Asthma and Homoeopathy by Dr. Rajneesh Kumar Sharma MD (Homoeopathy)
Asthma is a clinical syndrome defined physiologically by episodic reversible airway narrowing (Psora) and hyperresponsiveness of the airways to a variety of stimuli (Tubercular).
It is defined pathologically by the presence of certain recognizable microscopic features including infiltration of the airways with eosinophils (Psora), hypertrophy and hyperplasia of airway smooth muscle (Sycosis), hypertrophy and hyperplasia of mucous secretory apparatus (Sycosis), and overall thickening of the airway wall (Sycosis).
It affects men and women equally. The prevalence of asthma below age 20 is greater than that above age 20.
Mortality rates from asthma are difficult to estimate because of the difficulty of establishing asthma as the cause of death.
Alterations in Airway Constitutive Cells
Both hyperplasia and hypertrophy of the airway epithelial cell layer (Sycosis) are present in asthma and contribute to the thickening of the airway wall (Sycosis). Within the epithelial layer there are increased numbers of surface secretory cells (Psora) as well as hypertrophy and hyperplasia of airway mucus glands (Sycosis). Thickening of the airway smooth muscle layer (Sycosis) also occurs. These changes result not only in thickening of the airway wall, which promotes airway hyperresponsiveness (Tubercular) on a simple mechanical basis, but also in an altered phenotype of the resident cells, which produces a microenvironment whereby activating stimuli enhance the production of prophlogistic mediators and cytokines (Psora). These mediators and cytokines in turn contribute to the airway obstruction and hyperresponsiveness (Tubercular) that characterize asthma.
Infiltration by Inflammatory Cells
The airway wall in asthma is infiltrated by T lymphocytes (Psora).
Alterations of the Noncellular Component of the Airway Wall
The airway wall is thickened (Sycosis) in asthma. The basement membrane is increased in thickness (Sycosis) and exhibits alterations in the structure of its collagen components (Psora); such thickening promotes airway obstruction and hyperresponsiveness (Tubercular). Liquid that infiltrates the airway wall and surrounding tissues as a result of local inflammation (Psora) further amplifies airway obstruction.
During an acute asthmatic episode, the patient experiences airway obstruction that causes symptoms of breathlessness (Psora) and anxiety (Psora), commonly accompanied by wheezing (Sycosis) and on occasion cough (Psora). The resolution of these symptoms and physical findings usually occurs within 1 to 3 days without specific therapy and may occur within hours if specific therapy is given. During the intervals between episodes of airway obstruction, airflow is normal, and the patient is asymptomatic.
Individuals who exercise for brief periods of time, on the order of 15 to 20 min, commonly develop airway obstruction after the cessation of exercise. Obstruction usually begins 5 to 10 min after the completion of exercise and resolves in 1 to 4 hrs.
It results from the direct effects of mediators released from inflammatory cells as a consequence of clustering of IgE receptors on the surface of effector cells (Psora). Common allergens inducing asthma are cat allergen (Fel D1), house dust mite allergen (der P1), and tree and grass pollens.
Many individuals with a history of asthma will be relatively asymptomatic until they contract a viral illness, when asthma may occur without other known inciting stimuli.
Approximately 1% to 10% of patients with moderate-to-severe asthma have aspirin-induced asthma, which consists of symptoms of moderately severe airway obstruction, rhinorrhea, sneezing, tearing, dermal changes, and, in some patients, GI changes (cramping, nausea, or vomiting).
Acute Severe Asthma
Acute severe asthma is a more severe and prolonged version of an acute asthmatic episode.
Chronic Stable Asthma
Chronic stable asthma is the name given to the syndrome characterized by episodes of asthmatic symptoms and airflow obstruction that recur.
Patients with asthma have tachypnea (Psora), with respiration rates often 25 to 40 breaths/min, accompanied by tachycardia (Psora), with pulse rates of about 100 as well as pulsus paradoxus (Sycosis), an exaggerated inspiratory fall in the systolic blood pressure (Psora).
During an acute attack of asthma, the chest is hyperinflated (Psora), which can be appreciated on inspection. Percussion of the thorax demonstrates hyperresonance (Sycosis), with loss of the normal variation in dullness from diaphragmatic movement (Tubercular). The cardinal physical finding in asthma is wheezing (Sycosis). Wheezing is commonly heard during both inspiration and expiration; it tends to be louder during expiration.
Pulmonary Function Testing
Decreased airflow rates throughout the vital capacity are the most common pulmonary function abnormality in mild asthma.
Airway Responsiveness Testing
Airway responsiveness testing measures the bronchoconstrictor response elicited by a standard stimulus.
Arterial Blood Gases
For a patient with a mild attack of asthma, the PaO2 is usually between 55 and 75, and the PaCO2 between 25 and 35.
Other Findings in the Blood
Blood eosinophilia on the order of 4% to 8% is common. Elevated serum levels of IgE are often used as an index of the atopic state. Specific radiooligosorbent tests (RAST) can be conducted to determine the amount of IgE specifically directed against an offending antigen.
