WordNet

write by means of a keyboard with types; "type the acceptance letter, please" (同)typewrite
a small metal block bearing a raised character on one end; produces a printed character when inked and pressed on paper; "he dropped a case of type, so they made him pick them up"
(biology) the taxonomic group whose characteristics are used to define the next higher taxon
a subdivision of a particular kind of thing; "what type of sculpture do you prefer?"
all of the tokens of the same symbol; "the word `element contains five different types of character"
printed characters; "small type is hard to read"
identify as belonging to a certain type; "Such people can practically be typed" (同)typecast
put to bed; "The children were bedded at ten oclock"
a foundation of earth or rock supporting a road or railroad track; "the track bed had washed away"
a piece of furniture that provides a place to sleep; "he sat on the edge of the bed"; "the room had only a bed and chair"
a plot of ground in which plants are growing; "the gardener planted a bed of roses"
the flat surface of a printing press on which the type form is laid in the last stage of producing a newspaper or magazine or book etc.
a depression forming the ground under a body of water; "he searched for treasure on the ocean bed" (同)bottom
(geology) a stratum of rock (especially sedimentary rock); "they found a bed of sandstone"
furnish with a bed; "The inn keeper could bed all the new arrivals"
place (plants) in a prepared bed of soil
the 2nd letter of the Roman alphabet (同)b
the blood group whose red cells carry the B antigen (同)type_B, group B
immunogen consisting of a suspension of weakened or dead pathogenic cells injected in order to stimulate the production of antibodies (同)vaccinum

PrepTutorEJDIC

〈C〉(…の)『型』,タイプ,類型,種類(kind)《+of+名》 / 〈C〉(その種類の特質を最もよく表している)『典型』,手本,模範《+of+名》 / 〈U〉《集合的に》活字;〈C〉(1個の)活字 / 〈U〉(印刷された)字体,活字 / 〈C〉(貨幣・メダルなどの)模様,図柄 / 〈C〉血液型(blood group) / …‘を'タイプに打つ / (…として)…‘を'分類する《+名+as+名(doing)》 / …‘の'型を決める / タイプライターを打つ
〈C〉〈U〉『ベット』,『寝台』 / 〈U〉睡眠,宿泊 / 〈C〉『花壇,苗床…』養殖場 / 〈C〉(海・川などの)『床』,水底 / 〈C〉地層;(一般に)土台 / …‘に'寝床を与える / 〈子供など〉'を'寝かしつける / 《古》寝る,床につく
牛痘種,痘苗(牛痘を起こすビールスで,天然痘予防のために人体に接種される) / (伝染病の病原菌から作った)ワクチン

Wikipedia preview

出典(authority):フリー百科事典『ウィキペディア（Wikipedia）』「2015/05/07 02:18:36」(JST)

wiki en

Haemophilus influenzae type B vaccine (Hib janan or PRP vaccine^[1]) is a conjugate vaccine developed for the prevention of invasive disease caused by Haemophilus influenzae type b bacteria. The Centers for Disease Control and Prevention (CDC) has recommended the use of the Hib vaccine.^[2] After routine use of the Hib vaccine in the U.S. from 1980 to 1990, the incidence of invasive Hib disease has decreased from 40–100 per 100,000 children down to fewer than 1 per 100,000.^[3] Vaccinations against Haemophilus influenzae (Hib) have decreased early childhood meningitis significantly in developed countries and recently in developing countries.^[4]

It is on the World Health Organization's List of Essential Medicines, a list of the most important medication needed in a basic health system.^[5]

Medical uses

Hib conjugate vaccines have been shown to be universally effective against all manifestations of Hib disease, with a clinical efficacy among fully vaccinated children estimated to be between 95–100%. The vaccine has also been shown to be immunogenic in patients at high risk of invasive disease. Hib vaccine is not effective against non-type B Haemophilus influenzae. However, non-type B disease is rare in comparison to pre-vaccine Haemophilus influenzae type B disease.^{[citation needed]}

Impact

Prior to introduction of the conjugate vaccine, Hib was a leading cause of childhood meningitis, pneumonia, and epiglottitis in the United States, causing an estimated 20,000 cases a year in the early 1980s, mostly in children under 5 years old. Since routine vaccination began, the incidence of Hib disease has declined by greater than 99%, effectively eliminating Hib as a public health problem. Similar reductions in disease occurred after introduction of the vaccine in Western Europe and developing countries.

