21 hydroxylase deficiency (21-OHD), the most common form of congenital adrenal hyperplasia, is caused by defects in CYP21A2 gene, which encodes the cytochrome P450 oxidase (P450C21) involved in glucocorticoid and mineralocorticoid synthesis. The diagnosis of 21-OHD is based on the comprehensive evaluation of clinical manifestation, biochemical alteration and molecular genetics results. Due to the complex structure of CYP21A2, special techniques are required to perform delicate analysis to avoid the interference of its pseudogene. Recently, the state-of-the-art diagnostic methods were applied to the clinic gradually, including the steroid hormone profiling and third generation sequencing. To standardize the laboratory diagnosis of 21-OHD, this consensus was drafted on the basis of the extensive knowledge, the updated progress and the published consensuses and guidelines worldwide by expert discussion organized by Rare Diseases Group of Pediatric Branch of Chinese Medical Association, Medical Genetics Branch of Chinese Medical Doctor Association, Birth Defect Prevention and Molecular Genetics Branch of China Maternal and Child Health Association. and Molecular Diagnosis Branch of Shanghai Medical Association.
Child ; Humans ; Adrenal Hyperplasia, Congenital/genetics* ; Steroid 21-Hydroxylase/genetics* ; Consensus ; China ; Clinical Laboratory Techniques ; Mutation

Hepatitis type E virus (HEV) infection is a common cause of acute viral hepatitis in China, and its etiological diagnosis relies on laboratory detection. Therefore, this article introduces the HEV RNA, HEV antigen, anti-HEV IgM, and IgG detection methods and their diagnostic application value. In addition, it also discusses the current international diagnostic standard and HEV infection presentation.
Humans ; RNA, Viral ; Hepatitis Antibodies ; Clinical Laboratory Techniques/methods* ; Hepatitis E virus ; Immunoglobulin M ; Hepatitis

The laboratory diagnostic strategy for human immunodeficiency virus (HIV) is a process to accurately detect HIV patients through a combination of available HIV tests. Laboratory tests for HIV infection are mainly serological antibody and antigen testing and HIV RNA testing. With the update of testing reagents, the sensitivity and specificity have improved substantially and the window period of detection has shortened, but there is a risk of false positives. Various guidelines have recommended different diagnostic strategies for different target populations and different prevalence regions to guide patients to confirm the diagnosis and receive standardized antiretroviral therapy as early as possible. How to refer to the diagnostic strategies, reduce false positives and shorten the window period while increasing the detection rate is an urgent issue for laboratories to address. This article describes the characteristics and advantages and disadvantages of testing methods related to HIV infection from the perspective of laboratory diagnostic strategies, as well as the impact of the development of treatments on diagnostic strategies, in order to provide theoretical support for the practical application of HIV diagnostic strategies.
Humans ; HIV ; HIV Infections/diagnosis* ; Sensitivity and Specificity ; Clinical Laboratory Techniques/methods* ; Quality Control

Humans ; Child ; Clinical Laboratory Techniques

Malaria remains a global health challenge, although an increasing number of countries will enter pre-elimination and elimination stages. The prompt and precise diagnosis of symptomatic and asymptomatic carriers of Plasmodium parasites is the key aspect of malaria elimination. Since the launch of the China Malaria Elimination Action Plan in 2010, China has formulated clear goals for malaria diagnosis and has established a network of malaria diagnostic laboratories within medical and health institutions at all levels. Various external quality assessments were implemented, and a national malaria diagnosis reference laboratory network was established to strengthen the quality assurance in malaria diagnosis. Notably, no indigenous malaria cases have been reported since 2017, but the risk of re-establishment of malaria transmission cannot be ignored. This review summarizes the lessons about malaria diagnosis in the elimination phase, primarily including the establishments of laboratory networks and quality control in China, to better improve malaria diagnosis and maintain a malaria-free status. A reference is also provided for countries experiencing malaria elimination.
China/epidemiology* ; Clinical Laboratory Techniques ; Global Health ; Humans ; Laboratories ; Malaria/prevention & control*

