Mortality, morbidity, early recognition, and treatment of sepsis remain a diagnostic dilemma for clinicians, in addition, the timely diagnosis of sepsis represents an ongoing clinical challenge. This review looks at t...Mortality, morbidity, early recognition, and treatment of sepsis remain a diagnostic dilemma for clinicians, in addition, the timely diagnosis of sepsis represents an ongoing clinical challenge. This review looks at the challenges of early recognition, the scope of the problem, the immunologic basis of the sepsis cascade, new frontiers related to interventions, and the role of antibiotics in an era of antimicrobial resistance. In Figure 1, once a patient is on the slippery slope of sepsis, the ability to reverse the momentum is challenging;hoping antibiotics, fluid resuscitation, vasopressors may buy time for the immunologic cascade to equilibrate to its homeostatic balance. While the development of septic shock is much more complex than pathogen proliferation, our understanding of the pathogenesis and ability to therapeutically intervene is in its infancy. Patients with sepsis frequently present for urgent medical care with undifferentiated infection and nonspecific symptoms. As 80% of patients with sepsis are initially treated in an Emergency Department, the burden of early recognition and intervention falls squarely on the shoulders of Emergency Department Clinicians. [1] This is an entity that occurs in all age groups, without regard to race, geography, or health status. Survival and mortality related to this clinical entity are poorly understood. Our understanding of sepsis needs to expand beyond the downstream effects and collateral damage of multiorgan dysfunction and failure. Immunologically, the antigenic triggers, be it invasive infection, severe injury, and systemic inflammation without concomitant infection, elicit similar pattern recognition receptors and innate host responses. If you are lucky enough to have survived an acute episode of sepsis, patients with sepsis often develop new adverse sequelae after treatment, a concept called persistent critical illness or post sepsis syndrome, characterized by long-term disability, and worsening chronic health conditions requiring re-hospitalization. [2]展开更多
Sinocalycanthus chmensis, an endangered species endemic to China, is cultivated as an omamental landscape tree in China. However, S. chinensis, Chimonanthus species and Calycanthusfloridus are difficult to be distingu...Sinocalycanthus chmensis, an endangered species endemic to China, is cultivated as an omamental landscape tree in China. However, S. chinensis, Chimonanthus species and Calycanthusfloridus are difficult to be distinguished in seedling market because of their similar morphological characters. In this study, ISSR (inter-simple sequence repeats) were applied to detect S. chinensis from its closely related species. A unique 748-bp band was found in all accessions of S. chinensis. SCAR (sequence characterized amplified regions) markers were created by cloning and sequencing the specific band, and designing a pair of primers to amplify the band of 748 bp. Diagnostic PCRs were performed using the primer pair with the total DNAs ofS. chinensis, Chimonanthus species and C. floridus as templates, with only S. chinensis being able to be amplified. This amplification is not only rapid (results can be obtained in less than 3 h), but is also easy to perform. Hence it is a feasible method for identifying S. chmensis in seedling market.展开更多
Human cytomegalovirus(HCMV), a herpesvirus, is an important human pathogen that causes asymptomatic infections in healthy or immunocompetent individuals but can lead to severe and potentially life-threatening complica...Human cytomegalovirus(HCMV), a herpesvirus, is an important human pathogen that causes asymptomatic infections in healthy or immunocompetent individuals but can lead to severe and potentially life-threatening complications in immune-immature individuals such as neonates or immune-compromised patients such as organ-transplant recipients and HIV-positive individuals.Congenital HCMV infection represents a significant public health issue and poses substantial healthcare and economic burden to society. This virus causes the most common viral congenital infection worldwide, and is the leading non-genetic cause of sensorineural hearing loss in children in developed countries. Congenital HCMV infection is believed to fulfill the criteria of the American College of Medical Genetics to be considered as a condition targeted for a newborn screening program. This is because congenital HCMV infection can be identified during a time(within 2 days after birth) at which it would not ordinarily be detected clinically, and there are demonstrated benefits of early detection, timely intervention, and efficacious treatment of the condition. Recent progresses in developing polymerase chain reaction-based approaches to detect HCMV in samples obtained from newborns have generated much excitement in the field. In this review, we highlight the recent progress in diagnostic techniques that could potentially be used for the detection of HCMV infection in neonates and its direct implications in public health settings for diagnosing congenital HCMV infection.展开更多
