4.1 Incidence of gastrointestinal symptoms
In the early stages of the pandemic, there was a shared misconception that children were not easily infected 1. However, with the spread of the pandemic, the number of infected children is increasing and several severe pediatric cases have been reported 48. It is sometimes difficult to distinguish the gastrointestinal symptoms of pediatric COVID-19 from those caused by another viral illness, side effects of drugs, and digestive tract symptoms such as nausea and diarrhea caused by the disturbance of gastrointestinal flora by the fever itself. Some studies 49have found that 20.4% children use antibiotics that cause diarrhea, and the diarrhea is more severe in younger patients with lower respiratory tract infections treated with intravenous antibiotics. Moreover, we discovered that the total incidence of gastrointestinal symptoms in children with COVID-19 was 17.7%; unfortunately, not all the studies described a control group when investigating the incidence of gastrointestinal symptoms in an antibiotic treatment group and non-antibiotic treatment group. In a meta-analysis 50 of predominantly adult studies, 60 studies (including 4,243 patients with COVID-19) were analyzed and the incidence of gastrointestinal symptoms was found to be 17.6%, which is almost equal to 17.7% found in this study. In addition, we discovered that the incidence of gastrointestinal symptoms in other countries (21.1%) was significantly higher than that in China (12.9%). One reason may be that the gastrointestinal symptoms were not paid attention to in the early stage of the epidemic. However, once the literature was published, gastrointestinal symptoms were described in detail.
4.2. Pathogenesis of COVID-19
Regarding the mechanism of infection of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), it is currently believed that the major determinant of SARS-CoV-2 infection is the S protein, which binds to membrane receptors on host cells and mediates the fusion of the virus and cell membrane. Angiotensin converting enzyme 2 (ACE2) is a homolog of ACE and one of the important receptors on the cell membrane of host cells. The interaction between the S protein and ACE2 promotes the invasion of host cells by SARS-CoV-2. The structure of the SARS-CoV-2 S protein is highly similar to that of the SARS coronavirus (SARS-CoV) S protein; however, SARS-CoV-2 S protein binds to ACE2 with a higher affinity than the SARS-CoV S protein, indicating that SARS-CoV-2 possesses a stronger invasion ability 51. ACE2 can control intestinal inflammation and diarrhea, and the interaction between SARS-CoV-2 and ACE2 may lead to diarrhea 52. ACE2 is highly expressed in the small intestine, especially in the proximal and distal intestinal epithelial cells; therefore, the small intestine is more vulnerable to SARS-CoV-2 infection. Previous investigations may have underestimated the incidence of diarrhea among those infected with SARS-CoV-2. Further research is needed to determine whether diarrhea has diagnostic value for SARS-CoV-2. In case of the Middle East Respiratory Syndrome coronavirus (MERS-CoV), which is highly homologous to SARS-CoV-2, it is believed that the intestinal tract is another route of infection and the incidence rate of diarrhea is 20–25% 53.
4.3 Pathological examination
Till date, there have been no endoscopic and pathologic studies of the digestive tract in pediatric COVID-19 cases. However, a study in adults 54 demonstrated that there was no obvious damage to the mucosal epithelium of the esophagus, stomach, duodenum, and rectum. In the inherent layers of the stomach, duodenum, and rectum, a large number of infiltrating plasma cells and lymphocytes were seen accompanied by interstitial edema. ACE2, the virus host receptor, is mainly found in the cytoplasm of gastrointestinal epithelial cells and virus nucleocapsid proteins were found in the cytoplasm of duodenal and rectal glandular epithelial cells.
4.4 Positive rate and significance of fecal nucleic acids
In a recent study 54 on 73 hospitalized adult patients in China, the feces of 53.42% of the patients were positive for the viral RNA, the duration for which positive fecal results were obtained ranged from 1 to 12 days, and 23.29% of the patients were still fecal nucleic acid-positive after being confirmed respiratory nucleic acid-negative. Compared with adults, the present study found that the nucleic acid positivity rate of feces in children was higher (85.8%). A study reported that among 59 patients with COVID-19 in Hong Kong, 15 (25.4%) had gastrointestinal symptoms and nine (15.3%) had positive stool viral RNA test results. The detection rates of fecal viral RNA were 38.5% and 8.7% in people with and without diarrhea, respectively 50. At present, there is no relevant study on whether there is a difference in the positive rate of fecal nucleic acid testing in COVID-19 children with and without diarrhea.
