Influenza pandemics of the 20th century.Three worldwide (pandemic pandemic /pan·dem·ic/ (pan-dem´ik) 1. a widespread epidemic of a disease. 2. widely epidemic. pan·dem·ic adj. Epidemic over a wide geographic area. n. ) outbreaks of influenza occurred in the 20th century: in 1918, 1957, and 1968. The latter 2 were in the era of modern virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression and most thoroughly characterized. All 3 have been informally identified by their presumed sites of origin as Spanish, Asian, and Hong Kong influenza Hong Kong influenza n. Influenza caused by a serotype of influenza virus type A; it was first identified in Hong Kong during the 1968 epidemic. Also called Hong Kong flu. , respectively. They are now known to represent 3 different antigenic subtypes of influenza A influenza A n. Influenza caused by infection with a strain of influenza virus type A. influenza A Infectious disease An avian virus, especially of ducks–which in China live near the pig reservoir and 'vector'; virus: H1N1, H2N2, and H3N2, respectively. Not classified as true pandemics are 3 notable epidemics: a pseudopandemic in 1947 with low death rates, an epidemic in 1977 that was a pandemic in children, and an abortive epidemic of swine influenza swine influenza n. A highly contagious form of human influenza caused by a filterable virus identical or related to a virus formerly isolated from infected swine. Also called swine flu. in 1976 that was feared to have pandemic potential. Major influenza epidemics show no predictable periodicity periodicity /pe·ri·o·dic·i·ty/ (per?e-ah-dis´i-te) recurrence at regular intervals of time. pe·ri·o·dic·i·ty n. 1. or pattern, and all differ from one another. Evidence suggests that true pandemics with changes in hemagglutinin hemagglutinin /he·mag·glu·ti·nin/ (-gloo´ti-nin) an antibody that causes agglutination of erythrocytes. cold hemagglutinin one which acts only at temperatures near 4° C. subtypes arise from genetic reassortment with animal influenza A viruses. ********** Three worldwide (pandemic) influenza outbreaks occurred in the last century. Each differed from the others with respect to etiologic agents, epidemiology, and disease severity. They did not occur at regular intervals. In the case of the 2 that occurred within the era of modern virology (1957 and 1968), the hemagglutinin (HA) antigen of the causative viruses showed major changes from the corresponding antigens of immediately antecedent ANTECEDENT. Something that goes before. In the construction of laws, agreements, and the like, reference is always to be made to the last antecedent; ad proximun antecedens fiat relatio. strains. The immediate antecedent to the virus of 1918 remains unknown, but that epidemic likely also reflected a major change in the antigens of the vials (1) Brief Look Back at the 1918 Pandemic This notorious epidemic is thoroughly and cogently discussed elsewhere in this issue of Emerging Infectious Diseases (1). I wish only to add a few points that are not often emphasized, or even mentioned. The origin of this pandemic has always been disputed and may never be resolved. However, the observations of trained observers at that time are worth noting because they may bear on later genomic analysis of the recently resurrected 1918 virus nucleotide fragments (1) and the abortive "swine flu" epidemic of 1976. In Richard Shope's Harvey lecture of 1936 (2), he reviews evidence that in the late summer or early autumn of 1918, a disease not previously recognized in swine, and closely resembling influenza in humans, appeared in the American Middle West. Epidemiologic-epizootiologic evidence strongly suggested that the causative virus was moving from humans to swine rather than in the reverse direction. Similar observations were made on the other side of the world and reported in a little-known paper in the National Medical Journal of China (3). In the spring of 1918, influenza in humans spread rapidly all over the world and was prevalent from Canton, China, to the most northern parts of Manchuria and from Shanghai to Szechuan. In October 1918, a disease diagnosed as influenza appeared in Russian and Chinese pigs in the area surrounding Harbin. Thus, epidemiologic evidence, fragmentary as it is, appears to favor the spread of virus from humans to swine, in which it remained relatively unchanged until it was recovered more than a decade later by Shope in the first isolation of influenza virus influenza virus n. Any of three viruses of the genus Influenzavirus designated type A, type B, and type C, that cause influenza and influenzalike infections. from a mammalian species. The virus of 