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相关概念视频

Vaccinations01:51

Vaccinations

Overview
Active versus Passive Immunity01:31

Active versus Passive Immunity

Immunity, along with the ability to limit pathogen growth to prevent significant body tissue damage, can be gained either by (1) actively developing an immune response within the individual after exposure to a pathogen or after getting vaccinated or (2) passively transferring immune components from an immune individual to one who is nonimmune. Both these forms of immunity can be found naturally and in medical practices.
Active Immunity
Active immunity refers to the resistance one develops...
Development of Immunocompetence01:22

Development of Immunocompetence

The initiation of cell-mediated immunity can be observed as early as the third month of fetal growth, with active antibody-mediated immunity following approximately one month later.
The initial cells that migrate from the fetal thymus settle within the skin and epithelial tissues lining the mouth, digestive tract, and in females, the uterus and vagina. These cells, including skin-based dendritic cells, serve as antigen-presenting cells, playing a key role in T cell activation.
Subsequent T...
Immunodeficiency Diseases01:25

Immunodeficiency Diseases

Immunodeficiency disorders are conditions in which the immune system's ability to fight infectious disease and cancer is compromised or entirely absent. The immune system comprises a complex network of cells, tissues, and organs that work together to protect the body from potentially harmful invaders. When this system is deficient or not functioning properly, it leaves the body susceptible to infections, diseases, or other complications.
There are three main causes of immunodeficiency disorders...
Drug Dosing: Infants and Children01:29

Drug Dosing: Infants and Children

Pediatric patient dosages diverge from adults due to disparities in body surface area, total body water, and extracellular fluid per kilogram of body weight. The dosing regimen considers the variations in pharmacokinetics and pharmacology across distinct age groups, encompassing preterm newborns, infants, young children, older children, and adolescents. Calculation of pediatric patient doses is predicated on determining body surface area, which exhibits a superior correlation with the child's...
Pharmacokinetics in Pediatric Patients: Drug Excretion01:26

Pharmacokinetics in Pediatric Patients: Drug Excretion

In pediatric medicine, understanding the renal function and drug elimination nuances is crucial for administering safe and effective treatments. Newborns, in particular, display markedly slower renal functions than adults, profoundly affecting how drugs are cleared from their bodies. This slower drug clearance requires clinicians to extend the dosing intervals for many medications to prevent drug accumulation and toxicity while ensuring therapeutic efficacy.One key area where these adjustments...

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相关实验视频

Updated: May 12, 2026

Noninvasive Sampling of Mucosal Lining Fluid for the Quantification of In Vivo Upper Airway Immune-mediator Levels
05:31

Noninvasive Sampling of Mucosal Lining Fluid for the Quantification of In Vivo Upper Airway Immune-mediator Levels

Published on: August 7, 2017

美国儿童额外接种疫苗

S M Feikema1, R M Klevens, M L Washington

  • 1Medical Management Department, Children's Healthcare of Atlanta, GA, USA.

JAMA
|March 14, 2000
PubMed
概括
此摘要是机器生成的。

额外的免疫接种,或超过推时间表的疫苗剂量,影响了21%的儿童,每年花费数百万美元. 改善记录管理可以帮助减少不必要的疫苗剂量.

更多相关视频

Opsono-Adherence Assay to Evaluate Functional Antibodies in Vaccine Development Against Bacillus anthracis and Other Encapsulated Pathogens
13:47

Opsono-Adherence Assay to Evaluate Functional Antibodies in Vaccine Development Against Bacillus anthracis and Other Encapsulated Pathogens

Published on: May 19, 2020

Detection of Polyfunctional T Cells in Children Vaccinated with Japanese Encephalitis Vaccine via the Flow Cytometry Technique
09:37

Detection of Polyfunctional T Cells in Children Vaccinated with Japanese Encephalitis Vaccine via the Flow Cytometry Technique

Published on: September 23, 2022

相关实验视频

Last Updated: May 12, 2026

Noninvasive Sampling of Mucosal Lining Fluid for the Quantification of In Vivo Upper Airway Immune-mediator Levels
05:31

Noninvasive Sampling of Mucosal Lining Fluid for the Quantification of In Vivo Upper Airway Immune-mediator Levels

Published on: August 7, 2017

Opsono-Adherence Assay to Evaluate Functional Antibodies in Vaccine Development Against Bacillus anthracis and Other Encapsulated Pathogens
13:47

Opsono-Adherence Assay to Evaluate Functional Antibodies in Vaccine Development Against Bacillus anthracis and Other Encapsulated Pathogens

Published on: May 19, 2020

Detection of Polyfunctional T Cells in Children Vaccinated with Japanese Encephalitis Vaccine via the Flow Cytometry Technique
09:37

Detection of Polyfunctional T Cells in Children Vaccinated with Japanese Encephalitis Vaccine via the Flow Cytometry Technique

Published on: September 23, 2022

科学领域:

  • 儿科健康 儿科健康
  • 公共卫生政策 公共卫生政策
  • 免疫接种实践 免疫接种实践

背景情况:

  • 额外接种疫苗,定义为超过推时间表的疫苗剂量,尚不清楚.
  • 额外免疫接种对公共卫生的影响需要进一步调查.

研究的目的:

  • 量化儿童额外免疫接种的流行率和财务成本.
  • 确定与接受额外免疫接种相关的因素.

主要方法:

  • 对1997年美国全国免疫调查数据的分析.
  • 包括32,742名19至35个月龄的儿童,以及22806名医疗保健提供者的疫苗接种史.
  • 权重估计以代表国家人口.

主要成果:

  • 脊髓灰质炎疫苗接种具有最高的额外免疫率 (14.1%).
  • 总体而言,21%的儿童至少接种了一剂额外的疫苗,而31%的儿童接种的疫苗少于推剂量.
  • 拥有多个免疫供应商显著增加了额外免疫接种的可能性 (OR 2.8).
  • 额外免疫接种的年度成本估计为2650万美元.

结论:

  • 额外接种疫苗代表着相当大的财务负担.
  • 减少额外免疫的策略不应损害对免疫不足的努力.
  • 加强免疫记录和数据共享对于尽量减少不必要的疫苗剂量至关重要.