key: cord-0699320-92b7qmj5 authors: Jin, Qianjun; Zhou, Haiying; Lu, Hui title: Clinical Analysis of Causes and Countermeasures of Hand Injury During the COVID-19 Outbreak and Work Resumption Period: A Retrospective Study in a Designated Hospital in China date: 2021-12-22 journal: Inquiry DOI: 10.1177/00469580211067496 sha: 7469a7e507a073153b99c4cd6f072646903fc5d0 doc_id: 699320 cord_uid: 92b7qmj5 A total of 95 patients with hand injuries were admitted to the orthopedics department within half a year of the COVID-19 outbreak. Data were collected between January 23, 2020 and July 23, 2020. Data such as patients' demographics, type of injury, location, side of lesions, mechanism of injury, injury site, and surgical management were collected and subsequently analyzed. On the one hand, the total number of emergency visits due to hand injury during the COVID-19 outbreak decreased by 37%, compared to the same period in the previous year. On the other hand, work resumption injuries increased by 40%. Injuries within the resumption period occurred predominantly at work (64.7%) and were significantly higher than the same period in 2019 (37.3%) (P < .001). Machine-related injuries were the most frequent injuries seen in our hospital (58.8%). The majority of cases were from cut injuries (82.4%), with fingers being the most common site of these injuries. Simple fractures and dislocations were also reported during the study. Most injuries were classified as either minor or moderate (90%) during the outbreak. However, during the resumption of work, major injuries were more prevalent (40%). The proportion of major injuries this year’s work resumption stage (40%) has almost doubled compared to the previous year (21.8%, P = .006). The resumption of work following the COVID-19 outbreak is a time of high-risk for hand injuries. The overall number of patients with hand injuries admitted into our department has decreased compared to the corresponding period last year. However, workplace injuries, particularly machine-related ones, considerably increased during the first six months after the COVID-19 outbreak. As a result, the proportion of major injuries drastically increased. Emergency and surgical health care providers should be aware of this pattern of hand injuries during this untypical time in order to effectively prepare and plan services. February 11, 2020. 4 As expected, COVID-19 rapidly developed into a global pandemic that has affected hundreds of countries. Data show that as of November 5, 2021, 248,467,363 confirmed cases and 5,027,183 deaths were recorded worldwide. 5 China has effectively controlled the spread of this epidemic at the start of the outbreak and nonetheless remains vigilant as the situation worsens globally (http://cov.cpu.edu.cn/). On November 5 2021, COVID-19 has already claimed 5696 lives and infected 126,471 people on the Chinese mainland. On February 19, the number of new COVID-19 cases dropped to three digits and further dropped to two digits on 6th March, with most cases being imported. 6 A four-tier public health emergency response system is generally used in China, with level I being the highest. 7 The emergency response system is presented in Table 1 . Thus, on January 23, 2020, the government of Zhejiang Province officially launched a level I response. After strict prevention and control measures were implemented throughout the whole city, this response level was adjusted to level II on March 2, 2020 in a meeting of the standing committee of the provincial party committee. Afterward, the level was readjusted to level III on March 23, 2020. 8 The bulk of businesses were closed during this period, except for medical manufacturing companies. According to local authorities, enterprises that were on the 'safe list of enterprises' (i.e.,, those factories that are involved in the production of medical supplies and daily necessities, as well as the construction of key projects essential to the national economy or people's livelihoods) in Hangzhou resumed business on February 10, 2020, with local employees going back to work. As of February 20, 2020, most factories re-opened, and their employees resumed work. 9 Throughout this atypical year, multiple domestic companies, including the Guangzhou Automobile Group Company, the SAIC-GM-Wuling Automobile Company, and the Changan Company, retooled their operations to provide medical supplies, including face masks for epidemic prevention and control. 10, 11 In light of these new circumstances, a change in the pattern of hand injuries has attracted attention. Therefore, we summarized the pattern and epidemiology of hand injuries during the COVID-19 outbreak and during the work resumption period as the pandemic subsides. Our dual hypothesis is that hand injuries are more severe and that industrial machine injuries consist of most of these injuries during the work resumption period. Herein, our study attempted to highlight the patterns of hand injuries, their management, and outcomes of these injuries in our hospital after the COVID-19 outbreak. As time passes, other countries have also launched economic recovery programs to mitigate unemployment and stabilize core industries. 