Asthma in Children Clinical Trial
Official title:
The Consequence of Respiratory Syncytial Virus (RSV) Infection in Young Infants
Respiratory Syncytial Virus (RSV) is a leading cause of childhood illness and hospitalization
across the world. In addition to acute mortality and morbidity, RSV infection is associated
with developing recurrent wheeze in pre-school children and asthma in later life. The
overarching aim of the study is to demonstrate the long-term effect of RSV infection on child
health in resource-poor settings.
Children previously infected with RSV in their first two months of life and age-matched
controls will be followed and epidemiological data will be compared in terms of prevalence of
asthma, lung function status, physical growth status, and asthma risk factors. Enrolled
children will be routinely assessed for a period of 12 months. During this period, this study
will record the health status of the children (respiratory tract illness, wheeze, cough,
other illness, and attendance at medical services), physical growth (height, weight and
mid-upper arm circumference), family history of atopic diseases (e.g. asthma) and
environmental risk exposure (indoor tobacco smoke, crowding, and cooking fuels, cooking
place) among enrolled children. Where the acute asthma exacerbation will be suspected,
physicians will assess the lung condition of the enrolled sick children using stethoscope and
peak flow-meter. The lung function of children will be measured using spirometry,
hyper-reactivity against common allergens will be performed using skin prick methods,
exercise challenge test will be performed to understand the airway hyperresponsiveness, and
blood eosinophil count determine the eosinophil level in the peripheral blood.
Background: Respiratory syncytial virus (RSV) is the most common cause of childhood illness
which attack the lower respiratory tract and develop bronchitis and pneumonia. Approximately
70% of infants are infected with RSV during their first year of life, and almost all children
are infected at least once by 2 years of age (Wu & Hartert, 2011).
Each year, an estimated 33·1 million episodes of RSV-associated acute lower respiratory
infections occur among under-five children globally, leading to 3·2 million hospitalizations
and 118,200 deaths (Ting Shi & Acacio, 2017). The burden of RSV-associated severe acute lower
respiratory tract infection is 10 times higher in developing countries compared to that in
developed countries (36.1 per 1000 life birth vs 3.2 per 1000 life birth, respectively).
In addition to acute mortality and morbidity, RSV infection has a long-term effect on
children's health (Jat & Kabra, 2017; Kneyber, Steyerberg, de Groot, & Moll, 2000). RSV
infection can induce a state of bronchial hyper-reactivity that has an association with the
development of asthma in later life (Balfour-Lynn, 1996), which, in turn, is a major risk
factor of chronic obstructive pulmonary disease in adulthood (Svanes et al., 2010).. The
prevalence of wheezing and asthma were reported two times higher in the children who had RSV
bronchitis in infancy compared with children without a history of bronchiolitis during
infancy (Sigurs et al., 2010). In a report, it was shown that among the children who
experienced asthma by school age, 31% of them had healthcare visits in infancy due to
respiratory diseases (Wu & Hartert, 2011). The severity of the RSV associated illness was
reported as an additive factor for asthma risk. Hartert et, al., reported that asthma
prevalence was two times higher in the infants who were hospitalized for RSV infection
compared to the other who received care at the outdoor department (Wu & Hartert, 2011). In
the mouse model, it was found that viral infection in neonatal rats delayed the growth of
secondary septa, decreased the alveolar surface density by 14 to 26%, and reduced the
diameter of terminal bronchioles by 11 and 20% (Castleman, Sorkness, Lemanske, Grasee, &
Suyemoto, 1988). However, there is no data on the effect of RSV infection on the lung of
neonates. In human, the lung remains premature at birth and continue to develop for 2-3 years
postnatally and can be assumed that the impact of RSV infection during early infancy would be
very severe.
Collecting clinical samples from young infants and lack of appropriate diagnostic to detect
RSV virus are the major obstacles to study RSV infection in developing countries. No study
from developing countries has investigated the long-term effect of RSV infections incurred
during the young infant period. It is assumed that the long-term effect of RSV infection
might be more intense if infection occurs during this period, as the lungs of newborns
continue to develop for the first several months of life.
