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Nasal irrigation

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Title: Nasal irrigation  
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Nasal irrigation

Nasal irrigation
Intervention
Woman flushing her nose with a neti pot
ICD-9-CM 22.0
MeSH

Nasal irrigation, or nasal lavage or nasal douche, is a personal hygiene practice in which the nasal cavity is washed to flush out excess mucus and debris from the nose and sinuses. The practice is generally well-tolerated and reported to be beneficial with only minor side effects.[1] Nasal irrigation in a wider sense can also refer to the use of saline nasal spray or nebulizers to moisten the mucous membranes.

According to its advocates, nasal irrigation promotes good sinus and nasal health. Patients with chronic sinusitis including symptoms of facial pain, headache, halitosis, cough, anterior rhinorrhea (watery discharge) and nasal congestion are reported often to find nasal irrigation to provide relief. In published studies, "daily hypertonic saline nasal irrigation improves sinus-related quality of life, decreases symptoms, and decreases medication use in patients with frequent sinusitis",[2] and irrigation is recommended as an adjunctive treatment for chronic sinonasal symptoms.[3][4]

Contents

  • Medical uses 1
    • Chronic sinusitis 1.1
    • Acute infection 1.2
  • Methods 2
    • Solutions used 2.1
  • Adverse effects 3
  • Mechanism of action 4
  • History 5
  • See also 6
  • References 7
  • External links 8

Medical uses

Nasal irrigation device commonly available at pharmacies

Nasal irrigation is used for a range of sinus and nasal symptoms.[5]

Chronic sinusitis

For chronic sinusitis it can be an effective add on therapy. It is also reported to be an effective measure against chronic sinus symptoms induced by work-place exposure to sawdust.[5] Further evidence suggests that nasal irrigation causes relief for both hay-fever and the common cold. Nasal irrigation could also be an effective treatment for allergic rhinitis[6] and chronic sinusitis.[7]

Daily nasal irrigation with salt water solution (a mixture of 0.9% non-iodized sodium chloride and either purified or filtered water warmed to around 98 degrees F/ 37 degrees C, with or without inclusion of a buffering agent such as sodium bicarbonate) has been recommended as both an add on[8] and primary treatment[9] in such cases and is preferable to the use of corticosteroids except in the most serious cases of acute bacterial sinusitis.[10] Irrigation should be used with caution in infants, as nasal drops are not widely tolerated.[11]

Treatment guidelines in both Canada and the United States recommend use of nasal irrigation for all causes of rhinosinusitis and for postoperative cleaning of the nasal cavity.[12]

Acute infection

There is tentative evidence for benefit of saline irrigation in acute upper respiratory tract infections such as the common cold and acute sinusitis.[13]

Methods

Ceramic neti pot

A simple method requiring no specialized equipment is to snort water from cupped hands, but this clears little more than the nostrils. The application of commercially available saline nasal spray is another simple alternative, but it is relatively inefficient for washing away debris, although it may suffice for simple rehydration of mucous and tissues.[14][15]

A simple yet effective technique is to pour salt water solution into one nostril and let it run out through the other while the mouth is kept open to breathe, using gravity as an aid. Jala-neti, which means to cleanse the nose with water, is an old yogic technique from India. The container used to administer the saline is called a "neti pot". Neti is Sanskrit for "nasal cleansing". A second neti technique known as sutra neti uses a piece of string instead of water.

Neti pots are typically made of metal, glass, ceramic or plastic. They rely on gravity, along with head positioning and repeated practice in order to rinse the outer sinus cavities. Typically they have a spout attached near the bottom, sometimes with a handle on the opposite side.[16]

The second method of nasal irrigation is to introduce some form of positive pressure to the water introduced into the sinuses and nasal cavities in order to provide a more complete rinsing without resorting to special techniques, such as holding the head to one side (which is usually difficult with a neck condition). Some products available from pharmacist supply retailers are essentially bottles made of flexible plastic with special tips to fit the nostril. These bottles, when filled with warm salt water solution, can be squeezed to exert positive pressure of the water flowing through the sinuses while the mouth is kept open at all times in order to breathe and prevent snorting the liquid down the throat. Even ordinary plastic water bottles can and have been used, as long as the nozzle will adequately fit a person's nostril. However, neither squeeze bottles nor bulb syringes provide the user with any genuine control over the pressure/volume of solution introduced. To prevent ear pressure or ear infection, you need to make sure the pressure cannot be too high. The diameter of the hole in the center of the nostril fitting cannot be larger than 3 mm. If it is too large, a big wave of liquid can be forced to enter anywhere, such as middle ear, causing ear pain or even ear infection.

