Emerging viruses are viruses whose occurrence has risen within the past twenty years,or whose presence is likely to increase in the near future.Diseases caused by emerging viruses are a major threat to global public h...Emerging viruses are viruses whose occurrence has risen within the past twenty years,or whose presence is likely to increase in the near future.Diseases caused by emerging viruses are a major threat to global public health.In spite of greater awareness of safety and containment procedures,the handling of pathogenic viruses remains a likely source of infection,and mortality,among laboratory workers.There is a steady increase in both the number of laboratories and scientist handling emerging viruses for diagnostics and research.The potential for harm associated to work with these infectious agents can be minimized through the application of sound biosafety concepts and practices.The main factors to the prevention of laboratory-acquired infection are well-trained personnel who are knowledgable and biohazard aware,who are perceptive of the various ways of transmission,and who are professional in safe laboratory practice management.In addition,we should emphasize that appropriate facilities,practices and procedures are to be used by the laboratory workers for the handling of emerging viruses in a safe and secure manner.This review is aimed at providing researchers and laboratory personnel with basic biosafety principles to protect themselves from exposure to emerging viruses while working in the laboratory.This paper focuses on what emerging viruses are,why emerging viruses can cause laboratory-acquired infection,how to assess the risk of working with emerging viruses,and how laboratory-acquired infection can be prevented.Control measures used in the laboratory designed as such that they protect workers from emerging viruses and safeguard the public through the safe disposal of infectious wastes are also addressed.展开更多
AIM:To assess the biosafety of a poly(acrylamide-cosodium acrylate)hydrogel(PAH)as a 3D-printed intraocular lens(IOL)material.METHODS:The biosafety of PAH was first evaluated in vitro using human lens epithelial cells...AIM:To assess the biosafety of a poly(acrylamide-cosodium acrylate)hydrogel(PAH)as a 3D-printed intraocular lens(IOL)material.METHODS:The biosafety of PAH was first evaluated in vitro using human lens epithelial cells(LECs)and the ARPE19 cell line,and a cell counting kit-8(CCK-8)assay was performed to investigate alterations in cell proliferation.A thin film of PAH and a conventional IOL were intraocularly implanted into the eyes of New Zealand white rabbits respectively,and a sham surgery served as control group.The anterior segment photographs,intraocular pressure(IOP),blood parameters and electroretinograms(ERG)were recorded.Inflammatory cytokines in the aqueous humor,such as TNFαand IL-8,were examined by ELISA.Cell apoptosis of the retina was investigated by TUNEL assay,and macro PAHge activation was detected by immunostaining.RESULTS:PAH did not slow cell proliferation when cocultured with human LECs or ARPE19 cells.The implantation of a thin film of a 3 D-printed IOL composed of PAH did not affect the IOP,blood parameters,ERG or optical structure in any of the three experimental groups(n=3 for each).Both TNFαand IL-8 in the aqueous humor of PAH group were transiently elevated 1 wk post-operation and recovered to normal levels at 1 and 3 mo post-operation.Iba1+macroPAHges in the anterior chamber angle in PAH group were increased markedly compared to those of the control group;however,there was no significant difference compared to those in the IOL group.CONCLUSION:PAH is a safe material for 3D printing of personal IOLs that hold great potential for future clinical applications.展开更多
At the end of 2019,the novel coronavirus infection outbroke in Wuhan,Hubei Province.On Feb.2,2020,Wuhan,as the worst-hit region,began to build“shelter hospital”rapidly to treat patients with mild ilness.The shelter ...At the end of 2019,the novel coronavirus infection outbroke in Wuhan,Hubei Province.On Feb.2,2020,Wuhan,as the worst-hit region,began to build“shelter hospital”rapidly to treat patients with mild ilness.The shelter hospital has multiple functions such as emergency treatment,surgical treatment and clinical test,which can adapt to emergency medical rescue tasks.Based on the characteristics that shelter hospital only treats patients with mild ilness,tests of shelter laboratory,including coronavirus nucleic acid detection,IgM/IgG antibody serology detection,monitoring and auxiliary diagnosis and/or a required blood routine,urine routine,C-reactive protein,calcitonin original,biochemical indicators(liver enzymes,myocardial enzymes,renal function,etc.)and blood coagulation function test etc,were used to provide important basis for the diagnosis and treatment of the disease.In order to ensure laboratory biosafety,it is necessary to first evaluate the harm level of various specimens.In the laboratory biosafety management,the harm level assessment of microorganisms is the core work of biosafety,which is of great significance to guarantee biosafety.As an emergency deployment afcted by the environment,shelter laboratory must possess strong mobility.This paper will explore how to combine the biosafety model of traditional laboratory with the particularity of shelter laboratory to carry out effective work in response to the current epidemic.展开更多
In a previous study, we used natural butterfly wings as a cell growth matrix for tissue engineering materials and found that the surface of different butterfly wings had different ultramicrostructures, which can affec...In a previous study, we used natural butterfly wings as a cell growth matrix for tissue engineering materials and found that the surface of different butterfly wings had different ultramicrostructures, which can affect the qualitative growth of cells and regulate cell growth, metabolism, and gene expression. However, the biocompatibility and biosafety of butterfly wings must be studied. In this study, we found that Sprague-Dawley rat dorsal root ganglion neurons could grow along the structural stripes of butterfly wings, and Schwann cells could normally attach to and proliferate on different species of butterfly wings. The biocompatibility and biosafety of butterfly wings were further examined through subcutaneous implantation in Sprague-Dawley rats, intraperitoneal injection in Institute of Cancer Research mice, intradermal injection in rabbits, and external application to guinea pigs. Our results showed that butterfly wings did not induce toxicity, and all examined animals exhibited normal behaviors and no symptoms, such as erythema or edema. These findings suggested that butterfly wings possess excellent biocompatibility and biosafety and can be used as a type of tissue engineering material. This study was approved by the Experimental Animal Ethics Committee of Jiangsu Province of China(approval No. 20190303-18) on March 3, 2019.展开更多
On December 14, 2017, a faculty member of a university in Hunan Province reported that an anthrax vaccine strain might have recovered virulence during an undergraduate experiment and potential exposure could not be ru...On December 14, 2017, a faculty member of a university in Hunan Province reported that an anthrax vaccine strain might have recovered virulence during an undergraduate experiment and potential exposure could not be ruled out for the students involved. Upon receiving the case report, the CDC, health bureaus, and local governments at the county, prefectural, and provincial levels promptly organized experts in different fields (including epidemiologists, biosafety experts, and laboratory testing experts) for case investigation, evaluation, and response. As the investigation results showed, no virulence recovery was identified in the involved anthrax vaccine strain;and no contamination of Bacillus anthracis was detected at the involved areas. Thus, the university returned to normal functioning.展开更多
