Nothing worries people like knowing that they will be old someday. Considering that growing old is real, experts have gone an extra mile, to determine ways people can grow old with less age-related infections and prolonged lifespan. Sounds like an interesting idea, right. Nevertheless, despite the improved health care, older adults in the United States continue to suffer ill health for at least ten years of their lives. So, just how can we extend healthy lifespan in the older population?
As I have already told you, ladies and gentlemen, getting old and frail scares most people. Unfortunately, studies have shown that, increase in lifespan does not necessarily mean better health-span. Truthfully, the older people get, the higher the chances of getting physiological problems in various organs, tissues, and organ systems among others. When this happens, immunosenescence sets in, making the process of aging more dramatic (Berrut & de Decker, 2015). In order to cure this state, it is vital to identify appropriate intervention strategies, which include effective induction of vaccinations to mediate the immune rejuvenation process.
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I am pleased to tell you that, aging is a flexible process, which can be defined by both nutritional and pharmacological choices. Meaningfully, the immune system is inwardly flexible, and can be restored after immunosenescence has set in. What people need to understand is that, the process of rejuvenating the immune system can turn out disastrous. In fact, different stimuli a person has experienced in early life should be applied in developing a personalized immunosenescence. Experts have warned that, a thoughtful analysis should be considered, prior to applying any ‘anti-aging’ intervention. They are concerned that, the anti-aging treatments can display dire consequences on human aging. Owing to such fear, the search for healthy aging continues, as I am just about to let you know.
You will be surprised to learn that, increased occurrence of some infections gets worse when a person becomes older. Influenza, tetanus, and pneumonia among others increase their infection prevalence, as one gets older. Fortunately, these can be mitigated by repeated vaccinations. Repeated vaccinations are useful to individual body, as they lead to higher mediated immunity during old age (Giefing ‐ Kröll et al. 2015). However, repeated infections cannot be entirely relied upon, to alleviate infections. In that regard, experts call for empirical research and analysis of vaccination in proper understanding of rejuvenating the immune system. Believably, the vaccination pattern can be relied to improve the immune systems among the elderly.
In a like manner, the molecular understanding of the intrinsic defects of immunosenescence towards human cells can be integrated with hypothesis driven approached to immunomics and vaccinology to come up with a model that can cause healthier aging. Research indicates that, a gradual reduction in tissue homeostasis and body physiological functioning are part of the changes that come with aging. Indeed, age related changes have the ability of lowering immunity in the body, which ends up exposing it to infections. In that regard a slowed aging process can go a long way in dealing with late-life diseases (Shetty et al, 2018). This approach bears important implications and appears the most appropriate goal of treating immunosenescence. Slowing down the process of aging through pharmacological means is a highly effective strategy for doing away with late-life infections.
In winding up, ladies and gentlemen, scientists and research experts have done their best to discover appropriate ways of achieving healthy aging. However, it is vital to understand that, all humanity is bound to die, and there cannot be a promise for a method to stop one from aging. Successful control is guaranteed, but you should understand that, reduction of one mortality crisis, could end up exposing one to other challenges.
References
Berrut, G., & de Decker, L. (2015). Immunosenescence: a review. Geriatrie et psychologie neuropsychiatrie du vieillissement, 13 , 7.
Giefing ‐ Kröll, C., Berger, P., Lepperdinger, G., & Grubeck ‐ Loebenstein, B. (2015). How sex and age affect immune responses, susceptibility to infections, and response to vaccination. Aging cell, 14 (3), 309-321.
Shetty, A. K., Kodali, M., Upadhya, R., & Madhu, L. N. (2018). Emerging anti-aging strategies- scientific basis and efficacy. Aging and disease, 9 (6), 1165.
