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Published: 4 June 2021
Last updated: 1 February 2022

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1

Brooks, Lee Warner. "Whooping." Iowa Review 39, no. 1 (April 2009): 96. http://dx.doi.org/10.17077/0021-065x.6652.

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2

King, Richard S., Patrick C. McKann, Brian R. Gray, and Michael S. Putnam. "Host–Parasite Behavioral Interactions in a Recently Introduced, Whooping Crane Population." Journal of Fish and Wildlife Management 6, no. 1 (February 1, 2015): 220–26. http://dx.doi.org/10.3996/042014-jfwm-032.

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Abstract The whooping crane Grus americana has a long conservation history, but despite multiple attempts across North America, introduction success is lacking. Recently introduced, captively reared whooping cranes have had periods of poor reproductive performance in central Wisconsin that sometimes coincided with black fly (Diptera: Simuliidae) emergences. Sandhill crane Grus canadensis reproductive performance in central Wisconsin is approximately double that of whooping cranes. We used comfort behaviors as a measure of black fly harassment to infer whether behavioral differences existed between nesting sandhill cranes and nesting whooping cranes and between successful and unsuccessful whooping crane pairs. To further explore the interaction between black flies and incubating whooping cranes, we examined differences in behaviors between incubating birds and their off-nest mates. Compared to their off-nest mates, incubating whooping cranes exhibited elevated comfort behaviors, suggesting a bird at a nest may experience greater harassment from black flies. Sandhill cranes had elevated head-flicks over whooping cranes. Whooping cranes exhibited more head-rubs than sandhill cranes, and successful whooping crane pairs had elevated head-rubs over pairs that deserted their nests. Behavioral differences between sandhill cranes and whooping cranes as well as differences in reproductive performance, could be explained by exposure to local breeding conditions. Whereas sandhill cranes have nested in the area for hundreds, if not thousands, of years, whooping cranes were only recently introduced to the area. Behavioral differences between the species as well as those between successful and unsuccessful whooping crane pairs could also be explained by the effect of captive exposure, which could affect all whooping crane introductions.
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3

Mikheeva, I. V., N. N. Fomkina, and M. A. Mikheeva. "MODERN EPIDEMIOLOGICAL AND ECONOMIC CHARACTERISTICS OF WHOOPING COUGH IN MOSCOW." Journal Infectology 11, no. 1 (March 30, 2019): 84–91. http://dx.doi.org/10.22625/2072-6732-2019-11-1-84-91.

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The goal of the study was the identification of epidemiological features of whooping cough and assessment of economic losses due to this disease in Moscow.Materials and methods. The retrospective descriptive epidemiological research is conducted. The statistical data on incidence of whooping cough in the Russian Federation and in Moscow from 2009 to June, 2018, the reports on registration of whooping cough cases as well as the results of laboratory testing on whooping cough in Moscow in 2017 have been studied. The general losses from whooping cough in Moscow in 2017 have been calculated.Results. The whooping cough incidence in Moscow considerably influences a situation on this infection in the country in general as more than 20% of all cases of whooping cough in Russia are registered in the capital, where the incidence exceed by 1.5–2.5 times the average country level. The incidence of whooping cough among children of 7–14 years and the share of this group of population in the structure of the whooping cough cases have increased in Moscow, and outbreaks of pertussis at schools are observed. In Moscow the general losses due to whooping cough in children of 7–14 years in 2017 were estimated as 19.72 million rubles. High performance of vaccinal prevention of whooping cough is confirmed: in Moscow in 2017 the coefficient of epidemiological efficiency of vaccination among children of 6-12 months was 97.7%, among children at the age of 1 year – 82.6%, 2 years -79.9%, 3 years – 74.9%. Weighted average of direct loss from a case of whooping cough was estimated as 31182.2 rubles. The general losses due to whooping cough in Moscow in 2017 were 67.88 million rubles.Conclusion. It is necessary to take additional measures for vaccinal prevention of whooping cough at children of school age and to support the high level of coverage by timely immunization of children of the first year of life. For assessment of economic feasibility of vaccinal prevention of whooping cough it is necessary to consider the size of economic losses due to this disease.
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4

Chivima, Brenda. "Whooping cough." Nursing Standard 29, no. 7 (October 15, 2014): 61. http://dx.doi.org/10.7748/ns.29.7.61.s46.