Background: Several related accidents occur in the laboratories due to insufficient regulation, inappropriate implementation of safety measures or unawareness attitude and practice toward safety precaution. Biosafety ...Background: Several related accidents occur in the laboratories due to insufficient regulation, inappropriate implementation of safety measures or unawareness attitude and practice toward safety precaution. Biosafety is a tool through which we are managing safety and security related to any kinds of hazards that may be either to the human, animals, plants and environment as well. We can implement good laboratory practice to minimize the risk while performing any kind of test procedures, either handling to the samples like blood and other body fluids which is playing important role for infections and transmissible diseases. If we will provide facilities and training to the lab personnel, then we can protect public, agriculture, and the environment from which is leading cause of infections as well as hazards such as biological, chemical, electrical and glassware. For achieving effective and necessary biosafety and security, it should make sure that any unauthorized person is not able to handle, process, transport to minimize loss and misuse of the any kind of hazards especially biohazards. Therefore, it’s highly recommended to make an international system to avoid any kind of biosafety related issues. Objective: Because biosafety is an important element in quality management system (QMS) and it is a fundamental tool for compliance with accreditation and certification standards, the aim of this study was to assess the practices of lab personnel towards biosafety measures in their laboratories. Method: The study was cross-sectional study that conducted among 70 laboratories by use of structured questionnaire. Data analysis was done by using statistical package for social science (SPSS). Result: Among 70 laboratories, 2 (3%) were appointing a biosafety officer, 16 (23%) have fire detection system and fire alarm system, and 20 (29%) of all laboratories were provided by fire extinguisher. Among provision of personnel protection, 56 (80%) always wearied lab coat and gloves, 35 (79%) wearied masks (surgical mask) with low availability of safety goggles and eye shield. Vaccination for hepatitis B virus identified in 40 (57%) of the laboratories. In 41 (59%) of laboratories, the cleaning personnel were not aware about optimal handlers of biohazard in the laboratory. 20 (29%) of all laboratories have exit door and 43 (61%) were used biological safety cabinet. Availability of sharp container and color-coded biohazard bags were found in about 60% (86%), 55 (79%);safe disposal policies were found in 49 (70%) of laboratories. Discussion: Biosafety measures and practices in Sudan need to be restructured if we target to achieve good laboratory practices as well as safe environmental testing for clinical human samples. Recommendation: There are a great need to establish and implement biosafety precaution program included in government and private clinical laboratory in Sudan.展开更多
With detailed analysis and research on biosafety,it is found that biosafety has an important role and occupies a key position in relation to universitiesJ laboratories.It is also one of the most important components o...With detailed analysis and research on biosafety,it is found that biosafety has an important role and occupies a key position in relation to universitiesJ laboratories.It is also one of the most important components of the safe construction and management of laboratories.At the same time,biosafety and life safety of teachers and students enable orderly and smooth teaching in which they are closely linked.If the biosafety of a university's laboratory has problems,inevitably there would be huge threats to the university itself,teachers,and students.Hence,in order to ensure that laboratories are biologically safe,it is necessary to find out the existing problems,develop flawless solutions and strategies,establish reasonable laboratory safety systems,and strengthen the laboratory protection facilities.Hence,problems pertaining this issue would be properly solved.This article analyzes and studies the construction of a biosafety system in school laboratories for future references.展开更多
High-purity magnesium(HP Mg)and Mg-1Ca,as representations of Mg-matrix implants produced by purifying and alloying,are employed in biomedical applications primarily because of their bioactivity and degradability.The s...High-purity magnesium(HP Mg)and Mg-1Ca,as representations of Mg-matrix implants produced by purifying and alloying,are employed in biomedical applications primarily because of their bioactivity and degradability.The superiority of both degradation properties,the match between degradation and osteo-genesis in vivo,and biosafety are critical problems that will decide future purifying or alloying to construct Mg-based implants and promote clinical translation.The present study investigated the benefits and limitations of degradation behavior and biosafety of HP Mg and Mg-1Ca according to the electro-chemical experiment,hydrogen evolution test,immersion test,and in vivo bone implantation assay.The results indicated that due to its Mg 2 Ca phase,Mg-1Ca exhibited a considerably higher corrosion current density and hydrogen production than HP Mg in vitro.Furthermore,HP Mg and Mg-1Ca display a favorable match between their degradation and the surrounding osteogenesis,resulting in no significant variation in degradation in vivo during 26 weeks.Additionally,the implantation and degradation of HP Mg and Mg-1Ca do not result in major organ dysfunction or pathological abnormalities.This work is expected to lay the foundation for future clinical translation of Mg and Mg alloy orthopedic implants.展开更多
The vulnerability of healthcare and laboratory to potential infection by the severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)virus has thus far been analyzed through the lens of the acute phase of the pan-d...The vulnerability of healthcare and laboratory to potential infection by the severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)virus has thus far been analyzed through the lens of the acute phase of the pan-demic,including remote-based work,as well as emergency settings that are different from routine healthcare operations.However,as lockdowns ease and activities return to an identifiable pre-pandemic routine,the safety considerations also require to shift accordingly.As laboratory workers are likely to continue being exposed to unidentified SARS-CoV-2 positive samples through routine blood collection and processing opera-tions,coronavirus disease 2019(COVID-19)might have to be re-considered as an occupational disease within this context.Additionally,as per many such occupational diseases,a surveillance system is implemented for the medium-and long-term.This manuscript presents the views on the possible surveillance scenarios for labora-tory staff,viewed from an immunological and biosafety perspective.展开更多
Availability of mobile laboratories can facilitate rapid on-spot detection of pathogens,monitor its presence in certain populations and inform health authorities to take immediate remedial measures.Currently available...Availability of mobile laboratories can facilitate rapid on-spot detection of pathogens,monitor its presence in certain populations and inform health authorities to take immediate remedial measures.Currently available biosafety and biosecurity guidelines and policies may not completely articulate the increased demand to manage mobile units in infectious disease outbreaks in remote parts of the country for rapid diagnosis,and also allows research and epidemiological study take place appropriately.The main objective of this study is to evaluate the current limitations and develop and implement biosafety and biosecurity guidelines as well as the protocols for operations,security,and response plan of mobile biosafety level 2 laboratories and their deployment.Keeping in view the sensitivity of it,a comprehensive plan was developed to address it in view of Global Health Security framework.Biosafety and biosecurity protocols were developed including Risk Assessment Tool(RAT)fitting the needs and strengthen the diagnostic and epidemiological capacity in the field covering remote parts of country to fill the gaps observed during the COVID-19 pandemic.Currently the biosafety and biosecurity best practices guidelines and biosecurity policy and regulations are directed mostly towards static laboratories.A biosafety and biosecurity manual developed to adopt and meet the requirements for MBSL 2.For acute health infectious threats including the COVID-19 outbreak and other epidemics,rapid diagnosis can curb and mitigate the problem before it gets out of its boundaries creating significant health risks for the public and economy.The deployment of mobile laboratories will certainly help in curbing these catastrophes.展开更多
