Comparison of minimally invasive surgical approaches for hysterectomy at a community hospital: robotic-assisted laparoscopic hysterectomy, laparoscopic-assisted vaginal hysterectomy and laparoscopic supracervical hysterectomy
verfasst von:
Bang N. Giep, Hoang N. Giep, Helen B. Hubert
The study reported here compares outcomes of three approaches to minimally invasive hysterectomy for benign indications, namely, robotic-assisted laparoscopic (RALH), laparoscopic-assisted vaginal (LAVH) and laparoscopic supracervical (LSH) hysterectomy. The total patient cohort comprised the first 237 patients undergoing robotic surgeries at our hospital between August 2007 and June 2009; the last 100 patients undergoing LAVH by the same surgeons between July 2006 and February 2008 and 165 patients undergoing LAVHs performed by nine surgeons between January 2008 and June 2009; 87 patients undergoing LSH by the same nine surgeons between January 2008 and June 2009. Among the RALH patients were cases of greater complexity: (1) higher prevalence of prior abdominopelvic surgery than that found among LAVH patients; (2) an increased number of procedures for endometriosis and pelvic reconstruction. Uterine weights also were greater in RALH patients [207.4 vs. 149.6 (LAVH; P < 0.001) and 141.1 g (LSH; P = 0.005)]. Despite case complexity, operative time was significantly lower in RALH than in LAVH (89.9 vs. 124.8 min, P < 0.001) and similar to that in LSH (89.6 min). Estimated blood loss was greater in LAVH (167.9 ml) than in RALH (59.0 ml, P < 0.001) or LSH (65.7 ml, P < 0.001). Length of hospital stay was shorter for RALH than for LAVH or LSH. Conversion and complication rates were low and similar across procedures. Multivariable regression indicated that LAVH, obesity, uterine weight ≥250 g and older age predicted significantly longer operative time. The learning curve for RALH demonstrated improved operative time over the case series. Our findings show the benefits of RALH over LAVH. Outcomes in RALH can be as good as or better than those in LSH, suggesting the latter should be the choice primarily for women desiring cervix-sparing surgery.
Introduction
Although abdominal hysterectomy still accounts for approximately two-thirds of all benign hysterectomies performed in the USA [1, 2], minimally invasive techniques for this procedure have been slowly gaining acceptance. Recently published national data for 2005 indicate that vaginal hysterectomies were performed in about 22% of cases and that 14% of hysterectomies were done laparoscopically [2]. Studies have shown that minimally invasive techniques for benign hysterectomy are safe for the patient and result in decreased morbidity, shorter hospital stays, and a faster return to normal activity compared to open procedures [3, 4]. However, with conventional laparoscopic surgery, the surgeon generally experiences some decrease in visual acuity, lack of tactile sensory input, and, thus, greater difficulty in mastering the approach. Difficulty with hand–eye coordination with laparoscopy and the non-articulated instruments also makes this approach more difficult to master. These factors may explain a large part of the reluctance to adopt minimally invasive laparoscopic approaches over abdominal hysterectomy.
Improvements in minimally invasive techniques were introduced with 2005 Federal Drug Administration (FDA) approval of the da Vinci Surgical System (Intuitive Surgical, Sunnyvale, CA) for use in gynecologic procedures. Since that time, the use of the robotic system for hysterectomy has been shown to shorten the learning curve for laparoscopically naïve surgeons with improved three-dimensional (3D) visual acuity, articulated wrist-like movement of instruments without tremor and ergonomic seating [5‐7].
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Few studies have compared clinical outcomes of the robot system with other minimally invasive techniques for hysterectomy. Payne and Dauterive demonstrated that patients who had undergone robotic-assisted compared to total laparoscopic hysterectomy had similar complication rates, but significantly less blood loss, fewer conversions to laparotomy and shorter hospital stays [7]. A recent investigation comparing robotic-assisted to traditional laparoscopic hysterectomy confirmed these findings [8]. A similar comparative study showed shorter hospital stays but longer operative times for patients who underwent a robotic procedure [9]. A number of studies have compared laparoscopic supracervical hysterectomy (LSH) to laparoscopic-assisted vaginal hysterectomy (LAVH) or to total laparoscopic hysterectomy. Results have repeatedly shown better outcomes with LSH than LAVH, i.e., shorter operative time, less blood loss and lower complication rates [10‐12]. To date, however, there have been no comparative studies of robotic-assisted laparoscopic hysterectomy (RALH) to LAVH alone or to LSH. The goal of the study reported here was to provide such comparative data on clinical outcomes and learning curves for minimally invasive procedures in a community-practice setting.