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5

Harnden, A. "Whooping cough." BMJ 338, may21 1 (May 21, 2009): b1772. http://dx.doi.org/10.1136/bmj.b1772.

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6

Singh, Meenu, and Krithika Lingappan. "Whooping Cough." Chest 130, no. 5 (November 2006): 1547–53. http://dx.doi.org/10.1016/s0012-3692(15)37335-9.

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7

Danthis, Michael. "Whooping cough." Nursing Standard 28, no. 36 (May 7, 2014): 53. http://dx.doi.org/10.7748/ns2014.05.28.36.53.s51.

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8

RADBILL, SAMUEL X. "Whooping Cough." Archives of Pediatrics & Adolescent Medicine 140, no. 6 (June 1, 1986): 506. http://dx.doi.org/10.1001/archpedi.1986.02140200016015.

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9

Linthwaite, Peter. "Whooping cough." Health Education Journal 44, no. 2 (June 1985): 105–8. http://dx.doi.org/10.1177/001789698504400217.

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10

Duncan, Debbie. "Whooping cough." Nurse Prescribing 16, no. 7 (July 2, 2018): 316–19. http://dx.doi.org/10.12968/npre.2018.16.7.316.

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11

BERTRAM, MIRANDA R., GABRIEL L. HAMER, BARRY K. HARTUP, KAREN F. SNOWDEN, MATTHEW C. MEDEIROS, and SARAH A. HAMER. "Haemosporida prevalence and diversity are similar in endangered wild whooping cranes (Grus americana) and sympatric sandhill cranes (Grus canadensis)." Parasitology 144, no. 5 (December 12, 2016): 629–40. http://dx.doi.org/10.1017/s0031182016002298.

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SUMMARYThe population growth of endangered whooping cranes (Grus americana) is not consistent with species recovery goals, and the impact of parasite infection on whooping crane populations is largely unknown. Disease ecology and epidemiology research of endangered species is often hindered by limited ability to conduct invasive sampling on the target taxa. Accordingly, we hypothesized that sandhill cranes (Grus canadensis) would be a useful surrogate species to investigate the health impacts of Haemosporida infection in whooping cranes. Our goal was to compare the prevalence and diversity of Haemosporida infection between whooping cranes and sandhill cranes. We detected an overall infection prevalence of 83·6% (n = 61) in whooping cranes and 59·6% (n = 47) and 63·6 (n = 22) in two sympatric sandhill crane populations captured in Texas. Prevalence was significantly lower in allopatric sandhill cranes captured in New Mexico (12·1%, n = 33). Haemoproteus antigonis was the most abundant haemoparasite in cranes, present in 57·4% of whooping cranes and 39·2% of sandhill cranes; Plasmodium and Leucocytozoon were present at significantly lower levels. The high prevalence of Haemosporida in whooping cranes and sympatric sandhill cranes, with shared parasite lineages between the two species, supports sandhill cranes as a surrogate species for understanding health threats to endangered whooping cranes.
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12

Marcovitch, H. "Recognising whooping cough." BMJ 292, no. 6517 (February 8, 1986): 360–61. http://dx.doi.org/10.1136/bmj.292.6517.360.

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13

Court, D. "Recognising whooping cough." BMJ 292, no. 6520 (March 1, 1986): 624–25. http://dx.doi.org/10.1136/bmj.292.6520.624-b.

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14

Preston, N. W. "Recognising whooping cough." BMJ 292, no. 6524 (March 29, 1986): 901–2. http://dx.doi.org/10.1136/bmj.292.6524.901-c.

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15

Harper, J. R., and I. L. Omenaka. "Recognising whooping cough." BMJ 292, no. 6529 (May 3, 1986): 1204. http://dx.doi.org/10.1136/bmj.292.6529.1204-a.

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16

Ash, C. "BIOMEDICINE: Whooping Back." Science 293, no. 5529 (July 20, 2001): 397c—397. http://dx.doi.org/10.1126/science.293.5529.397c.