12 On that account, we hope that this study may provide guidance for preventing and managing hand injuries in the resumption of work in other regions. We present a retrospective study of 95 cases in a designated hospital. All cases were hand injuries registered and assessed in our hospital throughout the epidemic between January 23, 2020 (emergence of the outbreak) and July 23, 2020 (when urban work returned to normal 6 months later). The period between January 23, 2020 and February 9, 2020 was defined as the "outbreak phase" as factories began to re-open on February 10, 2020. On the other hand, the "resumption phase" was defined as the period between February 10, 2020 and July 23, 2020. Data were extracted and collected from databases of the emergency and orthopedics department. A descriptive analysis was then carried out. Data of interest included patient demographics (age and gender), profession, residential address, time and date, and treatment of the injury. The following variables were also collected for each hand injury: type of injury, injury site, side of the lesion, What do we already know about this topic? Workplace injuries, in particular machine injuries, as well as the proportional of major injuries, increased significantly following the COVID-19 outbreak How does your research contribute to the field? This study attempts to highlight the patterns of hand injuries after the COVID-19 outbreak, the management, and the outcome of these injuries in our hospital. What are your research's implications towards theory, practice, or policy? We hope that this study may disseminate the prevention and management strategies of hand injuries during work resumption in other regions. mechanism of injury, area where the injury occurred, surgical management, and outcome. Injuries were classified with the Modified Hand Injury Severity Score (MHISS). The Statistical Package for Social Sciences (SPSS) software (SPSS Statistics 17, for Windows, New York) was used for data analysis. We used the chi-square test, the Fisher exact test, and the Pearson test to assess the Relative Risk (RR) and Pvalue between groups. Differences with values of p < .05 were considered statistically significant. A total of 1357 hand-injury related emergency visits were recorded between January 23, 2020 and July 23, 2020, including 46 cases during the outbreak between January 23, 2020 and February 9, 2020, as well as 1311 cases over the resumption of the work period between February 10, 2020 and July 23, 2020. All the patients were tested negative for COVID-19. Over the same period last year, 73 cases of emergency visits associated with hand injuries were recorded between January 23, 2019 and February 9, 2019. Besides, 939 cases were recorded between February 10, 2019 and July 23, 2019. Results indicate that there were 37% fewer cases of emergency visits during the outbreak compared to the same period during the previous year and 40% more cases during the resumption of work than the same period during the previous year. Out of all patients reviewed, 95 (7%) patients were admitted to the hospital and treated in our department, including 10 (21.7%) during the outbreak phase and 85 (6.5%) during the resumption phase. The bulk of patients treated during the outbreak phase were middle-aged and elderly housewives. These injured patients had a mean age of 56.7 years (10.9). In four cases (40%) during the outbreak, these injuries occurred at home. Our study also found that during the outbreak, the percentage of domestic injuries was 26.3% higher than that of the previous year (40% vs 16.7%), with knife lacerations the most common cause. Finger injuries constituted approximately nine (90%) of the total. As a result of traffic controls, eight (80%) patients were nearby residents (Table 2) ; the bulk of injuries were mild to moderate (90%), with the exception of one case that involved an injury to the finger caused by high-pressure disinfectant fluid (Figure 1 ). In contrast, throughout the resumption period between February 9, 2020 and July 23, 2020, hand injuries sustained at work were 27.4% more common than in the previous year (64.7% vs 37.3%) and occurred overwhelmingly in middleaged males (P<.001). Injured patients had a mean age of 44.8 (13.4) years, with machine injuries making up the majority (58.8%) of the cases, and occurrences were 27.9% more common than in the previous year (P < .001). Throughout this period, such injuries were common amongst department admission. Indeed, many injuries resulted in muscle, tendon, nerve, and vascular damage; palm, wrist, and arm injuries made up about 34.1% of the total. Hand injuries tended to be more severe and even disabling over this period, often requiring emergency interventions. The majority of injuries were classified as major (40%) during the work resumption phase. This was almost double that of the previous year (21.8%), with a P-value of .006. The amputation rate