Siddha approach to control Covid-19
Coronavirus disease is an acute
respiratory infection, caused by COVID-19 virus, (also called as SARS-CoV-2).
Most people infected with the COVID-19 virus will experience mild to moderate
respiratory illness and recover without requiring special treatment. Adults and children
with underlying medical problems are likely, to have compromised immunity that
could lead to serious illness.
-
Cardiovascular disease
-
Diabetes
-
Chronic respiratory disease
-
Cancer
The best way to prevent and slow
down transmission is by being well informed about the COVID-19 virus, the
symptoms it causes and how it spreads. Preventive and safety measures include,
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Wash hands using mild soap or use an alcohol based rub
frequently
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Avoid touching your face
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Self-isolation
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Social distancing
The COVID-19 virus spreads primarily
through droplets of saliva or discharge from the nose when an infected person
coughs or sneezes, so it’s important that respiratory etiquette is practiced (for
example, by coughing into a flexed elbow, sneezing into a tissue
paper/handkerchief).
At this time, there is no vaccine or
treatment for COVID-19. However, there are many on-going clinical trials
evaluating potential treatments. WHO will continue to provide updated
information as soon as clinical findings become available.
Siddha medical system, has manages
various contagious viral diseases in the past (Eg. HIV[1], swine flu [2], HPV [3], etc.). Numerous Siddha-based
herbal formulations have been effective in treating viral diseases and
respiratory disorders. Some of them are even evaluated using modern methods and
are listed in the table below.
Table 1. List of Siddha-based herbal drugs
evaluated for viral diseases.
|
S.no.
|
Disease
|
Virus
|
Siddha recommended medicinal plant
|
Ref.
|
|
1.
|
Hepatitis
|
Hepadnaviridae. Double-Stranded DNA Reverse Transcribing
Virus
|
Phyllanthusamarus (Keezhanelli)
|
[4]
|
|
2
|
Chikungunya
|
Chikungunya
virus, positive-sense, single stranded RNA virus
|
Andrographis
paniculata (Nelavembu)
|
[5], [6]
|
|
3
|
Dengue
|
Dengue virus (DENV). positive-sense, single stranded RNA
virus
|
Andrographis paniculata
|
[7], [8], [9], [10]
|
|
4
|
Swine flu
|
H1N1 (Influenza virus), negative-sense, single stranded
RNA virus
|
[11]
|
|
|
5
|
Severe acute respiratory syndrome (SARS)
|
SARS-CoV, positive-sense, single stranded RNA viruses
|
Glycyrrhiza glabra (Athimaduram)
|
[12], [13]
|
High doses of the liquorice extract, containing
glycyrrhizin, practically wiped out the SARS virus in infected monkey cells,
find virologist JindrichCinatl of Frankfurt University Medical School, Germany.
The drug is more potent than ribavirin, which is most commonly used treat SARS.
Glycyrrhizin makes it difficult for the coronavirus to attach to and invade the
cell. It also hinders virus reproduction, therefore slowdownviral spread from
one cell to another [13].
Glycyrrhizin,
the primary identified active principle in licorice, glycyrrhizin is a
triterpene saponin. Triterpene refers to the 30 carbon molecules attached to a
compound's chemical structure. Saponins are widely distributed in nature—most
saponins are triterpenes—and form a frothy, soaplike solution when shaken in
water. Glycyrrhizin has a chemical structure similar to that of steroid
molecules. Its similarity to steroids may account for its anti-inflammatory
action, one of licorice's important effects on immune response. [19] Hirohiko Akamatsu, M.D., and colleagues from the
department of dermatology at Kansai Medical University in Japan, identified the
ways in which licorice appears to exert its beneficial effects. Rather than
demonstrating steroidal, cortisonelike effects on inflammation—reduction of
tissue swelling from histamine, increased blood flow and leukocyte infiltration
of damaged or infected tissues—licorice root has been shown in in vitro studies
to effectively reduce inflammation by mopping up excess free radicals liberated
in a free radical burst at the site of inflammation. [20] Superoxide, hydrogen peroxide and hydroxyl
radicals are released during inflammation to disable targeted bacteria and
viruses, a beneficial effect that is often overdone. Similar results were
obtained in a 1983 study in which licorice root reduced the number of free
radicals liberated by macrophages. [21]
The activity of licorice on the immune system has been described as "nonspecific" by most investigators. [22] This means licorice stimulates, activates or promotes an immune response in multiple ways. Earlier studies identified several of these effects. For example, researchers found that licorice appears to promote proliferation of B (from the bone) and T cells and stimulate production of interleukin-19, which stimulates T cells. Licorice also appears to stimulate the production of gamma-interferon by lymphocytes [23,24] and the differentiation of T3, T4 and T8 cells, specific kinds of activated lymphocytes. [23-25]
The activity of licorice on the immune system has been described as "nonspecific" by most investigators. [22] This means licorice stimulates, activates or promotes an immune response in multiple ways. Earlier studies identified several of these effects. For example, researchers found that licorice appears to promote proliferation of B (from the bone) and T cells and stimulate production of interleukin-19, which stimulates T cells. Licorice also appears to stimulate the production of gamma-interferon by lymphocytes [23,24] and the differentiation of T3, T4 and T8 cells, specific kinds of activated lymphocytes. [23-25]
Piperine from Piper longum has also been found effective in
SARS virus and single positive-stranded
RNA virus
SARS-CoV-2
(COVID-19), is a positive-sense, single stranded RNA virus (subgenus sarbecovirus, Orthocoronavirinae subfamily). Thegenome sequence of SARS-CoV-2 is
79.5% identity to SARS-CoVand the lifecycle, transmission is similar for theseviruses
[14]. Most importantlyboth the virususesthe
same host cellular entry receptor, angiotensin-converting enzyme 2 (ACE2) to
invade the cell.ACE2, is found in the lower respiratory track (lungs) of
humans.
