key: cord-0797086-9t79gqck
authors: Okuno, Takuya; Takada, Daisuke; Shin, Jung-ho; Morishita, Tetsuji; Itoshima, Hisashi; Kunisawa, Susumu; Imanaka, Yuichi
title: Surgical volume reduction and the announcement of triage during the 1st wave of the COVID-19 pandemic in Japan: a cohort study using an interrupted time series analysis
date: 2021-04-21
journal: Surg Today
DOI: 10.1007/s00595-021-02286-6
sha: 120e47e9cdb69e94a60c5baec772fbabe44c8802
doc_id: 797086
cord_uid: 9t79gqck

PURPOSE: The coronavirus disease (COVID-19) pandemic has caused unprecedented challenges for surgical staffs to minimize exposure to COVID-19 or save medical resources without harmful patient outcomes, in accordance with the statement of each surgical society. No research has empirically validated declines in surgical volume in Japan, based on the usage of surgical triage. We aimed to identify whether the announcement of surgical priorities by each Japanese surgical society may have affected the surgical volume decline during the 1st wave of this pandemic. METHODS: We extracted 490,719 available cases of patients aged > 15 years who underwent elective major surgeries between July 1, 2018, and June 30, 2020. After the categorization of surgical specialities, we calculated descriptive statistics to compare the year-over-year trend and conducted an interrupted time series analysis to validate the decline of each surgical procedure. RESULTS: Monthly surgical cases of eight surgical specialities, especially ophthalmology and ear/nose/throat surgeries, decreased from April 2020 and reached a minimum in May 2020. An interrupted time series analysis showed no significant trends in oncological and critical surgeries. CONCLUSION: Non-critical surgeries showed obvious and statistically significant declines in case volume during the 1st wave of the COVID-19 pandemic according to the statement of each surgical society in Japan. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00595-021-02286-6.

The rapid spread of the coronavirus disease (COVID- 19) , which first appeared in Wuhan, China, has been increasing and disrupting healthcare systems worldwide [1] . During the COVID-19 pandemic, surgical staffs have experienced unprecedented challenges [2] [3] [4] . To minimize exposure to COVID-19 and save medical resources to prevent harmful outcomes for the patients, cancellation or triage of surgeries are recommended [3] [4] [5] . Patients with critical diseases and cancers should still receive surgery as usual; whereas, cases with benign diseases can be postponed [6] [7] [8] .

Previous studies suggest that there are wide variations in the trends of the affected number of surgical procedures depending on the country and time period [3, 4, 9] . The Japanese Surgical Society (JSS, which consists of ten major surgical societies in Japan) announced the importance of triage by case severity and surgical recovery planning for the backlog of surgeries [10] . A comprehensive surgical and medical care strategy is also recommended to prevent potential adverse health implications caused by surgical delays [11] .

However, there are no studies validating the trends of surgeries based on the announcement of surgical triage during the 1st wave of this pandemic in Japan, one of the regions most affected by COVID-19 at the earliest stage throughout the world. In this report, we performed a retrospective cohort study discussing the impact of the 1st wave of the COVID-19 pandemic on major elective surgical procedures in Japan, referring to the priorities announced by each surgical society in Japan.

We used the Diagnosis Procedure Combination (DPC) data from the Quality Indicator/Improvement Project (QIP) database, the program administered by the Department of Healthcare Economics and Quality Management, Kyoto University.

The DPC/per-diem payment system (PDPS) is a Japanese prospective payment system applied to acute care hospitals that is comparable to diagnosis-related databases in the United States [12, 13] . A total of 1730 hospitals adopted the DPC/PDPS in 2018, accounting for 54% of all general beds in Japanese hospitals [14, 15] . DPC data do not include information on laboratory findings and reasons for surgery; instead, they provide information included in the discharge summary, such as the primary diagnosis, comorbidities [identified by using the International Classification of Diseases, 10th Revision (ICD-10) codes], type of surgery, and codes corresponding to the medical procedures performed.