Materials and methods
Patients and cases
The Spartanburg Regional Healthcare System is an integrated healthcare system delivering services, including ambulatory and inpatient surgery, to several counties in North and South Carolina. This study compares hysterectomies performed by multiple community surgeons at the Spartanburg Regional Medical Center, a facility within that system. Only two surgeons performed RALH during the time period of this study (BG, HG), so the robotic cohort (n = 237) includes their entire consecutive RALH experience beginning with the first patient in August 2007 through to June 2009. Between July 2006 and February 2008, these same surgeons performed their last 100 LAVHs, transitioning almost exclusively to RALH in the latter half of 2007. Thus, the LAVH cohort for this study includes their last consecutive patients (n = 100) along with those of nine other gynecologists who performed LAVH at the same institution between January 2008 and June 2009 (n = 165), for a total of 265 LAVH cases. In addition, consecutive LSH patients of the nine other gynecologists (n = 87) were identified during a similar time period, January 2008 to June 2009. Patients were selected for LSH, rather than LAVH, if they preferred a procedure that spared the cervix or if the surgeon believed it to be a better choice. There were too few total laparoscopic hysterectomies performed at the hospital during this time to form another comparison group. Every patient included in this study presented with a benign gynecologic condition.
Surgical procedures
All procedures were performed under general endotracheal anesthesia with preoperative antibiotics given. A steep Trendelenburg position was used with a gel pad underneath the patient for stabilization. A Foley catheter and uterine manipulator were placed for all surgeries.
Robotic-assisted laparoscopic hysterectomy
A 8.5-mm trocar was placed at the umbilicus and 8-mm trocars were placed in the right and left lower quadrants. A 11-mm bladeless trocar was placed in the right upper quadrant. Docking of the robotic arms to the trocars followed by insertion of the 3-D camera was completed. A Gyrus PK Dissector (Gyrus ACMI, Maple Grove, MN) and monopolar scissors were inserted, at which time the console portion of the procedure began. Dissection of the bilateral round ligaments, adnexa and broad ligaments was performed in the standard manner. The bladder flap was created with a combination of sharp and blunt dissection. A colpotomy was performed with the monopolar scissors and carried circumferentially until the specimen was amputated from the vagina. The specimen was either removed vaginally or endoscopically, and the vaginal cuff was closed laparoscopically with interrupted figure-of-eight stitches of 0 Vicryl.
Laparoscopic-assisted vaginal hysterectomy
To begin, the laparoscope was placed through a 5-mm umbilical trocar. Three additional 5-mm ports were placed in the right and left lower quadrants and suprapubically. A Maryland bipolar dissector was used. Dissection of the bilateral round ligaments, adnexa, and broad ligaments was performed in the standard manner. The bladder flap was created with a combination of sharp and blunt dissection. A small anterior colpotomy was performed with monopolar scissors. The remainder of the procedure was completed vaginally. A posterior colpotomy was performed sharply, and then cardino-uterosacral ligaments and uterine vessels were divided and sutured. After the specimen was removed vaginally, the vaginal cuff was closed with 0 Vicryl in a running locked fashion.
Laparoscopic supracervical hysterectomy
A 5-mm trocar was placed at the umbilicus and two additional 5-mm trocars were placed in the right and left lower quadrants. Dissection of the bilateral round ligaments, adnexa and broad ligaments was performed in the standard manner using either Harmonic ACE curved shears (Ethicon, Cincinnati, OH) or a LigaSure (Covidien, Mansfield, MA) device. The bladder was dissected free from the lower uterine segment, and the uterine vessels were coagulated and transected. The uterus was amputated from the cervix using either monopolar scissors or the Harmonic ACE curved shears and the endocervical canal fulgurated with the monopolar scissors. The specimen was then extracted with a Gynecare Morcellex Tissue Morcellator (Ethicon).