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17

MERCER, H. "WHOOPING COUGH VACCINE." Journal of Paediatrics and Child Health 26, no. 1 (February 1990): 65. http://dx.doi.org/10.1111/j.1440-1754.1990.tb02384.x.

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18

MUNSON, BECKY LIEN. "…About whooping cough." Nursing 32, no. 12 (December 2002): 83. http://dx.doi.org/10.1097/00152193-200212000-00060.

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19

Mikheeva, I. V., T. S. Saltykova, and M. A. Mikheeva. "Expediency and prospects of a vaccinal prevention of whooping cough without age restrictions." Journal Infectology 10, no. 4 (December 30, 2018): 14–23. http://dx.doi.org/10.22625/2072-6732-2018-10-4-14-23.

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The goal of study was the epidemiological substantiationof optimization measures of a vaccinal prevention of whooping cough in the Russian Federation. Materials and methods. The retrospective descriptive epidemiological research has been conducted by analysis of the official statistical data on the whooping cough case rate (form No. 2) in 2005–2017 in the Russian Federation, as well as the data about preventive whooping cough inoculations (forms No. 5, No. 6) in 2005–2017 and about epidemic outbreakes in 2017 (form No. 23-17). The assessment of an economic damage from whooping cough in 2005-2017 has been carried out. Results. The following adverse characteristics of a modern epidemiological situation on whooping cough in Russia are shown: long-term recurrence of epidemic process, tendency of rising of a case rate of children of 0-2 years; high percentage of children of preschool and school age among whooping cough cases; prevalence among the patients with whooping cough of the children who have been vaccinated against this infection previously, epidemic outbreakes in children’s collectives, the stability of a case rate of teenagers and adults with prevalence of the mild and the erased clinical forms of this infection. The risks due to weaknesses of the whooping cough vaccinal prevention are noted: the insufficient immunization coverage owing to falce contraindications and refusals of parents of vaccinations of children, noncompliance with terms and intervals between inoculations, lack of domestic vaccine for revaccination of children at the age of 5 years and older. Conclusion. It is necessary to introduce in the national vaccination schedule a preschool booster dose for children at the age of 6 and adolescents at 14 years with the combined reduced antigen content tetanus–diphtheria and acellular pertussis vaccines as well as the inoculations of this vaccine according to epidemiological indications to health workers, employees of educational institutions. A revaccination against whooping cough is recommended as “cocoon” for the persons contacting to not vaccinated child under 1 year of age.
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20

Bezrodnova, S. M., I. V. Demurcheva, and O. O. Kravchenko. "Study of postvaccinal immunity to whooping cough in children with connective tissue dyslasia syndrome." CHILDREN INFECTIONS 20, no. 1 (April 9, 2021): 28–33. http://dx.doi.org/10.22627/2072-8107-2021-20-1-28-33.

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Purpose: to evaluate the effectiveness of post-vaccination immunity against whooping cough in children aged 1 to 17 years with connective tissue dysplasia syndrome in Stavropol.The principal component analysis was used to optimize the interpretation of immunograms in connective tissue dysplasia syndromedepending on protective titers for whooping cough. Analysis by the method of principal components showed that the links of cellular immunity predominate in children with connective tissue dysplasia syndrome with low titers of antibodies to whooping cough.The general variant of the response of the immune system was observed in children with protective titers of antibodies to whooping cough (1: 160—1: 320). In children with connective tissue dysplasia with titres of 1: 640or more antibodies to whooping cough, humoral and cellular immunities are closely interrelated, it is the presence of humoral and cellular immunity that makesit possible to develop a stable immunity to preventable infections.Thus, the method of main components effectively provides accessible information on key immune processes and is promising.
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21

Strobel, Bradley N., and Gina F. Giorgi. "Nest-Site Selection Patterns of Coexisting Sandhill and Whooping Cranes in Wisconsin." Journal of Fish and Wildlife Management 8, no. 2 (February 1, 2017): 588–95. http://dx.doi.org/10.3996/032016-jfwm-025.