Among the QIP hospitals, the eligibility criteria for inclusion in this study were as follows: age > 15 years and having had selective surgical procedures during hospitalization between July 1, 2018, and June 30, 2020. We did not exclude any patients.

Regarding the patients' background characteristics, we referred to their sex, age, and length of stay (LOS), as well as the Charlson and Elixhauser comorbidity indices [16] . We also identified and categorized the surgical speciality from the main surgery during admission based on previous reports [5, 9] : oncological, abdominal, genitourinary, cardiovascular, neurosurgery, orthopedic, ophthalmology, and ear/nose/ throat (ENT). Except for oncological surgeries, owing to the wide variety of surgical procedures, we included the top three most common surgeries in Japan based on the National Database of Health Insurance Claims and Specific Health Checkups of Japan (NDB), which covers the medical claim information of the entire Japanese population of 127 million [17] . Details on the surgical classification are shown by K codes, which are the claims codes for surgery, in Supplemental Table 1 .

The monthly case volumes of our total eligible surgeries are presented in Fig. 1 , using line graphs. The monthly cases by surgical speciality between July 2018 and June 2020 are also shown in Table 1 to compare the reduction.

We used ITS, including segmented regressions, to ascertain any volume changes due to the COVID-19 pandemic on population-level admissions. We statistically evaluated the changes in the volume of surgeries based on the date of admission adjusted for seasonality through a Fourier term [18] . We hypothesize that COVID-19 would have affected the number of scheduled admissions especially after April 2020 as an implemented point, in which the Japanese Society of Anesthesiologists and the JSS requested surgeons to triage some elective surgeries. We divided our datasets into two periods for ITS analysis: before the JSS surgicaltriage-statement (July 2018-March 2020) and after that (April-June 2020). Monthly case volumes of scheduled admission with surgery are presented in Fig. 1 using line graphs. Baseline demographics for the population for ITS analysis are listed in Supplemental Tables 2-9. Age was expressed as the mean ± SD and LOS as the median (interquartile range), which were compared using Mann-Whitney U tests. Categorical variables were expressed as percentages and compared using χ 2 tests. The level of statistical significance was set at p < 0.05 (two-tailed) in Table 2 . Statistical analyses were performed with R version 4.0.2 software program (R Foundation for Statistical Computing, Vienna, Austria). The study protocol was approved by the Ethics Committee of Kyoto University Graduate School, Kyoto, Japan (R0135). This study was conducted in accordance with the ethical guidelines for medical and health research involving human participants issued by the Japanese National Government. The data were anonymized, and the requirement for informed consent was waived.

We detected 258 hospitals and 490,719 cases of patients over 15-years-old with surgery between July 1, 2018, and June 30, 2020. Figure 1 displays the trend of total surgical cases per month. The case volume decreased from April and reached a minimum in May (n = 12,501). Compared to the previous year, every type of surgical volume, especially ophthalmologic and ENT surgeries, also indicated the smallest number of cases in May.

Although prior year comparisons of all oncological surgeries showed a decline since April (Supplemental Fig. 1 ), the ITS analysis showed no significance in the surgical volume according to the p value of > 0.05 (Fig. 2) .

Prior year comparisons of all abdominal, genitourinary, and cardiovascular surgeries showed a decrease from April, especially for hernia and lower-limb varices surgeries (Supplemental Figs. [2] [3] [4] . An ITS analysis showed p < 0.05 in abdominal, stone, and lower-limb varices surgeries ( Fig. 2 : cholecystectomy p = 0.012; hernia p = 0.002; intestinal surgery p = 0.022; stone surgery p < 0.001; lower-limb varices surgery p < 0.001).

All surgeries except discectomy had low numbers compared to the previous year from April, particularly in May (Supplemental Figs. 5 and 6: spine fusion 68.5%; discectomy 63.3%; intracranial 49.7%; ORIF 49.3%; arthroplasty 70.1%; removal of nail 35.4%). ITS analysis of intracranial surgery and all orthopedic surgeries showed significant decline (Fig. 2 ).