Patient characteristics and clinical procedures
The Institutional Review Board of Spartanburg Regional Hospital approved this study. A standardized retrospective chart review was completed by the research nursing staff, and quality control procedures included verification of data inconsistencies and outliers using the medical records. The following characteristics were obtained for all patients: age, body mass index (BMI), the presence or absence of previous abdominopelvic surgery, gravidity, parity, and the primary indication for surgery. Perioperative characteristics included concomitant procedures performed with the hysterectomy reflecting the complexity of the surgery, skin-to-skin operative time (defined as Foley catheter insertion to skin closure), uterine weight, conversion to laparotomy, estimated blood loss (EBL), length of hospital stay and intraoperative and postoperative complications up to 30 days post-discharge. Estimated blood loss was determined initially by canister collection as the differential between aspirated and irrigated fluids and necessitated agreement between the surgeon and anesthesiologist. Blood collection was later done with the Stryker Neptune system that also enabled quantification of very small amounts of blood loss that went undetectable using the original system. Thus, if no blood was detected by the canister collection method, EBL was recorded as 25 ml. Minor complications following discharge (such as urinary tract infection) were captured on the patient follow-up visit for robotic surgery. However, these were not available on all LAVH and LSH patients. Therefore, with regard to postoperative complications, only those patients requiring a visit to the emergency room or a readmission to the hospital were reported in this study.
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Statistical analyses
Data analyses included all pair-wise comparisons of minimally invasive surgical methods, namely, RALH to each of the two other approaches (LAVH and LSH) as well as LAVH to LSH, using SAS software ver. 9.2.1 (SAS Institute, Cary, NC). Continuous variables were compared using two-sample t tests. Discrete variables were analyzed using chi-squared tests or Fisher’s exact test with continuity correction. In addition, multivariable regression analyses were used to identify patient and procedure characteristics that had a significant impact on operative time. To identify changes in operative time, blood loss and uterine weight that could be associated with surgical experience, these parameters were compared over the consecutive patient series for the RALH and LAVH procedures performed by the same surgeons (BG, HG). In all instances a P value < 0.05 was considered to be statistically significant.
Results
Comparisons of preoperative patient characteristics are shown in Table 1. The most frequent primary indication for benign hysterectomy among these patients was abnormal uterine bleeding in RALH (50%) and LAVH (36%) and fibroids in LSH (39%). Endometriosis was the third most frequent indication, ranging from 8% in RALH patients to almost 21% in LSH cases. The age range of all patients was 23–78 years. Those who underwent LSH were younger on average than either RALH (P = 0.067) or LAVH (P = 0.006) patients by 1.5 and 2.5 years, respectively, not surprising given the desire for a cervix-preserving procedure. Differences in gravidity and parity followed similar trends, with RALH patients having had significantly fewer pregnancies and live births than either LAVH or LSH patients, with no differences between those in the LAVH and LSH groups. Means for BMI indicate that many patients were obese (BMI ≥ 30) or bordering on obesity. Differences in BMI by approach were small, and comparisons were not statistically significant. A large proportion of patients had undergone prior abdominopelvic surgery, with RALH patients exhibiting the highest percentage (83.1%), which was significantly greater than that in patients who underwent LAVH (73.2%; P = 0.01). Patients who underwent LSH did not differ from the other groups with respect to prior surgery. Comparisons of preoperative characteristics between LAVH patients of Drs. Giep versus the other nine surgeons show very similar baseline profiles, with almost identical mean ages (42.6 vs. 42.4 years, respectively) and very similar mean BMI (29.9 vs. 29.5 kg/m2, respectively) and proportion with prior abdominopelvic surgeries (75.2 vs. 70.0%). These findings provide reassurance that patients from the two groups of surgeons combined as one LAVH cohort were very similar.
