Álgebras de Lie afins estendidas do tipo `A IND.1¦

Sargeant, Anliy Natsuyo Nashimoto

doi:10.11606/d.45.2002.tde-20220712-120435

Cited by 1 publication

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“…20,21 The increasing interest in reducing carbon emissions has permeated the healthcare realm; in fact, the National Health System aims to become the world's rst "net zero" carbon national health service. 1 Considering that prostate cancer is the most common form of cancer among men in Italy 22 and the high volume of radical prostatectomies performed each year-close to 18.000 in 2019 23 , the need to evaluate the most carbon-e cient procedure appears to be reasonable. To our best knowledge, this is the only study to directly analyze and compare CO 2 emissions using two different minimally invasive surgical approaches.…”

Section: Discussionmentioning

confidence: 99%

The impact of radical prostatectomy on global climate: a prospective multicentre study comparing laparoscopic versus robotic surgery

Fuschi

Pastore

Salhi

et al. 2023

Prostate Cancer Prostatic Dis

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BACKGROUND: More than 4% of the global greenhouse gas emissions are generated by healthcare system. Focusing on the environmental impact of minimally invasive surgery, we assessed and compared the CO 2 emissions between Robot-assisted (RALP) and Laparoscopic Radical Prostatectomy (LRP). METHODS: In patients prospectively enrolled, we evaluated the age, surgical and anesthesiologic time, postoperative intensive care unit and hospital stay, blood transfusion, pre-and postoperative hemoglobin and Gleason score, open conversion need, and complications (Clavien-Dindo classi cation). We assessed the life cycle to estimate the energy consumption for surgical procedures and hospital stays. We reported the materials, CO 2 produced, and uid quantity infused and dispersed. Disposable and reusable materials and instruments were weighed and divided into metal, plastic, and composite bers. The CO 2 consumption for disposal and decontamination was also evaluated.RESULTS: Of the 223 patients investigated, 119 and 104 patients underwent RALP and LRP, respectively. The two groups were comparable as regards age and preoperative Gleason score. The laparoscopic and robotic instruments weighed 1733 g and 1737 g, respectively. The CO 2 emissions due to instrumentation were higher in the laparoscopic group, with the majority coming from plastic and composite ber components. The CO 2 emissions for metal components were higher in the robotic group. The robot functioned at 3.5 kW/h, producing 4 kg/h of CO 2 . The laparoscopic column operated at 600 W/h, emitting ~1 kg/h of CO 2 . The operating room operated at 3,0 kW/h. The operating time was longer in the laparoscopic group, resulting in higher CO 2 emissions. CO 2 emissions from hospital room energy consumption were lower in the robot-assisted group. The total CO 2 emissions were ~47 kg and ~60 kg per procedure in the robotassisted and laparoscopic groups, respectively. CONCLUSIONS: RALP generates substantially less CO 2 than LRP owing to the use of more reusable surgical supplies, shorter operative time and hospital stay.

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Section: Discussionmentioning

confidence: 99%