1918 was undoubtedly uniquely virulent, although most patients experienced symptoms of typical influenza with a 3- to 5-day fever followed by complete recovery. Nevertheless, although diagnostic virology was not yet available, bacteriology bacteriology Study of bacteria. Modern understanding of bacterial forms dates from Ferdinand Cohn's classifications. Other researchers, such as Louis Pasteur, established the connection between bacteria and fermentation and disease. was flourishing and many careful postmortem examinations of patients by academic bacteriologists and pathologists disclosed bacterial pathogens in the lungs (4) However, this was a time when bacterial superinfection superinfection /su·per·in·fec·tion/ (-in-fek´shun) a new infection occurring in a patient having a preexisting infection, such as bacterial superinfection in viral respiratory disease or infection of a chronic hepatitis B carrier with in other virus diseases could lead to death; for example, measles in military recruits was often fatal (4). This information is important in considering the question of "will there ever be another 1918." To the degree that secondary bacterial infection may contribute to influenza death rates, it should at least be partially controllable by antimicrobial agents, as indeed was the case in 1957. 1957: Asian Influenza Asian influenza n. Influenza that is caused by a strain of influenza virus type A, which was first isolated in China during the 1957 epidemic. (H2N2) After the influenza pandemic of 1918, influenza went back to its usual pattern of regional epidemics of lesser virulence in the 1930s, 1940s, and early 1950s. With the first isolation of a virus from humans in 1933 (5), speculation began about the possible role of a similar virus in 1918. However, believing that this could have been the case was difficult until the pandemic of 1957. This was the first time the rapid global spread of a modern influenza virus was available for laboratory investigation. With the exception of persons >70 years of age, the public was confronted by a virus with which it had had no experience, and it was shown that the virus alone, without bacterial coinvaders, was lethal (6). First Recognition of the Pandemic In 1957, worldwide surveillance for influenza was less extensive than it is today. However, attentive investigators in Melbourne, London, and Washington, DC soon had the virus in their laboratories (7) after the initial recognition of a severe epidemic, followed by the publication in The New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of Times of an article in 1957 describing an epidemic in Hong Kong that involved 250,000 people in a short period (8). Three weeks later, a virus was recovered from the outbreak and sent to Walter Reed Army Institute for Research in Washington, DC for study. Nature of the Virus The virus was quickly recognized as an influenza A virus by complement fixation tests. However, tests defining the HA antigen of the virus showed it to be unlike any previously found in humans. This was also true for the neuraminidase neuraminidase /neu·ra·min·i·dase/ (-ah-min´i-das) an enzyme of the surface coat of myxoviruses that destroys the neuraminic acid of the cell surface during attachment, thereby preventing hemagglutination. (NA) antigen. The definitive subtype (programming) subtype - If S is a subtype of T then an expression of type S may be used anywhere that one of type T can and an implicit type conversion will be applied to convert it to type T. of the Asian virus was later established as H2N2. The new virus had high sialidase/neuraminidase activity, and this activity was more stable than that of earlier strains. Different strains of the Asian virus also differed markedly with respect to sensitivity to either antibody neutralization neutralization, chemical reaction, according to the Arrhenius theory of acids and bases, in which a water solution of acid is mixed with a water solution of base to form a salt and water; this reaction is complete only if the resulting solution has neither acidic nor or nonspecific nonspecific /non·spe·cif·ic/ (non?spi-sif´ik) 1. not due to any single known cause. 