Table 1
Preoperative characteristics by minimally invasive approach to hysterectomy
Preoperative characteristics
RALH (n = 237)
LAVH (n = 265)
LSH (n = 87)
P value
Primary indication for surgery, n (%)
Benign pelvic mass
1 (0.4)
–
–
Abnormal uterine bleeding
119 (50.2)
96 (36.2)
28 (32.2)
Fibroids
68 (28.7)
89 (33.6)
34 (39.1)
Endometriosis
19 (8.0)
27 (10.2)
18 (20.7)
Pelvic pain
11 (4.6)
14 (5.3)
–
Abnormal PAP
–
1 (0.4)
–
Pelvic relaxation
16 (6.8)
7 (2.6)
–
Ovarian cyst
–
2 (0.8)
3 (3.4)
Prolapse (uterine/vaginal)
3 (1.3)
17 (6.4)
–
Other
–
12 (4.5)
4 (4.6)
Age (years)
Mean (SD)
41.5 (8.4)
42.5 (10.6)
39.9 (6.3)
0.240a
95% CI
40.4–42.5
41.2–43.8
38.6–41.3
0.067b
0.006c
Gravidity, n (%)
0
24 (10.1)
8 (3.0)
3 (3.4)
0.003a
1
38 (16.0)
40 (15.1)
8 (9.2)
0.009b
≥2
175 (73.9)
217 (81.9)
76 (87.4)
0.387c
Parity, n (%)
0
28 (11.8)
13 (4.9)
4 (4.6)
0.007a
1
46 (19.4)
48 (18.1)
9 (10.3)
0.004b
≥2
163 (68.8)
204 (77.0)
74 (85.1)
0.207c
BMI
Mean (SD)
30.3 (7.5)
29.9 (6.7)
31.2 (7.7)
0.530a
95% CI
29.4–31.2
29.0–30.7
29.6–32.8
0.343b
0.132c
Prior abdominal or pelvic surgery, n (%)
197 (83.1)
194 (73.2)
69 (79.3)
0.010a
0.529b
0.320c
RALH Robotic-assisted laparoscopic hysterectomy, LAVH laparoscopic-assisted vaginal hysterectomy, LSH laparoscopic supracervical hysterectomy, SD standard deviation, CI confidence interval
aComparison of RALH to LAVH
bComparison of RALH to LSH
cComparison of LAVH to LSH
Examination of intraoperative characteristics by approach indicates that concomitant procedures were more often performed with RALH (in 50.6% of surgeries) than with either LAVH (in 26%) or LSH (in 20.6%; Table 2). Specifically, the proportion of patients who had surgical procedures for endometriosis or lysis of adhesions was significantly greater in the RALH group than in the LAVH (P < 0.001) or LSH (P < 0.001) groups. Similar findings were evident for pelvic reconstruction (RALH vs. LAVH P = 0.012, RALH vs. LSH P < 0.001). Most pelvic reconstruction involved robotically assisted uterosacral fixation, anterior and posterior repair and pubovaginal sling with cystoscopy. These procedures would be expected to contribute to an increase in operative time. Although the rates of pelvic reconstruction were low in both LAVH and LSH, they were statistically higher in LAVH (4.9%) than LSH (3.4%; P = 0.04). Uterine weights ranged from 24 to 1,233 g. The mean uterine weight was similar in LAVH and LSH patients but differed significantly from that of RALH cases who had the largest uteri (207.4 ± 194.5 (RALH) vs. 149.6 ± 118.7 (LAVH) g, P < .001; vs. 141.1 ± 172.5 (LSH) g, P = 0.005]. The percentage of patients with uteri of at least 250 g was 23.2% in RALH compared to 9.1 and 8.0% in LAVH (P < 0.001) and LSH (P = 0.004), respectively. However, mean skin-to-skin operative time was 35 min longer for LAVH patients compared to both RALH and LSH patients for whom procedures took approximately 1.5 h on average (both comparisons, P < 0.001). Similarly, estimated blood loss was highest in LAVH, being over 100 ml greater than in RALH and LSH (both comparisons, P < 0.001). Length of hospital stay was short for all approaches, but significantly shorter for RALH patients than either LAVH (P < 0.001) or LSH (P = 0.022) patients.
