Dhealthwellness.com – Earwax is a natural secretion that serves an important function: it cleans your ears and keeps them from getting infected.
Excess Earwax can Cause Itchy and Inflamed Ears
However, excess earwax can cause itchy and inflamed ears, which could lead to hearing loss. There are a number of ways to get rid of dry earwax buildup. These include: Earwax is a natural part of your body, but when it accumulates and becomes blockage in the ear canal, it can cause earache. The wax helps to trap dirt and bacteria and prevents them from entering the ear.
People use a practice called ear candling to remove earwax. It involves placing the narrow end of a candle into the ear canal and lighting it. It is claimed that the flame creates negative pressure within the candle, which sucks out softened earwax. While this is certainly a possibility, there is no scientific evidence to support this claim.
Using an open flame to clean out your ears can be very dangerous and has no proven medical benefits. It can also result in serious injuries and complications including hearing loss, ear damage, tinnitus and pain. There are several dry ear wax removal methods that are safe and effective. One method is to use over-the-counter ear wax softeners.
Can Help Loosen and Soften Earwax
Over-the-counter ear wax softeners are available at most drug stores. They contain a variety of water, oil and peroxide solutions (like Debrox) that help loosen and soften ear wax. These drops may be used for a few days to clear out the wax, then a bulb syringe can be used to gently flush the ear canal. The syringe must be filled with warm water that is not too hot or cold.
Occasionally, the ear may be sensitive to the earwax softeners, and you will want to discontinue use if you experience pain or a local skin rash. This is a common reason to visit a physician for a proper examination of the ear canal and eardrum. Irrigation is the process of supplying water to plants, trees, and shrubs by means of pipes or hoses. The type of irrigation used is based on the location and water availability.
Irrigated crop production is a vital part of rural economies in many parts of the world and contributes to the Nation’s livestock, food processing, transportation and energy sectors. It is also used to protect crops from frost and to suppress weed growth in grain fields. In regions with arid landscapes, irrigation is used to supply water where rainfall is irregular or below average and to revegetate disturbed soils. It is often used in combination with floodwater harvesting and is particularly helpful in areas that receive low amounts of rain during an important period of crop growth.
Microsuction Uses a Hoover-Similar Device to Remove Wax from the Ear
The water used for irrigation can come from groundwater, surface water (withdrawn from rivers, lakes or reservoirs), treated wastewater, desalinated water, drainage water, or fog collection. It is a very effective and efficient method of watering crops in arid environments, but farmers must take precautions to ensure that they are not contaminating their sources of drinking water. Microsuction is a dry and hygienic procedure that doesn’t require the use of ear drops, gels, or fluids. This reduces the risk of infection and enables you to pop in for an appointment between meetings with no messy or lasting effects.
Microsuction uses a Hoover-like device to remove the wax from your ear. It is usually painless but you may experience a pinch if a hard piece of wax is removed from your ear canal. The doctor will use head loupes or a fixed microscope to magnify the ear to allow them to work safely and precisely with the microsuction device. This ensures that they can safely and effectively remove the impacted ear wax, and no other bits of ear wax that might cause further damage to your ear canal or eardrum. As with any procedure, there is a small risk of side effects and complications. The most common is a short-lived dizziness, faintness or vertigo that you might experience after the procedure. This is mainly due to the ‘caloric’ effect of the suction, and it is only temporary.
Sharp, J. F., Wilson, J. A., Ross, L., & Barr-Hamilton, R. M. (1990). Ear wax removal: a survey of current practice. British medical journal, 301(6763), 1251-1253.
Clegg, A. J., Loveman, E., Gospodarevskaya, E., Harris, P., Bird, A., Bryant, J., … & Coppin, R. (2010). The safety and effectiveness of different methods of earwax removal: a systematic review and economic evaluation. Health Technol Assess, 14(28), 1-192.