Severe cases of asthma can be associated with elevated serum concentrations of aminotransferases, lactate dehydrogenases, muscle creatinine phosphokinase, transcarbamylase, and antidiuretic hormone. Furthermore, therapy with b-adrenergic agonists, may create low serum potassium levels.
In most cases, chest radiographs in patients with asthma are normal. Complications of severe asthma include pneumomediastinum and pneumothorax, which may be detected only radiographically.
In most cases of asthma, the electrocardiogram is remarkable only for sinus tachycardia. In severe attacks right axis deviation, right bundle branch block, P pulmonale, or even ST-T wave abnormalities may occur.
Between acute asthma attacks, in the absence of infection, the sputum of patients with asthma is usually clear. During an acute asthma attack, even without infection, the sputum may be green to yellow from eosinophil peroxidase. Asthmatic findings include eosinophils, Charcot-Leyden crystals (crystallized eosinophil lysophospholipase), Curschmann's spirals (bronchiolar casts composed of mucus and goblet cells), or Creola bodies (clusters of airway epithelial cells with identifiable, quite often beating, cilia).
ars > sulph.> nux-v. > calad. > nat-s. > lach. > carb-v. > ip. > lob. > sil. etc. are the most similar remedies for asthmatic pathology. Otherwise, the similimum remedy must be chosen as per Homoeopathic doctrine
There are some medicines for asthma & their therepeutical use------
• Antimonium Tartaricum – Great rattling of mucous in the chest. Difficult expectoration during the cough with much relief after expectoration.
• Aconite – Great fear of death during the attack. Will say I am dying.
• Arsenicum Album – Valuable acute and chronic remedy. Restlessness, and anxiety. Fear to lie down for fear of suffocation. Feeling as if dust had been inhaled.
• Carcinosin – Great remedy for children after vaccination or suppressed skin eruptions.
• Ipecachuana – Spasmodic asthma with violent contraction of throat and chest.
• Kali Bichromicum – Expectoration that is tough and tenacious. 3am to 4am aggravation. Summer or winter aggravations. Must sit up to breathe.
• Lachesis – Attacks during sleep. Cannot bear anything around the neck or chest. Worse after eating, talking, moving arms, touching throat. Better sitting up and bent forward.
• Lobelia – Difficulty breathing. Prickly sensation all over. Emptiness in the stomach. Lump sensation in the throat.
• Natrum Sulphuricum – Often inherited of a sycotic miasm. Sensitive to dampness or bathing. Attacks at 4am to 5am. Rattling and wheezing with a green purulent expectoration.
• Spongia – Worse after sleep or sleeps into an attack. No rattle in breathing. Respiration loud, wheezing, sawing, whistling and anxious. Worse at the full moon. Dry cough.
• Thuja – After suppressed gonorrhea. After vaccination. Inherited sycotic miasm
There are some factors also consider in case-taking which are very useful in selection of asthma medicine----Timing, sleep position, type of pt., genral modelities, sundries, asthma follwes & weather…
11 p.m. to midnight. Aral.
Midnight to 2 a.m. Ars-a., Samb.
2 to 3 a.m. Dros., Kali-ars., Samb.
2 to 4 a.m. Kali-c.
3 a.m. Samb.
4 to 5 a.m. Nat-s.
< In morning. Lach. > Day time. Med.
Always < at night. Aral., Dros., Syph., Tub-bov. SLEEP On face in knee/chest position. Med. Must sit up. Ant-t. Must sit up as fears suffocation. Ars-a. Must lie with head high. Ars-a., Cinch. Must lie flat on back with arms outstretched. Psor. Sleepless. Chlor. < Lying down. Grind., Kali-c., Sul. > Lying down. Psor., Ver.
> From stool. Poth.
Awakes suddenly 3 a.m., nearly suffocated, Samb.
has to sit up.
TYPES OF PATIENTS
Fair haired, delicate-skinned. Brom.
Easy perspiring. Cinch.
Old people particularly. Carb-v., Kali-c.
Sensitive, result of mental emotions. Coff.
Dark haired. Iod.
Better at seaside. Med.
Better in open air. Iod., Napth.
Worse for pressure on throat. Lach., Rumex
Worse for motion. Ars-a., Ver.
Worse for talking. Arum-t., Dros.
Worse in warm room. Iod.
Worse for food. Kali-p.
Worse with annual hayfever. Psor.
Worse due to exertion. Aspido., Coca, Ars-a.
Worse due to dust. Poth., Brom.
Worse going upstairs. Kali-p.
Sailor gets asthma on going to shore. Brom.
Attack of asthma due to mental or nervous Coff., Kali-p., Succ-ac.
Eczema. Ars. Stibiatum
Whooping cough. Carb-v.
< Change from warm to cold. Dulc.
< Wet and damp. Dulc., Nat-s., Sil.
< Dry cold air. Hep-s., Rumex
< Foggy. Hyper., Kali-c.
< Warm dry weather. Syph.
< Damp weather. Hep-s.