Coronavirus disease 2019(COVID‐19)has rapidly swept around the globe since its emergence near 2020.However,people have failed to fully understand its origin or mutation.Defined as an international biosafety incident,...Coronavirus disease 2019(COVID‐19)has rapidly swept around the globe since its emergence near 2020.However,people have failed to fully understand its origin or mutation.Defined as an international biosafety incident,COVID‐19 has again encouraged worldwide attention to reconsider the importance of biosafety due to the adverse impact on personal well‐being and social stability.Most countries have already taken measures to advocate progress in biosafety‐relevant research,aiming to prevent and solve biosafety problems with more advanced techniques and products.Herein,we propose a new concept of biosafety chemistry and reiterate the notion of biosafety materials,which refer to the interdisciplinary integration of biosafety and chemistry or materials.We attempt to illustrate the exquisite association that chemistry and materials science possess with biosafety‐science,and we hope to provide a pragmatic perspective on approaches to utilize the knowledge of these two subjects to handle specific biosafety issues,such as detection and disinfection of pathogenic microorganisms,personal protective equipment,vaccine adjuvants and specific drugs,etc..In addition,we hope to promote multidisciplinary cooperation to strengthen biosafety research and facilitate the development of biosafety products to defend national security in the future.展开更多
Background:The outbreak of Ebola virus disease(EVD)in West Africa between 2014 and 2015 was the largest EDV epidemic since the identification of Ebola virus(EBOV)in 1976,and the countries most strongly affected were S...Background:The outbreak of Ebola virus disease(EVD)in West Africa between 2014 and 2015 was the largest EDV epidemic since the identification of Ebola virus(EBOV)in 1976,and the countries most strongly affected were Sierra Leone,Guinea,and Liberia.Findings:The Sierra Leone-China Friendship Biological Safety Laboratory(SLE-CHN Biosafety Lab),a fixed Biosafety Level 3 laboratory in the capital city of Sierra Leone,was established by the Chinese government and has been active in EBOV detection since 11 March 2015.Complete management and program documents were created for the SLE-CHN Biosafety Lab,and it was divided into four zones(the green,yellow,brown,and red zones)based on the risk assessment.Different types of safe and appropriate personnel protection equipment(PPE)are used in different zones of the laboratory,and it fully meets the Biosafety Level 3 laboratory standards of the World Health Organization.Conclusion:Good preparedness,comprehensive risk assessment and operation documents,appropriate PPE,effective monitoring and intensive training,together with well-designed and reasonable laboratory sectioning are essential for guaranteeing biosafety.展开更多
The launch of the new journal,Biosafety and Health,presents me with a unique opportunity to recount the progress of laboratory biosafety(LB)in China and my contribution to this area over the past 30 years.Since the se...The launch of the new journal,Biosafety and Health,presents me with a unique opportunity to recount the progress of laboratory biosafety(LB)in China and my contribution to this area over the past 30 years.Since the severe acute respiratory syndrome epidemic in 2003,China has constructed a primary network of high-level biosafety laboratories at different levels and established an expert team on LB.Furthermore,a series of LB management documents,including laws,regulations,standards,and guidelines,have been developed and published.This gradually maturing LB system has played a pivotal role in emerging infectious disease control and prevention,as well as in research,which in turn contributes to public health.In recent years,international collaboration between China and other countries has also been accelerated.Despite these achievements,we are still facing many challenges and opportunities in the field of LB.Sustainable LB development requires the joint efforts of the entire society and continuous international cooperation to safeguard global public health.展开更多
Biosafety equipment is the key barrier enabling high containment laboratories to handle high risk agents that may cause serious and potentially lethal infections. This perspective thoroughly analyzes the development o...Biosafety equipment is the key barrier enabling high containment laboratories to handle high risk agents that may cause serious and potentially lethal infections. This perspective thoroughly analyzes the development of many kinds of key biosafety technologies, and equipment for protection of laboratory workers and for high containment laboratory facilities in China. Over more than ten years of rapid development, China has had remarkable achievements in key biosafety technologies and equipment in high containment laboratories. These technologies basically meet the needs of high containment laboratories construction in China. Furthermore, according to the current global situation regarding the prevention and control of infectious diseases and the technical development level of biosafety equipment, this paper proposes targeted suggestions and notes that China still needs to increase investment in scientific research to provide further technical and equipment support enabling us to build a community with a bright future in terms of human biosafety.展开更多
This study aims to evaluate the biosafety awareness of laboratory staff working on pathogens detection in seven Centers for Disease Control and Prevention and support these staff's biosafety management and trainin...This study aims to evaluate the biosafety awareness of laboratory staff working on pathogens detection in seven Centers for Disease Control and Prevention and support these staff's biosafety management and training.A total of 208 laboratory staff from seven provincial CDCs were chosen by stratified random sampling to undergo a self-administered questionnaire survey.The collected data were analyzed using SPSS 22.0.The overall average biosafety awareness of the CDC laboratory staff involved in pathogen detection was 82.5 points.The average biosafety awareness score was the highest in health monitoring(92.63 points)and the lowest in risk assessment and control(41.6 points).Among the seven provincial CDCs,the Guizhou Provincial Center for Disease Control and Prevention laboratory staff showed the lowest average biosafety awareness score(74.3 points).The team who worked for 5–14 years were more likely to score above the passing score(≥88 points;corrected OR 0.400,95%CI:0.168–0.951)than the staff with less than five years of work experience.In addition,the mid-level and junior-level staff,as well as the lower position ones were more likely to score below the passing score(<88 points;junior level and lower:corrected OR 3.473,95%CI:1.028–11.737;mid-level:corrected OR 2.797,95%CI:1.027–7.618)compared with the senior-level staff.Among the surveyed team,66.3%identified a lack of specific funds related to work,61.5%identified a lack of designated personnel for the laboratory biosafety management.The biosafety awareness in CDC laboratory staff involved in pathogen detection is low,especially regarding risk assessment and control.The biosafety awareness in Guizhou and Guangxi Provincial CDC laboratory staff is also low.Laboratory funding,job title,and years of experience in a laboratory influence biosafety awareness in CDC laboratory staff.The biosafety knowledge,education,and training of CDC laboratory staff involved in pathogen detection need to improve by paying attention to the content and coverage of biosafety training,exploring new training modalities,and increasing funding for activities related to biosafety in CDC.展开更多
