Abstract
Background
Several difficulty grading systems have been developed as a useful tool for selecting patients and training surgeons in laparoscopic procedures. However, there is little information on predicting the difficulty of laparoscopic donor nephrectomy (LDN). The aim of this study was to develop a grading system to predict the difficulty of LDN.
Methods
Data of 1741 living donors, who underwent pure or hand-assisted LDN between 1994 and 2018 were analyzed. Multivariable analyses were performed to identify factors associated with prolonged operative time, defined as a difficulty index with 0 to 8. The difficulty of LDN was classified into three levels based on the difficulty index.
Results
Multivariable analyses identified that male (odds ratio [OR] 1.69, 95% CI 1.37–2.09, P < 0.001), BMI > 28 (OR 1.36, 95% CI 1.08–1.72, P = 0.009), pure LDN (OR 1.99, 95% CI 1.53–2.60, P < 0.001), multiple renal arteries (OR 2.38, 95% CI 1.83–3.10, P < 0.001) and multiple renal veins (OR 2.18, 95% CI 1.52–3.16, P < 0.001) were independent risk factors influencing prolonged operative time. The difficulty index based on these factors was calculated and categorized into three levels: low (0–2), intermediate (3–5), and high (6–8) difficulty. Operative time was significantly longer in the high difficulty group (225 min) than in the low (169 min, P < 0.001) and intermediate difficulty group (194 min, P < 0.001). The conversion rate was higher in the high difficulty group (4.4%) than in the low (2.1%, P = 0.04) and the intermediate difficulty group (3.0%, P = 0.27). No significant difference in major complications was found between the groups.
Conclusion
We developed a novel grading system with simple preoperative donor factors to predict the difficulty of LDN. This grading system may help surgeons in patient selection to advance their experiences and/or teach fellows from simple to difficult LDN.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.Avoid common mistakes on your manuscript.
The advantages of minimally invasive surgery over open donor nephrectomy (DN) are well established; reductions in length of stay, pain, and convalescence; faster return to normal activity [1]. Pure and hand-assisted laparoscopic donor nephrectomy (LDN) are common modalities of minimally invasive surgery [2]. Although these procedures have been introduced as standard surgical techniques in transplant centers throughout the world, it is important for surgeons to gradually increase surgical skills in accordance with their experience level and in combination with surgical difficulty influenced by donor factors [3, 4].
Recently, several practical difficulty scoring systems have been developed in the field of laparoscopic procedures [5,6,7], and can be helpful for selecting patients and educating surgeons especially for those with initial laparoscopic experiences. In addition, these scoring systems can quantify the degree of difficulty creating more awareness for more complex cases and their pitfalls in experienced surgeons. LDN can be harmful for healthy individuals, therefore accurate assessment of the degree of difficulty is crucial. Previous studies with small patient cohorts have reported the effectiveness of assessing preoperative imaging to predict technical difficulty in LDN [8, 9], however their models were complex requiring radiologists and special software. Therefore, a simpler difficulty grading system based on preoperative donor characteristics should be constructed using a large patient cohort.
The aim of the present study was to develop a grading system to predict the difficulty of LDN in a high-volume center of living kidney donation and kidney transplantation in Western Europe. Moreover, we aimed to propose the benchmark operation of LDN.
Material and methods
Patients
A retrospective review was performed using a prospective kidney transplant database including 1741 consecutive living donors who underwent LDN at the Erasmus MC, University Medical Centre Rotterdam, The Netherlands, between January 1998 and December 2018. The present study was approved by the Ethics Committee of the Erasmus MC (MEC-2019-0373), and was conducted in accordance with the tenets of the Declaration of Helsinki. This type of retrospective analysis does not require informed consent from the individual patients.
Using the kidney transplant database, the following donor data were collected: age, gender, body mass index (BMI), relationship between donors and recipients, the technique of LDN (pure or hand-assisted), the side of LDN (right or left kidney), operative time, blood loss, conversion rate, number of renal artery (single or multiple), number of renal vein (single or multiple), the incidence of postoperative major complications (Clavien-Dindo grade ≥ III [10]), and postoperative length of stay (LOS). A conversion from LDN to hand-assisted DN was considered as a conversion in this study. Postoperative major complications were defined as complications requiring radiological or surgical intervention, and life threatening complications [10].