In a recent study conducted from January 16, 2020 to February 8, 2020, the Chinese CDC reported 2,135 pediatric COVID-19 patients (including confirmed and suspected cases), 94 of whom were asymptomatic (4.4%) 55. However, a recent study from New York 56claimed that 29 (87.9%) out of 33 pregnant women who tested positive for SARS-CoV-2 on admission did not have symptoms of COVID-19 at the time of treatment. This is very worrying data, because it shows that there are more asymptomatic than symptomatic patients; therefore, controlling asymptomatic patients is the key to controlling the pandemic. In children with asymptomatic COVID-19, there is no relevant study on whether the nucleic acid sensitivity of respiratory specimens is higher than that of feces. Furthermore, it remains unknown whether the children in whom the symptoms have resolved and respiratory tract specimens are negative while the stool samples remain positive for viral nucleic acids, are asymptomatic infectious sources. Consequently, it is important to recommend that after recovery and discharge, pediatric patients be isolated at home for more than 2 weeks.
4.5. Prognosis of COVID-19 children with gastrointestinal symptoms
In terms of prognosis, a retrospective comparative study was carried out in patients over 18 years old in the United States 57. The experimental group included 278 patients with fever and cough due to COVID-19, and the control group included 238 patients with fever and cough attributable to a common respiratory tract infection. The incidence of gastrointestinal symptoms in the two groups was 34.8% and 26.4%, respectively (P = 0.04) . In the 278 patients with COVID-19, the course of gastrointestinal symptoms was longer, but the mortality rate and rate of severe disease were lower in patients with gastrointestinal symptoms than in those without such symptoms. At present, there is no prognostic study on children with COVID-19.
Transmission through respiratory droplets and contact are currently considered to be the main routes of transmission of COVID-19. Nevertheless, there is now increasing evidence of fecal-oral transmission 58. In clinical practice, doctors mostly pay attention to the manifestations of respiratory infection in children with COVID-19 such as fever, cough, fatigue, etc. For patients in the gastroenterology department who have no respiratory symptoms, it is recommended to adopt the appointment system and time-division diagnosis and treatment to reduce patient aggregation and avoid cross infections. The clinic should be well-ventilated and disinfection of the clinic should be performed daily at the beginning and end of the clinic. Although gastrointestinal symptoms are often ignored, in children with diarrhea, abdominal pain, nausea, vomiting, and other gastrointestinal symptoms accompanied by a low fever, attention should be paid to their epidemiological history with screening of suspected patients. Nucleic acid examination should be performed using throat swabs and anal tests. In daily life, the risk of transmission can be reduced by good hygiene practices, such as washing hands frequently and closing the toilet lid when flushing.
At present, there is no specific drug for COVID-19. Plasma therapy from convalescent patients is considered for those with severe disease 48; however, this treatment is controversial 59. Dexamethasone has now been proven to be a good treatment option for the COVID-19 60. Diarrhea in COVID-19 patients is mostly self-limiting, and symptomatic treatment such as Montmorillonite powder can be used. For critically ill patients, intestinal microecological regulators may be used to maintain the balance of the intestinal flora and prevent secondary infection by intestinal bacterial translocation.
4.7. Study limitations
The number of studies included in the meta-analysis was relatively small, with a relatively large proportion of case reports. Most studies did not report on the duration of the gastrointestinal symptoms preceding the presentation. Additionally, the number of patients was relatively small and the description of the gastrointestinal tract of children in the included studies was not sufficiently detailed,The heterogeneity is large and subgroup analysis can not find the source of heterogeneity, which will affect the accuracy of the results.. Therefore, it is necessary to conduct a large-scale double-blind randomized controlled study and include additional research factors such as stool frequency, stool characteristics, number of patients with gastrointestinal symptoms and positive fecal nucleic acid test results, length of hospitalization of fecal nucleic acid-positive patients, severity of illness, and the interrelation between respiratory tract sample nucleic acid and stool nucleic acid findings.