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Abstract Breeding sandhill cranes Antigone canadensis and released captive-reared whooping cranes Grus americana have coexisted in central Wisconsin since 2001. Despite 15 y of reintroduction efforts, the reproductive success of these whooping cranes has been near zero. Preliminary data suggest sandhill cranes nesting in central Wisconsin have apparent nest success rates that are similar to those reported from other populations in the region (∼50%). One hypothesized cause of the whooping crane population's low reproductive success is nest abandonment induced by blood-feeding ornithophilic black flies Diptera: Simuliidae. Species-specific differences in selection of nest sites could influence the abundance of black flies at nests and affect reproductive success rates. We measured multiple vegetative and hydrologic characteristics at 35 sandhill crane nests, 20 whooping crane nests, and 164 randomly selected locations at 5- and 200-m scales. We were unable to detect a species-specific difference in vegetation characteristics within 5 m of nest sites. At the 200-m scale, sandhill cranes built nests at sites with slightly greater coverage of woody vegetation than whooping cranes. Differences observed between nest sites of sandhill and whooping cranes appeared to be slight and likely insufficient to explain the dramatic differences in reproductive success in central Wisconsin.
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22

Pimenova, A. S., O. Yu Borisova, M. S. Petrova, N. T. Gadua, A. B. Borisova, L. I. Kafarskaya, and S. S. Afanasiev. "COMPARISON OF RAYON AND FLOCKED SWABS FOR COLLECTION AND TRANSPORT OF DEEP THROAT SWABS FOR DETECTION OF BACTERIA CAUSING WHOOPING COUGH BY MULTIPLEX REAL-TIME PCR ASSAY." Russian Clinical Laboratory Diagnostics 64, no. 8 (October 7, 2019): 493–96. http://dx.doi.org/10.18821/0869-2084-2019-64-8-493-496.

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The aim of the work was to comparison of rayon and flocked swabs for collection and transport of deep throat swabs for detection of bacteria causing whooping cough by multiplex real-time PCR assay. The study included 87 patients aged from 1 month to 37 years, hospitalized in Infectious Diseases Clinical Hospital No. 1 of the Moscow Department of Healthcare. 68 (78,2 %) people had a diagnosis of whooping cough, the main group of which consisted of children aged 1 to 12 months (median 4 months); 17 (19,5 %) - other diseases of the respiratory tract; 2 (2,3 %) - contact with sick whooping cough. The initial examination of patients was carried out on the 1 - 8th week of the onset of the disease. The material from the patients was taken at one-day interval with commercial rayon swabs and flocked swabs. Identification and differentiation of specific genome fragments of the causative agents of whooping cough in biological material was carried out by real-time PCR using the «AmpliSens® Bordetella multi-FL» reagent kit. The efficiency of PCR-based diagnostics of whooping cough using flocked swabs at the preanalytical stage was 83,8 %, and rayon swabs - 82,3 %. The use of a flocked swabs at the preanalytical stage increased the research efficiency by 1,5 %. Thus, when collecting biological material for PCR-based diagnostics of whooping cough it is possible to use flocked swabs.
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23

Anwar, Hosmin. "Surface-exposed antibody-accessible outer membrane proteins of Bordetella pertussis." Canadian Journal of Microbiology 37, no. 8 (August 1, 1991): 590–93. http://dx.doi.org/10.1139/m91-100.

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The convalescent sera from a patient recovered form whooping cough were used to identify the surface-exposed antibody-accessible outer membrane proteins (OMPs) of Bordetella pertussis. The results indicated that the 69 000 OMP, the 40 000 porin, agglutinogens 2 and 3, and a number of presently unknown OMPs were exposed on the surface. The importance of these surface-exposed antigens in the protection against whooping cough is discussed. Key words: Bordetella pertussis, whooping cough, immune response, surface antigens, outer membrane protein.
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24

Ivanchenko, N. "Pertussis treatment strategies." Bukovinian Medical Herald 25, no. 2(98) (August 26, 2021): 135–40. http://dx.doi.org/10.24061/2413-0737.xxv.2.98.2021.22.