Exploring a new teaching mode of CHB laboratory diagnostics to improve the teaching quality through establishment a teaching model covered the whole process of CHB disease diagnosis and differential diagnosis, treatment, drug selection, the toxicity and side effects prediction, effect monitoring, and prognosis evaluation. According to the CHB clinical diagnosis and treatment guidelines, formulated the laboratory examination and detection strategies related to different stages of CHB, and established CHB clinical laboratory diagnostic pathway. Compared the classroom teaching effect by the questionnaire between the 2016 and 2017 eight-year undergraduates from the First Clinical College of Wuhan University. In this study,the CHB clinical laboratory diagnostic pathway was established and approved by clinicians, which covered the whole process of CHB disease diagnosis and differential diagnosis, treatment, drug selection, the toxicity and side effects prediction, effect monitoring, and prognosis evaluation. The teaching quality evaluation indicators and the scores on the class test had been greatly improved with the clinical diagnostic pathway teaching mode in the classroom teaching of 2017 clinical medicine undergraduates compared with the traditional teaching mode in the 2016 clinical medicine undergraduates. In summary, the medical students not only could realize the organic integration of laboratory diagnostics and clinical medicine, but also improves overall understanding of various laboratory tests in CHB diagnosis and treatment from the teaching model of laboratory diagnostics based on the CHB clinical laboratory diagnostic pathway,and the quality of teaching for CHB has been significantly improved.
Clinical Laboratory Techniques ; Hepatitis B, Chronic ; Humans ; Laboratories ; Laboratories, Clinical ; Records

2019-nCoV epidemic was firstly reported at late December of 2019 and has caused a global outbreak of COVID-19 now. Saliva, a biofluid largely generated from salivary glands in oral cavity, has been reported 2019-nCoV nucleic acid positive. Besides lungs, salivary glands and tongue are possibly another hosts of 2019-nCoV due to expression of ACE2. Close contact or short-range transmission of infectious saliva droplets is a primary mode for 2019-nCoV to disseminate as claimed by WHO, while long-distance saliva aerosol transmission is highly environment dependent within indoor space with aerosol-generating procedures such as dental practice. So far, no direct evidence has been found that 2019-nCoV is vital in air flow for long time. Therefore, to prevent formation of infectious saliva droplets, to thoroughly disinfect indoor air and to block acquisition of saliva droplets could slow down 2019-nCoV dissemination. This review summarizes diagnostic value of saliva for 2019-nCoV, possibly direct invasion into oral tissues, and close contact transmission of 2019-nCoV by saliva droplets, expecting to contribute to 2019-nCoV epidemic control.
Betacoronavirus ; isolation & purification ; pathogenicity ; Clinical Laboratory Techniques ; Coronavirus Infections ; diagnosis ; transmission ; Humans ; Mouth ; virology ; Pandemics ; Peptidyl-Dipeptidase A ; metabolism ; Pharynx ; virology ; Pneumonia, Viral ; diagnosis ; transmission ; SARS Virus ; isolation & purification ; pathogenicity ; Saliva ; virology

