Most respiratory viruses– including Corona viruses such as the ones that causes the Common Cold — are self-limiting, so to say.
What this means is that they have a relatively finite period in the human body before they “wear themselves out,” or the immune system contains them, and the sufferer recovers.
Treatment for these viruses is thus mostly aimed at;
1. Relieving symptoms, in order to make the sufferer comfortable.
2. Keeping the infected person alive by supporting organ systems attacked and impaired by the virus.
Most times, treatment is not aimed at curing such viral illnesses, by attacking the virus itself. This is partly because they’re self-limiting, and partly because developing antiviral medication is darn difficult due to the fact that they mutate so rapidly, and are more or less like shape shifters. If you develop a treatment against this form today, tomorrow they may mutate into a form resistant to said treatment.
So, the best form of treatment for such viruses is prevention, either by modification of social and lifestyle habits, to break the chain of transmission; or by vaccination.
If someone however becomes infected, treatment, as the immune system slugs it out with the virus, is usually supportive, and not definitive.
Before we move on to COVID-19, I want to make a distinction and clarification between two forms of treatments- supportive treatment, and definitive treatment.
Definitive/specific treatments diseases, definitive treatment entails treatment targeted specifically at the offending organism, aimed at eliminating it from the body. Once this is done, the body– through its repair mechanisms, heals itself of the damage already caused by the organism, and the person recovers.
An example is use of antimalarial drugs to treat Malaria, and antibiotics to treat bacterial infections.
Supportive treatment
This, in the context of infectious diseases, is treatment not aimed at eliminating the organism, but relieving its symptoms, and supporting vital bodily functions already compromised by it, while waiting for, or hoping that, the immune system will contain said infection.
So, if the person is having a distressful cough, you may have to give cough syrups to suppress it; if there’s fever, you may have to use anti-pyretics, such as paracetamol, to relieve it; if in pain, analgesics may be used generously to make the patient more comfortable; etc.
If the infection compromises the function of certain vital organ systems, and the person is at risk of dying without optimal functioning of said system, you support the organ’s function:
– For failing lungs; oxygen, and ventilators, may be needed.
– For cardiovascular collapse; fluids, and vaso-pressors may be given.
– For kidney failure; dialysis may come in handy.
Etc.
By doing these, you may be able to keep the body going, while the immune system wages battle against the offending organism.
If by the time the immune system is able to win the war and contain the infection, you have managed , through your supportive treatment, to keep the person alive, the person recovers.
However, if the damage caused by the organism in its wake is too much, and your supportive treatment couldn’t keep the person alive to see the end of the battle between immune system and bug, the person dies.
COVID-19
For COVID-19, the “finite” period of battle between immune system and virus is usually between 2 to 6 weeks– up to 8 weeks in some instances, depending on the competence/resilience of the person’s immune system, among other things.
If one is able to withstand the onslaught of the virus within this period, the person would pull through, sometimes without any treatment, other times with supportive treatment, all depending on the severity of the disease.
To put this in context, COVID-19 has 5 clinical variants BASED ON SEVERITY;
1. Asymptomatic Form.
In this form, one gets infected without manifesting any symptom whatsoever. The person thus ends up just as a mere carrier, spreading the infection to others.
2. Mild Disease.
Some people would get the virus, but just have upper respiratory tract infection, with symptoms such as sneezing, mild fever, cough, malaise, etc; and recover rapidly, with or without any supportive treatment.
3. Moderate Disease.
This group would go on to develop lower respiratory tract infection, with pneumonia, and would need some supportive treatment, but may not be sick enough to need oxygen therapy.
4. Severe Disease.
This group develop Pneumonia, and get so sick that they would need oxygen therapy.
5. Critical Disease
This group of patients get so bad, and develop A.R.D.S, and ventilatory respiratory failure, so much that they would need a ventilator to survive, without which they’d definitely die.
This classification is based solely on the effect of the virus on the respiratory system, its primary target in the body. That however doesn’t mean that the virus only affects the lungs.
The form of the disease one develops depends on a host of factors including;
1. Immune status.
2. Age.
3. Presence of other co-morbidities, such as Diabetes, Hypertension, Heart Disease, Cancer, Chronic Lung Diseases, etc.
People with asymptomatic and mild to moderate forms of the disease don’t need much help to recover; sometimes they’re even advised to stay at home, especially in countries whose Hospitals are already overwhelmed, and are managed with minor conservative/supportive measures to relieve symptoms such as fever, headache, chest pain, and cough.
People with severe and critical forms of the disease would need Hospital admission and a lot of supportive measures, including oxygen therapy, ventilators, anti-shock therapy– if necessary, and the full compliment of ICU care.
If conservative measures are enough to sustain the person, the person could still pull through even without specific antiviral therapy.
Conclusion
Hope I’ve been able to make you understand how recovery is possible, even without a definitive cure.
Now you know.
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