Therefore, the herbal products found effective onSARS-CoVare potential
candidatesto treatSARS-CoV-2.
Adathodaikudineer
(ADK)
is used to treat respiratory infections in Siddha system and is been prescribed
to the patients for over 55 years in the
Govt. Siddha Medical College Hospitals and no adverse effect of this drug has
been reported so far. This formulation finds place in the Hospital
Pharmacopeia of Siddha medicine, and contains the following drugs:
- Adathodavasica (Adathoda)
- Glycyrhizaglabra (Atimaturam)
- Piper longum(Thippili)
- Taxusbaccata(Thalisapatri)
Phytochemicalvasicinonefrom Adathoda is known for itsbronchodilator activity [15], glycyrrhizin andpiperinefrom Atimaturam[16]andThippili[17], respectively are reported for
inhibiting viral replication, and taxol from Thalisapatri for supressing intercellular communication that
enhance viral spread [18].
Recommendation for SARS-CoV-2:
It is advised that ADK is consumed
twice a day for three days in suspected case SARS-CoV-2.The single herb Nelavembu could be added to the above formulation in case of fever.
This will certainly reduce the
symptoms of SARS-CoV-2
and prevent the multiplication and spread of virus.
Reference:
[1] K. V.
Thilagavathi, M Harihara Mahadevan, Eswaran, “A Case Study on Management of HIV
by Integrated Treatment with Siddha Medicine and ART,” J Res Sid Med,
vol. 1, no. 1, pp. 59–62, 2018.
[2] Thillaivanan S,
Kanakavalli K, and Sathiyarajeshwaran P, “CODEN (USA): IJPSPP A Review on ‘Kapa
Sura Kudineer’-A Siddha Formulary Prediction for Swine Flu,” 2015.
[3] A. Riyasdeen,
V. S. Periasamy, P. Paul, A. A. Alshatwi, and M. A. Akbarsha, “Chloroform
extract of Rasagenthi Mezhugu, a Siddha formulation, as an evidence-based
complementary and alternative medicine for HPV-positive cervical cancers,” Evidence-based
Complement. Altern. Med., 2012, doi: 10.1155/2012/136527.
[4] S. P. Thyagarajan,
T. Thirunalasundari, S. Subramanian, P. S. Venkateswaran, and B. S. Blumberg,
“EFFECT OF PHYLLANTHUS AMARUS ON CHRONIC CARRIERS OF HEPATITIS B VIRUS,” Lancet,
1988, doi: 10.1016/S0140-6736(88)92416-6.
[5] J. Jain, S.
Pai, and S. Sunil, “Standardization of in vitro assays to evaluate the activity
of polyherbal siddha formulations against Chikungunya virus infection,” VirusDisease,
2018, doi: 10.1007/s13337-018-0421-0.
[6] M. V.
Viswanathan, D. K. Raja, and S. D. Khanna, “Siddha way to cure Chikungunya,” Indian
J. Tradit. Knowl., 2008.
[7] E. S. Edwin et
al., “Anti-dengue efficacy of bioactive andrographolide from Andrographis
paniculata (Lamiales: Acanthaceae) against the primary dengue vector Aedes
aegypti (Diptera: Culicidae),” Acta Trop., 2016, doi: 10.1016/j.actatropica.2016.07.009.
[8] R. Kalai arasi,
R. Jeeva Gladys, S. Elangovan, D. K. Soundararajan, H. and Mubarak, and A.
Kanakarajan, “A Combination Of Nilavembu Kudineer And Adathodai Manapagu In The
Management,” Int. J. Curr. Res., vol. 5, no. 04, pp. 978–981.
[9] C. G.J. et
al., “Protective effect of polyherbal Siddha formulation-Nilavembu Kudineer
against common viral fevers including dengue - a case-control approach,” Int.