Table 2
Intraoperative and perioperative characteristics by minimally invasive approach to hysterectomy
Intraoperative and perioperative characteristics
RALH (n = 237)
LAVH (n = 265)
LSH (n = 87)
P value
Concomitant procedures, n (%)
Endometriosis/lysis of adhesions
93 (39.2)
56 (21.1)
15 (17.2)
<0.001a
<0.001b
0.520c
Pelvic reconstruction
27 (11.4)
13 (4.9)
3 (3.4)
0.012a
<0.001b
0.044c
Uterine weight (g)
Mean (SD)
207.4 (194.5)
149.6 (118.7)
141.1 (172.5)
<0.001a
95% CI
182.5–232.6
134.9–164.3
105.2–177.1
0.005b
0.670c
Stratified uterine weight
<250 g
182 (76.8)
241 (90.9)
80 (92.0)
<0.001a
≥250 g
55 (23.2)
24 (9.1)
7 (8.0)
0.004b
0.867c
Skin to skin operative time (min)
Mean (SD)
89.9 (37.5)
124.8 (48.7)
89.6 (38.0)
<0.001a
95% CI
84.9–94.5
118.9–130.7
80.9–98.5
0.949b
<0.001c
Estimated blood loss (ml)
Mean (SD)
59.0 (75.7)
167.9 (146.0)
65.7 (60.7)
<0.001a
95% CI
49.2–68.6
150.2–185.6
52.7–78.6
0.412b
<0.001c
Length of hospital stay (days)
Mean (SD)
1.0 (0.1)
1.2 (0.7)
1.2 (0.8)
<0.001a
95% CI
1.0–1.03
1.1–1.2
1.0–1.4
0.022b
1.00c
Conversion, n (%)
4 (1.7)
1 (0.4)
None
0.194a
0.577b
1.00c
Intraoperative complications, n (%)
1 (0.4)
1 (0.4)
None
NA
Postoperative complications, n (%)
8 (3.4)
4 (1.5)
2 (2.3)
0.243a
1.00b
0.640c
RALH Robotic-assisted laparoscopic hysterectomy, LAVH laparoscopic-assisted vaginal hysterectomy, LSH laparoscopic supracervical hysterectomy, SD standard deviation, CI confidence interval, NA Not available
aComparison of RALH to LAVH
bComparison of RALH to LSH
cComparison of LAVH to LSH
The rates of conversion to an open procedure were low, ranging from zero to 1.7%, and did not differ by surgical approach (Table 2). The conversions in the RALH group occurred early in the learning curve. Two conversions were within the first 25 cases and another two within the first 150 cases. These occurred in patients with large uteri where there was difficulty in accessing the blood vessels. Similarly, one conversion in the LAVH group occurred in a patient with a 16-week uterus where it was difficult to maintain hemostasis while proceeding laparoscopically. This patient was subsequently converted to an abdominal hysterectomy. Rates of intraoperative and postoperative complications within 30 days of surgery were low across the three surgical approaches: the overall rates totaled 3.8% for RALH, 1.9% for LAVH and 2.3% for LSH, with the majority being minor in severity. No statistically significant differences were noted by surgical method. In both the RALH and LAVH cohorts, there was one intraoperative cystotomy repair with no further sequelae. There were also two patients with incisional infections and one with a bacterial infection in the RALH cohort; these were treated with antibiotics during their hospital stay. One patient in the robotic cohort and one in the LAVH cohort experienced a pelvic abscess that was subsequently drained and treated. There were no instances of cuff dehiscence requiring repair in any of the cohorts. There was one patient in the robotic group who was treated for cuff cellulitis, and two patients reported bleeding from the vaginal cuff in the RALH and LAVH cohorts. Both of these latter complications were resolved without the need for reintervention. During the perioperative period, one patient in the robotic group suffered a pulmonary embolism that was treated by anticoagulation with heparin and then enoxaparin (Lovenox). Atelectasis was noted in three patients, one from the LAVH cohort and two in the LSH cohort.
Comparisons of perioperative characteristics for the LAVH procedures performed by Drs. Giep versus the other surgeons show similar patient uterine weights (153.4 ± 124.5 vs. 147.0 ± 114.4 g, respectively), EBL (157.3 ± 111.4 vs. 173.6 ± 163.3 ml, respectively) and length of hospital stay (1.1 vs. 1.2 days, respectively). However, operative time was significantly shorter for procedures performed by Drs. Giep given their extensive experience with laparoscopic procedures (101.5 ± 39.7 vs. 138.9 ± 48.4; P < .001).