OBJECTIVE: Coronavirus disease 2019 (COVID-19) has raised concern around the world as an epidemic or pandemic. As data on COVID-19 has grown, it has become clear that older adults have a disproportionately high rate of death from COVID-19. This study describes the early clinical characteristics of COVID-19 in patients with more than 80 years of age. METHODS: Epidemiological, clinical, laboratory, radiological, and treatment data from 17 patients diagnosed with COVID-19 between January 20 and February 20, 2020 were collected and analyzed retrospectively. Treatment outcomes among subgroups of patients with non-severe and severe symptoms of COVID-19 were compared. RESULTS: Of the 17 hospitalized patients with COVID-19, the median age was 88.0 years (interquartile range, 86.6-90.0 years; range, 80.0-100.0 years) and 12 (70.6%) were men. The age distribution of patients was not significantly different between non-severe group and severe group. All patients had chronic pre-existing conditions. Hypertension and cardiovascular diseases were the most common chronic conditions in both subgroups. The most common symptoms at the onset of COVID-19 were fever (n = 13; 76.5%), fatigue (n = 11; 64.7%), and cough (n = 5; 29.4%). Lymphopenia was observed in all patients, and lymphopenia was significantly more severe in the severe group than that in non-severe group (0.4 × 10/L vs 1.2 × 10/L, P = 0.014). The level of serum creatinine was higher in the severe group than in the non-severe group (99.0 μmol/L vs 62.5 μmol/L, P = 0.038). The most common features of chest computed tomography images were nodular foci in 10 (58.8%) patients and pleural thickening in 7 (41.2%) patients. All patients received antiviral therapy, while some patients also received intravenous antibiotics therapy (76.5%), Chinese medicinal preparation therapy (Lianhuaqingwen capsule, 64.7%), corticosteroids (35.3%) or immunoglobin (29.4%). Eight patients (47.1%) were transferred to the intensive care unit because of complications. Ten patients (58.8%) received intranasal oxygen, while 3 (17.6%) received non-invasive mechanical ventilation, and 4 (23.5%) received high-flow oxygen. As of June 20, 7 (41.2%) patients had been discharged and 10 (58.8% of this cohort, 77.8% of severe patients) had died. CONCLUSION The mortality of patients aged 80 years and older with severe COVID-19 symptoms was high. Lymphopenia was a characteristic laboratory result in these patients, and the severity of lymphopenia was indicative of the severity of COVID-19. However, the majority of patients with COVID-19 in this age cohort had atypical symptoms, and early diagnosis depends on prompt use of a viral nucleic acid test.
Age Factors ; Aged, 80 and over ; Antiviral Agents ; therapeutic use ; China ; epidemiology ; Clinical Laboratory Techniques ; Coronavirus Infections ; diagnosis ; epidemiology ; pathology ; Female ; Humans ; Lung ; diagnostic imaging ; pathology ; Male ; Pandemics ; Pneumonia, Viral ; diagnosis ; epidemiology ; pathology ; Retrospective Studies ; Tomography, X-Ray Computed ; Treatment Outcome

In Taiwan, high-risk patients have been identified and tested for preventing community spread of COVID-19. Most sample collection was performed in emergency departments (EDs). Traditional sample collection requires substantial personal protective equipment (PPE), healthcare professionals, sanitation workers, and isolation space. To solve this problem, we established a multifunctional sample collection station (MSCS) for COVID-19 testing in front of our ED. The station is composed of a thick and clear acrylic board (2 cm), which completely separates the patient and medical personnel. Three pairs of gloves (length, 45 cm) are attached and fixed on the outside wall of the MSCS. The gloves are used to conduct sampling of throat/nasal swabs, sputum, and blood from patients. The gap between the board and the building is only 0.2 cm (sealed with silicone sealant). ED personnel communicate with patients using a small two-way broadcast system. Medical waste is put in specific trashcans installed in the table outside the MSCS. With full physical protection, the personnel conducting the sampling procedure need to wear only their N95 mask and gloves. After we activated the station, our PPE, sampling time, and sanitization resources were considerably conserved during the 4-week observation period. The MSCS obviously saved time and PPE. It elevated the efficiency and capacity of the ED for handling potential community infections of COVID-19.
Betacoronavirus ; Clinical Laboratory Techniques ; Coronavirus Infections ; diagnosis ; epidemiology ; Emergency Service, Hospital ; organization & administration ; Humans ; Mass Screening ; methods ; Pandemics ; Personal Protective Equipment ; supply & distribution ; Pneumonia, Viral ; diagnosis ; epidemiology ; Taiwan ; epidemiology

Child ; China ; Clinical Laboratory Techniques ; Consensus ; Humans ; Mycoplasma pneumoniae ; Pneumonia, Mycoplasma ; diagnosis