Reducing instruments in a vitrectomy surgical tray: cost savings and results from a major academic hospital

Grodsky, Jacob D.; Theophanous, Christos; Schechet, Sidney A.; Veldman, Peter B.

doi:10.1186/s40942-020-00215-2

Cited by 5 publications

(9 citation statements)

References 8 publications

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“…Operating room setup times have routinely decreased at a statistically significant level in prior publications after the reduction of non–value-added instruments 4,12,14,17,18,22,24,26–28 . Any amount of time saved in the OR is of high value, with published costs ranging from US $20 to US $62 per minute 5,13 .…”

Section: Discussionmentioning

confidence: 99%

“…In support of surgeon acceptance to these process improvement initiatives, high satisfaction has consistently been reported among the surgical team 4,5,22,27,28 . Surgeons have the unique purview and ability to identify opportunities to improve resource utilization in the OR, and with the ever-increasing focus on improving value in health care, surgeons have an opportunity to take the lead in those efforts 1,5,6,9,16,20,23,31,36 .…”

Section: Discussionmentioning

confidence: 99%

“…In fact, instrument tray optimization has been successful in reducing avoidable expense at numerous institutions 4,5,9–31 . Those prior studies have included all major surgical specialties, both adult and pediatric, and the full spectrum of procedure types, ranging from simple to complex.…”

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confidence: 99%

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Data Analysis of Plastic Surgery Instrument Trays Yields Significant Cost Savings and Efficiency Gains

et al. 2021

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Purpose Inpatient surgery costs have risen 30% over the past 5 years, and the operating room accounts for up to 60% of total hospital operational expense. On average, only 13.0% to 21.9% of instruments opened for a case are used, contributing to significant avoidable reprocessing, repurchase, and labor expense. Methods A comprehensive review of 40 major instrument trays at UNC Rex Hospital was conducted using a technology service (OpFlow; Operative Flow Technologies, Raleigh, NC). Among the full scope of the project, the general plastics tray and breast reconstruction tray were evaluated for the plastic surgery service line over a 3-month period. Intraoperative data collection was performed on the exact instruments used across a standard breadth of cases. Data analytics were conducted stratifying instrument usage concordance among surgeons by tray and procedure type. After a surgeon-led review of the proposed new tray configurations, the optimized versions were implemented via a methodical change management process. Results A total of 183 plastic surgery cases were evaluated across 17 primary surgeons. On average, the instrument usage per tray was 15.8% for the general plastics tray and 23.5% for the breast reconstruction tray. After stakeholder review, 32 (45.1%) of 71 instruments were removed from the general plastics tray and 40 (36.7%) of 109 were removed from the breast reconstruction tray, resulting in a total reduction of 2652 instruments. This resulted in a decrease of 81,696 instrument sterilization cycles annually. The removal of the instruments yielded an estimated cost avoidance of US $163,800 for instrument repurchase and US $69,441 in annual resterilization savings. The instrument volume reduction is projected to save 383.5 hours of sterile processing personnel time in tray assembly annually. Conclusions An analytics-driven method applying empirical data on actual case-based instrument usage has implications for better efficiency, improved quality, and cost avoidance related to instrument repurchase and sterile processing. Given increasing cost constraints and the transition to value-based care models, leveraging a technology-based solution enables meaningful change in the sterile processing department as a source for cost reduction and quality of care improvement.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Data Analysis of Plastic Surgery Instrument Trays Yields Significant Cost Savings and Efficiency Gains