Multivariable linear regression was used to identify those characteristics of the patients and the approach that were significant predictors of skin-to-skin operative time. The characteristics considered included patient age (dichotomized above or below the median age = 41 years), obesity (BMI <30, ≥30), previous abdominal or pelvic surgery, uterine weight (<250 g, ≥250 g), any concomitant procedure beyond hysterectomy with salpingo-oophorectomy and approach to surgery (RALH, LAVH, LSH). Younger age (P < 0.001), BMI <30 (P = 0.02), uterine weight <250 g (P < 0.001) and surgery other than LAVH (P < 0.001) were all independently associated with shorter operative times (data not shown). On average, the operative times were longer for older patients versus younger ones (21 min), for obese patients versus non-obese patients (8 min), for greater uterine weight patients versus those with a smaller uterus (24 min) and for those undergoing LAVH surgeries vs. those undergoing LSH and RALH (35 min).
Data points, representing the means of 25 sequential patients, were generated for skin-to-skin times, uterine weights and EBL over the entire case series for the RALH patients and for the comparable 100 LAVH patients whose procedures were performed by the same surgeons (HG, BG). Comparisons of the first 25 cases to the last showed no statistically significant differences for any of the LAVH parameters, although uterine weights generally increased with longer surgical experience (data not shown). Similar findings were evident in RALH for uterine weight and EBL (comparison of first and last data points, P = 0.189 and P = 0.875, respectively). However, operative skin-to-skin time significantly decreased with surgical experience (comparison of first 25 to last 37 patients, P = 0.003, Fig. 1). The first 25 RALH patients had a mean operative time of 106.4 min, which is comparable to that of the LAVH procedures (101.5 min) and significantly different from the last patients’ operative time of 76.5 min. Furthermore, as suggested by the regression analyses above, operative time varied with changes in uterine weight over time (Fig. 1).
Fig. 1
Learning curve for robotic-assisted laparoscopic hysterectomy (RALH). Solid black line connects the mean skin-to-skin operative times at 25-case intervals for RALH (P = 0.003 for mean of first 25 vs. last 37 patients). Dashed black line Mean skin-to-skin time for 100 comparable laparoscopic-assisted vaginal hysterectomy (LAVH) patients (HG, BG only). There were no significant differences in operative time for the first 25 LAVH cases vs. the last 25 cases, P = 0.59. Gray bars Mean uterine weights corresponding to the each of the RALH 25-case intervals (P = 0.189 comparing first 25 vs. last 37 cases)
×
Discussion
The results of this study show that while each of the three minimally invasive procedures had similar conversion and complication rates, there were distinct differences with regard to other perioperative outcomes. Although patients who underwent RALH had a higher rate of prior abdominopelvic surgeries than LAVH patients and more concomitant procedures performed and greater uterine weights than either LAVH or LSH patients, they experienced significantly lower operative times and EBL than LAVH patients and a significantly shorter length of hospital stay than either LAVH or LSH patients. Operative times were 35 min longer and EBL 100 ml greater on average for LAVH patients than for those who underwent either the LSH or RALH procedures for whom these outcomes were comparable.
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Multivariable analysis of the independent predictors of operative time confirmed the findings with regard to the impact of LAVH compared to LSH and RALH and further showed that older age, obesity, and large uteri (≥250 g) in particular were also associated with longer surgical time. Despite the complexity of cases undertaken with RALH, including those with larger uteri, prior surgery and necessary concomitant procedures, the learning curve for operative time continued to improve over the case series, with mean times dropping from 106 to 76 min over the 23 months of surgery. The average operative time for the last 100 LAVH cases performed by the same surgeons was 102 min, with no noticeable decrease over the 20 months observed.