Surgical technique
Details of surgical techniques of LDN were previously reported [11]. Donors were placed in right- or left- decubitus positon. Pure LDN was performed with 4 or 5 trocars with carbon dioxide to 12-cm H2O pressure and a 30° video endoscope. The colon was mobilized, and perirenal fat was divided using an ultrasonic device (Harmonic, Ethicon, Cincinnati, USA). The ureter, the renal artery, and the renal vein were identified and dissected, afterwards a Pfannenstiel incision was made. The ureter, the renal artery, and renal vein were divided and the donor kidney was extracted using the endobag through the Pfannenstiel incision. In case of conversion from LDN to hand-assisted DN, a Gelport (Applied Medical, Rancho Santa Margarita, California, USA) was inserted via the Pfannenstiel incision.
Hand-assisted LDN were performed through the retroperitoneoscopic approach. First a Pfannenstiel incision was made to create a retroperitoneal space and a Gelport was inserted. Three trocars were replaced with a triangular shape, and carbon dioxide was insufflated retroperitoneally to 12-cm H2O pressure. Dissection around kidney and identifying/ dissecting of the renal vessels and ureter were similar to pure LDN. The kidney was extracted manually via the Gelport.
Among donor factors, donor BMI was one of factors for the decision of procedures [11]. Hand-assisted LDN were more likely to be performed in patients with BMI ≥ 30. In contrast, LDN tended to be selected in patients with BMI < 30. Accordingly, the selection for LDN or hand-assisted LDN was decided by considering not only surgeon experience but also donor factors.
Statistical analysis
To construct a difficulty grading system, univariate and multivariable analyses were performed to identify donor factors that were significantly associated with prolonged operative time. Factors associated with prolonged operative time were investigated with the Cox proportional hazards model showing odds ratio (OR) and 95% confidence interval (CI). The multivariable models to estimate surgical difficulty were used to generate a simple difficulty grading system [12], in which a score was assigned to each predictor based on the OR and a total score was corresponding to difficulty estimate. Finally, difficulty classification was categorized into three groups according to the difficulty index (total score): low, intermediate, and high difficulty. Data were presented as mean and standard deviation for continuous variables. Categorical data were presented as proportions. A P value < 0.05 was considered statistically significant. JMP version 11 software (SAS Institute, Cary, NC) was used for the statistical analyses.
Results
The characteristics of the 1741 donors undergoing LDN between 1994 and 2018 are depicted in Table 1. Of these, 1320 (75.8%) were pure LDN and 421 (24.2%) were hand-assisted. The mean operative time and blood loss were 192 min and 171 mL, respectively. Overall conversion rate was 3.3% (n = 57). The incidence of postoperative major complications and mortality were 1.2% (n = 22) and 0%, respectively. Mean LOS was 3.4 days.
Donor factors associated with difficult laparoscopic donor nephrectomy
Univariate and multivariable analyses were carried out to explore which donor factors were associated with prolonged operative time (> 190 min). Multivariable analyses identified that male (OR 1.69, 95% CI 1.37–2.09, P < 0.001), BMI > 28 (OR 1.36, 95% CI 1.08–1.72, P = 0.009), pure LDN (OR 1.99, 95% CI 1.53–2.60, P < 0.001), multiple renal arteries (OR 2.38, 95% CI 1.83–3.10, P < 0.001) and multiple renal veins (OR 2.18, 95% CI 1.52–3.16, P < 0.001) were independent risk factors related to prolonged operative time (Table 2).
A difficulty grading system of laparoscopic donor nephrectomy
A difficulty grading system was applied for all patients, with 1 or 2 points to each significant donor factors based on a similar OR as in the multivariable analyses: 1 point to male, 1 point to BMI > 28, 2 points to pure LDN, 2 points to multiple renal arteries, and 2 points to multiple renal veins (Table 3). A total score of assigned points was defined as a difficulty index of LDN in the present study. The distribution of the difficulty index was represented in Fig. 1. The most frequent total score was with 2 points (28.5%) and 3 points (25.8%). Using the difficulty index of 0–8, indexes 0 and 8 were defined as the easiest and the most difficult case. Difficulty index was further categorized into three levels as the difficulty classification: low difficulty (0–2), intermediate difficulty (3–5), and high difficulty (6–8).
Outcomes based on the difficulty classification were shown in Table 4. Operative time was significantly longer in the high difficulty group (225 min) than in the low difficulty group (169 min, P < 0.001) and the intermediate difficulty group (194 min, P < 0.001). The incidence of conversion rate was higher in the high difficulty group (4.4%) than in the low (2.1%, P = 0.04) and the intermediate difficulty group (3.0%, P = 0.27). No significant difference in major complications was found between the groups.