2. not directed against a particular agent, but rather having a general effect. nonspecific 1. inhibitors of hemagglutination hemagglutination /he·mag·glu·ti·na·tion/ (he?mah-gloo-ti-na´shun) agglutination of erythrocytes. he·mag·glu·ti·na·tion n. (9). In animal studies, the new H2N2 viruses did not differ in their virulence characteristics from earlier influenza A subtypes. Viral isolates from the lungs of patients with fatal cases showed no discernible differences from those from throat washing isolates of patients without pulmonary involvement within a small circumscribed circumscribed /cir·cum·scribed/ (serk´um-skribd) bounded or limited; confined to a limited space. cir·cum·scribed adj. Bounded by a line; limited or confined. hospital outbreak (10). Primary Influenza Virus Pneumonia Although secondary or concomitant bacterial infections of the lung were found to be a prominent feature of fatal cases in 1918 when a specific etiologic agent was sought (4), many cases of rapid death and lung consolidation or pulmonary edema Pulmonary Edema Definition Pulmonary edema is a condition in which fluid accumulates in the lungs, usually because the heart's left ventricle does not pump adequately. occurred in which bacterial infection could not be demonstrated. As influenza persisted as an endemic disease Endemic disease An infectious disease that occurs frequently in a specific geographical locale. The disease often occurs in cycles. Influenza is an example of an endemic disease. with regional recurrences after the pandemic, lives continued to be occasionally claimed by abacterial a·bac·te·ri·al adj. 1. Not caused by bacteria. 2. Free of bacteria. abacterial (ā´baktir´ē- pneumonia. With the arrival of Asian influenza in 1957, the sheer number of cases associated with pandemicity again brought the phenomenon of primary influenza virus pneumonia to the attention of physicians in teaching hospitals. In contrast to the observations in 1918, underlying chronic disease of the heart or lungs was found in most of these patients, although deaths of previously healthy persons were not uncommon. In the case of carefully studied patients at the New York Hospital, rheumatic heart disease rheumatic heart disease n. Permanent damage to the valves of the heart usually caused by repeated attacks of rheumatic fever. Rheumatic heart disease was the most common antecedent factor, and women in the third trimester of pregnancy were among those vulnerable (11). Response to Vaccination in an Unprimed Population The pandemic of 1957 provided the first opportunity to observe vaccination response in that large part of the population that had not previously been primed by novel HA and NA antigens not cross-reactive with earlier influenza A virus antigens. As summarized by Meiklejohn (12) at an international conference on Asian influenza held 3 years after the 1957 onslaught of H2N2, more vaccine was required to initiate a primary antibody response than with the earlier H1 vaccines (almost always observed in heterovariant primed subjects). In 1958, 1959, and 1960 (as recurrent infections occurred), mean initial antibody levels in the population increased (i.e., subjects were primed) and response to vaccination was more readily demonstrated. Divided doses given at intervals of [less than or equal to] 4 weeks were more beneficial than a single injection. Less benefit was derived from this strategy as years passed. Intradermal intradermal /in·tra·der·mal/ (-der´mal) 1. within the dermis. 2. intracutaneous. in·tra·der·mal adj. Within or between the layers of the skin. administration of vaccine provided no special advantage over the conventional subcutaneous/intramuscular route, even when the same small dose was given (13). Nature of Endemic H2N2 Postpandemic Infection The Asian influenza experience provided the first opportunity to study how the postpandemic infection and disease into an endemic phase subsided. In studies conducted in separate and disparate populations (14), the populations compared were Navajo school children and New York City New York City: see New York, city. New York City City (pop., 2000: 8,008,278), southeastern New York, at the mouth of the Hudson River. The largest city in the U.S. medical students. In both groups, subclinical infections occurred each year during the 3-year study period, and clinically manifested infections decreased in conjunction with an increasing level of H2N2-specific hemagglutination inhibition antibody. A decreasing incidence of clinically manifested cases can be ascribed either to the increase in antibody levels in the community or to a change in the intrinsic virulence of the virus. Therefore, the nature of the disease during the endemic period is important to define. A study (15) in 1960 of hospitalized patients with laboratory-confirmed infections demonstrated a spectrum of disease from uncomplicated 3-day illnesses to fatal pneumonia, all in the absence of discernible epidemic influenza in the community (15). Asian (H2N2) virus was destined des·tine tr.v. des·tined, des·tin·ing, des·tines 1. To determine beforehand; preordain: a foolish scheme destined to fail; a film destined to become a classic. 