Irrigation machines that utilize electric motor-driven pumps are also available. These irrigation devices pump salt water solution through a tube, in connection with a nasal adapter tip designed to seal against the nostril. Some of these machines allow adjustment of water volume/speed by use of an adjustment dial which regulates pump speed and volume per minute. Most of these motorized machines use a pulsatile or pulsating water pumping action at a relatively low, predetermined fixed pulse cyclic rate, designed to match the normal wave rate of healthy, unobstructed nasal cilia.[17] This matched pulse rate is claimed to stimulate the nasal cilia hairs and promote better sinus health, while reducing the severity of allergic reactions.[18] More sophisticated motorized irrigators have two or more pulse cycle settings that adjust the actual pulse cycle (as opposed to a simple volume/speed control, which does not alter the pulse cyclic rate). This design affords the user the option of using a higher pulse cyclic rate when suffering from partially closed sinuses, as in a typical case of acute sinusitis. The efficacy of all motorized pump irrigators has not yet been tested compared to simpler non-motorized mechanical pressure nasal irrigation methods.[19]

Some nasal irrigation systems that apply pressure have an anti-backwash valve to prevent used saltwater solution from flowing back into the nasal cavity. This is particularly important for those people with bacterial or viral infections, such as the common cold or flu. This type of irrigator should be held upright, as in brushing one's teeth, because if the head is tilted sideways, liquid could enter the ear on the lower side and cause an ear infection. This refers to an irrigator that applies pressure, but not to the neti pot, which utilizes only gravity in its application. Neti pots do not allow used solution to flow back into the nasal cavity.

Solutions used

While nasal irrigation can be carried out using ordinary tap water, this is not safe and additionally can be uncomfortable because it irritates the mucous membranes. Therefore an isotonic or hypertonic salt water solution is normally used, i.e. water with enough salt to match the tonicity of the body cells and blood. For the same reason, lukewarm water is preferred over cold water, which in addition to irritating nasal membranes can also exaggerate the gag reflex during irrigation. Use of distilled, sterile or previously boiled and cooled water over ordinary tap water is advised. A small amount of baking soda is sometimes employed as a buffering agent to adjust the pH of the irrigating solution to that of the body.

Many pharmacies stock pre-manufactured sachets of pharmaceutical grade salt and baking soda designed to be used with the volume of water their corresponding device uses. Sometimes manufactured solutions such as a lactated Ringer's solution is used. It is also simple to make a salt-baking soda mixture.[20]

Potential allergens (such as iodine) or contaminants (algae, etc.) are to be avoided in the sodium chloride, water, or buffering ingredients.[1] Premanufactured dosages of salt water flushing solutions can be purchased, or the user can mix non-iodized 'kosher' salt, with or without a buffering agent such as sodium bicarbonate or baking soda (table salt frequently is iodized, while sea salt may contain algae or other contaminants).

Optional additives include xylitol which is claimed to draw water into the sinus regions and helps displace bacteria.[21] Xylitol is commonly used to prevent acute otitis media in Europe and dental caries in the United States,[22] but research into xylitol use in the sinus cavities is lacking. Another nasal irrigation additive is aloe extract, which helps to prevent nasal dryness. Sodium citrate and citric acid help not only to balance the pH, but also to improve the sense of smell.

Adverse effects

The solution used for irrigation should be distilled, sterile or previously boiled due to the risks involved with using potentially contaminated water.[23] If this is done the procedure is generally safe.[23]

Deaths have been reported as a consequence of using Naegleria fowleri-contaminated water for sinus irrigation.[23] The presence of the amoeba Naegleria fowleri in unboiled or otherwise unsterilized water can cause the brain infection primary amoebic meningoencephalitis (PAM),[24] which carries a 95% risk of fatality.[25]

A much more minor adverse result of using the bottle or mechanized types is occasional vomiting from one's gag reflex being triggered by the slightly pressurized water.

