key: cord-0730083-rq4n5vzt authors: Atru, Balasubramanyam; Sutrave, Mithun; George, Rani; James, Rhea; Ross, Anita; C.B, Pratibha title: Otolaryngology Surgical Activity in Tertiary Care Center During the Covid-19 Lockdown date: 2020-10-01 journal: Indian J Otolaryngol Head Neck Surg DOI: 10.1007/s12070-020-02155-7 sha: 6ebab5f2f43979787ea741fadc93a55533057c06 doc_id: 730083 cord_uid: rq4n5vzt Corona virus disease (COVID 19) is an infectious respiratory disease caused by the novel virus severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). With many countries implementing lockdown the surgical activities in the division of otolaryngology across the world has been affected with many hospital confining themselves to only emergency or essential surgeries. The aim of this work is to report and discuss the in the surgical activity of the otolaryngology unit of the St John’s National Academy of Health Sciences, Bangalore (India) during the pandemic. We performed acute and subacute emergencies which include diagnosis and treatment of malignant tumors of the head and neck, management of airway emergencies in adults and children, drainage of abscesses of the head and neck, Foreign body removal, emergency nasal debridement and surgeries for the unsafe ear. With the pandemic the surgical activities in otolaryngology changed drastically and with strict protocol and triaging put in place the risk for Health care workers was avoided and services to patients delivered. Corona virus disease (COVID 19) is an infectious respiratory disease caused by the novel virus severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Initially a zoonotic disease it lead to human to human transmission through droplets which later became a world wide pandemic [1] . As it is a respiratory disease and with evidence of viral load in the upper airway and the symptomatology pattern over lapping with that of common illnesses and most being asymptomatic carriers the otolaryngologist are at risk while performing surgeries of the upper airway which involves high aerosol generation and exposure [2, 3] . With many countries implementing lockdown the surgical activities in the division of otolaryngology across the world has been affected with many hospital confining themselves to only emergency or essential surgeries. The lockdown in India was announce from 25/3/2020 to 20/5/2020. With directions and recommendation from government bodies, national and international organisation, and hospital committees the selection criteria for the surgeries were drafted and followed to reduce the exposure to health care professionals. Our hospital being a tertiary care referral centre in southern India has wide array of cases coming from various parts and due to the pandemic the activity of our otolaryngology unit underwent profound changes still ensuring the diagnostic and therapeutic procedures by strictly complying to the directives. The aim of this work is to report and discuss the in the surgical activity of the otolaryngology unit of the St John's National Academy of Health Sciences, Bangalore (India) during the pandemic. Particular attention was given to the number of procedures and type of surgery performed during the pandemic, and data were compared with the same period in 2019. A triage system was followed for the surgeries which is based on the need of performing the procedure, risk involved and type of protection required by the health care worker. The various categories of surgeries are highlighted in Table 1 . During the nationwide lockdown, we performed the following surgical procedures, which included acute and subacute emergencies. diagnosis and treatment of malignant tumors of the head and neck, management of airway emergencies in adults and children, drainage of abscesses of the head and neck, Foreign body removal, emergency nasal debridement and surgeries for the unsafe ear. Also the number of cases of individual surgeries were compared with the data obtained during the same period in previous year. To minimise inadvertent exposure to health care workers risk stratification of the case was based on the level of Aerosol generation during the procedure and level of PPE(Personal Protective Equipment) required for the procedure was decided keeping in mind the shortage of PPE during the lockdown period ( Table 2) . All aerosol generating procedure were done in negative pressure operating room. By assessing the aerosol generation minor neck cases and biopsies were done under local anaesthesia rest were done under general anaesthesia complying with the institution protocol and to prevent agitation by patient and risk to HCW. Measures were also taken in the operating room, the number of personals operating room were kept as minimal as possible which included an operating surgeon, assisting surgeon (for neck case and skull base procedures), scrub nurse, anaesthetist and anaesthesia technician. Anaesthetist would thoroughly paralyse and relax the patient before intubation to prevent aerosol generation and immediately after intubation the patient the endotracheal tube is connected to the circuit. Intubated patients from ICU needing tracheostomy for prolonged intubation the patient would be shifted on a portable ventilator to the operating room and while changing the circuit the endotracheal tube is temporarily clamped and then connected to the new circuit the same is done after the surgery to shift the patient back to the portable ventilator. For tracheostomy after opening the trachea anaesthetist and the assisting surgeon is asked to move few steps away from table trachea is opened, suction