, till the rough surface of the cervix is seen. While incising the pubo -vesico-cervical ligament the bladder is seen withdrawing upwards. 20ml of 1 in 200,000 adrenalin (1 ampoule of adrenalin in 200ml of saline) can be infiltrated in the line of incision to reduce the bleeding and keep the operative field clear. The next step would entail pushing the bladder up using steady traction with sponge on a holder until the shiny peritoneum of the utero-vesical (UV) fold is visualized and picked up with an artery forceps. The UV fold of peritoneum is incised and is extended on either side with fingers and retractor introduced.

41. 28

42. 29

43. 30 The next step consists of picking the loose fold of the posterior vaginal wall at the cervico-vagina junction with allis tissue forceps and giving a bold incision to open the vagina and pouch of Douglas and retractor introduced. The uterosacral-Mackenrodt’s complex is then lifted with the index finger, clamped, cut, transfixed and ligated. The procedure is repeated contra laterally. Ligatures are held long for suspending the vault later. The next step would be to secure the uterine vessels with the anterior and posterior folds of peritoneum, cutting and ligating without transfixing. There is no advantage to double clamping and or double ligation of the vessels if they are properly tied. The final step entails clamping the broad ligament and fundal structures into two clamps – One above and one below. The penultimate step would be to identify the anterior and posterior folds of peritoneum simply by holding the vaginal walls with allis tissue forceps and finding the peritoneal folds behind the vaginal edges. The peritoneum is transversely sutured in a continuous fashion. The sutures which were left long after ligating uterosacral- Mackenrodts complex are used for the closure of the vaginal vault. The anterior and the posterior edges of the vagina are closed with continuous interlocking sutures using vicryl 1 by fixing the stumps of the adnexa to the vaginal vault.

44. 31

45. 32

46. 33 The vagina is packed lightly using a ribbon gauze pack soaked in betadine. A Foley’s catheter is placed and both packed and catheter is removed the morning after surgery. Volume Reductive Vaginal Hysterectomy Recent interest in minimally invasive hysterectomy for enlarged uterine has rekindled a need for effective Transvaginal techniques of uterine removal. These have two components: Detachment of all lateral attachments of uterus and reduction of uterine volume. Currently employed strategies of volume reductive surgeries include uterine bivalving / bisection, myomectomy, wedge morcellation and intra myometrial coring. These techniques are safe and facilitate the vaginal removal of the moderately enlarged and well supported uterine without increasing perioperative morbidity. They reduce the operative time hemorrhage and lower post operative complications. Bisection The simplest form of debulking is bisection. After Mackenrodt’s ligament and uterine vessels of both sides have been clamped, cut and ligated, the cervix is grasped on both sides and the uterus is bisected sagittally towards the fundus using a scalp. Bisection is carried out always under direct vision and always through the uterine cavity to maintain anatomical orientation; lateral deviation at the level of the fundus will result in increased bleeding. The apex of the incision is pulled into view with clamps applied bilaterally to its edges and the process is continued.

47. 34 Complete bisection allows half the uterus to be delivered through the vagina and the ovarian pedicle to be secured. Myomas in the line of incision may be bisected together with uterus or enucleated and removed separately if they present a barrier to uterine descent. Myomectomy / Enucleation Myomectomy is frequently combined with bisection when myoma is seen bulging after bisection. Smaller myomas are removed in one piece while larger ones may be morcellated and removed in fragments. The most accessible and the largest fibroid is selected, the lower portion of the proximal large fibroid is grasped and separated from the uterine walls circumferentially by finger dissection. Morcellation Morcellation is carried out on the uterus when despite bisection or Myomectomy, no further descent is possible. Morcellation can be done in form of wedge resection (Pryor technique) or slicing method. Pryor technique is well suited to a broad sub pubic arch. After division the uterine arteries, bladder is retracted and the anterior uterine wall divided in the midline as high as possible. Beginning at the cervix, wedge shaped pieces of uterine wall are cut bilaterally from the edges of the midline incision as the everted edges of the incisions are serially grasped and pulled further down while the bladder is retracted to expose more of the uterine tissue. What appears of the uterine tissue is again split in the midline and from each side a wedge of tissue is symmetrically removed. Large myomas are enucleated when they are encountered either digitally or with clamp traction and scissors dissection from surrounding myometrium as in