Worldwide,public health systems are continually challenged by emerging and re-emerging viruses.It is therefore important that high-containment labs coordinate and communicate globally to share their experiences and le...Worldwide,public health systems are continually challenged by emerging and re-emerging viruses.It is therefore important that high-containment labs coordinate and communicate globally to share their experiences and lessons to improve their capacity to respond to threats.The National Biosafety(Level 4)Laboratory in Wuhan,CAS,which is the first Level 4 biosafety laboratory(BSL-4)in China,has been certified recently and it is expected to play an important role in the prevention and control of highly infectious agents in future.Trained and experienced staff in such organizations is the most important factor contributing to safety and security.Therefore,it is imperative to develop a standard training program.Accordingly,in the present study,we developed an improved training program and assessment system based on policies and practices developed by BSL-3/4s in other countries.It included the following three components:(1)A flexible modularized theoretical training:This training comprised 14 modularized theoretical topics such that staffs with different backgrounds could take this theoretical training with different topic combinations according to their knowledge and skill levels;(2)A standardized practical training assessment:This comprehensive assessment,which could be used with biosafety laboratory staff before,during,and after training,included standard operation procedures to meet the special requirements of trainees with different scores;and(3)An applicable documentation system:A certification system was established to evaluate the ability of all staff working inside or outside the laboratory,implemented by a special committee.This certification was approved and authorized by the director of the laboratory and was classified into three grades with corresponding minimal requirements.Further,the present study examined the importance of and need for networking for training BSL-3/4 staff.The establishment of rigorous standards for training BSL-3/4 staff will instill confidence in the public,policy makers,and security officials.Additionally,the expanded international network of BSL-3/4s will continue to be operated safely and will pose no risk to scientific staff,local communities,surrounding environment,and host nations.The clarification and coordination of training standards will help develop a highly-qualified biocontainment workforce and will result in a series of programs that will enable scientists to develop measures to deal with existing threat agents and new diseases that emerge.展开更多
Infectious disease outbreaks,such as'Coronavirus disease 20190(COVID-19),can constitute major global health threats with far-reaching consequences.As outbreaks develop,the international scientific community must p...Infectious disease outbreaks,such as'Coronavirus disease 20190(COVID-19),can constitute major global health threats with far-reaching consequences.As outbreaks develop,the international scientific community must provide high-quality scientific research-ready biological samples to solve the existing clinical and epidemiological questions to better combat the pandemic.Such examples are provided by dedicated biobank facilities,the latter collecting increasingly high volumes of biological samples.However,the more significant concentrations of infectious or potentially infectious biological materials can create a safety risk.The current short report describes the first attempt to identify the published scientific works on biobanking and safety.Three broad thematic areas have been identified:the physical security relevant to staff and sample integrity,the data safety aspects,and the governance parameters relating to the previous two.While the current publications reflect a broad alignment with existing standards and best practices in the biobanking field,they also demonstrate an opportunity for further in-depth work on this field in the post-COVID-19 era.展开更多
A significant number of biosafety level 2(BSL-2)laboratories have been established in many countries for studies of various types of pathogenic agents and other infectious biological materials.The harmonized managemen...A significant number of biosafety level 2(BSL-2)laboratories have been established in many countries for studies of various types of pathogenic agents and other infectious biological materials.The harmonized management of biological risks in such diverse laboratories thus appears as a real challenge.Zhejiang Province in China has taken the initiative to establish a comprehensively integrated laboratory biosafety management system called SINS(Standardization,Informatization,Normalization and Systematization).The SINS model system has been introduced and adopted in 1,721 BSL-2 laboratories in Zhejiang Province,and thus lead to an increase in the number of biosafety committees from 20%to more than 95%from 2007 to 2018,and the number of biosafety laboratory managers who knows biosafety-related laws and regulations increase from 52.7%to 83.7%from 2009 to 2017.Such achievements indicate that the successful implementation of SINS model has increased the effective control of biological risks in BSL-2 laboratories of the Zhejiang Province.SINS model and its main effects on leading the improvement of laboratory biosafety management was presented in this review.The SINS model helps to strengthen laboratory biosafety and thus effectively reduces occurrence of biosafety-related incidences.This model can potentially be used by other regions or countries where harmonized biosafety management system is still under-developing.展开更多
Laboratory information management system(LIMS)has been widely used to facilitate laboratory activities.However,the current LIMSs do not contain functions to improve the safety of laboratory work,which is the major con...Laboratory information management system(LIMS)has been widely used to facilitate laboratory activities.However,the current LIMSs do not contain functions to improve the safety of laboratory work,which is the major concern of biosafety laboratories(BSLs).With tons of biosafety information that need to be managed and an increasing number of biosafety-related research projects under way,it is worthy of expanding the current framework of LIMS and building a system that is more suitable for BSL usage.Such a system should carefully trade off between the safety and efficiency of regular lab activities,allowing the laboratory staff to conduct their research as free as possible while ensuring their and the environment’s safety.In order to achieve this goal,the information on the research contents,laboratory personnel,experimental materials and experimental equipment need to be well collected and fully utilized by a centralized system and its databases.展开更多
The coronavirus disease 2019(COVID-19)pandemic represents an enormous challenge to all countries,regardless of their development status.The manipulation of its etiologic agent SARS-CoV-2 requires a biosafety containme...The coronavirus disease 2019(COVID-19)pandemic represents an enormous challenge to all countries,regardless of their development status.The manipulation of its etiologic agent SARS-CoV-2 requires a biosafety containment level 3 laboratories(BSL-3)to understand virus biology and in vivo pathogenesis as well as the translation of new knowledge into the preclinical development of vaccines and antivirals.As such,BSL-3 facilities should be considered an integral part of any public health response to emerging infectious disease prevention,control and management.Differently from BSL-2,BSL-3 units vary considerably along the range from industrialized to the least developed countries.Innovative Developing Countries(IDCs)such as Brazil,which excelled at controlling the 2015-2017 Zika epidemic,had to face a serious flaw in its disease control and prevention structure:the scarcity and uneven geographic distribution of its BSL-3 facilities,including those for preclinical animal experimentation.展开更多
文摘Emerging viruses are viruses whose occurrence has risen within the past twenty years,or whose presence is likely to increase in the near future.Diseases caused by emerging viruses are a major threat to global public health.In spite of greater awareness of safety and containment procedures,the handling of pathogenic viruses remains a likely source of infection,and mortality,among laboratory workers.There is a steady increase in both the number of laboratories and scientist handling emerging viruses for diagnostics and research.The potential for harm associated to work with these infectious agents can be minimized through the application of sound biosafety concepts and practices.The main factors to the prevention of laboratory-acquired infection are well-trained personnel who are knowledgable and biohazard aware,who are perceptive of the various ways of transmission,and who are professional in safe laboratory practice management.In addition,we should emphasize that appropriate facilities,practices and procedures are to be used by the laboratory workers for the handling of emerging viruses in a safe and secure manner.This review is aimed at providing researchers and laboratory personnel with basic biosafety principles to protect themselves from exposure to emerging viruses while working in the laboratory.This paper focuses on what emerging viruses are,why emerging viruses can cause laboratory-acquired infection,how to assess the risk of working with emerging viruses,and how laboratory-acquired infection can be prevented.Control measures used in the laboratory designed as such that they protect workers from emerging viruses and safeguard the public through the safe disposal of infectious wastes are also addressed.