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Whooping cough, despite the fact that the disease has long been known, still remains a problem for all countries. Cough attacks can cause not only physical discomfort to the patient, but also a significant negative psycho-emotional load. Existing drug therapy to date does not solve all the problems in the treatment of whooping cough. The aim of our study was to conduct a literature review of pertussis treatment and evaluate the efficacy of inhaled corticosteroids in adult patients with moderate to severe disease.Material and methods. Guidelines for the treatment of whooping cough were studied, and 26 medical records of inpatients with the diagnosis of “Pertussis” were analysed. Conclusion. Antibiotic therapy is a mandatory component of treatment. The effectiveness of inhaled corticosteroids in adult patients with moderate to severe whooping cough has been established.
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25

Babachenko, I. V., Y. V. Nesterova, and N. V. Skripchenko. "CLINICAL AND LABORATORY PECULIARITIES OF WHOOPING COUGH IN CHILDREN OF DIFFERENT AGE GROUPS." Pediatria. Journal named after G.N. Speransky 99, no. 6 (December 14, 2020): 98–104. http://dx.doi.org/10.24110/0031-403x-2020-99-6-98-104.

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Objective of the research: to present the clinical and laboratory peculiarities of modern whooping cough in hospitalized children of different ages. Materials and methods: сlinical and laboratory characteristics of whooping cough were analyzed in 88 hospitalized sick children aged 1 month to 18 years in groups of children: group 1 – children under 1 year old; group 2 – children 1–6 years old; group 3 – children 7–17 years old. DNA of causative agents of pertussis infection was isolated by PCR in nasopharyngeal swabs using a commercial kit AmpliSens®Bordetella multi-FL (Moscow). Results: children of group 1 in 90% (n=43) of cases were not vaccinated against whooping cough, severe forms were recorded in 17% (n=8) of children of the 1st year of life, and in 15% (n=7) – due to respiratory rhythm disturbances. The diagnosis was confirmed by PCR in 94% (n=45) of children, leukocytosis with lymphocytosis was detected in 81,5% (n=101). Along with hematological changes typical for whooping cough, 79% (n=38) of patients in the first year of life had thrombocytosis (>400×109/l), which was most pronounced in severe disease course 511,5 [425; 568,5]×109/l vs 421 [347; 505,5]×109/l; p<0,05, which has no tendency to decrease throughout the entire observation period and correlates with the level of leukocytes (rs=0,69; p<0,001). Patients over 7 years old in 88% (n=21) of cases were vaccinated against whooping cough, but 79% (n=27) hemograms had no characteristic changes, which, along with a low frequency of confirmation of the diagnosis by PCR 22% (n=4), made it difficult to diagnose whooping cough. Conclusion: children over 7 years of age may not have characteristic hematological changes and PCR diagnostics are insufficiently effective, which contributes to the spread of whooping cough in family foci.
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26

Kennedy, C. Oliver. "The whooping cough problem." British Homeopathic Journal 76, no. 03 (July 1987): 167. http://dx.doi.org/10.1016/s0007-0785(87)80083-2.

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27

Enders, Gisela, Ingrid Rapp, Marion Biber, NoelW Preston, and EdwardJ Carter. "WHOOPING COUGH IN STUTTGART." Lancet 331, no. 8594 (May 1988): 1113. http://dx.doi.org/10.1016/s0140-6736(88)91937-x.

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28

Cattaneo, Laura A., and Kathryn M. Edwards. "Bordetella pertussis (Whooping cough)." Seminars in Pediatric Infectious Diseases 6, no. 2 (April 1995): 107–17. http://dx.doi.org/10.1016/s1045-1870(05)80059-7.

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29

Tornese, G., F. Patarino, and F. Marchetti. "Erythromycin in whooping cough." BMJ 338, jun29 2 (June 29, 2009): b2615. http://dx.doi.org/10.1136/bmj.b2615.

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30

Evans, M. R. "Undernotification of whooping cough." BMJ 310, no. 6990 (May 20, 1995): 1331. http://dx.doi.org/10.1136/bmj.310.6990.1331a.

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31

Buckley, Merry R. "Whooping Cough Is Resurgent." Microbe Magazine 7, no. 10 (January 1, 2012): 455–49. http://dx.doi.org/10.1128/microbe.7.455.1.