As previously mentioned, there are few published comparative studies on the outcomes of benign hysterectomy that include robotic procedures. Payne and Dauterive, who compared total laparoscopic hysterectomy in their last 100 patients to RALH in their first 100 patients, found longer average operative times for RALH but significantly shorter times in their last 25 robotic cases [7]. As in the our study, patients undergoing the total laparoscopic procedure had a greater EBL and a longer hospital stay than those undergoing the robotic hysterectomy. These researchers also found low complication rates that were similar in the two patient groups. A recently completed study also demonstrated significantly greater blood loss and longer hospital stay with standard laparoscopic hysterectomy compared to RALH [8]. While complication rates were similar in the two groups, conversion rates were significantly higher in the conventional laparoscopic cohort. A similar comparative investigation showed that robotic hysterectomy patients had significantly shorter hospital stays but longer operative times than patients who underwent total laparoscopic hysterectomy [9]. To date, no comparative studies of RALH and LSH have been identified in the Medline literature database. Our study findings also indicate that outcomes in RALH, despite the increased complexity of the cases, were comparable to or better than those in LSH, suggesting that LSH should be considered for women primarily as a cervix-sparing surgery.
Studies comparing other minimally invasive procedures for hysterectomy are numerous and, as in our investigation, generally indicate better outcomes for patients undergoing LSH than LAVH. These better outcomes may be attributed to the fact that the LSH procedure avoids what can be a difficult bladder dissection that is required in LAVH. Milad and colleagues found that LSH patients had significantly shorter operative times and hospital stays, less blood loss and a lower complication rate than LAVH patients [11]. Similar to the results in our study, a large multi-center study investigation with matched groups of patients demonstrated significantly less blood loss and shorter operative times (by 30 min) in the LSH patients compared to the LAVH patients and no difference in hospital stays [12]. Another large study of women undergoing a classic intrafascial supracervical hysterectomy reported lower complication rates and smaller amounts of EBL when compared to patients undergoing LAVH [13].
Several studies of hysterectomy for benign indications have also suggested that greater uterine weights or obesity are associated with longer operative times. Boggess et al. found that among preoperative patient characteristics, only uterine weight >250 g was associated with increased operative time in RALH [14]. A comparative investigation of robotic and conventional laparoscopic hysterectomy reported significant independent effects of BMI and uterine weight on operative times [9]. Studies of robotic gynecologic procedures in patients unselected for pathology have also reported a relationship between greater uterine weight and longer duration of surgery or console time [6, 15]. This relationship is usually attributed to the greater time needed for morcellation and/or removal of larger specimens. Investigations of other patients undergoing conventional laparoscopic hysterectomy generally confirm our findings regarding the impact of large uterine weight on operative time [16‐18]. Several studies also have demonstrated a relationship between obesity and longer operative times in robotic or conventional laparoscopic hysterectomy [15, 19].
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Other investigators have described the learning curve for robotic hysterectomy. They have documented shorter operative time with greater experience of the primary surgeon [5‐7]. However, as surgeons become comfortable and competent in this technique, they also tend to take on more complex cases, a factor that could negatively impact operative time over a case series. Our study shows a visual example of the how operative time trends with the size of uteri in patients undergoing RALH over time.
The limitations to our study include the retrospective, observational nature of the design, introducing the potential for bias. However, with the exception of the small age difference in LSH patients, baseline characteristics of the three patient groups were fairly similar. RALH patients had a greater proportion of prior abdominopelvic surgeries and concomitant procedures and larger uterine weights than LAVH patients, but such differences would have only served to introduce a bias toward better LAVH outcomes. Our findings with regard to RALH versus LAVH do not support such a bias, although the differences found between RALH and LAVH may be conservative as a result. Misclassification errors, common in retrospective studies, also may have served to weaken tests of differences between surgical approaches. Furthermore, complication rates were low due to the exclusion of minor conditions, such as urinary tract infections, which may not have been captured during clinic visits after hospital discharge. These conditions were not routinely noted across all procedures and, therefore, could not be included.
Conclusion
Although the RALH patients in this study presented as the most complex cases in terms of prior pelvic surgery, concomitant procedures and uterine weight, they had better clinical outcomes with respect to operative time, EBL and length of hospital stay than the patients undergoing LAVH. On average, the operative time was 35 min longer and the EBL was 100 ml greater for LAVH patients than for either RALH or LSH patients. Length of hospital stay was significantly greater for both LAVH and LSH patients (mean 1.2 days) than for RALH patients (mean 1.0 days). Other outcomes for LSH were similar to those for RALH. Conversions to laparotomy and intraoperative and postoperative complications were similar in the three patient groups. Our analysis of the learning curves suggest that operative time for RALH may continue to improve beyond the initial patient series despite the increased complexity of cases undergoing this procedure. The results of this study lend support to the small but growing body of literature describing the benefits of minimally invasive robotic-assisted laparoscopic over conventional laparoscopic-assisted vaginal hysterectomy. Our findings also demonstrate that outcomes with robotic surgery are as good as or even better than those for laparoscopic supracervical hysterectomy, suggesting that decisions regarding choice of the latter approach be based primarily on the desire for a cervix-sparing procedure.