et al. 2021

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“…The outcomes analysed were mainly of three types: [22] Average instrument utilisation rate (I used/I total × 100): 27.8% (± 13.1) Optimised tray size: − 57% Dobson et al 2015 [23] 482 (96.4%) cases were solved using the heuristic model Dyas et al 2018 [16] Number of new sets created: 3/13 Number of instruments: 36 (-63%); Farrelly et al 2017 [24] − 9 complete sets − 34% instruments per set − 1 826(-39.5%) instruments processed through the Central Sterile Processing (CSP) unit Farrokhi et al 2013 [25] Reduction in instruments: MIS set: -139 (− 70%) DBS set: − 104 to − 72 (78-80%) Fu et al 2021 [26] Utilisation rate of baseline instruments: 35% Average reduction in the number of instruments: 26% Grodsky et al 2020 [27] − 89% Instruments Number of reopening episodes with the old set = 0 Harvey et al 2017 [28] − 70 (− 19%) instruments number of reopening episodes with the old set = 0 Knowles et al 2021 [30] Utilisation rate per set: 22.9% (vascular set), 12.5% (aortic set) Instrument reduction: − 45.8% (vascular set), − 62.5% (aortic set) Re-opening rate old tray: 0% Koyle et al 2015 [31] Number of instruments not used in Phase I: 69/96 (U); 17/51 in (S) Frequency of use of the non-standardised set in Phase II: 3/52 (6%) Lonner et al 2021 [32] Only 45.5% instruments used; Reduction in instruments after rationalisation: − 32.2% Malone et al 2018 [33] 51 instruments (− 48%) Frequency of reopening with the old set: 0% Nast et al 2019 [35] pre-post utilisation rate: scrotal orchidopexy: 21.1% to 48.2% inguinal orchidopexy with hernia: 41.9% to 71.7% inguinal hernia: 32% to 62.3% reopening rate old tray: 10% Schwartz et al 2021 [36] Utilisation rate: 38% (perceived) vs 55% (observed) Number of instruments: − 49% Set weight: − 33% Shim et al 2021 [37] First tray: 10.6% unused instruments Second tray: 19.6% unused instruments Stockert and Langerman, 2014 [14] Average instrument (± SD) use rates were 13.0% for Otolaryngology (± 4.2%), 15.5% for Plastic Surgery (± 2.9%), 18.2% for Bariatric Surgery (± 5.0%), and 21.9% for Neurosurgery (± 1.7%) Toor et al 2022 [13] Instrumentation measures: Total reduction of instrumentation: 35% Average reduction in set size: 18% Procedure cancellation rate: 3.9% (pre) to 0.2% (post) Satisfaction with surgical instruments (Likert scale 1-4): 1.7% to 80% Van Meter et al 2016 [39] Average number of sets: 5. • reduction of direct and indirect costs related to the procurement, replacement and reprocessing of instrumentation (Table 6).…”

Section: Discussionmentioning

confidence: 99%

“…One study reported a comparison between the utilisation rate before and after the optimisation of two sets, showing an increase in use of between 27 and 30% [13]. Byrnes et al 2017 [18] Estimated savings in processing costs: $9.69/set Estimated total savings: 5.7% Cichos et al 2017 [15] Estimated savings: thoracotomy, $96; robotic procedure, $84; mediastinoscopy, $77; VATS, $55 Estimated total savings: $69 412/year Cichos et al 2019 [21] Estimated average annual cost savings per set: $24 634 Dobson et al 2015 [23] Estimated savings: + 1.9% over the minimum theoretical cost Dyas et al 2018 [16] Cost savings per intervention: $31.62 ($18.36-$49.98, reprocessing) + $100-$310 (reduced turnover time); Estimated annual savings: $28 458 (reprocessing) + $90 000-$2 790 000 (turnover time reduction) Farrelly et al 2017 [24] Cost reduction: From labour: $3 523.28($-27.88; $2 014.26) (for 6 extensively used sets) by cost avoidance: $106 386 per turnover 5 years estimated savings of indirect costs: $34 693/year Farrokhi et al 2013 [25] Estimated savings: -$2 800 000/year Fu et al 2021 [26] Estimated savings: $9 010/year Grodsky et al 2020 [27] estimated total annual savings per sterilisation: $9 588 John-Baptiste et al 2016 [29] $29 088/year Knowles et al 2021 [30] Estimated annual savings: $97 781 (purchases), $97 444 (processing) Estimated savings of labour time: 316.2 h/year Lonner et al 2021 [32] Estimated annual savings: $281 298.05 Malone et al 2018 [33] Reprocessing costs: -48% (-$23.97) Marchand et al 2020 [34] Annual savings on OT and sterilisation centre processes: $249 245 Nast et al 2019 [35] estimated savings per set: $11.28-70.18 estimated annual savings: $1 525.92-$11 531 Schwartz et al 2021 [36] Lower direct and indirect costs in post compared with that in pre: $93-$539 (p < .0001) Shim et al 2021 [37] Estimated savings from replacement and processing costs: $6 597 Stockert and Langerman 2014 [14] Estimated processing costs: $0.28-0.5/instrument Thiel et al 2019 [17] Direct cost per case: -$125.44 Toor et al 2022 [13] Savings on depreciation costs: $61 395 (considering 8-12 years of use, depending on recommendations) Labour cost savings: $39 995/year Tseng et al 2020 [38] Cost per case: -$123.24 (14.4%, p < .001) Total annual savings: $29 151 Average cost difference between different surgeons: -61% Van Meter et al 2016 [39] Total cost per instrument processing: annual $3.19 per instrument/year Estimation of excess cost from processing of unused instruments: $290 928/year …”