J. Pharm. Sci. Res., 2015, doi: 10.13040/IJPSR.0975-8232.6(4).1656-60.
[10] J. Jain et
al., “Antiviral activity of ethanolic extract of Nilavembu Kudineer against
dengue and chikungunya virus through in vitro evaluation,” J. Ayurveda
Integr. Med., 2019, doi: 10.1016/j.jaim.2018.05.006.
[11] C. Seniya, S.
Shrivastava, S. K. Singh, and G. J. Khan, “Analyzing the interaction of a
herbal compound Andrographolide from Andrographis paniculata as a folklore
against swine flu (H1N1),” Asian Pacific J. Trop. Dis., 2014, doi:
10.1016/S2222-1808(14)60692-7.
[12] J. Cinatl, B.
Morgenstern, G. Bauer, P. Chandra, H. Rabenau, and H. W. Doerr, “Glycyrrhizin,
an active component of liquorice roots, and replication of SARS-associated
coronavirus,” Lancet, 2003, doi: 10.1016/S0140-6736(03)13615-X.
[13] G. Hoever et
al., “Antiviral activity of glycyrrhizic acid derivatives against
SARS-coronavirus,” J. Med. Chem., 2005, doi: 10.1021/jm0493008.
[14] Y.-R. Guo et
al., “The origin, transmission and clinical therapies on coronavirus
disease 2019 (COVID-19) outbreak – an update on the status,” Mil. Med. Res.,
2020, doi: 10.1186/s40779-020-00240-0.
[15] A. H. Amin and
D. R. Mehta, “A bronchodilator alkaloid (vasicinone) from Adhatoda vasica
Nees,” Nature, 1959, doi: 10.1038/1841317a0.
[16] M. Michaelis et
al., “Glycyrrhizin exerts antioxidative effects in H5N1 influenza A
virus-infected cells and inhibits virus replication and pro-inflammatory gene
expression,” PLoS One, 2011, doi: 10.1371/journal.pone.0019705.
[17] C. Mair, R. Liu,
A. Atanasov, M. Schmidtke, V. Dirsch, and J. Rollinger, “Antiviral and
anti-proliferative in vitro activities of piperamides from black pepper,” Planta
Med., 2016, doi: 10.1055/s-0036-1596830.
[18] K. L. Roberts,
B. Manicassamy, and R. A. Lamb, “Influenza A Virus Uses Intercellular
Connections To Spread to Neighboring Cells,” J. Virol., 2015, doi:
10.1128/jvi.03306-14.
[19] Tang W, Eisenbrand G. Chinese drugs of
plant origin. Berlin: Springer-Verlag; 191-7, 567-91.
[20] Akamatsu H, et al. Mechanism of
anti-inflammatory action of glycyrrhizin: effect on neutrophil functions
including reactive oxygen species generation. Planta Medica 1991;57:119-21.
[21] Igaku A, et al. The effect of glycyrrhizin and
glycyrrhetic acid on production of superoxide and hydrogen peroxide by
macrophages. Chem Abstracts 1983;98:155082a.
[22] Chavali SR, et al. An in vitro study of immunomodulatory effects of some saponins. Intl J Immunopharmacol 1987;9:675.
[23] Nara IZ. The role of interferon-gamma (IFN-gamma) producing cells in clinical immunology. Chem Abstracts 1984;35:424.
[24] Sugawa I. OK432, glycyrrhizin and CCA (lobenzarit disodium) are good in vitro inducers of IFN-gamma production. Chem Abstracts 1991;114:135740j.
[25] Shinada M, et al. Enhancement of interferon-gamma production in glycyrrhizin-treated human peripheral lymphocytes in response to concanavalin A and to surface antigen of hepatitis B virus. Proc Soc Exp Bio Med 1986;181:205.
[22] Chavali SR, et al. An in vitro study of immunomodulatory effects of some saponins. Intl J Immunopharmacol 1987;9:675.
[23] Nara IZ. The role of interferon-gamma (IFN-gamma) producing cells in clinical immunology. Chem Abstracts 1984;35:424.
[24] Sugawa I. OK432, glycyrrhizin and CCA (lobenzarit disodium) are good in vitro inducers of IFN-gamma production. Chem Abstracts 1991;114:135740j.
[25] Shinada M, et al. Enhancement of interferon-gamma production in glycyrrhizin-treated human peripheral lymphocytes in response to concanavalin A and to surface antigen of hepatitis B virus. Proc Soc Exp Bio Med 1986;181:205.
Dr.T.Thirunarayanan,
Siddha
Physician,
Member –
GB National Institute of Siddha
Member –
ASU DrugTechnical Advisory Board - GoI
Centre for
Traditional Medicine & Research
Chennai-88
Ph no. 9444018158