Herd immunity

Although Hib vaccine is given to children, Hib infections have also decreased in adults. This decrease occurred because of herd immunity; children infected with Hib carry the bacteria in their nasal passages while clearing the infection. These Hib-carrying children would regularly infect adults. The practice of vaccinating children eliminated the source of the bacteria, reducing the rate of Hib in adults.^{[citation needed]}

Recommendations

The CDC and WHO currently recommend that all infants be vaccinated using a polysaccharide-protein conjugate Hib vaccine, starting after the age of 6 weeks. The vaccination is also indicated in asplenic patients.

Side effects

Clinical trials and ongoing surveillance have shown Hib vaccine to be safe. In general, adverse reactions to the vaccine are mild. The most common reactions are mild fever, loss of appetite, transient redness, swelling, or pain at the site of injection, occurring in 5–30% of vaccine recipients. More severe reactions are extremely rare.^[quantify]^{[citation needed]}

Vaccination in the developing world

Introduction of Hib vaccine in developing countries lagged behind that in developed countries for several reasons. The expense of the vaccine was large in comparison to the standard EPI vaccines. Poor disease surveillance systems and inadequate hospital laboratories failed to detect the disease, leading many experts to believe that Hib did not exist in their countries. And health systems in many countries were struggling with the current vaccines they were trying to deliver.

GAVI and the Hib Initiative

In order to remedy these issues, the GAVI Alliance took active interest in the vaccine. GAVI offers substantial subsidization of Hib vaccine for countries interested in using the vaccine, as well as financial support for vaccine systems and safe injections. In addition, GAVI created the Hib Initiative to catalyze uptake of the vaccine. The Hib Initiative uses a combination of collecting and disseminating existing data, research, and advocacy to assist countries in the making a decision about using the Hib vaccine. Currently^[update], 61 out of 72 low-income countries are planning on introducing the vaccine by the end of 2009.^[6]

History

Polysaccharide vaccine

The first Hib vaccine licensed was a pure polysaccharide vaccine, first marketed in the US in 1985.^[7] Similar to other polysaccharide vaccines, immune response to the vaccine was highly age-dependent. Children under 18 months of age did not produce a positive response for this vaccine. As a result, the age group with the highest incidence of Hib disease was unprotected, limiting the usefulness of the vaccine. The vaccine was withdrawn from the market in 1988.

Conjugate vaccine

The shortcomings of the polysaccharide vaccine led to the production of the Hib polysaccharide-protein conjugate vaccine.^[7] Attaching Hib polysaccharide to a protein carrier greatly increased the ability of the immune system of young children to recognize the polysaccharide and develop immunity. There are currently three types of conjugate vaccine, utilizing different carrier proteins for the conjugation process, all of which are highly effective and safe: inactivated tetanospasmin (also called tetanus toxoid), mutant diphtheria protein, and meningococcal group B outer membrane protein.

Combination vaccines

Multiple combinations of Hib and other vaccines have been licensed in the United States, reducing the number of shots necessary to vaccinate a child. Hib vaccine combined with diphtheria-tetanus-pertussis–polio vaccines and Hepatitis B vaccines are available in the US. The World Health Organization (WHO) has certified several Hib vaccine combinations, including a pentavalent diphtheria-pertussis-tetanus-hepatitis B-Hib, for use in developing countries. There is not yet sufficient evidence on how effective this combined pentavalent vaccine is in relation to the individual vaccines.^[8]

References

^ Yogev, R.; Arditi, M.; Chadwick, E. G.; Amer, M. D.; Sroka, P. A. (1990). "Haemophilus influenzae type b conjugate vaccine (meningococcal protein conjugate): Immunogenicity and safety at various doses". Pediatrics 85 (4 Pt 2): 690–693. PMID 2107520. edit
^ "Recommendation of the Immunization Practices Advisory Committee (ACIP) Polysaccharide Vaccine for Prevention of Haemophilus influenzae Type b Disease". MMWR Weekly 34 (15): 201–5. 1985-04-19. ISSN 0149-2195. Retrieved 2008-10-03.
^ "Haemophilus influenzae Disease (Including Hib)". Disease Listing. Centers for Disease Control and Prevention. 2012-09-25. Retrieved 2014-01-31.
^ "Deadly Disease Eliminated in Children under Five Years of Age in Uganda" (Press release). GAVI Alliance. 2008-03-10. Retrieved 2008-10-03.
^ "WHO Model List of EssentialMedicines" (PDF). World Health Organization. October 2013. Retrieved 22 April 2014.
^ "Hib Initiative". Retrieved 2008-10-03. 61 of 72 GAVI countries have introduced or will introduce Hib vaccine into their routine immunization program [sic] by 2009
^ ^a ^b Centers for Disease Control and Prevention (2006). Atkinson W, Hamborsky J, McIntyre L, Wolfe S, ed. Epidemiology and Prevention of Vaccine-Preventable Diseases (9th ed.). Washington, D.C.: Public Health Foundation.
^ Bar-On, E. S.; Goldberg, E.; Hellmann, S.; Leibovici, L. (2012). Bar-On, Edna S, ed. "Combined DTP-HBV-HIB vaccine versus separately administered DTP-HBV and HIB vaccines for primary prevention of diphtheria, tetanus, pertussis, hepatitis B andHaemophilus influenzaeB (HIB)". The Cochrane Library 4: CD005530. doi:10.1002/14651858.CD005530.pub3. PMID 22513932. edit