48. 35 conventional Myomectomy. When the cornu comes into view it is sometimes helpful to excise a large midline wedge from the fundus the base of which is top of the uterus. On its removal, the adnexa will come still further into view. At this point, the adnexal attachments are divided and the remaining posterior uterine wall may be removed intact or hemi-sected. Slicing Method Goel et al improvised slicing method to deal with problems of Adenomyosis. After bisecting the uterus the inner surface is exposed and the myometrial tissue is sliced off the uterus layer by layer. Care is taken not to pierce the serosa so as to avoid the inadvertent injury to intraperitoneal structures. Once the bulk is removed, hysterectomy is completed. Intramyometrial Coring (Lash Procedure) Coring is best suited to the removal of smoothly enlarged globular uterus, but is applicable to most uteri of moderate size. As for hemi-section it may be complimented by interspersed myomectomies. As this maneuver is continued the enlarged uterine fundus delivers as an elongated sausage shaped mass caused by inversion of the serosa and fundus in a process likened to peeling a banana. For maximum effect the incision should be maintained close to the serosa and parallel to the uterine cavity avoiding creation of multiple planes. Coring demands less cervical traction than other morcellation techniques and requires less room beneath the sub pubic arch than the semi section. Volume reductive vaginal hysterectomy is an indispensable technique for large uterus and should be practiced more frequently. Vaginal hysterectomy for large

49. 36 uterine aided with reduction technique has clear surgical advantages for its economy and better patient satisfaction. Clampless Procedure The clampless procedure for NDVH is a novel approach for the vaginal route of removal of the uterus. It is particularly useful because one is working in the narrow confines of the vagina and using clamps would mean occupying more space. It is particularly useful in women with large uterus and in nulliparae. Here the surgeons identifies and ligates each stumps instead of clamping and ligating. Then applies traction on the ligature and cuts close to the uterus. Ligasure Vessel Sealing System in NDVH (Biclamp) Is a new hemostatic system based on the combination of pressure and bipolar electrical energy and is able to seal vessels up to 7 mm in diameter. The ligasure consists of: a. A bipolar radio-frequency generator- This delivers a low voltage, high power current using a continuous feedback and computerized algorithm that recognizes vessel sealing by alteration in tissue impedance. b. Hemostatic clamp – this resembles a Heaney forceps and is available in different lengths. All forceps have an integrated electric system: the two branches of the forceps function like the two electrodes of a bipolar forceps. The jaws of the forceps have a broad, smooth, steel coating which prevents tissue from sticking to the forceps and thereby reduces the risk of carbonization.

50. 37 Mechanism of action: 1. Mechanical; flattening and compression of the two sides of the vessel and displacement of blood. 2. Thermal: it delivers a controlled high power current at low voltage to melt the collagen and elastin in the tissue leading to permanent fusion of the vascular layers and obliteration of the lumen by forming a seal zone. Advantages: 1. More efficacious in achieving hemostasis in spaces with limited access for surgical suturing and thus subject to slippage and dislodgement. 2. Operator independent 3. Shorter operating time 4. Decrease in hospital stay 5. Avoidance of secondary bleeding 6. Reduced post operative pain: due to absence of tissue necrosis and foreign bodies (sutures) reduces the resorption process and phagocytosis thereby reducing pain. 7. Training curve is minimal : relatively easy to learn Complications: 1. skin/ mucosal burns 2. Thermal necrosis of the ureter 3. Thermal wounds in the digestive tract 4. Hemorrhage