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32

Guillot, Sophie, and Nicole Guiso. "Follow-Up of External Quality Controls for PCR-Based Diagnosis of Whooping Cough in a Hospital Laboratory Network (Renacoq) and in Other Hospital and Private Laboratories in France." Journal of Clinical Microbiology 54, no. 8 (May 18, 2016): 2169–71. http://dx.doi.org/10.1128/jcm.00882-16.

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The French National Reference Centre (NRC) for Whooping Cough carried out an external quality control (QC) analysis in 2010 for the PCR diagnosis of whooping cough. The main objective of the study was to assess the impact of this QC in the participating laboratories through a repeat analysis in 2012.
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33

Borisova, O. Yu, N. T. Gadya, A. S. Pimenova, M. S. Petrova, O. P. Popova, V. A. Aleshkin, L. I. Kafarskia, et al. "Structure of Population of Strains of the Bordetella pertussis in the Russia." Epidemiology and Vaccine Prevention 15, no. 4 (August 20, 2016): 22–28. http://dx.doi.org/10.31631/2073-3046-2016-15-4-22-28.

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Relevance. Despite more than 50 years of successful experience with pertussis immunization, pertussis remains an important public health problem. WHO estimated 16 million people worldwide are infected per year, a significant number of whom are children under 1 year of age. In the last 10 years a significant increase in the incidence of whooping cough has been observed in many countries with a high immunization coverage level. In Russia, specific prevention of whooping cough, is held since 1959. Specific prevention of whooping cough has led to considerable improvement of an epidemiological situation and has shown its social and economic importance for maintenance of sanitary and epidemiologic wellbeing on this infection in Russia. Goal. Study the structure of population B. pertussis circulating in Russia in dynamics of whooping cough epidemic process. Materials and methods Studied 573 B. pertussis strains allocated from patients with whooping cough in 1948 - 2015 used multilocus sequence typing (MAST). Isolates divided in five groups: 1948 - 1969 - 37 strains, isolated in the vaccination period and the first ten years of mass childhood immunization; 1970 - 1989 - 63 strains; 1990 - 2005 - 203 strains (from G.N. Gabrichevsky Institute of Epidemiology and Microbiology collection); 2006 - 2012 - 185 strains; 2013 - 2015 - 85 strains. Genotyping of strains was carried out according to the scheme MAST2 on the basis of a sequence of fragments of genes of ptxP-fim3-prn. Results of sequencing-typing were computed in the CromasLite program, identification of alleles and sequencing types carried out on EMBL/GenBank. Results. Formation of population of B.pertussis strains during more than 50 years went on the way of consecutive change of vaccinal genotype strains with strains of new nonvaccinal genotypes. Conclusions. Modern population of the causative agent of whooping cough is presented by the strains of genotype 322 and 329 possessing high virulence and causing heavier clinical course of disease.
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34

Bakhmutskaya, E. V., A. Ya Mindlina, and A. V. Stepenko. "Pertussis – Morbidity, Immunization Tactics and Diagnostic Methods in Various European Countries." Epidemiology and Vaccine Prevention 17, no. 2 (April 20, 2018): 71–82. http://dx.doi.org/10.31631/2073-3046-2018-17-2-71-82.

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The paper reviews the incidence of pertussis, immunization tactics and diagnostic methods in 8 countries in the European Regionin 2001–2016. The surveyed countries were selected based on the incidence of whooping cough: high, relatively high, medium and low. The results obtained showed that the reduction in the incidence of whooping cough is typical for those European countries where the immunization against pertussis regimen includes additional revaccinations of preschool and pregnant women, as well as when coverage of the primary vaccination series exceeds 95%. With the growth of inapparent and not typical forms of the course of whooping cough, the use of only the bacteriological method of diagnosis does not show the true morbidity.
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35

Levit, M. "About whooping cough in infancy." Kazan medical journal 20, no. 6 (August 11, 2021): 646. http://dx.doi.org/10.17816/kazmj76811.