Benchmark operation of laparoscopic donor nephrectomy
Based on the difficulty index and the difficulty classification, we propose the benchmark operation of LDN, as demonstrated in Fig. 2. Simple donors classified with low difficulty are suitable for surgeons who start LDN and have low experiences of LDN. Hand-assisted LDN should be considered at this stage [13, 14]. Surgeons who consistently perform LDN in low difficulty cases or have 10–30 experiences of LDN can perform LDN in donors with a few risk factors classified with intermediate difficulty. LDN in difficult donors with many risk factors should be performed by surgeons with enough experiences of LDN.
Discussion
The present study demonstrates a novel difficulty grading system for LDN by analyzing 1741 living donors in a high-volume center. Our difficulty grading system was developed by assessing easily available preoperative donor factors such as gender, BMI, the technique of LDN, and the number of renal artery and vein. The difficulty classification according to the difficulty index can predict the estimated operative time and the risk of conversion. In contrast, the incidence of postoperative major complications was similar regardless of the difficulty classification. In addition, we proposed the benchmark operations based on the difficulty classification evaluated by the difficulty index.
Several difficulty indexes, consisting of patient characteristics, anatomy, and tumor characteristics, have been used to classify the difficulty of several laparoscopic procedures [5,6,7,8]. Operative time has been reported to be a useful factor reflecting technical difficulty of laparoscopic procedures [15, 16], therefore we established a grading system to predict the difficulty of LDN based on multivariable analyses investigating preoperative donor factors associated with prolonged operative time. A recent study investigating operative difficulty of LDN using preoperative imaging has reported that perirenal fat around the donor kidney was significantly associated with operative time [9]. However, the measurement of perirenal fat using axial computed tomography imaging may show different results depending on the measurement level and inter-observer variability. In their study, perirenal fat has been reported to have a correlation with BMI, therefore the measurement of perirenal fat using preoperative imaging might be replaced by BMI. Actually, donor BMI was found to be one of factors that were significantly associated with operative time in the present study.
The benchmark operations of LDN were constructed based on previous reports and our experiences. The number of procedures requiring to perform LDN proficiently and independently remains controversial, therefore we defined inexperienced surgeons as performing < 15 cases of LDN, and experienced surgeons as performing > 30 cases according to the previous reports [17, 18]. Definition of each difficulty classification was constructed based on our experiences. Although specific technical skills and knowledge are essential in performing DN safely, we believe that our proposed benchmark operation of LDN can help in patient selection and in guiding surgeons especially with initial experiences of LDN. Our results based on the difficulty classification suggested that LDN in difficult donors with many risk factors should be performed by experienced surgeons for the donor safety. In contract, simple donors could be good candidates for inexperienced surgeons who start LDN and have low experiences of LDN.
A critical question is how to design training in the most efficient manner possible, while developing excellent skills and long-term retention. The graduated responsibility in surgical training is built on a balance between mastery of skills and the ability to recognize potential pitfalls. A recent review provides an evidence-based overview to optimize the learning curve [19]. An optimized dosage of delivering the training is important as well as setting a proficiency-based benchmark of performance. Retention of training effects and transfer from trained to non-trained domains depend on factors such as deliberate practice, part-task training, task variability, mental imagery, and overlearning after reaching proficiency. Distributing practice over time (spacing) leads to superior learning for knowledge acquisition, as well as motor skill acquisition compared to massed training. Our novel grading system in a high-volume center facilitates many factors to optimize the learning curve, such as proficiency-based benchmark of performance, part-task training, and distributing practice over time.
The present study has several limitations to be disclosed. We performed a retrospective study in a prospective database in a single center. There might be a potential donor selection bias. Regarding the selection for the technique of LDN, it was decided by considering not only surgeon experience but also donor factors. However, the selection was not randomly assigned, therefore an invariability might be created in the analysis. Although conversion has been used as a predictor of difficulty score among several operative surrogates in other fields [20, 21], this study selected operative time as an index of difficulty in LDN due to a low incidence of conversion in our study. The best parameter reflecting surgical difficulty is still controversial. Finally, our novel difficulty grading system was developed using a large single-center cohort, however the validation of the grading system was not carried out in the present study. Therefore the grading system should be validated to prove its significance in prospective multicenter cohorts. Further large studies are necessary to confirm the efficiency of this grading system on outcomes in LDN.
Conclusions
We proposed a novel grading system with simple preoperative donor factors to predict the difficulty of LDN. Our difficulty index well reflects the estimated operative time and can easily categorize LDN as low, intermediate, or high difficulty. Moreover, this grading system can be helpful to guide surgeons in patient selection as well as advancing their experiences and/or teach fellows from simple to difficult LDN in a clinical practice. However, this system should be prospectively validated.
