key: cord-350529-yqtu059x
authors: Evans, Samantha; Taylor, Claire; Antoniou, Anthony; Aggarwal, Tushar; Burns, Elaine; Jenkins, John T; Miskovic, Danilo
title: Implementation of a clinical pathway for the surgical treatment of colorectal cancer during the COVID‐19 pandemic
date: 2020-07-12
journal: Colorectal Dis
DOI: 10.1111/codi.15247
sha: 
doc_id: 350529
cord_uid: yqtu059x

INTRODUCTION: This report summarises the early experience of implementing elective colorectal cancer surgery during the COVID‐19 pandemic METHODS: A pathway to minimize the risk of including COVID‐19 positive patients for elective surgery was established. Prioritization and additional safety measures were introduced into clinical practice. Minimal‐invasive surgery (MIS) was used where appropriate. RESULTS: Thirty‐eight patients were prioritised, and 23 patients underwent surgery (8 colon, 14 rectal and 1 anal cancer). MIS rate was 78%. There were no major postoperative complications or patients diagnosed with COVID‐19. Histopathological outcomes were similar to normal practice. CONCLUSION: A safe pathway to offer standard high‐quality surgery to colorectal cancer patients during the COVID‐19 pandemic is feasible.

The safe implementation of colorectal cancer surgery during the COVID-19 pandemic is challenging due to restriction [i.e. hospital and intensive care unit (ICU) beds], staff shortages (i.e.

anaesthetists, ICU personnel), health and safety of the operating room team members, and the concerns of postoperative COVID-19-associated complications and mortality (1) . There has been controversy about both the choice of surgical access and prioritisation of patients (2) (3) (4).

St Mark's Hospital in London, UK addressed these challenges at an early stage, as their campus was identified as one of the capital's main referral centres for COVID-19 patients. This collapsed normal operational structures as the early stages of the pandemic reached the United Kingdom.

Elective cancer surgery became impossible within days and so a new pathway for cancer patients was established and a new site identified to conduct operations. This report summarises the early results of this process with a view to acting as a guide for others during the predicted second waves of COVID-19 surges.

The operating rooms and wards of St Mark's Hospital at the London North West University Hospitals NHS Trust were not operational due to a surge of COVID-19 patients from the 25 th March to the 9 th April 2020. The London Clinic, a charity-based private hospital in central London, was contracted to provide operating rooms and staff for a limited time to treat patients with colorectal cancer during this period. The hospital was appropriately equipped for complex colorectal surgery and its staff has longstanding experience in supporting patients undergoing such procedures. An independent radiology institute (London Radiology) at a different central London location within a short walking distance, provided computed tomography (CT) scanner resources for preoperative scans.

A patient pathway was developed with the aim of reducing the risk of COVID-19-positive patients entering the hospital in the first place, and hence reduce risks for staff and postoperative

This article is protected by copyright. All rights reserved recovery. To maximise the accuracy of testing, multiple test methods were employed: 1) during a telephone clinic patients were asked about any COVID-19 related symptoms, 2) asymptomatic patients were swabbed for PCR testing in a dedicated clinic room through a separate entrance from the main hospital, 3) the day before the planned operation a CT thorax was performed at the independent radiology institute. As soon as patients entered the process, they were asked to self-isolate in their homes until admitted to the hospital. Only patients who were clear on all three occasions (telephone clinic, swab and CT thorax) were admitted to the London Clinic and further preoperative interventions (e.g. mechanical bowel preparation, oral antibiotics etc.) were instigated. After surgery, patients recovered in ICU (which was used as a high dependency unit) and on the regular ward in single rooms. There were daily consultant-led ward rounds by a small team of clinicians wearing PPE (surgical masks, gowns and single-use gloves), maintaining maximum physical distance and meticulous hand hygiene. No non-clinical visitors were allowed during the hospital stay. Following discharge, patients were asked to self-isolate at home for 14 days. They were followed up by telephone two days after discharge by a dedicated nurse specialist who was involved during the whole perioperative process, and followed-up again if necessary. Another telephone clinic appointment was arranged by the clinician in charge to discuss further management once histopathology reports were available.

All patients with primary colorectal cancer were eligible. They were prioritised according to three categories: 1) needing urgent surgery within 72 hrs (e.g. obstruction, acute bleeding from tumour), 2) needing surgery in <3 months (e.g. tumours at risk of progressing, node positive, vascular invasion), and 3) can potentially wait >3 months (e.g. polyp cancers after endoscopic resection, tumours with dysplasia only) (5). All patients were contacted by telephone and informed about the possibility of being entered into the pathway. All patients were given written consent including the significant risk of additional morbidity and mortality in case of developing COVID-19. There was no age limitation, but patients with significant comorbidities or low exercise tolerance were further evaluated by stress echocardiography and clinical assessment by a consultant anaesthetist.