2. for short survival in the human population and disappeared only 11 years after its arrival. It was supplanted by the Hong Kong (H3N2) subtype. 1968: Hong Kong Influenza (H3N2) As in 1957, a new influenza pandemic arose in Southeast Asia and acquired the sobriquet Hong Kong influenza on the basis of the site of its emergence to western attention. Once again, the daily press sounded the alarm with a brief report of a large Hong Kong epidemic in the Times of London. A decade after the 1957 pandemic, epidemiologic communication with mainland China was even less efficient than it had been earlier. As this epidemic progressed, initially throughout Asia, important differences in the pattern of illness and death were noted. In Japan, epidemics were small, scattered, and desultory des·ul·to·ry adj. 1. Moving or jumping from one thing to another; disconnected: a desultory speech. 2. Occurring haphazardly; random. See Synonyms at chance. until the end of 1968. Most striking was the high illness and death rates in the United States following introduction of the virus on the West Coast. This experience stood in contrast with the experience in western Europe, including the United Kingdom, in which increased illness occurred in the absence of increased death rates in 1968 1969 and increased death rates were not seen until the following year of the pandemic. Since the Hong Kong virus differed from its antecedent Asian virus by its HA antigen, but had retained the same (N2) NA antigen (16), researchers speculated that its more sporadic and variable impact in different regions of the world were mediated by differences in prior N2 immunity (16-19). Therefore, the 1968 pandemic has been aptly characterized as "smoldering smol·der also smoul·der intr.v. smol·dered, smol·der·ing, smol·ders 1. To burn with little smoke and no flame. 2. " (19). Further evidence for the capacity of previous N2 experience to moderate the challenge of the Hong Kong virus was provided by Eickhoff and Meiklejohn (20), who showed that vaccination of Air Force cadets with an H2N2 adjuvant adjuvant /ad·ju·vant/ (aj?dbobr-vant) (a-joo´vant) 1. assisting or aiding. 2. a substance that aids another, such as an auxiliary remedy. 3. vaccine reduced subsequent influenza from verified H3N2 virus infection by 54%. The amelioration a·me·lio·ra·tion n. 1. The act or an instance of ameliorating. 2. The state of being ameliorated; improvement. Noun 1. of H3N2 virus infection by NA immunity alone is all the more remarkable because of the capacity of the virus to kill, as occurred in 1918 and 1957, although a broader spectrum of disease severity was apparent in 1968 than in 1957 (15). Although not necessarily an indication of virulence, cross-species transmission of the virus was observed (21). Thirty-seven years later, the H3N2 subtype still reigns as the major and most troublesome influenza A virus in humans. Pseudopandemics and an Abortive Pandemic Extreme Intrasubtypic Antigenic Variation and the Pseudopandemic of 1947 (H1N1) In late 1946, an outbreak of influenza occurred in Japan and Korea in American troops. It spread in 1947 to other military bases in the United States, including Fort Monmouth, New Jersey, where the prototype FM-1 strain was isolated. The epidemic was notable because of the initial difficulty in establishing its cause as an influenza A virus because of its considerable antigenic difference from previous influenza A viruses. Indeed, for a time it was identified as "influenza A prime" (22). The 1947 epidemic has been thought of as a mild pandemic because the disease, although globally distributed, caused relatively few deaths. However, as a medical officer at Fort Monmouth, I can personally attest that there was nothing mild about the illness in young recruits in whom signs and symptoms closely matched those of earlier descriptions of influenza (23). Most remarkable was the total failure of vaccine containing a 1943 HIN1 strain (effective in the 1943-1944 and 1944-1945 seasons) to protect the large number of US military personnel who were vaccinated. Previously, antigenic variation had been noted, but never had it been of a sufficient degree to compromise vaccine-induced immunity (24). Years later, extensive characterization of HA and NA antigens of the 1943 and 1947 viruses and comparison of their nucleotide and amino acid amino acid (əmē`nō), any one of a class of simple organic compounds containing carbon, hydrogen, oxygen, nitrogen, and in certain cases sulfur. These compounds are the building blocks of proteins. sequences showed marked differences in the viruses isolated in these 2 years; studies in a mouse model also showed that the 1943 vaccine afforded no protection to the 1947 virus challenge (24). Studies in the Fort Monmouth epidemic also documented, by serial bacterial cultures, for the first time the long suspected relationship of influenza to group A streptococcal streptococcal /strep·to·coc·cal/ (-kok´al) pertaining to or caused by a streptococcus. Streptococcal (Streptococcus) Pertaining to any of the Streptococcus bacteria. carriage and disease (23). 