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36

Das, Pam. "Whooping cough makes global comeback." Lancet Infectious Diseases 2, no. 6 (June 2002): 322. http://dx.doi.org/10.1016/s1473-3099(02)00308-0.

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37

Korppi, Matti. "Whooping cough – still a challenge." Jornal de Pediatria (Versão em Português) 89, no. 6 (November 2013): 520–22. http://dx.doi.org/10.1016/j.jpedp.2013.09.001.

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38

Hoppe, JörgE, and NoelW Preston. "WHOOPING COUGH IN WEST GERMANY." Lancet 326, no. 8458 (October 1985): 776. http://dx.doi.org/10.1016/s0140-6736(85)90650-6.

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39

Elliman, D. "Whooping cough vaccines: where next?" Child: Care, Health and Development 24, no. 4 (July 1998): 259–67. http://dx.doi.org/10.1111/j.1365-2214.1998.tb00945.x.

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40

Setta, Fabrizia, Monique Baecke, Jean Jacquy, Jerzy Hildebrand, Guy Monseu, and Mario-Ubaldo Manto. "Cerebellar ataxia following whooping cough." Clinical Neurology and Neurosurgery 101, no. 1 (March 1999): 56–61. http://dx.doi.org/10.1016/s0303-8467(99)00004-9.

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41

Nee, Patrick, Elaine Weir, Madhur Vardhan, and Ankita Vaidya. "Could this be whooping cough?" Emergency Medicine Journal 35, no. 10 (August 10, 2018): 639–42. http://dx.doi.org/10.1136/emermed-2018-207792.

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Whooping cough is a notifiable bacterial respiratory infection caused by Bordetella pertussis. It may produce serious disease, especially in immunocompromised individuals and very young children. The number of reported cases increases in the winter months and the incidence peaks every 4–5 years. However, this periodicity is variable and is inconsistent between different geographical regions. Bordetella pertussis infection (BPI) may be underdiagnosed because of its seasonality and the fact that clinical features may be indistinguishable from other respiratory disorders in the paediatric ED setting. Treatment with antibiotics reduces the period of infectivity but may not shorten the illness. This review discusses the epidemiology of the disease, its clinical features, diagnosis, treatment and the disposition of patients with BPI.
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42

Crowcroft, N. S. "Whooping cough---a continuing problem." BMJ 324, no. 7353 (June 29, 2002): 1537–38. http://dx.doi.org/10.1136/bmj.324.7353.1537.

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Tinsley, Elizabeth. "Common childhood illnesses: Whooping cough." Journal of Health Visiting 5, no. 11 (November 2, 2017): 547–49. http://dx.doi.org/10.12968/johv.2017.5.11.547.

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44

Korppi, Matti. "Whooping cough – still a challenge." Jornal de Pediatria 89, no. 6 (November 2013): 520–22. http://dx.doi.org/10.1016/j.jped.2013.09.001.

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Butler, Chris, Nick Francis, and Geert-Jan Dinant. "Whooping cough in general practice." BMJ 333, no. 7560 (July 20, 2006): 159–60. http://dx.doi.org/10.1136/bmj.333.7560.159.

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46

Jenkinson, Douglas. "Whooping cough: still a problem." Practice Nursing 7, no. 16 (October 1996): 25–27. http://dx.doi.org/10.12968/pnur.1996.7.16.25.

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Fleming, Douglas. "What's happened to whooping cough?" Practice Nursing 10, no. 8 (May 7, 1999): 25–28. http://dx.doi.org/10.12968/pnur.1999.10.8.25.

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Rutledge, Renee K., and Erica C. Keen. "Whooping Cough in an Adult." New England Journal of Medicine 366, no. 25 (June 21, 2012): e39. http://dx.doi.org/10.1056/nejmicm1111819.

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49

Barza, Michael. "Whooping Cough in Immunized Populations." Infectious Diseases in Clinical Practice 8, no. 3 (March 1999): 120. http://dx.doi.org/10.1097/00019048-199903000-00003.

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50

Hall, D. "Altitude treatment for whooping cough." BMJ 303, no. 6793 (July 6, 1991): 58. http://dx.doi.org/10.1136/bmj.303.6793.58-b.

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