References
Shockcor NM, Sultan S, Alvarez-Casas J et al (2018) Minimally invasive donor nephrectomy: current state of the art. Langenbecks Arch Surg 403:681–691
Serrano OK, Kirchner V, Bangdiwala A et al (2016) Evolution of living donor nephrectomy at a single center: long-term outcomes with 4 different techniques in greater than 4000 donors over 50 years. Transplantation 100:1299–1305
Wilson CH, Bhatti AA, Rix DA et al (2005) Comparison of laparoscopic and open donor nephrectomy: UK experience. BJU Int 95:131–135
Cannon RM, Eng M, Marvin MR et al (2011) Laparoscopic living kidney donation at a single center: an examination of donor outcomes with increasing experience. Am Surg 77:911–915
Ban D, Tanabe M, Ito H et al (2014) A novel difficulty scoring system for laparoscopic liver resection. J Hepatobiliary Pancreat Sci 21:745–753
Ohtsuka T, Ban D, Nakamura Y et al (2018) Difficulty scoring system in laparoscopic distal pancreatectomy. J Hepatobiliary Pancreat Sci 25:489–497
Okamura Y, Yamamoto Y, Sugiura T et al (2019) Novel patient risk factors and validation of a difficulty scoring system in laparoscopic repeat hepatectomy. Sci Rep 9:17653
Ratner LE, Smith P, Montgomery RA et al (2000) Laparoscopic live donor nephrectomy: pre-operative assessment of technical difficulty. Clin Transplant 14:427–432
Schwartz FR, Shaw BI, Lerebours R et al (2019) Correlation of preoperative imaging characteristics with donor outcomes and operative difficulty in laparoscopic donor nephrectomy. Am J Transplant 20(3):752–760
Clavien PA, Barkun J, de Oliveira ML et al (2009) The Clavien-Dindo classification of surgical complications: five-year experience. Ann Surg 250:187–196
Takagi K, Kimenai HJAN, IJzermans JNM et al (2019) Obese living kidney donors: a comparison of hand-assisted retroperitoneoscopic versus laparoscopic living donor nephrectomy. Surg Endosc. https://doi.org/10.1007/s00464-019-07276-x
Sullivan LM, Massaro JM, D'Agostino RB (2004) Presentation of multivariate data for clinical use: the Framingham Study risk score functions. Stat Med 23:1631–1660
Troppmann C, Daily MF, McVicar JP et al (2010) The transition from laparoscopic to retroperitoneoscopic live donor nephrectomy: a matched pair pilot study. Transplantation 89:858–863
Lai IR, Yang CY, Yeh CC et al (2010) Hand-assisted versus total laparoscopic live donor nephrectomy: comparison and technique evolution at a single center in Taiwan. Clin Transplant 24:E182–187
Hyung WJ, Song C, Cheong JH et al (2007) Factors influencing operation time of laparoscopy-assisted distal subtotal gastrectomy: analysis of consecutive 100 initial cases. Eur J Surg Oncol 33:314–319
Jeon BG, Kim HJ, Jung KH et al (2016) Prolonged operative time in laparoscopic appendectomy: predictive factors and outcomes. Int J Surg 36:225–232
Serrano OK, Bangdiwala AS, Vock DM et al (2017) Defining the tipping point in surgical performance for laparoscopic donor nephrectomy among transplant surgery fellows: a risk-adjusted cumulative summation learning curve analysis. Am J Transplant 17:1868–1878
Raque J, Billeter AT, Lucich E et al (2015) Training techniques in laparoscopic donor nephrectomy: a systematic review. Clin Transplant 29:893–903
Spruit EN, Band GP, Hamming JF et al (2014) Optimal training design for procedural motor skills: a review and application to laparoscopic surgery. Psychol Res 78:878–891
Lee SY, Goh BKP, Sepideh G et al (2019) Laparoscopic liver resection difficulty score-a validation study. J Gastrointest Surg 23:545–555
Soltes M, Radoňak J (2014) A risk score to predict the difficulty of elective laparoscopic cholecystectomy. Wideochir Inne Tech Maloinwazyjne 9:608–612
Funding
The authors declare that they received no funding for this study.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Disclosures
Drs. K. Takagi, H. J.A.N. Kimenai, T. Terkivatan, K. T.C. Tran, J. N.M. Ijzermans, and R. C. Minnee have no conflicts of interest or financial ties to disclose.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
About this article
Cite this article
Takagi, K., Kimenai, H.J.A.N., Terkivatan, T. et al. A novel difficulty grading system for laparoscopic living donor nephrectomy. Surg Endosc 35, 2889–2895 (2021). https://doi.org/10.1007/s00464-020-07727-w
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00464-020-07727-w