基金Supported by the Military Medical Science and Technology Innovation Plan(No.SWH2016LHYS-07)Cultivation Plan of Military Medical Youth Sci-tech(No.18QNP001)。
文摘AIM:To assess the biosafety of a poly(acrylamide-cosodium acrylate)hydrogel(PAH)as a 3D-printed intraocular lens(IOL)material.METHODS:The biosafety of PAH was first evaluated in vitro using human lens epithelial cells(LECs)and the ARPE19 cell line,and a cell counting kit-8(CCK-8)assay was performed to investigate alterations in cell proliferation.A thin film of PAH and a conventional IOL were intraocularly implanted into the eyes of New Zealand white rabbits respectively,and a sham surgery served as control group.The anterior segment photographs,intraocular pressure(IOP),blood parameters and electroretinograms(ERG)were recorded.Inflammatory cytokines in the aqueous humor,such as TNFαand IL-8,were examined by ELISA.Cell apoptosis of the retina was investigated by TUNEL assay,and macro PAHge activation was detected by immunostaining.RESULTS:PAH did not slow cell proliferation when cocultured with human LECs or ARPE19 cells.The implantation of a thin film of a 3 D-printed IOL composed of PAH did not affect the IOP,blood parameters,ERG or optical structure in any of the three experimental groups(n=3 for each).Both TNFαand IL-8 in the aqueous humor of PAH group were transiently elevated 1 wk post-operation and recovered to normal levels at 1 and 3 mo post-operation.Iba1+macroPAHges in the anterior chamber angle in PAH group were increased markedly compared to those of the control group;however,there was no significant difference compared to those in the IOL group.CONCLUSION:PAH is a safe material for 3D printing of personal IOLs that hold great potential for future clinical applications.
基金This project was supported by Major Research Projects of Sichuan Health Commission(No.16ZD026).
文摘At the end of 2019,the novel coronavirus infection outbroke in Wuhan,Hubei Province.On Feb.2,2020,Wuhan,as the worst-hit region,began to build“shelter hospital”rapidly to treat patients with mild ilness.The shelter hospital has multiple functions such as emergency treatment,surgical treatment and clinical test,which can adapt to emergency medical rescue tasks.Based on the characteristics that shelter hospital only treats patients with mild ilness,tests of shelter laboratory,including coronavirus nucleic acid detection,IgM/IgG antibody serology detection,monitoring and auxiliary diagnosis and/or a required blood routine,urine routine,C-reactive protein,calcitonin original,biochemical indicators(liver enzymes,myocardial enzymes,renal function,etc.)and blood coagulation function test etc,were used to provide important basis for the diagnosis and treatment of the disease.In order to ensure laboratory biosafety,it is necessary to first evaluate the harm level of various specimens.In the laboratory biosafety management,the harm level assessment of microorganisms is the core work of biosafety,which is of great significance to guarantee biosafety.As an emergency deployment afcted by the environment,shelter laboratory must possess strong mobility.This paper will explore how to combine the biosafety model of traditional laboratory with the particularity of shelter laboratory to carry out effective work in response to the current epidemic.
基金supported by the National Natural Science Foundation of China,No. 31971276the Natural Science Foundation of Jiangsu Higher Education Institutions of China (Major Program),No. 19KJA320005 (both to JHH)。
文摘In a previous study, we used natural butterfly wings as a cell growth matrix for tissue engineering materials and found that the surface of different butterfly wings had different ultramicrostructures, which can affect the qualitative growth of cells and regulate cell growth, metabolism, and gene expression. However, the biocompatibility and biosafety of butterfly wings must be studied. In this study, we found that Sprague-Dawley rat dorsal root ganglion neurons could grow along the structural stripes of butterfly wings, and Schwann cells could normally attach to and proliferate on different species of butterfly wings. The biocompatibility and biosafety of butterfly wings were further examined through subcutaneous implantation in Sprague-Dawley rats, intraperitoneal injection in Institute of Cancer Research mice, intradermal injection in rabbits, and external application to guinea pigs. Our results showed that butterfly wings did not induce toxicity, and all examined animals exhibited normal behaviors and no symptoms, such as erythema or edema. These findings suggested that butterfly wings possess excellent biocompatibility and biosafety and can be used as a type of tissue engineering material. This study was approved by the Experimental Animal Ethics Committee of Jiangsu Province of China(approval No. 20190303-18) on March 3, 2019.