1976: Abortive, Potentially Pandemic, Swine Influenza Virus Epidemic, Fort Dix, New Jersey (H1N1) In the interest of full disclosure, I predicted the possibility of an imminent pandemic in an op ed piece published in The New York Times on February 13, 1976 (25). On February 13, I was notified that influenza viruses isolated from patients at Fort Dix, New Jersey, a few days earlier and provisionally identified as swine influenza viruses were being mailed to my laboratory in New York City. A high-yield (6:2) genetic reassortant virus (X-53) was produced and later used as a vaccine in a clinical trial in 3,000 people. An even higher yielding HA mutant virus, X-53a, was selected from X-53 and subsequently used in the mass vaccination of 43,000,000 people. (I was a member of a Center for Disease Control advisory committee and an ad hoc For this purpose. Meaning "to this" in Latin, it refers to dealing with special situations as they occur rather than functions that are repeated on a regular basis. See ad hoc query and ad hoc mode. advisory committee to President Gerald Ford on actions to be taken to protect the American public against swine influenza.) When no cases were found outside Fort Dix in subsequent months and the neurologic complication of Guillain-Barre syndrome Guil·lain-Bar·ré syndrome n. See acute idiopathic polyneuritis. occurred in association with administration of swine influenza vaccine, the National Immunization immunization: see immunity; vaccination. Program was abandoned, and the entire effort was assailed as a fiasco and disaster. I wish only to note here that my unyielding position on the need for vaccine production and immediate vaccination (not stockpiling) had its basis in what science could be brought to bear in an unprecedented situation. This was the cocirculation in crowded recruit barracks bar·rack 1 tr.v. bar·racked, bar·rack·ing, bar·racks To house (soldiers, for example) in quarters. n. 1. A building or group of buildings used to house military personnel. of 2 influenza A viruses of different subtypes: H3N2, the major epidemic virus, and H1(swine) N1. The latter virus, which caused a minor (buried) epidemic and was shown to be serially transmissible transmissible /trans·mis·si·ble/ (trans-mis´i-b'l) capable of being transmitted. trans·mis·si·ble adj. Capable of being conveyed from one person to another. in humans, was the putative virus of 1918. Would genetic reassortment of the viruses produce a monster, as is now feared with the current avian virus threat, or did interference by the far more prevalent virus H3N2 suppress further transmission of the swine virus? Experience had shown a decrease or even disappearance of epidemic viruses in the summer. However, they return in winter to produce disease in conditions favoring transmission: indoor crowding and decreased relative humidity relative humidity n. The ratio of the amount of water vapor in the air at a specific temperature to the maximum amount that the air could hold at that temperature, expressed as a percentage. . None of these facts was noted by critics of the program. 1977: Russian Flu, a Juvenile, Age-restricted Pandemic, and the Return of Human H1N1 Virus Our obsession with geographic eponyms An eponym is a person (real or fictitious) from whom something is said to take its name. The word is back-formed from "eponymous", from the Greek "eponymos" meaning "giving name". for a disease of worldwide distribution is best illustrated by Russian, or later red influenza or red flu, which first came to attention in November 1977, in the Soviet Union. However, it was later reported as having first occurred in northeastern China in May of that year (26). It quickly became apparent that this rapidly spreading epidemic was almost entirely restricted to persons <25 years of age and that, in general, the disease was mild, although characterized by typical symptoms of influenza. The age distribution was attributed to the absence of H1N1 viruses in humans after 1957 and the subsequent successive dominance of the H2N2 and then the H3N2 subtypes. When antigenic and molecular characterization of this virus showed that both the HA and NA antigens were remarkably similar to those