51. 38 These vessel sealing system have made VH simpler, quicker and more cost effective. For patients they represent substantial progress with respect to the pain experienced and shorter hospital stay. Medical Debulking Myomas are very responsive to estrogenic stimulus. GnRH agonists are used for the suppression of the endogenous production of this hormone and thereby achieve reduction in the size of the fibroid. GnRH is administered intramuscularly as leuprolide acetate 3.75mg once a month for two doses or subcutaneously at 0.5mg/day for 8 weeks. The size of the uterus reduces in about 4 weeks, with the greatest effect seen at 12 weeks of therapy. The uterine volume is debulked by 30- 40%. With GnRH, the gynecologist achieves an endocrinological oophorectomy. This also helps in correcting anemia pre operatively. Complications a) Failed vaginal hysterectomy or conversion to Laparotomy- Reasons of failure of VH are many, like, difficulty in opening the anterior and the posterior pouches due to adhesions or myomas, restricted mobility of the uterus, error in the judgment of the uterus, inaccessible fibroids and also the inexperience of the surgeon. b) Hemorrhage – the most common complications of hysterectomy is bleeding which occurs in 4.7% of patients regardless of the route of hysterectomy.

52. 39 c) Bladder injury d) Rectal injury e) Ureteric injury f) Anesthetic complications g) Infections – UTI, vaginal cuff abscess

53. 40 REVIEW OF LITERATURE Uterine volume an aid to determine the route and technique of hysterectomy Shirlina D, Shirish S (2004) conducted a study to assess the value of uterine volume, estimated ultrasonographically to decide the route and technique of hysterectomy. 98 women scheduled for hysterectomy of benign conditions with uterine volume 700cm³ were included in the study. A correlation was estimated between the uterine volume and the post operative weight of the uterus. With increasing uterine volume undue vaginal wall retraction and traction on the cervix were required. When the volume was between 101 – 200 cm 3 vaginal hysterectomy was easy. For volume more than 300cm3, debulking was required. He concluded that with experience, expertise and favourable pelvic factors vaginal hysterectomy can be done up to uterine volume up to 500cm3. Preoperative sonographic assessment of uterine volume will prove of immense help in determining the route of hysterectomy and anticipating the ease or difficulties during the surgery. It also provides added advantages as it excludes adnexal pathology, confirms uterine size estimated clinically and gives details on fibroids thus reassuring the surgeon. Preoperative sonographic estimation of uterine volume: an aid to determine the route of hysterectomy. Seth SS, Shan NM (2002) conducted a study on 380 women with benign mobile uteri up to 18- 20 wks pregnant uterus size. Preoperative sonographic estimation was done in all the cases. No difficulties were encountered in the surgery where the uterine volume was below 200cm3. For volumes above 400cm3, debulking was always required. Vaginal hysterectomy failed in four cases with volumes of 500-

54. 41 700cm3. For volumes greater than 400cm3, vaginal hysterectomy should be considered on a trial basis. They concluded preoperative sonographic estimation can give a better three dimensional idea of the size of the uterus. Vaginal hysterectomy for the large uterus Magos A, Bournas N, SinhaR conducted a study to assess the feasibility of performing vaginal hysterectomy on enlarged uteri equivalent to 14-20 weeks size (1996). Fourteen consecutive women with symptomatic fibroid uteri between 14- 20 wks of gestation in size on clinical examination were recruited to undergo vaginal hysterectomy and monitored prospectively. The uterus was clinically mobile in all cases and none had significant uterovaginal prolapse. All the cases were completed successfully vaginally. Bisection morcellation were the most frequently used techniques for reducing the size of the uterus. The average time was 30- 150 min. There were no major complications. They concluded that vaginal hysterectomy was is a safe and effective option for the removal of enlarged uteri up to at least 18- 20 wks size. Vaginal hysterectomy for women with a moderately enlarged uterus weighing 200- 700gm Unger JB (1999) studied 30 consecutive women with uterine enlargement to a weight between 200-700gm who underwent vaginal hysterectomy or laparoscopic assisted vaginal hysterectomy. These patients with uterine enlargement were compared to 160 women with uterus weighing < 200gm who also underwent VH or LAVH. The two groups were compared for complications, operating time, hospital stay, perioperative hemoglobin concentration change and use of vaginal debulking and LAVH. In the enlarged uterus group operating time was significantly more and