基金supported by the National Science and Technology Major Project on Important Infectious Diseases Prevention and Control [2018ZX10734-404]Key technology research for standardized identification of important pathogens and establishment of relevant reference librariesthe National Health and Family Planning Commission [201302006]
文摘On December 14, 2017, a faculty member of a university in Hunan Province reported that an anthrax vaccine strain might have recovered virulence during an undergraduate experiment and potential exposure could not be ruled out for the students involved. Upon receiving the case report, the CDC, health bureaus, and local governments at the county, prefectural, and provincial levels promptly organized experts in different fields (including epidemiologists, biosafety experts, and laboratory testing experts) for case investigation, evaluation, and response. As the investigation results showed, no virulence recovery was identified in the involved anthrax vaccine strain;and no contamination of Bacillus anthracis was detected at the involved areas. Thus, the university returned to normal functioning.
文摘Background: Several related accidents occur in the laboratories due to insufficient regulation, inappropriate implementation of safety measures or unawareness attitude and practice toward safety precaution. Biosafety is a tool through which we are managing safety and security related to any kinds of hazards that may be either to the human, animals, plants and environment as well. We can implement good laboratory practice to minimize the risk while performing any kind of test procedures, either handling to the samples like blood and other body fluids which is playing important role for infections and transmissible diseases. If we will provide facilities and training to the lab personnel, then we can protect public, agriculture, and the environment from which is leading cause of infections as well as hazards such as biological, chemical, electrical and glassware. For achieving effective and necessary biosafety and security, it should make sure that any unauthorized person is not able to handle, process, transport to minimize loss and misuse of the any kind of hazards especially biohazards. Therefore, it’s highly recommended to make an international system to avoid any kind of biosafety related issues. Objective: Because biosafety is an important element in quality management system (QMS) and it is a fundamental tool for compliance with accreditation and certification standards, the aim of this study was to assess the practices of lab personnel towards biosafety measures in their laboratories. Method: The study was cross-sectional study that conducted among 70 laboratories by use of structured questionnaire. Data analysis was done by using statistical package for social science (SPSS). Result: Among 70 laboratories, 2 (3%) were appointing a biosafety officer, 16 (23%) have fire detection system and fire alarm system, and 20 (29%) of all laboratories were provided by fire extinguisher. Among provision of personnel protection, 56 (80%) always wearied lab coat and gloves, 35 (79%) wearied masks (surgical mask) with low availability of safety goggles and eye shield. Vaccination for hepatitis B virus identified in 40 (57%) of the laboratories. In 41 (59%) of laboratories, the cleaning personnel were not aware about optimal handlers of biohazard in the laboratory. 20 (29%) of all laboratories have exit door and 43 (61%) were used biological safety cabinet. Availability of sharp container and color-coded biohazard bags were found in about 60% (86%), 55 (79%);safe disposal policies were found in 49 (70%) of laboratories. Discussion: Biosafety measures and practices in Sudan need to be restructured if we target to achieve good laboratory practices as well as safe environmental testing for clinical human samples. Recommendation: There are a great need to establish and implement biosafety precaution program included in government and private clinical laboratory in Sudan.
文摘With detailed analysis and research on biosafety,it is found that biosafety has an important role and occupies a key position in relation to universitiesJ laboratories.It is also one of the most important components of the safe construction and management of laboratories.At the same time,biosafety and life safety of teachers and students enable orderly and smooth teaching in which they are closely linked.If the biosafety of a university's laboratory has problems,inevitably there would be huge threats to the university itself,teachers,and students.Hence,in order to ensure that laboratories are biologically safe,it is necessary to find out the existing problems,develop flawless solutions and strategies,establish reasonable laboratory safety systems,and strengthen the laboratory protection facilities.Hence,problems pertaining this issue would be properly solved.This article analyzes and studies the construction of a biosafety system in school laboratories for future references.
基金the Science and Technology Commission of Shanghai Municipality(18DZ2201500,19DZ2203900)Innovative Research Team of High-level Local Universities in Shanghai(SHSMU-ZLCX20212400)Research Disci-pline Fund(KQXJXK2021)from Ninth People’s Hospital,Shanghai Jiao Tong University School of Medicine,and College of Stomatology,Shanghai Jiao Tong University.
文摘High-purity magnesium(HP Mg)and Mg-1Ca,as representations of Mg-matrix implants produced by purifying and alloying,are employed in biomedical applications primarily because of their bioactivity and degradability.The superiority of both degradation properties,the match between degradation and osteo-genesis in vivo,and biosafety are critical problems that will decide future purifying or alloying to construct Mg-based implants and promote clinical translation.The present study investigated the benefits and limitations of degradation behavior and biosafety of HP Mg and Mg-1Ca according to the electro-chemical experiment,hydrogen evolution test,immersion test,and in vivo bone implantation assay.The results indicated that due to its Mg 2 Ca phase,Mg-1Ca exhibited a considerably higher corrosion current density and hydrogen production than HP Mg in vitro.Furthermore,HP Mg and Mg-1Ca display a favorable match between their degradation and the surrounding osteogenesis,resulting in no significant variation in degradation in vivo during 26 weeks.Additionally,the implantation and degradation of HP Mg and Mg-1Ca do not result in major organ dysfunction or pathological abnormalities.This work is expected to lay the foundation for future clinical translation of Mg and Mg alloy orthopedic implants.
文摘The vulnerability of healthcare and laboratory to potential infection by the severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)virus has thus far been analyzed through the lens of the acute phase of the pan-demic,including remote-based work,as well as emergency settings that are different from routine healthcare operations.However,as lockdowns ease and activities return to an identifiable pre-pandemic routine,the safety considerations also require to shift accordingly.As laboratory workers are likely to continue being exposed to unidentified SARS-CoV-2 positive samples through routine blood collection and processing opera-tions,coronavirus disease 2019(COVID-19)might have to be re-considered as an occupational disease within this context.Additionally,as per many such occupational diseases,a surveillance system is implemented for the medium-and long-term.This manuscript presents the views on the possible surveillance scenarios for labora-tory staff,viewed from an immunological and biosafety perspective.