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A total of 38 patients were prioritised (15 patients were excluded from the pathway, 10 patients because they did not wish to have surgery during the COVID-19 pandemic, two patients due to significant comorbidities and frailty, three patients were re-assessed as priority 3). One patient on preoperative CT thorax was felt to have CT changes consistent with COVID-19 despite a negative swab result and lack of symptoms. His surgery was deferred by 14 days after being retested and remaining symptom-free.

Twenty-three procedures were performed, patient demographics and procedures can be found in table 1 and 2. 78% were performed with MI surgery (17% robotic, 61% laparoscopic). Two procedures were converted to laparotomy, one due to difficult access in a morbidly obese

This article is protected by copyright. All rights reserved patient and one due to T4 tumour progression. Fourteen patients had a stoma formed (six loopand one end-ileostomy, six colostomy and one urostomy). All but one were planned. In one patient, a planned anterior resection was converted to a Hartmann's resection due to poor perfusion of the colonic conduit based on clinical assessment (lack of marginal arterial bleeding).

Indocyanin Green (ICG) fluorescence was not available in this setup.

There were 10 postoperative complications. All of them were Clavien-Dindo 1-2 (1 neuropraxia, 2 high output ileostomy, 2 non-COVID-19 chest infection, 1 port-site infection, 1 ileus, 3 stoma care delays). There were no new cases of COVID-19 in any patients during hospitalisation or after discharge. Two patients were tested due to respiratory symptoms, but both PCR swab and CT thorax came back as negative in each case. There were no major complications (Clavien-Dindo 3-4) and no postoperative mortality to date. There were no reoperations and no unplanned readmissions. All patients were discharged and the median length of stay was 6 days (range 1-17), which is similar to the length of stay for a similar case mix prior to the pandemic (Table 3 ). All resections were R0. A detailed summary of histopathological results can be found in Table 4. One of the anaesthetists self-isolated after developing respiratory symptoms at the end of a twoweek period at work but was not tested for COVID-19. One surgeon developed anosmia one week after performing the last case and was tested positive for COVID-19. Both recovered rapidly. No other staff members were reported to be affected by COVID-19.

In this brief report we demonstrate that high-quality surgery for colorectal cancer could be delivered during the COVID-19 pandemic using considered measures to mitigate risk. The three pillars of safety interventions can be summarised as (1) careful patient selection, (2) meticulous patient screening and (3) the use of 'cold' sites where potential contact with COVID-19 patients can be minimised. The use of CT thorax as a screening tool is still controversial, but improved sensitivity has been suggested recently (7) . We felt that multiple testing by using different modalities in a short time frame may further reduce the risk of false negative tests. The 'cold' site Accepted Article was crucial, not only to minimise potential patient exposure to the virus, but also to reduce the impact of resource shortages on the elective operating programme. Through exclusive use of single rooms, all patients were effectively barrier-nursed which may further have helped to reduce cross-infections within the unit.

The intercollegiate guidance by the Royal Colleges of Surgery indicate that laparoscopy should only be considered for individuals when the clinical benefit exceeds the risk of potential virus transmission during surgery (8) . We believe that with minimising the risk of infected patients we were still able to deliver the advantages of minimal access surgery to our patients, not least the lower risk for respiratory complications after MIS when compared with laparotomy (9) In addition to the three main pillars outlined above, we also introduced technical and operational changes to minimise potential exposure of staff. The use of a closed loop insufflation system might not be available in every hospital, but alternative approaches, such as the use of filters for passive gas evacuation have been suggested (10) . The impact of human factors is not to be underestimated. It was crucial to perform surgery with a team that was performing such procedures routinely prior to the pandemic.

This report outlines our early experience in the first two weeks of the COVID-19 pandemic. At that time, the exact impact and projection of this unprecedented event was still unclear and no clear guidance was available. Two months later, recommendations by scientific societies, regulatory bodies and governments are emerging and broadly supporting the steps we have taken to deliver safe cancer surgery. In London UK, all cancer surgery is now delivered and regulated within two major hub and spoke networks (11) . For colorectal cancer, a similar approach to the one outlined in this paper, and further safety measures such as a no-theatreentry policy for 20 minutes after intubation have been introduced. The main aspects of delivering safe surgery during COVID-19 -meticulous testing, careful patient selection, the use of a 'cold' site, safety equipment and an experienced team -are here to stay for the foreseeable future. 

This article is protected by copyright. All rights reserved Accepted Article 

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Laparoscopy at all costs? Not now during COVID-19 and not for acute care surgery and emergency colorectal surgery: a practical algorithm from a Hub Tertiary teaching hospital in Northern Lombardy

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