55. 42 80% needed morcellation. But hemoglobin change, hospital stay and major surgical complications were the same. He concluded that although VH requires a modest increase in operating time, it is safe and effective for the women with a moderately enlarged uterus as for women with a uterus of normal size Intramyometrial coring ad an adjunct to VH S Robert Kovac(1986) reviewed retrospectively 902 hysterectomies, 727 performed vaginally and 175 abdominally. The technique of intramyometrial coring was used in 76% of the VH group. Surgical indication, length of the surgery, length of hospital stay and complications were analyzed. The evidence presented suggests that intramyometrial coring may be used for the vaginal removal of many uteri for which abdominal route has been traditionally the route of choice. Size and weight determinants of non gravid enlarged uteri FlickingerL, D Ablaing (1986) Uterine size was estimated in 66 women before hysterectomy by bimanual examination, uterine sounding and pelvic ultrasound. The results were compared with weight and dimensions recorded after removal. Uterine volume was calculated assuming the shape of uterus to be an ellipse. The relationship of uterine volume and weight was calculated using linear regression analysis. They found greater error in estimation of uterine size by bimanual examination and uterine sounding than the ultrasound. A close relation existed between the uterine size and the uterine weight.

56. 43 The relationship between ultrasonic volume and actual weight of pathologic uterus Kung FT, ChangSY(1996) assessed the correlation between the estimated volume based on ultrasonic measurement in vivo and the actual weight of the diseased uterus after hysterectomy, and then retrospectively tried to establish a simple equation to convert the volume into weight in grams. The uterine volume was calculated by the ellipsoid formula by ultrasonographic measurements. Actual weight immediately after extirpation of the uterus was done. They found a close, positive correlation between the estimated uterine volume and the actual weight. Vaginal hysterectomy for enlarged uteri, with or without laparoscopic assistance: randomized study Darai E, Soriano D compared short term results of vaginal hysterectomy with those of laparoscopically assisted vaginal hysterectomy in women with enlarged uteri. Eighty women with benign disease of the uterus of weight >280gms were assigned randomly to VH or LAVH. They found no difference in patient’s mean age, parity, previous pelvic surgery, preoperative hemoglobin levels and mean uterine weight. They concluded that VH can be successful even in women with enlarged uteri and other conditions considered by some to contraindicate the operation. Laparoscopically assisted vaginal hysterectomy offered no advantages over the standard vaginal hysterectomy.

57. 44 MATERIALS AND METHODS Cases for the present study were taken from the Women and Children hospital, Bapuji Hospital and Chigateri General Hospital, Davanagere from the period of Oct 2008 to July 2010. Total number of cases under my study was 50. These patients admitted to Gynec wards of the above hospitals, were scheduled for elective inpatient hysterectomy for various indications. Data was collected i.e. patient’s age, indications for hysterectomy, detailed clinical history which included patient’s complaints, duration, menstrual and obstetric history, any significant past, family and personal history. Clinical Examination includes • A detailed general physical examination was done for built and nourishment, blood pressure, pulse rate, presence or absence of pallor, lymphadenopathy and pedal edema. • Cardiovascular system and respiratory system were examined. • Per abdominal examination done for any previous surgical scars any palpable mass or tenderness. • Vulvo Vaginal examination, perspeculum examination, bimanual examination, done to identify any of the pelvic pathology. Pre-operative investigations included hemoglobin percentage, urine for albumin, sugar, microscopy, HIV, HBSAg, blood group and Rh typing, FBS/RBS, blood urea, serum creatinine, ECG, pre-operative ultra sonography for large uterine fibroid.

58. 45 After making primary diagnosis, the choice of route of hysterectomy is decided. The choice of the route depends on the following factors: a. Surgeons experience b. Assessment of the uterine size by bimanual examination c. Assessment of the mobility and the descent of the uterus d. Utrasonographic assessment of the uterine size and the volume e. Myoma Mapping Ease and difficulties encountered during surgery and time taken for the surgery were noted. Post operative uteri was weighed and compared with the uterine volume estimated pre operatively. The study has Inclusion criteria: A. Women scheduled for hysterectomy with uterine volume <700cm³ B. Indications were benign disorders like DUB, fibroids, adenomyosis. Exclusion criteria: A. Uterine volume >700cm³ or uterine size 18 – 20 weeks size B. Factors like restricted uterine mobility, presence of adnexal pathology.