文摘Mortality, morbidity, early recognition, and treatment of sepsis remain a diagnostic dilemma for clinicians, in addition, the timely diagnosis of sepsis represents an ongoing clinical challenge. This review looks at the challenges of early recognition, the scope of the problem, the immunologic basis of the sepsis cascade, new frontiers related to interventions, and the role of antibiotics in an era of antimicrobial resistance. In Figure 1, once a patient is on the slippery slope of sepsis, the ability to reverse the momentum is challenging;hoping antibiotics, fluid resuscitation, vasopressors may buy time for the immunologic cascade to equilibrate to its homeostatic balance. While the development of septic shock is much more complex than pathogen proliferation, our understanding of the pathogenesis and ability to therapeutically intervene is in its infancy. Patients with sepsis frequently present for urgent medical care with undifferentiated infection and nonspecific symptoms. As 80% of patients with sepsis are initially treated in an Emergency Department, the burden of early recognition and intervention falls squarely on the shoulders of Emergency Department Clinicians. [1] This is an entity that occurs in all age groups, without regard to race, geography, or health status. Survival and mortality related to this clinical entity are poorly understood. Our understanding of sepsis needs to expand beyond the downstream effects and collateral damage of multiorgan dysfunction and failure. Immunologically, the antigenic triggers, be it invasive infection, severe injury, and systemic inflammation without concomitant infection, elicit similar pattern recognition receptors and innate host responses. If you are lucky enough to have survived an acute episode of sepsis, patients with sepsis often develop new adverse sequelae after treatment, a concept called persistent critical illness or post sepsis syndrome, characterized by long-term disability, and worsening chronic health conditions requiring re-hospitalization. [2]
基金Project (No. G2000046806) supported by the National Basic Research Program (973) of China
文摘Sinocalycanthus chmensis, an endangered species endemic to China, is cultivated as an omamental landscape tree in China. However, S. chinensis, Chimonanthus species and Calycanthusfloridus are difficult to be distinguished in seedling market because of their similar morphological characters. In this study, ISSR (inter-simple sequence repeats) were applied to detect S. chinensis from its closely related species. A unique 748-bp band was found in all accessions of S. chinensis. SCAR (sequence characterized amplified regions) markers were created by cloning and sequencing the specific band, and designing a pair of primers to amplify the band of 748 bp. Diagnostic PCRs were performed using the primer pair with the total DNAs ofS. chinensis, Chimonanthus species and C. floridus as templates, with only S. chinensis being able to be amplified. This amplification is not only rapid (results can be obtained in less than 3 h), but is also easy to perform. Hence it is a feasible method for identifying S. chmensis in seedling market.
基金supported by grants from Guangdong Innovative and Entrepreneurial Research Team Program (No. 2014 ZT05S136)the National Mega Project on Major Infectious Disease Prevention (2012ZX10002006-003 and 2012 ZX10004-207)NIH (RO1-AI041927, RO1-AI091536, RO1-DE023935, and RO1-DE025462)
文摘Human cytomegalovirus(HCMV), a herpesvirus, is an important human pathogen that causes asymptomatic infections in healthy or immunocompetent individuals but can lead to severe and potentially life-threatening complications in immune-immature individuals such as neonates or immune-compromised patients such as organ-transplant recipients and HIV-positive individuals.Congenital HCMV infection represents a significant public health issue and poses substantial healthcare and economic burden to society. This virus causes the most common viral congenital infection worldwide, and is the leading non-genetic cause of sensorineural hearing loss in children in developed countries. Congenital HCMV infection is believed to fulfill the criteria of the American College of Medical Genetics to be considered as a condition targeted for a newborn screening program. This is because congenital HCMV infection can be identified during a time(within 2 days after birth) at which it would not ordinarily be detected clinically, and there are demonstrated benefits of early detection, timely intervention, and efficacious treatment of the condition. Recent progresses in developing polymerase chain reaction-based approaches to detect HCMV in samples obtained from newborns have generated much excitement in the field. In this review, we highlight the recent progress in diagnostic techniques that could potentially be used for the detection of HCMV infection in neonates and its direct implications in public health settings for diagnosing congenital HCMV infection.