UpToDate Contents

全文を閲覧するには購読必要です。 To read the full text you will need to subscribe.

1. インフルエンザ菌感染の予防 prevention of haemophilus influenzae infection
2. 国際養子縁組：予防接種に関する懸念事項 international adoption immunization considerations
3. 無脾症患者における敗血症の予防 prevention of sepsis in the asplenic patient
4. 予防接種に対する免疫応答の評価 assessing the immunologic response to vaccination
5. HIV感染患者における予防接種 immunizations in hiv infected patients

English Journal

Patterns of binding of aluminum-containing adjuvants to Haemophilus influenzae type b and meningococcal group C conjugate vaccines and components.

Otto RB1, Burkin K2, Amir SE3, Crane DT4, Bolgiano B5.
Biologicals : journal of the International Association of Biological Standardization.Biologicals.2015 Jul 17. pii: S1045-1056(15)00066-4. doi: 10.1016/j.biologicals.2015.06.008. [Epub ahead of print]
The basis of Haemophilus influenzae type b (Hib) and Neisseria meningitidis serogroup C (MenC) glycoconjugates binding to aluminum-containing adjuvants was studied. By measuring the amount of polysaccharide and protein in the non-adsorbed supernatant, the adjuvant, aluminum phosphate, AlPO4, was fou
PMID 26194164

Validation of infant immunization billing codes in administrative data.

Schwartz KL1, Tu K, Wing L, Campitelli MA, Crowcroft NS, Deeks SL, Wilson SE, Wilson K, Gemmill I, Kwong JC.
Human vaccines & immunotherapeutics.Hum Vaccin Immunother.2015 Jul 3;11(7):1840-7. doi: 10.1080/21645515.2015.1043499.
Ontario has a single payer provincial health insurance program. Administrative data may provide a potentially robust source of information for post-marketing vaccine studies. Vaccine-specific immunization billing codes were introduced in 2011. Our objective was to validate Ontario's universal health
PMID 26075651

Needle size for vaccination procedures in children and adolescents.

Beirne PV1, Hennessy S, Cadogan SL, Shiely F, Fitzgerald T, MacLeod F.
The Cochrane database of systematic reviews.Cochrane Database Syst Rev.2015 Jun 18;6:CD010720. doi: 10.1002/14651858.CD010720.pub2.
BACKGROUND: Hypodermic needles of different sizes (gauges and lengths) can be used for vaccination procedures. The gauge (G) refers to the outside diameter of the needle tubing. The higher the gauge number, the smaller diameter of the needle (eg a 25 G needle is 0.5 mm in diameter and is narrower th
PMID 26086647

Japanese Journal

11年間の菌血症118例によるヒブワクチンと7価肺炎球菌ワクチンの有効性

深澤満
日本小児科学会雑誌 = The journal of the Japan Pediatric Society 119(3), 573-580, 2015-03
NAID 40020403909

Haemophilus influenzae b型菌(Hib)ワクチン公費化1年後の横浜市健康保育園児鼻咽頭Hib保菌調査

齋藤綾子,住田裕子,箕原豊 [他]
感染症学雑誌 = The journal of the Japanese Association for Infectious Diseases 89(1), 30-36, 2015-01
NAID 40020335263

インフルエンザ菌b型ワクチン接種後にHib肺炎,菌血症を生じた1例

田中亮介,藤保洋明,角谷不二雄 [他]
日本小児科学会雑誌 = The journal of the Japan Pediatric Society 118(1), 42-46, 2014-01
NAID 40019950162

「ヒブワクチン」

Hib vaccine
Vaccine description
Target disease	Haemophilus influenzae type b
Type	Conjugate vaccine
Clinical data
Identifiers
CAS Registry Number
ATC code	J07AG01
(what is this?) (verify)

　　[★]

英: Haemophilus influenzae type b vaccine, Hib vaccine
関: ヘモフィルスワクチン Haemophilus vaccine、インフルエンザ菌 Haemophilus influenzae; Hib, PedvaxHIB, AciHIB; 予防接種