59. 46 OBSERVATIONS AND RESULTS Total number of cases under study was 50. 39 cases under went vaginal hysterectomy and 11 cases under went abdominal hysterectomy. Graph – 1 : Age Distribution Graph. 1 shows age distribution among both vaginal hysterectomy and total abdominal hysterectomy groups. Maximum distribution is between 40~49yrs groups. Indications No of cases Fibroid 41 Adenomyosis 2 DUB 6 Endometrial Polyp 1 Age Distribution 0 5 10 15 20 25 30 35 40 Age Group No.OfCases Series1 1 13 34 2 < 30 30~39 40~49 >50 Table 5 – Indications for Hysterectomy

60. 47 As per shown in Table 1, 82%, 4%, 12%, 2% had primary diagnosis of fibroid, Adenomyosis, DUB and Endometrial Polyp respectively. Table 6 : Comparison of Uterine Size and Uterine Volume Uterine Size (In weeks) Uterine Volume 6-8 100-242 10-12 134-556 14-16 150-525 18 500-600 Table 2 shows comparison of uterine size in weeks with uterine volume. The volume increased proportionally with increasing uterine size. However, variation by 50 to 150cm3 occurred commonly in proportion to uterine size. Table 7 : Comparison of Uterine Volume and Uterine Weight Uterine volume (ml) Uterine Weight (gm) 100-200 90-200 200-300 100-250 300-400 250-350 400-500 300-400 > 500 400-600 As shown in the above table 3, there is a positive correlation between uterine volume and uterine weight measured post operatively.

61. 48 Table 8 : Route of Hysterectomy for all the cases Uterine Volume 100-200 201-300 301-400 401-500 >500 Number of cases 18 9 9 6 8 Route of Hysterectomy Vaginal Abdominal 17 1 9 - 8 1 4 2 1 7 Debulking 2 3 7 4 1 Uterus free pelvic space Plenty Adequate Decreased Inadequate Inadequate Range of time required for surgery 30-45 30-45 30-50 30-60 45-60 As shown in Table 4, uterine descent, access excision and delivery of the uterus encountered difficulty as uterine volume increased. The ease and difficulties were as per expectations. When the volume was between 100 -200cm³, vaginal hysterectomy was performed easily. In one case abdominal hysterectomy was performed as per surgeon’s preference. For volume between 200-300 cm³, VH was feasible, but required debulking in 3 cases. With uterine volume 300-400 cm³, one case underwent AH as there was a left sided ovarian cyst. Of all the 8 cases, 7 cases required debulking. For volume 400-500 cm³, trial of VH was considered for 6 cases of which 2 underwent AH as they had posterior wall fibroid impacted in the pelvis causing urinary retention. Of cases with uterine volume >500 cm³, one case underwent VH. The volume was 515 cm³. Debulking was done by bisection, morcellation and Myomectomy. Morcellation was done in 11 cases of which 3 cases had uterine volume 200-300 cm³

62. 49 and 9 cases had volume >300 cm³. Bisection was done for 14 cases of which 2 had volume >200 cm³ and 12 had volume >300 cm³. Myomectomy was done in 3 cases were the volume was >300 cm³. The greater the volume, the longer it took to complete the hysterectomy. The average time required increased by 10-15 minutes as the volume increased to more than 400 cm³.

63. 50 DISCUSSION Of the 50 cases studied 39 underwent vaginal hysterectomy and 11 underwent abdominal hysterectomy. The indications were benign disorders like fibroids, adenomyosis and DUB. The uterine volume of cases in the present study and the study conducted by Shirish Seth is compared below Uterine volume S Shirish study Present study 101- 200 27 18 201- 300 21 9 301- 400 7 9 401- 500 4 6 >500 3 8 In a study conducted by S S Seth in 98 cases, when the uterine volume was >500cm³ , out of the 3 cases one case failed to be completed vaginally due to adhesions and Laparotomy was resorted to. In the present study, out of 8 cases of uterine volume>500cm³, only one case was done vaginally. Others were done abdominally as per surgeon’s preference. Magos et al have concluded that the size of the uterus equivalent to 20 weeks gestational size should no longer be considered a contraindication to VH. He recruited 14 cases of symptomatic fibroid uterus between 14-20 weeks of gestational size on clinical examination to undergo VH. All 14 hysterectomies+ oophorectomy or salpingo oophorectomy were completed successfully vaginally by various methods of