文摘Availability of mobile laboratories can facilitate rapid on-spot detection of pathogens,monitor its presence in certain populations and inform health authorities to take immediate remedial measures.Currently available biosafety and biosecurity guidelines and policies may not completely articulate the increased demand to manage mobile units in infectious disease outbreaks in remote parts of the country for rapid diagnosis,and also allows research and epidemiological study take place appropriately.The main objective of this study is to evaluate the current limitations and develop and implement biosafety and biosecurity guidelines as well as the protocols for operations,security,and response plan of mobile biosafety level 2 laboratories and their deployment.Keeping in view the sensitivity of it,a comprehensive plan was developed to address it in view of Global Health Security framework.Biosafety and biosecurity protocols were developed including Risk Assessment Tool(RAT)fitting the needs and strengthen the diagnostic and epidemiological capacity in the field covering remote parts of country to fill the gaps observed during the COVID-19 pandemic.Currently the biosafety and biosecurity best practices guidelines and biosecurity policy and regulations are directed mostly towards static laboratories.A biosafety and biosecurity manual developed to adopt and meet the requirements for MBSL 2.For acute health infectious threats including the COVID-19 outbreak and other epidemics,rapid diagnosis can curb and mitigate the problem before it gets out of its boundaries creating significant health risks for the public and economy.The deployment of mobile laboratories will certainly help in curbing these catastrophes.
基金This work was supported by the National Key Research and Develop-ment Program of China(2021YFC0863300)National Natural Science Foundation of China(No.51873218,52003161)Natural Science Foundation of Beijing(No.2202071).
文摘Coronavirus disease 2019(COVID‐19)has rapidly swept around the globe since its emergence near 2020.However,people have failed to fully understand its origin or mutation.Defined as an international biosafety incident,COVID‐19 has again encouraged worldwide attention to reconsider the importance of biosafety due to the adverse impact on personal well‐being and social stability.Most countries have already taken measures to advocate progress in biosafety‐relevant research,aiming to prevent and solve biosafety problems with more advanced techniques and products.Herein,we propose a new concept of biosafety chemistry and reiterate the notion of biosafety materials,which refer to the interdisciplinary integration of biosafety and chemistry or materials.We attempt to illustrate the exquisite association that chemistry and materials science possess with biosafety‐science,and we hope to provide a pragmatic perspective on approaches to utilize the knowledge of these two subjects to handle specific biosafety issues,such as detection and disinfection of pathogenic microorganisms,personal protective equipment,vaccine adjuvants and specific drugs,etc..In addition,we hope to promote multidisciplinary cooperation to strengthen biosafety research and facilitate the development of biosafety products to defend national security in the future.
基金supported by the China Mega-Project for Infectious Disease(2011ZX10004-101,2012ZX10004215)the Research Special Funds for Public Welfare Projects(201302006)the SKLID Development Grant(2012SKLID102).
文摘Background:The outbreak of Ebola virus disease(EVD)in West Africa between 2014 and 2015 was the largest EDV epidemic since the identification of Ebola virus(EBOV)in 1976,and the countries most strongly affected were Sierra Leone,Guinea,and Liberia.Findings:The Sierra Leone-China Friendship Biological Safety Laboratory(SLE-CHN Biosafety Lab),a fixed Biosafety Level 3 laboratory in the capital city of Sierra Leone,was established by the Chinese government and has been active in EBOV detection since 11 March 2015.Complete management and program documents were created for the SLE-CHN Biosafety Lab,and it was divided into four zones(the green,yellow,brown,and red zones)based on the risk assessment.Different types of safe and appropriate personnel protection equipment(PPE)are used in different zones of the laboratory,and it fully meets the Biosafety Level 3 laboratory standards of the World Health Organization.Conclusion:Good preparedness,comprehensive risk assessment and operation documents,appropriate PPE,effective monitoring and intensive training,together with well-designed and reasonable laboratory sectioning are essential for guaranteeing biosafety.
文摘The launch of the new journal,Biosafety and Health,presents me with a unique opportunity to recount the progress of laboratory biosafety(LB)in China and my contribution to this area over the past 30 years.Since the severe acute respiratory syndrome epidemic in 2003,China has constructed a primary network of high-level biosafety laboratories at different levels and established an expert team on LB.Furthermore,a series of LB management documents,including laws,regulations,standards,and guidelines,have been developed and published.This gradually maturing LB system has played a pivotal role in emerging infectious disease control and prevention,as well as in research,which in turn contributes to public health.In recent years,international collaboration between China and other countries has also been accelerated.Despite these achievements,we are still facing many challenges and opportunities in the field of LB.Sustainable LB development requires the joint efforts of the entire society and continuous international cooperation to safeguard global public health.
基金This work was supported by the National Key Research and Develop-ment Program of China(2018YFC1200300).
文摘Biosafety equipment is the key barrier enabling high containment laboratories to handle high risk agents that may cause serious and potentially lethal infections. This perspective thoroughly analyzes the development of many kinds of key biosafety technologies, and equipment for protection of laboratory workers and for high containment laboratory facilities in China. Over more than ten years of rapid development, China has had remarkable achievements in key biosafety technologies and equipment in high containment laboratories. These technologies basically meet the needs of high containment laboratories construction in China. Furthermore, according to the current global situation regarding the prevention and control of infectious diseases and the technical development level of biosafety equipment, this paper proposes targeted suggestions and notes that China still needs to increase investment in scientific research to provide further technical and equipment support enabling us to build a community with a bright future in terms of human biosafety.
基金supported by grants from the Establishment of Technical Simulation Training Platform for High-Level Biosafety Laboratory(A3705011905-23-2).
文摘This study aims to evaluate the biosafety awareness of laboratory staff working on pathogens detection in seven Centers for Disease Control and Prevention and support these staff's biosafety management and training.A total of 208 laboratory staff from seven provincial CDCs were chosen by stratified random sampling to undergo a self-administered questionnaire survey.The collected data were analyzed using SPSS 22.0.The overall average biosafety awareness of the CDC laboratory staff involved in pathogen detection was 82.5 points.The average biosafety awareness score was the highest in health monitoring(92.63 points)and the lowest in risk assessment and control(41.6 points).Among the seven provincial CDCs,the Guizhou Provincial Center for Disease Control and Prevention laboratory staff showed the lowest average biosafety awareness score(74.3 points).The team who worked for 5–14 years were more likely to score above the passing score(≥88 points;corrected OR 0.400,95%CI:0.168–0.951)than the staff with less than five years of work experience.In addition,the mid-level and junior-level staff,as well as the lower position ones were more likely to score below the passing score(<88 points;junior level and lower:corrected OR 3.473,95%CI:1.028–11.737;mid-level:corrected OR 2.797,95%CI:1.027–7.618)compared with the senior-level staff.Among the surveyed team,66.3%identified a lack of specific funds related to work,61.5%identified a lack of designated personnel for the laboratory biosafety management.The biosafety awareness in CDC laboratory staff involved in pathogen detection is low,especially regarding risk assessment and control.The biosafety awareness in Guizhou and Guangxi Provincial CDC laboratory staff is also low.Laboratory funding,job title,and years of experience in a laboratory influence biosafety awareness in CDC laboratory staff.The biosafety knowledge,education,and training of CDC laboratory staff involved in pathogen detection need to improve by paying attention to the content and coverage of biosafety training,exploring new training modalities,and increasing funding for activities related to biosafety in CDC.