in this phase reached 8.2%, triple the previous year's level (2.7%), while fracture and dislocation rates were comparable (21.2% vs 22.7%). The mean duration of hospitalization was 20.3 days during the outbreak and 7.9 days during the resumption of the work phase. Table 2 shows results for patients during the outbreak compared to the same period in the previous year ( Table 2) . Table 3 shows results during the work resumption period (Table 3) . Among the total cases of hand injuries during the outbreak and resumption period, there were some epidemicrelated injuries different from the last year. Special cases of hand injuries directly related to the pandemic are listed in Table 4 . These occurred mainly during the production and delivery of medical supplies. One case of the finger injury was caused by high-pressure disinfectant fluid (Figure 1) , and another case of forearm injury was caused by a cutting machine in a mask factory (Figure 2 ). These two typical cases were both happened in factories which changed their activities during the pandemic to meet the demand of medical supplies. The new production work was so unskilled for workers that it turned to tragedy. In addition, one case of a crush injury sustained during the delivery of medical supplies (Figure 3 ). Our study has identified unique patterns of hand injuries during the outbreak and work resumption period following the outbreak. The special pattern of hand injuries during the COVID-19 have given us many clues. First, social distancing and self-quarantine measures slowed the number of new cases in an attempt to mitigate a surge in demand for health care. 13 Some measures, such as telemedicine, were recommended to reduce hospital visits for some mild injuries. 14-16 But patients with severe injuries require urgent treatment. As we reported, emergent upperextremity injuries and operative cases didn't suffer a significant drop. The number of hand injuries even increased considerably after shelter-in-place orders in some similar studies. [17] [18] [19] Domestic accidents accounted for most hand injuries during the outbreak period, inevitable as people stayed at home. This finding was similarly reported in other investigations. [18] [19] [20] [21] Second, with recovery after a long period of economic stagnation, workers successively returned to their workplaces. Local workers without a history of exposure to areas affected by the epidemic were allowed to return to work first. 9 High social demand after a prolonged shutdown has motivated workers to throw themselves into high-intensity work. Thus, workplace injuries, especially traumatic injuries in the manufacturing sector, swiftly increased during the work resumption period. Shortage of life supplies, especially medical supplies, led to an excessive workload borne by the workers who resumed work. It was one of the main reasons for the increased number of injuries encountered in the manufacturing sector. Third, many enterprises have diverted their routine activities to produce masks and other medical supplies. As expected, hand injuries have increased dramatically for workers without experience in these sectors. Hand injuries in the manufacturing industry of medical supplies were special in this year. As illustrated in our study, the proportion of major injuries has also increased. Fourth, the study group had a longer mean duration of hospitalization comparing to the control group. The longer duration of hospitalization could be due to the situation in which these injuries occurred during an atypical time when the medical services were slowed down. It added to the medical burden, leading to a strain on medical resources. According to the clues above, the prevention of hand injuries in this special period mainly focused on three aspects: supervision of factories, educational campaigns of factories employees, and standardized treatment of hospitals. When arriving at hospital, patients were quickly sorted according to the degree of their hand injuries. Those with minor or moderate hand injuries were debrided and bandaged in the emergency department. Patients with major injuries were provided green channels to receive all of the preoperative tests in priority. Despite the necessity of ensuring practical examinations, the time required for emergency preoperative preparations was not significantly prolonged during the epidemic. As a result of efficient cooperation between various departments in our center, emergency patients during this special time received prompt treatment as always. Hangzhou was the first city in China to launch a health QR code system to curb the spread of infection as it tentatively restarted production. 22, 23 Only patients with a green QR code and normal body temperature were allowed into the emergency department. Patients suspected of being infected were examined in a separate CT room, distinct from those used for afebrile patients. Statements with a consensus agreement from an international Delphi process supported a distinction of surgery between protocols involving patients with suspected COVID-19 and those perceived to be free from infection. 