64. 51 debulking like bisection, morcellation, coring. There was no major intra or immediate post op complications. In another study conducted by S S Seth, 380 women with enlarged uteri of size up to 18-20 weeks size underwent preop sonographic estimation of the uterine volume. They were scheduled for VH. Up to 400cm³ no difficulties were encountered for VH. For volume >400cm³, debulking was required in all cases as well as greater skill of the surgeon. VH failed in 4 cases with the uterine volume 500- 700 cm³. In the present study, it was observed that vaginal hysterectomy was done without difficulty up to 300cm³ and with debulking up to 400cm³. With uterine volume>500cm³, i.e., approximately>16 weeks pregnant uterus size the surgeons preferred abdominal rather than vaginal route. So, it was concluded that up to 300cm³ of uterine volume, vaginal route of hysterectomy should be the preferred route and if volume>400cm³, vaginal hysterectomy should be considered as a trial and proceeded with. With uterine volume >300 cm³, expertise and pelvic factor play a major role in determining the route.

65. 52 SUMMARY This study was done to prove that uterine volume measurement was superior to the clinical estimate of the uterine size in assessing the feasibility of vaginal hysterectomy in enlarged uteri. The total number of cases under the study was 50 of which 39 cases underwent vaginal hysterectomy and 11 cases under went total abdominal hysterectomy. Age distribution for hysterectomy was 40~49 years. Most common indication was fibroid uterus. Uterine volume was measured pre operatively by ultra sonography which correlated well with post operative uterine weight By bimanual examination, uterus > 12-14 weeks size were considered difficult to do vaginally. But with uterine volume estimation, up to 500cm³, i.e., 16-18 weeks size can be done by vaginal route. The feasibility of vaginal hysterectomy diminished with increasing uterine volume Debulking was required for all cases where uterine volume was > 400 cm3 . Thus uterine volume is of immense help in anticipating difficulties during hysterectomy in enlarged uteri.

66. 53 CONCLUSION Pre operative assessment of uterine volume will prove of immense help in deciding the route of hysterectomy and in anticipating ease or difficulties during surgery in cases of larger uterus. It proves to be an asset in counseling the patient and her family members pre-operatively. For a patient decided for hysterectomy vaginal route is the preferred one unless it is contraindicated. Vaginal hysterectomy is the least invasive route, with least morbidity, least expensive and with most rapid post operative recovery.

67. 54 BIBLIOGRAPHY 1. S.S. Seth, N.M Shah. Preoperative sonographic estimation of uterine volume; An aid to determine the route of Hysterectomy. Journal of Gynecological surgery 2002; 18(1): 13-22 2. Kung FT, Chang SY. The relationship between ultrasonic volume and the actual weight of the pathological uterus. Gynecol Obstet Invest. 1996; 42:35-8 3. Magos A., Bournas N, Sinha R et al. Vaginal Hysterectomy for the large uterus. Br J Obstet Gynecol 1996; 103: 246-51 4. Sheth SS. Vaginal Hysterectomy. In: Studd J, ed. Progress in Obstetrics and Gynecology – 10th ed. London: Churchill Livingstone, 1993: 317-40. 5. Leonardo RA, “History of Gynecology”. New York: Foben Press; 1944 6. Senn N., 1895, “ The early history of Vaginal Hysterectomy” JAMA, 25: 476- 82 7. Emile D., David S., Laplace “Vaginal Hysterectomy for enlarged uteri, with or without laparoscopic assistance: Randomized study”. Gynecol Obstet 2001; 97: 712-6 8. Benassi L., Kaihura .C., Galanti “ Abdominal or Vaginal Hysterectomy for enlarged Uteri: Randomized clinical trial”. AJOG 2002: 187(6);1561-5 9. S.S. Seth. “Scope of Vaginal Hysterectomy” EJOG 2004. 10. Lash A.F. “A method for reducing the size of the uterus in vaginal hysterectomy”. Am J Obstet Gynecol 1941; 42: 452-459.