Section: Discussionmentioning

confidence: 99%

Optimisation of perioperative procedural factors to reduce the risk of surgical site infection in patients undergoing surgery: a systematic review

Calò

Catena

Corsaro³

et al. 2023

Discov Health Systems

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Surgical site infections (SSI) are the leading cause of hospital readmission after surgical procedures with significant impact on post-operative morbidity and mortality. Modifiable risk factors for SSI include procedural aspects, which include the possibility of instrument contamination, the duration of the operation, the number of people present and the traffic in the room and the ventilation system of the operating theatre.The aim of this systematic review was to provide literature evidence on the relationship between features of surgical procedure sets and the frequency of SSI in patients undergoing surgical treatment, and to analyse how time frames of perioperative processes and operating theatre traffic vary in relation to the features of the procedure sets use, in order tooptimise infection control in OT. The results of the systematic review brought to light observational studies that can be divided into two categories: evidence of purely clinical significance and evidence of mainly organisational, managerial and financial significance. These two systems are largely interconnected, and reciprocally influence each other. The decision to use disposable devices and instruments has been accompanied by a lower incidence in surgical site infections and surgical revisions for remediation. A concomitant reduction in post-operative functional recovery time has also been observed. Also, the rationalisation of traditional surgical sets has also been observed in conjunction with outcomes of clinical significance.

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Eco-sustainability in ophthalmology

Lee,

Menean,

Williams

et al. 2024

Current Opinion in Ophthalmology

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Purpose of review The purpose of this review is to evaluate the current state of eco-sustainability in ophthalmology, highlighting key practices, recent advancements, and areas requiring improvement. This review aims to provide ophthalmologists with a comprehensive overview of sustainable practices that can reduce environmental impact. Recent findings Recent studies have identified several areas within ophthalmology where sustainable practices can be implemented including multidose eyedrops, adjusting surgical packs, making package inserts available electronically, and reusing surgical instruments. Moreover, there is an increasing emphasis on waste reduction both in the surgical and clinical setting, by decreasing the use of unnecessary materials and implementing more efficient use of recycling programs. Telemedicine has also emerged as a sustainable option, reducing the carbon footprint associated with patient travel. Despite these advancements, significant challenges remain, particularly in balancing the cost and accessibility of sustainable options with traditional practices. Summary Eco-sustainability in ophthalmology is gaining momentum as the medical community aims to reduce its environmental impact. While progress has been made, further efforts are required to overcome financial and logistical barriers to widespread implementation. Continued research, education, and policy development are essential to advancing eco-sustainable practices, ensuring that environmental considerations become an integral part of ophthalmic care.

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Reducing instruments in a vitrectomy surgical tray: cost savings and results from a major academic hospital

Cited by 5 publications

References 8 publications

Data Analysis of Plastic Surgery Instrument Trays Yields Significant Cost Savings and Efficiency Gains

Data Analysis of Plastic Surgery Instrument Trays Yields Significant Cost Savings and Efficiency Gains

Optimisation of perioperative procedural factors to reduce the risk of surgical site infection in patients undergoing surgery: a systematic review

Eco-sustainability in ophthalmology

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