24 Serological tests, medical evaluation and preparation of the surgical plan were performed while awaiting the results of the COVID-19 test. As direct contact poses a high-risk for health care professionals performing wound care, surgery, and resuscitation, 13,25 the appropriate use of personal protective equipment, strict disinfection and hand hygiene are required of surgeons. 13, 26 It is worth mentioning that a total of 105 patients with COVID-19 have been cured in our hospital. None of the staff has been infected, and SARS-Cov-2 RNA was not detected amongst objective sampling, including from the isolation wards. 27 On the global scale, there was also a surge in injuries resulting from high-risk behavior and lawlessness, suicidality, lack of usual social and physical resources, home improvement projects, and avoidance of health care facilities. 17 As a result of pandemic and economic stagnation, members of the public have also experienced an increase in psychological distresses. 28, 29 Research has suggested that anxiety, depression, and stress in workers may increase the risk of unintentional injuries during the resumption of work. 30 This is a time for solidarity and not fear; the COVID-19 outbreak is a test of solidarity in the political, financial, and scientific spheres, as stated by WHO Director-General Tedros Adhanom Ghebreyesus. 31 Thus, all doctors in our center have remained at their posts since the outbreak in a show of solidarity. The resumption of work following the COVID-19 outbreak is a time of increased risk for hand injuries. The overall number of hand injury-related hospitalized cases has decreased compared to the corresponding period last year. However, domestic accidents increased during the outbreak period, while workplace injuries, particularly machine injuries, increased significantly over the six months following the COVID-19 outbreak. In addition, the proportion of major injuries markedly increased. Emergency and surgical service providers should be aware of this pattern of hand injuries throughout this unique time so that they can prepare and plan services accordingly. Epidemiological and clinical characteristics of 99 cases of 2019 novel coronavirus pneumonia in Wuhan, China: a descriptive study A Novel Coronavirus from Patients with Pneumonia in China WHO Novel coronavirus (2019-nCoV) situation report 11 WHO. Naming the coronavirus disease (COVID-19) and the virus that causes it Coronavirus disease (COVID-19) outbreak situation Efficient measures key to containment The state overall emergency response plan for public emergencies Zhejiang Further Lowers Coronavirus Response A list of the time and batch of enterprises to resume work in Hangzhou Companies modify production to prioritize masks, protective clothing Automakers join fight against epidemic A COVID-19 recovery for climate Personal Protective Equipment (PPE) for Surgeons during COVID-19 Pandemic: A Systematic Review of Availability, Usage, and Rationing Virtually Perfect? Telemedicine for Covid-19 Telemedicine in the Era of COVID-19: The Virtual Orthopaedic Examination Telemedicine in Hand and Upper-Extremity Surgery A Call to Arms: Emergency Hand and Upper-Extremity Operations During the COVID-19 Pandemic Epidemiology of hand traumas during the COVID-19 confinement period Hand injuries during COVID-19: Lessons from lockdown Hand injuries treated at a hand emergency center during the COVID-19 lockdown Impact of the COronaVIrus Disease Health QR code helps curb the spread of COVID-19 Exposure risk of patients with chronic infectious wounds during the COVID-19 outbreak and its countermeasures Welsh Surgical Research Initiative (WSRI) Collaborative. Surgery during the COVID-19 pandemic: operating room suggestions from an international Delphi process Covid-19: Doctors performing resuscitation need higher level of PPE, says royal college Taking the right measures to control COVID-19 SARS-CoV-2 RNA detection of hospital isolation wards hygiene monitoring during the Coronavirus Disease 2019 outbreak in a Chinese hospital Timely mental health care for the 2019 novel coronavirus outbreak is urgently needed Online mental health services in China during the COVID-19 outbreak Is returning to work during the COVID-19 pandemic stressful? A study on immediate mental health status and psychoneuroimmunity prevention measures of Chinese workforce WHO Director-General's remarks at the media briefing on COVID-2019 outbreak on 14 Qianjun Jin conceived of the study Hui Lu and Haiying Zhou participated in the design of the study Qianjun Jin and Haiying Zhou drafted the manuscript All authors read and approved the final manuscript. The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article. The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This work was supported by Zhejiang Provincial Natural Science Foundation of China (LY20H060007, LS21H060001) and Zhejiang Medicine and Hygiene Research Program (2022RC139). Hui Lu  https://orcid.org/0000-0002-2969-4400