of the 1950s, this finding had profound implications. Where had the virus been that it was relatively unchanged after 20 years? If serially (and cryptically) transmitted in humans, antigenic drift antigenic drift (an´tējen´ik), n the ability of viruses to alter their genetic makeup, thereby creating mutant antigens and bypassing the antibody barrier of the host. should have led to many changes after 2 decades. Reactivation reactivation to become active after a period of quiescence or, as in bacterial and viral infections, latency. cross reactivation of a long dormant infection was a possibility, but the idea conflicts with all we know of the biology of the virus in which a latent phase has not been found. Had the virus been in a deep freeze deep freeze see freezer. ? This was a disturbing thought because it implied concealed experimentation with live virus, perhaps in a vaccine. Delayed mutation and consequent evolutionary stasis stasis /sta·sis/ (sta´sis) 1. a stoppage or diminution of flow, as of blood or other body fluid. 2. a state of equilibrium among opposing forces. in an animal host are not unreasonable, but in what host? And if a full-blown epidemic did originate, it would be the first to do so in the history of modern virology, and a situation quite unlike the contemporary situation with H5N1 and its protracted pro·tract tr.v. pro·tract·ed, pro·tract·ing, pro·tracts 1. To draw out or lengthen in time; prolong: disputants who needlessly protracted the negotiations. 2. epizootic ep·i·zo·ot·ic adj. Affecting a large number of animals at the same time within a particular region or geographic area. Used of a disease. ep phase. Thus, the final answer to the 1977 epidemic is not yet known. Influenza Pandemics of the 21th Century: the Murky Crystal Ball All pandemics are different. The minimum requirement seems to be a major change or shift in the HA antigen (1968). In 1957, changes in both HA and NA antigens were associated with higher rates of illness and death. The memorable and probably unique severity of the 1918 pandemic may have depended, at least in part, on wartime conditions and secondary bacterial infections in the absence of antimicrobial drugs. Also, mechanical respirators and supplemental oxygen were not available. Although evidence is strong that recombinational capture of animal influenza HA or NA antigens may be essential for pandemic origins, extreme antigenic drift, such as that which occurred in 1947 (24), can lead to global dissemination and disease by the multiply mutated virus. An intrasubtypic H1N1 animal variant virus (A/H A/H Ampere/Hour A/H Air Handling 1N1/ swine) caused serially transmitted disease, pneumonia, and death at a military installation, yet disappeared within a few weeks (1976, Fort Dix). However, in 1977 an age-restricted pandemic was caused by the revisitation of an H1N1 virus and its ability to infect persons who had not experienced the virus earlier. Within the brief period of modern virology, of the 16 HA subtypes known to exist, pandemics have been caused only by viruses of the H1, H2, and H3 subtypes. Moreover, serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. and epidemiologic evidence has shown that each of these subtypes has produced pandemics in the past. Are these the default human subtypes? If so, can we be less concerned about the threat of contemporary epizootics? Preparing for the Unpredictable Yes, we can prepare, but with the realization that no amount of hand washing, hand wringing, public education, or gauze gauze (gawz) a light, open-meshed fabric of muslin or similar material. absorbable gauze gauze made from oxidized cellulose. masks will do the trick (27). The keystone of influenza prevention is vaccination. It is unreasonable to believe that we can count on prophylaxis prophylaxis (prō'fĭlăk`sĭs), measures designed to prevent the occurrence of disease or its dissemination. Some examples of prophylaxis are immunization against serious diseases such as smallpox or diphtheria; quarantine to confine with antiviral agents to protect a large, vulnerable population for more than a few days at a time, and that is not long enough. How long will they be given? To whom? What are the risks in mass administration? All of this is unknown. But vaccination against what? We do not know. Perhaps against H5N1. But do we not already have a vaccine? No, we do not; no vaccine of adequate antigenic potency is available in sufficient supply. The answer lies in an approach first suggested at a World Health Organization meeting in 1969 (28) and repeatedly endorsed since by virtually every pandemic preparedness planning group. This recommendation assumes