基金This work was supported by the National Key Research and Development Program of China(2016YFC1202203).
文摘Worldwide,public health systems are continually challenged by emerging and re-emerging viruses.It is therefore important that high-containment labs coordinate and communicate globally to share their experiences and lessons to improve their capacity to respond to threats.The National Biosafety(Level 4)Laboratory in Wuhan,CAS,which is the first Level 4 biosafety laboratory(BSL-4)in China,has been certified recently and it is expected to play an important role in the prevention and control of highly infectious agents in future.Trained and experienced staff in such organizations is the most important factor contributing to safety and security.Therefore,it is imperative to develop a standard training program.Accordingly,in the present study,we developed an improved training program and assessment system based on policies and practices developed by BSL-3/4s in other countries.It included the following three components:(1)A flexible modularized theoretical training:This training comprised 14 modularized theoretical topics such that staffs with different backgrounds could take this theoretical training with different topic combinations according to their knowledge and skill levels;(2)A standardized practical training assessment:This comprehensive assessment,which could be used with biosafety laboratory staff before,during,and after training,included standard operation procedures to meet the special requirements of trainees with different scores;and(3)An applicable documentation system:A certification system was established to evaluate the ability of all staff working inside or outside the laboratory,implemented by a special committee.This certification was approved and authorized by the director of the laboratory and was classified into three grades with corresponding minimal requirements.Further,the present study examined the importance of and need for networking for training BSL-3/4 staff.The establishment of rigorous standards for training BSL-3/4 staff will instill confidence in the public,policy makers,and security officials.Additionally,the expanded international network of BSL-3/4s will continue to be operated safely and will pose no risk to scientific staff,local communities,surrounding environment,and host nations.The clarification and coordination of training standards will help develop a highly-qualified biocontainment workforce and will result in a series of programs that will enable scientists to develop measures to deal with existing threat agents and new diseases that emerge.
文摘Infectious disease outbreaks,such as'Coronavirus disease 20190(COVID-19),can constitute major global health threats with far-reaching consequences.As outbreaks develop,the international scientific community must provide high-quality scientific research-ready biological samples to solve the existing clinical and epidemiological questions to better combat the pandemic.Such examples are provided by dedicated biobank facilities,the latter collecting increasingly high volumes of biological samples.However,the more significant concentrations of infectious or potentially infectious biological materials can create a safety risk.The current short report describes the first attempt to identify the published scientific works on biobanking and safety.Three broad thematic areas have been identified:the physical security relevant to staff and sample integrity,the data safety aspects,and the governance parameters relating to the previous two.While the current publications reflect a broad alignment with existing standards and best practices in the biobanking field,they also demonstrate an opportunity for further in-depth work on this field in the post-COVID-19 era.
基金This study was part of the Project of Health and Medical Technology of Zhejiang Province funded by the Health Commission of Zhejiang Province(2020KY536).
文摘A significant number of biosafety level 2(BSL-2)laboratories have been established in many countries for studies of various types of pathogenic agents and other infectious biological materials.The harmonized management of biological risks in such diverse laboratories thus appears as a real challenge.Zhejiang Province in China has taken the initiative to establish a comprehensively integrated laboratory biosafety management system called SINS(Standardization,Informatization,Normalization and Systematization).The SINS model system has been introduced and adopted in 1,721 BSL-2 laboratories in Zhejiang Province,and thus lead to an increase in the number of biosafety committees from 20%to more than 95%from 2007 to 2018,and the number of biosafety laboratory managers who knows biosafety-related laws and regulations increase from 52.7%to 83.7%from 2009 to 2017.Such achievements indicate that the successful implementation of SINS model has increased the effective control of biological risks in BSL-2 laboratories of the Zhejiang Province.SINS model and its main effects on leading the improvement of laboratory biosafety management was presented in this review.The SINS model helps to strengthen laboratory biosafety and thus effectively reduces occurrence of biosafety-related incidences.This model can potentially be used by other regions or countries where harmonized biosafety management system is still under-developing.
文摘Laboratory information management system(LIMS)has been widely used to facilitate laboratory activities.However,the current LIMSs do not contain functions to improve the safety of laboratory work,which is the major concern of biosafety laboratories(BSLs).With tons of biosafety information that need to be managed and an increasing number of biosafety-related research projects under way,it is worthy of expanding the current framework of LIMS and building a system that is more suitable for BSL usage.Such a system should carefully trade off between the safety and efficiency of regular lab activities,allowing the laboratory staff to conduct their research as free as possible while ensuring their and the environment’s safety.In order to achieve this goal,the information on the research contents,laboratory personnel,experimental materials and experimental equipment need to be well collected and fully utilized by a centralized system and its databases.
基金supported by CNPq(ConselhoNacional deDesenvolvimento Cientifico e Tecnologico),FAPERJ(Fundacao de Amparo a Pesquisa do Estado do Rio de Janeiro)through grants received by TMLSFunding was also provided by CNPq,CAPES(Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior)and FAPERJ through the National Institutes of Science and Technology Program(INCT)to CMM(INCT-IDPN)Thanks are due to Oswaldo Cruz Foundation/FIOCRUZ under the auspicious of Inova program(B3-Bovespa funding).
文摘The coronavirus disease 2019(COVID-19)pandemic represents an enormous challenge to all countries,regardless of their development status.The manipulation of its etiologic agent SARS-CoV-2 requires a biosafety containment level 3 laboratories(BSL-3)to understand virus biology and in vivo pathogenesis as well as the translation of new knowledge into the preclinical development of vaccines and antivirals.As such,BSL-3 facilities should be considered an integral part of any public health response to emerging infectious disease prevention,control and management.Differently from BSL-2,BSL-3 units vary considerably along the range from industrialized to the least developed countries.Innovative Developing Countries(IDCs)such as Brazil,which excelled at controlling the 2015-2017 Zika epidemic,had to face a serious flaw in its disease control and prevention structure:the scarcity and uneven geographic distribution of its BSL-3 facilities,including those for preclinical animal experimentation.