Our study showed the trends of scheduled admission with surgery and important changes in surgical volume during the COVID-19 pandemic based on the announcement of the surgical triage recommendation in Japan. We found that oncological surgeries and some critical surgeries had continued according to the ITS analysis during the 1st wave of the COVID-19 pandemic, even though the year-over-year trend showed a decline. The decline of oncological surgeries for gastrointestinal, hepato-pancreato-biliary, lung, breast, and genitourinary cancer was not significant in the ITS analysis, even though there were reductions in comparison to the same period of the previous year. For patients who had nonfatal diseases or did not require urgent medical intervention, JSS recommended postponement or performing surgery cautiously under appropriate infection control measures [5] . Owing to the risk of cancer-progression, prioritization of procedures should consider available evidence on time of surgery and oncologic outcomes [9, 19, 20] . The American College of Surgeons also recommended that surgery for low-risk cancer should be deferred but should not be postponed for most other cancers [21] . For example, our result for gastrointestinal cancer could reflect the recommendation because we did not include endoscopic procedures, which were usually performed for early-stage cancer outside the operating room. However, our result for prostate cancer showed no downward trend, which was opposite to urological triage (6, 9) recommendations [22] . This was probably because of the relative affordability of hospital beds recruited in this study and the patients' wishes to perform the surgery as scheduled.

In terms of the abdominal, genitourinary, and cardiovascular surgeries, all but gynecological, aortic, and dialysisfistula surgeries decreased with p < 0.05 in ITS analysis. Selected abdominal and stone surgery have a low priority and are basically recommended to be delayed [5, 9, 22] . Regarding gynecological surgery, the Japan Society of Obstetrics and Gynecology did not established a system for surgical triage. The most common diseases for hysterectomy and adnexal surgery are uterine fibroids and ovarian cysts. Because these diseases could possibly lead to extreme anemia or torsion if left untreated, selected gynecological surgeries may have been performed with some priority [23] . During the COVID-19 pandemic, management of ICU beds and ventilators is important. There is also concern about a remarkable reduction in blood donation because many cardiovascular surgeries require perioperative transfusion [24, 25] . Considering the risk of COVID-19 infection and conservation of medical resources, certain surgical restrictions such as delaying of surgery for stable patients or transferring a patient to near-by hospitals are recommended for cardiac and aortic surgery by the Japanese Society for Cardiovascular Surgery, as in Western countries [26] [27] [28] . However, cardiovascular surgery is thought to be essential because of the risk of worsening or even death caused by surgical delay. For example, progression from asymptomatic to symptomatic (typically chest pain or shortness of breath) with an aortic aneurysm can increase the risk of surgery, or even worse, make surgery impossible. Similarly, if the appropriate timing of surgery for dialysis fistula is missed, a patient's condition will become irreversible because of kidney failure. When medical resources, such as hospital beds, staff, and ventilators can be afforded to a certain extent, many cardiovascular surgeries should not be unnecessarily postponed, and such a trend was also observed in this study.

Within neurosurgery and orthopedic surgeries, every procedure declined compared to the same period in the previous year with p < 0.05, except for spinal surgeries including spinal fusion and discectomy. According to a report by Johns Hopkins University, the decrease in cranial surgery cases was largest in the department of neurosurgery [29] . Triage of elective neurosurgery was basically judged based on the symptoms, such as any signs of life-, limb-or vision-threatening conditions [30] . The Japan Neurosurgical Society also announced similar statements with only an additional alert about endoscopic surgery [31] . In this research, we chose surgeries for brain tumor, intracranial hemorrhage, and intracranial vascular as cranial surgery based on their popularity in the NDB. Because patients who underwent these surgeries after scheduled admission might possibly have had trivial symptoms, our results could have been affected by such selection effects. Spine surgery also decreased, although the ITS analysis was not significant. The Japan Neurosurgical Society announced that spine surgery is intermediate or high priority according to the symptoms [31] . Patients with a spinal injury often experience paralysis, which leads to a decline in activities of daily living (ADL) or quality of life, and the complaints of symptoms had possibly become more pronounced, which might have led to our results. Traumatic surgery is one that requires minimizing pre-operative delay and LOS despite a patient's COVID-19 status at each hospital [9] , although whether surgery is performed with optimal timing or not should be decided in each hospital based on restrictions on elective resources and procedures [32] . Considering the necessity of traumatic surgery such as for fracture, surgical volume might have declined because of the state of emergency declared by the government that led to people voluntarily refraining from going out. Arthroplasty was sometimes performed for fracture patients, although most of them were for the treatment of osteoarthritis. This might be because we selected only scheduled admission patients. Osteoarthritis adversely impacts ADL regardless of there being a state of emergency, which could be related to our results.