that the nature of the next pandemic virus cannot be predicted, but that it will arise from 1 of the 16 known HA subtypes in avian or mammalian species. Accordingly, preparation by genetic reassortment of high-yield seed viruses of all HA subtypes should proceed as soon as possible for potential use in vaccine production (28). Thirty-seven years later, this goal has not yet been achieved. Reassortant viruses have been used in vaccine production since 1971 in response to the emergence of antigenic drift variants. A repository at the National Institute of Allergy and Infectious Diseases (www.flu-archive.org) contains recently made early and late H2N2 candidate vaccine reassortant viruses that could address the return of that virus subtype, a high-yield H7N7 reassortant virus, and a high-yield H5N3 wt mutant that does not kill either chickens or fertile hen eggs (E.D. Kilbourne, M. Perdue Perdue may refer to:
One concern about previous and anticipatory preparation and characterization of high-yield reassortants is that they may not exactly match the newly emerging strain of that subtype. Perhaps not, but in the face of a pandemic threat they could serve as barricade vaccines (27), ready to be pulled out of the freezer at the first threat from any subtype. Postscript Back to Reality: Urgent Questions That Can and Should be Answered Immediately In assessing pandemic risk, we seem to have forgotten that influenza virus contains not 1, but 2 immunogenic im·mu·no·gen·ic adj. Producing an immune response. immunogenic producing immunity; evoking an immune response. protective antigens. As a case in point, I am not satisfied that we have sufficiently examined immunity to the N1 antigen of the H5N1 pandemic-candidate virus. Did infected persons who died lack antibody to N1 in their acute-phase sera? To what extent, if any, do the N1 antigens of human strains crossreact with those of the H5NI variants? Is the antibody response to N 1 antigen being examined in recipients in recent H5N1 virus vaccine trials? Mindful of the damping effect of N2 antibody in the 1968 pandemic, we might find reassurance and explanations in learning these results. References (1.) Taubenberger JK, Morens DM. 1918 influenza: the mother of all pandemics. Emerg Infect Dis. 2006;12:15-22. (2.) Shope RE. The influenza viruses of swine and man. Harvey Lect. 1935-1936:30:183-213. (3.) Chun JWH JWH John Wesley Harding . Influenza, including its infection among pigs. National Medical Journal of China. 1919;5:34-44. (4.) Kilbourne ED. The severity of influenza as a reciprocal of host susceptibility. In: Ciba Foundation Study Group, No. 4. Virus virulence and pathogenicity. Boston: Little, Brown and Co., 1960. p. 55-77. (5.) Smith W, Andrewes CH, Laidlaw PR A virus obtaincd from influenza patients. Lancet. 1933;2:66-8. (6.) Rogers DE, Louria DB, Kilbourne ED. The syndrome of fatal influenza virus pneumonia. Trans Assoc Am Physicians. 1958;71: 260-73. (7.) Langmuir AD. Epidemiology of Asian influenza, international conference on Asian influenza. Am Rev Respir Dis. 1961;83:2-14. (8.) Hong Kong battling influenza epidemic. New York Times. 1957 Apr 17; 3. (9.) Choppin PW, Tamm I. Studies of two kinds of virus particles which comprise influenza A2 virus strains. II. Reactivity with virus inhibitors in normal sera. J Exp Med. 1960;112:921-44. (10.) Kilbourne ED. Studies on influenza in the pandemic of 1957-58. III. Isolation of influenza A (Asian strain) viruses from influenza patients with pulmonary complications. Details of virus isolation and characterization of isolates, with quantitative comparison of isolation methods. J Clin Invest. 1959;38:266-74. (11.) Louria DD, Blumenfeld HL, Ellis JT, Kilbourne ED, Rogers DE. Studies on influenza in the pandemic of 1957-58. II. Pulmonary complications of influenza. J Clin Invest. 1959;38:213-65. (12.) Meiklejohn G. International conference on Asian influenza. Am Rev Respir Dis. 1961;83:175-7. (13.) McCarroll JR, Kilbourne ED. Immunization with Asian-strain influenza vaccine influenza vaccine Flu vaccine A vaccine recommended for those at high risk for serious complications from influenza: > age 65; Pts with chronic diseases of heart, lung or kidneys, DM, immunosuppression, severe anemia, nursing home and other chronic-care : equivalence of the subcutaneous and intradermal routes. N Engl J Med. 1958;259:618-21. (14.) Hayslett J, McCarroll JR, Brady E, Deuschle K, McDermott W, Kilbourne ED. Endemic influenza. 