Acknowledgments
The authors wish to thank Usha Kreaden, MSc of Intuitive Surgical for statistical support during the completion of this manuscript.
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Conflicts of interest
Drs. Bang and Hoang Giep are members of Intuitive Surgical’s Speakers’ Bureau, Proctor Cases, and have actively been running “Epicenter” programs at their institution. Dr. Hubert is an epidemiologist who consults with Intuitive Surgical.
Open Access
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Open AccessThis is an open access article distributed under the terms of the Creative Commons Attribution Noncommercial License (https://creativecommons.org/licenses/by-nc/2.0), which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
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Comparison of minimally invasive surgical approaches for hysterectomy at a community hospital: robotic-assisted laparoscopic hysterectomy, laparoscopic-assisted vaginal hysterectomy and laparoscopic supracervical hysterectomy
In der Notaufnahme wird die Chance, Opfer von häuslicher Gewalt zu identifizieren, von Orthopäden und Orthopädinnen offenbar zu wenig genutzt. Darauf deuten die Ergebnisse einer Fragebogenstudie an der Sahlgrenska-Universität in Schweden hin.
Darüber reden und aus Fehlern lernen, sollte das Motto in der Medizin lauten. Und zwar nicht nur im Sinne der Patientensicherheit. Eine negative Fehlerkultur kann auch die Behandelnden ernsthaft krank machen, warnt Prof. Dr. Reinhard Strametz. Ein Plädoyer und ein Leitfaden für den offenen Umgang mit kritischen Ereignissen in Medizin und Pflege.
Ein Frauenanteil von mindestens einem Drittel im ärztlichen Op.-Team war in einer großen retrospektiven Studie aus Kanada mit einer signifikanten Reduktion der postoperativen Morbidität assoziiert.
Sie sei „ethisch geboten“, meint Gesundheitsminister Karl Lauterbach: mehr Transparenz über die Qualität von Klinikbehandlungen. Um sie abzubilden, lässt er gegen den Widerstand vieler Länder einen virtuellen Klinik-Atlas freischalten.
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Das Karpaltunnelsyndrom ist die häufigste Kompressionsneuropathie peripherer Nerven. Obwohl die Anamnese mit dem nächtlichen Einschlafen der Hand (Brachialgia parästhetica nocturna) sehr typisch ist, ist eine klinisch-neurologische Untersuchung und Elektroneurografie in manchen Fällen auch eine Neurosonografie erforderlich. Im Anfangsstadium sind konservative Maßnahmen (Handgelenksschiene, Ergotherapie) empfehlenswert. Bei nicht Ansprechen der konservativen Therapie oder Auftreten von neurologischen Ausfällen ist eine Dekompression des N. medianus am Karpaltunnel indiziert.
Das Webinar beschäftigt sich mit Fragen und Antworten zu Diagnostik und Klassifikation sowie Möglichkeiten des Ausschlusses von Zusatzverletzungen. Die Referenten erläutern, welche Frakturen konservativ behandelt werden können und wie. Das Webinar beantwortet die Frage nach aktuellen operativen Therapiekonzepten: Welcher Zugang, welches Osteosynthesematerial? Auf was muss bei der Nachbehandlung der distalen Radiusfraktur geachtet werden?
Inhalte des Webinars zur S1-Leitlinie „Empfehlungen zur Therapie der akuten Appendizitis bei Erwachsenen“ sind die Darstellung des Projektes und des Erstellungswegs zur S1-Leitlinie, die Erläuterung der klinischen Relevanz der Klassifikation EAES 2015, die wissenschaftliche Begründung der wichtigsten Empfehlungen und die Darstellung stadiengerechter Therapieoptionen.