インフルエンザ菌b型 Haemophilus influenzae type bに対する予防ワクチン
任意接種である。接種は生後6ヶ月までに3回、1歳半に4回目を接種する。肺炎球菌ワクチンも同様のスケジュール　→　see. 予防接種

「Haemophilus influenzae」

　　[★]

ラ: Haemophilus influenzae
同: インフルエンザ菌
関: 細菌、髄膜炎、Haemophilus influenzae type b

生物的特徴

グラム陰性桿菌
パスツレラ科ヘモフィルス属
莢膜を有し、血清型はb型である。
発育因子として、X因子(プロトポルフィリンIX or プロトヘム) and/or V因子(NAD or NADP)が必要
病原因子は莢膜(抗貪食作用)とIgAプロテアーゼ(IgAを分解)が特徴的である。
PBPの変異による耐性菌(BLNAR, β-lactamase negative ampicillin-resistant Haemophilus)が出現している

感染症

続いて敗血症や閉塞性喉頭炎も引き起こす。

血清型と疾患(SMB.191)

莢膜型を有するS型菌(b型)

髄膜炎菌、結膜炎、喉頭炎、関節炎

非莢膜型を有しないR型菌

中耳炎、副鼻腔炎、気管支炎

疫学

潜伏期間

感染経路

飛沫感染

症状

epiglottitis, meningitis, otitis media, pneumonia

合併症

経過

治療

検査

培養

チョコレート寒天培地

予防

ヒブワクチンの接種

「B」

　　[★]

気管分岐部下緑
補体のalternative pathwayに関わる蛋白質

Mg2+存在下でC3, B, Dが反応してC3bBbとなり、これがC3転換酵素(C3bBb)あるいはC5転換酵素(C3bBb3b)を形成する。これらはP(properdin)と結合して活性化し、それぞれC3、C5を活性化する

「type」

　　[★]

n.

型、タイプ、(生物)タイプ標本

(windows)ファイル内容表示(linux -> cat])

ex. type report_20111118.jp.htm | php a.php > report_20111118.jp.jp.jp.html

関: form、mode、pattern、type specimen、typed

「typed」

　　[★]

adj.

型の

関: form、mode、pattern、type

「bed」

　　[★]

同: bicoid遺伝子

[1] Yogev, R.; Arditi, M.; Chadwick, E. G.; Amer, M. D.; Sroka, P. A. (1990). "Haemophilus influenzae type b conjugate vaccine (meningococcal protein conjugate): Immunogenicity and safety at various doses". Pediatrics 85 (4 Pt 2): 690–693. PMID 2107520. edit

[2] "Recommendation of the Immunization Practices Advisory Committee (ACIP) Polysaccharide Vaccine for Prevention of Haemophilus influenzae Type b Disease". MMWR Weekly 34 (15): 201–5. 1985-04-19. ISSN 0149-2195. Retrieved 2008-10-03.

[3] "Haemophilus influenzae Disease (Including Hib)". Disease Listing. Centers for Disease Control and Prevention. 2012-09-25. Retrieved 2014-01-31.

[4] "Deadly Disease Eliminated in Children under Five Years of Age in Uganda" (Press release). GAVI Alliance. 2008-03-10. Retrieved 2008-10-03.

[5] "WHO Model List of EssentialMedicines" (PDF). World Health Organization. October 2013. Retrieved 22 April 2014.

[6] "Hib Initiative". Retrieved 2008-10-03. 61 of 72 GAVI countries have introduced or will introduce Hib vaccine into their routine immunization program [sic] by 2009

[Pink_Book-7] Centers for Disease Control and Prevention (2006). Atkinson W, Hamborsky J, McIntyre L, Wolfe S, ed. Epidemiology and Prevention of Vaccine-Preventable Diseases (9th ed.). Washington, D.C.: Public Health Foundation.

[8] Bar-On, E. S.; Goldberg, E.; Hellmann, S.; Leibovici, L. (2012). Bar-On, Edna S, ed. "Combined DTP-HBV-HIB vaccine versus separately administered DTP-HBV and HIB vaccines for primary prevention of diphtheria, tetanus, pertussis, hepatitis B andHaemophilus influenzaeB (HIB)". The Cochrane Library 4: CD005530. doi:10.1002/14651858.CD005530.pub3. PMID 22513932. edit

リンク元	「ヒブワクチン」
関連記事	「Haemophilus influenzae」「B」「type」「typed」「bed」

匿名

検索

案内

Haemophilus influenzae type b vaccine