Finally, surgeries associated with quality of life including ophthalmologic and ENT surgeries were focused on. The Japanese Ophthalmological Society and Oto-Rhino-Laryngological Society of Japan recommended cancellation or postponement of most elective surgeries because of the high probability of the COVID-19 virus being present in the nasal cavity, pharynx, and lacrimal fluid [33, 34] . Moreover, both ophthalmologists and otolaryngologists are a high-risk category of COVID-19 infection because their high daily outpatient and emergent patient volumes. In our study, the reason for the dramatic decrease in the surgical volume in otolaryngology and ophthalmology compared to other surgical categories might be that patients themselves were reluctant to be seen and that physicians in these two departments were strictly triaged by urgency.

This report focuses on the 1st wave of the COVID-19 pandemic, which was the most disruptive for clinical practice. Because most of the backlogged surgeries tended to have a low-priority, shifting the patients to ambulatory surgery centers or hospitals with no hospitalized COVID-19 positive patients in the same medical area may be one solution.

Since the second wave, the number of scheduled surgeries has been gradually recovering, partly because the healthcare system has been more organized. However, it is still unlikely that there will be a full recovery compared to pre-pandemic levels, or even an increase in the number of surgeries to deal with the backlogged surgeries. The decrease in the number of surgeries can be attributed to various factors such as a decrease in the number of affected patients, patients refraining from pursuing medical care, and delays in surgeries. Therefore, it is important to examine what kind of surgery leads to quick recovery.

Our study is associated with several limitations. First, our target hospitals included 254 QIP participants who voluntarily provided DPC data. This study population may not have been comprehensive enough to be representative of the current situation in Japan because there are more than 8000 hospitals in Japan. In this study, participant hospitals had a variety of backgrounds, such as private, public, and teaching hospitals. COVID-19-positive patients were admitted in at least about half of the hospitals. We believe that the selection bias associated with this study was not very significant, and this result was important for understanding the future course of the pandemic. Second, we did not consider whether there was a trend for surgery originally performed in an inpatient setting for ambulatory surgery because of the COVID-19 pandemic. The Centers for Disease Control and Prevention has recommended that some inpatient surgeries should be shifted to ambulatory surgery when possible and it is safe to do so, and the Ambulatory Surgery Center Association also cited the recommendation because of the risk of infection for medical staff and patients and the efficiency of medical resources [35] . Ambulatory surgery centers need to be prepared for the possibility of performing surgeries such as trauma and backlog surgeries that have never been experienced before depending on how the COVID-19 pandemic develops in the future.

In conclusion, we herein demonstrated and validated the trend of surgical volume reduction in Japan based on the surgical triage announced by each surgical society by applying ITS analyses. Almost all surgeries, except for oncological and critical procedures, tended to be significantly affected by COVID-19. Even in an emergency like this pandemic, the fact that surgical triage was performed in accordance with the statement suggests that medical care was provided efficiently in Japan. Future research should examine how hospitals recovered efficiently from the backlog of surgeries to prepare for the next possible pandemic wave.

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Acknowledgements We thank all the staff members and all the participating acute care hospitals. Our database using in this research cannot be available publicly because of their nature (the data of Japanese government).

The online version contains supplementary material available at https:// doi. org/ 10. 1007/ s00595-021-02286-6.