catheter is placed and smaller size cuffed tracheostomy tube is inserted cuff is inflated and then once the anaesthetist is ready to connect the circuit the obturator is removed and tube place confirmed. All these steps are done with brisk movements not wasting any time by the operating surgeon and anaesthetist. During the period of march 24th 2020-may 20th 2020 a total of 52 surgeries were performed. Airway surgeries were 28(53.8%), deep neck infections 7(13.4%), malignancies of head and neck 6(11.54%), Foreign body removal 5(9.6%), emergency nasal debridement 5(9.6%) each, surgeries of unsafe ear 1(2%), elective procedures 0(0%) (Fig. 1) . When compared to the same period in the previous year ie march 24 th 2019-may 20th 2019 total of 255 cases were done. Airway surgeries 38(15.11%), deep neck infections 6(2.3%), malignancies of head and neck 33(12.8%), Foreign body removal 3(1.1%), emergency nasal debridement 9(3.4%) each, surgeries of unsafe ear 6(2.3%), elective procedures 160(62.8%) (Fig. 2) . Based on the triage of requirement for surgery Acute Emergencies 16 cases(31%), Subacute emergencies 35(67%), non urgent 1(2%) Electives 0(0%) (Fig. 3) . The risk stratification based on aerosol generation and requirement of PPE no COVID positive patients were operated, while most 43(83%) were aerosol generating procedures, non aerosol generating surgeries were 8(15%) and 1(2%) doubtful AGP (Fig. 4 ). SARS-CoV-2 is very infectious, with a control reproduction number that may be as high as 6.47 (95% CI, 5.71-7.23), which is higher than the SARS transmission number in 2003 [4] . As previously discussed, ENT healthcare providers mainly manage cases related to upper aerodigestive tract and therefore may be subjected to high-risk exposures in different scenarios. With reports of high aerosol generation in operation room while dealing with such cases it is important that workers in ENT department use standard precautions consistently [5, 6, 7] . The risk stratification guidelines and triage strategy was employed by compiling multiple guidelines regarding COVID 19 ie., ENTUK, American Academy of Otolaryngology and Head and Neck Surgery (AAOHNS), The American Laryngological, Rhinological and Otological Society, ENT Canada, National Health Service (NHS), Center for Disease Control (CDC) and Indian Council Of Medical Research (ICMR) [9, 10, 11] . The utilization of PPE in second-level protection(yellow) and third-level protection(red) here roughly corresponds to standard PPE and enhanced PPE, respectively, as described by the Centre for disease control and prevention(CDC) [12] . Rigorous implementation and adherence of these strategies were employed to ensure that the diagnostic and therapeutic procedures were performed promptly in necessary cases. There was significant increase in adult patients who needed surgery for deep neck infection; this maybe directly related to patients presenting late to hospital with advanced surgical pathology often due to a fear of hospital admission during this pandemic or due to a reduction in outpatient activity. Similar findings were observed in other studies as well [13] . Draining a neck abscess is not high AGP but owing to the fact that many presented late to the hospital, most of these patients had to undergo tracheostomy due to difficult or failed Endotracheal intubation [14] . There are reports of high aerosol generation during percutaneous tracheostomy and risk of exposure to other patients in intensive units while performing the procedure bed-side. Hence, while avoiding a bed-side procedure, significant number of open tracheostomies in OR were performed on non-COVID critical patients in intensive unit who otherwise needed prolonged intubation [15, 16] . There were no COVID positive patients who needed tracheostomy as the mortality rate once a patient goes into severe or critical ARDS is as high as 70%, which may argue against proceeding with tracheostomy on COVID patients. Rather, tracheotomy should only be used in specific situations such as airway obstruction where the potential for successful extubation is otherwise compromised or in circumstances where tracheotomy placement might positively affect a patient's potential for successful weaning of minimal ventilatory support [9, 17, 18, 19] . A number of other Aerosol Generating Procedures were performed during this period which includes endoscopic removal of foreign body from nose, Endoscopic skull base surgery for JNA, Micro laryngeal Posterior cordotomy for bilateral abductor palsy, laryngeal/ hypopharyngeal biopsy and oral biopsy. To prevent further risk of aerosol generation instruments like CO2 laser, Electrocautry, high speed rotating devices were not used and hence conventional techniques were employed [20] . There are incomplete evidences of possible risk of exposure while performing a mastoid surgeries as it is continuation of the respiratory epithelium from eustachian tube but to prevent any inadvertent exposure such cases who needed surgical treatment and semi emergency cases like facial nerve palsy due to complication of CSOM, mastoiditis, skull base osteomyelitis were observed in the hospital with protocol(changed) to treat the middle ear infection with aggressive medical line of management and observation, ensuring for the time of active phase of the viral infection to settle down then planned for surgery [20, 21] . With the COVID 19 pandemic a drastic change in the surgical activity was observed with reduced numbers and increase in complicated and ICU tracheostomy for prolonged intubation. 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