68. 55 11. Brill H.M., Golden M. Vaginal Hysterectomy, the treatment of choice for benign enlargement of the uterus. Am J Obstet Gynecol 1951; 62:528-538. 12. Kovac R.S., Intramyometrial coring as an adjunct to vaginal hysterectomy. Obstet Gynecol 1986; 67: 131-136. 13. Grody M.H.T. Vaginal hysterectomy: The large uterus. J Gynecol surg 1989; 5: 301-312. 14. Richard D.C., J. A. Hawe and R. Garry. 15. Laparoscopicaly assisted hysterectomy for large uterus. 16. S. Robert Kovac. Guidelines to determine the route of hysterectomy. Obstet Gynecol 1995; 85: 18-23. 17. Flickinger L., D’ Ablaing, Mishell, Sie and weight determinations of nongravid enlarged uteri. Obstet Gynecol 1986; 68: 855-8 18. Kovac S.R., Cruikshank, Retto. Laparoscopy assisted vaginal hysterectomy. J Gynecologic surg. 1990; 6:185-93. 19. Unger J.B., Vaginal Hysterectomy for women with a moderately enlarged uterus weighing 200 to 700 gms. AJOG 1999; 180: 1337-44 20. Gitsch G, Berger E. Complications of Vaginal Hysterectomy under difficult circumstances. Arch Obstet Gynecol 1988; 249: 201-12 21. Heaney N.S A report of 565 vaginal Hysterectomies performed for benign diseases. AJOG 1934; 28: 751-5

69. 56 22. Dicker R.C., Greenspan, Strauss, Peterson HB et. Al. Complications of abdominal and vaginal hysterectomy among women of reproductive age in United States. AJOG 1982; 144: 841-8 23. Sheth S.S., Asher L.I. Clinical evolution of vaginal hysterectomy. J Obstet Gynecol India 1966; 6: 534-539 24. Tindall V.R. Hysterectomy and its aftermath. Jeffcoates principles of Gynecology. 25. Coppenhaver E.H. Vaginal Hysterectomy an analysis of indications and complications among 1000 operations. AJOG 1962; 84:123-128 26. Babcock W.W. The technique for vaginal hysterectomy. Surg Obstet Gynecol 1932; 54:193-199. 27. Howkins J., Stallworthy J. Vaginal Hysterectomy and Hysterocolpectomy. In: Bonney’s Gynecologic surgery. 28. Nichols D.H. Gynecologic and obstetric surgery. St. Louis: CV Mosby, 1993: 297-333

70. 57 ANNEXURE 1 PROFORMA NAME: IP NO: AGE: DOA: SEX: DOS: OCCUPATION: DOD: ADDRESS: PRESENTING COMPLAINT: Menstrual irregularity: Pain abdomen: MENSTRUAL HISTORY: AOM: PMC: LMP: OBSTETRIC HISTORY: Married life: Gravida: Para: Living: Abortion: Tubectomised:

71. 58 PAST HISTORY: FAMILY HISTORY: PERSONAL HISTORY: GENERAL PHYSICAL EXAMINATION: VITAL SIGNS: PR: BP: TEMPERATURE: SYSTEMIC EXAMINATION: CNS: CVS: RS: PER ABDOMEN EXAMINATION: Inspection: Palpation: Percussion: Auscultation: VULVOVAGINAL EXAMINATION:

72. 59 PERSPECULUM: PER VAGINAL EXAMINATION: Hb- Blood group- HIV- HBSAg- Blood urea- Serum creatinine- RBS- ECG- Urine routine- USG TRANSABDOMINAL ------- TRANS VAGINAL UTERINE VOLUME compared with UTERINE WEIGHT(post operative) Uterine volume(cm3) <100 101-200 201-300 301-400 401-500 >500 No of cases Route of hysterectomy Need for laparotomy Need for debulking Need to bisect Uterus free pelvic space Average time required for surgery NO: OF DAYS IN HOSPITAL:

73. 60 HYSTRECTOMY ABDOMINAL VAGINAL INTRA OPERATIVE COMPLICATIONS: POST OPERATIVE COMPLICATIONS: IMPRESSIONS:

74. ANNEXTURE II MASTER CHART

Uterine volume an aid to determine the route and technique

Uterine volume an aid to determine the route and technique

Uterine volume an aid to determine the route and technique

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