1. Serologic evidence of continuing and sub-clinical infection in disparate populations in the post-pandemic period. Am Rev Resp Dis. 1962; 85:1-8. (15.) Kaye D, Rosenbluth M, Hook E, Kilbourne ED. Endemic influenza. II. The nature of the disease in the post-pandemic period. Am Rev Resp Dis. 1962;85:9-21. (16.) Schulman JL, Kilbourne ED. Independent variation in nature of the hemagglutinin and neuraminidase antigens of influenza virus: distinctiveness of the hemagglutinin antigen of Hong Kong-68 virus. Proc Natl Acad Sci U S A. 1969;63:326-33. (17.) Stuart-Harris C. Epidemiology of influenza in man. Br Med Bull. 1979;35:3-8. (18.) Monto AS, Kendal AR Effect of neuraminidase antibody on Hong Kong influenza. Lancet. 1973;1:623-5. (19.) Viboud C, Grais RF, Lafont BA, Miller MA, Simonsen L: Multinational Influenza Seasonal Morbidity Study Group. Multinational impact of the 1968 Hong Kong pandemic: evidence for a smoldering pandemic. J infect Dis. 2005;192:223-48. (20.) Eickhoff TC, Meiklejohn G Protection against Hong Kong influenza by adjuvant vaccine containing A2-Ann Arbor-67, Bull World Health Organ. 1969;41:562-3. (21.) Kilbourne ED. Influenza. New York: Plenum: 1987. p. 234. (22.) Salk JE, Suriano PC. Importance of antigenic composition of influenza virus vaccine influenza virus vaccine n. A vaccine containing influenza virus, usually several strains of the virus, prepared in chick embryos and used to immunize against influenza. in protecting against the natural disease. Am J Public Health. 1949:39:345-55. (23.) Kilbourne ED, Loge, JP, Influenza A prime: a clinical study of an epidemic caused by a new strain of virus. Ann Intern Med. 1950;33:371-79. (24.) Kilbourne ED, Smith C, Brett I, Pokomy BA, Johansson B, Cox N. The total influenza vaccine failure of 1947 revisited: major intrasubtypic antigenic change can explain failure of vaccine in a post-World War II epidemic. Proc Natl Acad Sci U S A. 2002;99:10748-52. (25.) Kilbourne ED. The predictable natural disaster [op. ed.]. New York Times. 1976 Apr 13; 33. (26.) Beveridge WIB WIB Workforce Investment Board WIB Women In Business WIB Women in Black WIB Waktu Indonesia Barat (Western Indonesian time zone) WIB Western Independent Bankers (San Francisco, CA) WIB War Industries Board . Where did red flu come from? New Scientist. 1978:23:790-1. (27.) Kilbourne ED. Influenza pandemics: can we predict the unpredictable? Viral Immunol. 2004;17:350-7. (28.) Kilbourne ED. Future influenza vaccines and the use of genetic recombinants. Bull World Health Organ. 1969:41:643-5. (29.) Chen H. Subbarao K, Swayne, D, Chen Q, Xiuhua L, Katz J, et al. Generation and evaluation of a high-growth reassortant H9N2 influenza A virus as a pandemic vaccine candidate. Vaccine. 2003:21:1974-9. Address for correspondence: Edwin D. Kilbourne, 23 Willard Ave, Madison, CT 06443, USA; fax: 203-318-0036: email: ekilbourne@ snet.net Use of trade names is for identification only and does not imply endorsement by the Public Health Service or by the U.S. Department of Health and Human Services Noun 1. Department of Health and Human Services - the United States federal department that administers all federal programs dealing with health and welfare; created in 1979 Health and Human Services, HHS . Edwin D. Kilbourne, New York Medical College New York Medical College is a center for graduate medical education located in Westchester County, a suburb half an hour north of New York City. This private university comprises the School of Medicine, which grants the M.D. , Valhalla, New York Valhalla is a hamlet and census-designated place (CDP) located in the town of Mount Pleasant in Westchester County, New York, United States. The population was 5,379 at the 2000 census. , USA Dr Kilbourne, emeritus professor of microbiology and immunology at New York Medical College, has spent his professional life in the study of infectious diseases, particularly virus infections. His early studies of coxsackieviruses and herpes simplex herpes simplex (hûr`pēz), an acute viral infection of the skin characterized by one or more painful, itching blisters filled with clear fluid. preceded study of influenza in all of its manifestations. Primary contributions have been to understanding of influenza virus structure, genetics, molecular epidemiology molecular epidemiology Molecular medicine An evolving field that combines the tools of standard epidemiology–case studies, questionnaires and monitoring of exposure to external factors with the tools of molecular biology–eg, restriction endonucleases, , and pathogenesis. His studies of influenza virus genetics resulted in the first genetically engineered genetically engineered adjective Recombinant, see there vaccine for the prevention of human disease, and a new approach to influenza immunization received 2 US patents. |
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