Recently, a study aimed to determine the etiology of young infant infection at five centers
of three South Asian countries (Bangladesh, India, and Pakistan). This study identified 474
young infants who had laboratory-confirmed RSV infection; additionally, this study tested
specimens from 1,873 age and sex-matched healthy infants, which were found to be negative for
RSV. The current age of that cohort is between 5 and 7 years, which provides a unique
opportunity to gather information on the long-term effect of RSV infection in a large number
of laboratory-confirmed cases at a low cost.
Given the relative frequency and impact of RSV infection in developing healthcare settings,
should the investigators identify a high prevalence of subsequent wheeze and asthma the
potential benefit of interventions to reduce RSV will be enhanced. In addition, this study
will have the following supplementary benefits (1) the ability to report the feasibility to
identify wheeze frequency by self-reporting in South Asian populations, (2) the feasibility
and outcomes of tests that are utilized to support the diagnosis of asthma and other
respiratory diseases in children, i.e. skin prick tests, Eosinophil count and spirometry.
Research Questions: The overarching aim of this study is to understand the long-term effect
on child health of RSV infection occurring in the first two months of life. Therefore,
through this study, the investigators aim to investigate the following research questions:
1. Is there an association between RSV infection in the first two months of life and
development of asthma later in childhood?
2. Is the lung function of children who had RSV infection in the first 2 months of life
lower than that of children who did not have RSV infection?
3. Is there an association between RSV infection in the first two months of life and
physical development in childhood?
4. Are risk factors for childhood asthma different for the children who had RSV infection
in the first two months of life than others without RSV infection at the same age?
Methodologies: The investigators have identified sites of the Aetiology of Neonatal Sepsis in
South Asia (ANISA) study, two in Pakistan and one each in Bangladesh and India to implement
this study. Health workers will visit the households of eligible children. Children whose
parents provide consent will be visited three times in one year period, at baseline, after
six months and the end of the year. In the first visit, a member of the research team will
explain the study objectives and procedures to one of the family members (primarily the
mother) of the eligible children to provide consent for enrolling the children in the study,
the parents of the enrolled children will be interviewed using a structured questionnaire to
record the current and previous health status of children. Study team members will remain
blind about the RSV infectious status of the children to avoid enrollment bias. To ascertain
asthma and wheeze, parents will be inquired about breathing difficulties of the children
using a questionnaire designed by the International Study of Allergies and Asthma in
Childhood (ISAAC), dermatitis will be defined by the criteria provided by The U.K. Working
Party's Diagnostic Criteria for Atopic Dermatitis. It was previously reported that terms such
as ''wheeze'' and ''difficulty in breathing'' used in the ISAAC questionnaire have little
validity when comparing clinical cases between parents and also between clinicians, and the
conceptual understandings of ''wheeze'' for parents of children with reported wheeze are
different from definitions used in epidemiology (Bisgaard & Szefler, 2007). To reduce the
differences in patient responses, the research team will provide a video demonstration of
wheeze and asthma-like symptoms to the parents before introducing the questionnaire. They
will also introduce a child "case card" to the parents and request to record the wheezing
episodes of their enrolled children using this case card. Additionally, they will also
request the parents to reach team (over the phone) if they notice wheezing sound to their
children, a research team will visit the symptomatic children and perform a physical
assessment of the child using auscultation and peak flowmetry. The research team will return
to the families after six months to emphasize the use of the case card for recording wheeze
episodes and also refer the children to the health facilities for physical assessment
(spirometry, exercise challenge test, skin prick test, and eosinophil count test and
anthropometric measurements). In the health facilities, physicians will perform afore mention
tests and procedures. The research team will return to the families again after one year of
the first visit and collect the "case card" from where they will record the number of
wheeze/asthma episode occurred in the last one year (follow-up period).
;
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