Mechanism of action

Saline solutions used in nasal irrigation reduce inflammation through osmosis. Swelling is a major factor in sinus dysfunction. Removal of mucus plays an important role in sinus health, and nasal irrigation facilitates this by flushing out thickened mucus that cannot be handled by the cilia.[9][19] improving mucociliary clearance and also removing infected material.[9] Damage to the mucociliary transport system is an important factor in the development of sinonasal diseases, leading to a stasis of mucus.[19] The numerous proteins found in nasal mucus include inflammatory mediators, defensins and many whose function is not understood.[9]

In a study with eight healthy volunteers, solution was transported reliably to ethmoid and maxillary sinuses when it was snorted or applied with a squeeze bottle; a nebulizer was significantly less effective. Sphenoid and frontal sinuses were rarely reached, and not at all with the nebulizer.[15]

Flushing the nasal cavity with salt water has been claimed to promote mucociliary clearance by moisturizing the nasal cavity and by removing encrusted material, although there is no clear evidence to support this.[9]

History

The earliest record of nasal irrigation is found in the ancient Hindu practice of Ayurveda whose roots are traced to the Vedas. It was customary to perform jala-neti daily, as part of soucha (personal hygiene according to scriptures). The simplest method of nasal irrigation, that is to sniff water from cupped hands and then blow it out, is also a step in the ablution practices (Wudu) of Muslims.

See also

References

  1. ^ a b Harvey R, Hannan SA, Badia L, Scadding G (2007). Harvey, Richard, ed. "Nasal saline irrigations for the symptoms of chronic rhinosinusitis". Cochrane database of systematic reviews (Online) (3): CD006394.  
  2. ^ Rabago D, Zgierska A, Mundt M, Barrett B, Bobula J, Maberry R (2002). "Efficacy of daily hypertonic saline nasal irrigation among patients with sinusitis: A randomized controlled trial". The Journal of family practice 51 (12): 1049–1055.  
  3. ^ Rabago D, Pasic T, Zgierska A, Mundt M, Barrett B, Maberry R (2005). "The Efficacy of Hypertonic Saline Nasal Irrigation for Chronic Sinonasal Symptoms". Otolaryngology - Head and Neck Surgery 133 (1): 3–8.  
  4. ^ Tomooka LT, Murphy C, Davidson TM (2000). "Clinical Study and Literature Review of Nasal Irrigation". The Laryngoscope 110 (7): 1189–1193.  
  5. ^ a b Rabago, David (1 June 2008). "The Use of Saline Nasal Irrigation in Common Upper Respiratory Conditions".  
  6. ^ Rabago D, Zgierska A (November 2009). "Saline nasal irrigation for upper respiratory conditions". Am Fam Physician 80 (10): 1117–9.  
  7. ^ Rabago D, Zgierska A, Mundt M, Barrett B, Bobula J, Maberry R (December 2002). "Efficacy of daily hypertonic saline nasal irrigation among patients with sinusitis: a randomized controlled trial". J Fam Pract 51 (12): 1049–55.  
  8. ^ Rabago D, Pasic T, Zgierska A, Mundt M, Barrett B, Maberry R (July 2005). "The efficacy of hypertonic saline nasal irrigation for chronic sinonasal symptoms". Otolaryngol Head Neck Surg 133 (1): 3–8.  
  9. ^ a b c d e Brown CL, Graham SM (February 2004). "Nasal irrigations: good or bad?". Curr Opin Otolaryngol Head Neck Surg 12 (1): 9–13.  
  10. ^ Sarah-Anne Schumann, John Hickner (July 2008). """Patients insist on antibiotics for sinusitis? Here is a good reason to say "no (PDF). The Journal of Family Practice 57 (7). 
  11. ^ Kassel JC, King D, Spurling GK (2010). King, David, ed. "Saline nasal irrigation for acute upper respiratory tract infections" (3). pp. CD006821.  
  12. ^ Osguthorpe JD, Hadley JA (1999). "Rhinosinusitis. Current concepts in evaluation and management". The Medical clinics of North America 83 (1): 27–41, vii–viii.  
  13. ^ King, D; Mitchell, B; Williams, CP; Spurling, GK (20 April 2015). "Saline nasal irrigation for acute upper respiratory tract infections.". The Cochrane database of systematic reviews 4: CD006821.  
  14. ^ Pynnonen MA, Mukerji SS, Kim HM, Adams ME, Terrell JE (2007). "Nasal Saline for Chronic Sinonasal Symptoms: A Randomized Controlled Trial". Archives of Otolaryngology - Head and Neck Surgery 133 (11): 1115–1120.  
  15. ^ a b Olson DE, Rasgon BM, Hilsinger RL (2002). "Radiographic Comparison of Three Methods for Nasal Saline Irrigation". The Laryngoscope 112 (8): 1394–1398.  
  16. ^ "What Is a Neti Pot? And Why Would You Use One?". Mayo Clinic.
  17. ^ Davidson, Terence M. Handbook of Nasal Disease, Part III, Nasal Irrigation
  18. ^ Davidson, Terence M. Handbook of Nasal Disease, Part III, Nasal Irrigation
  19. ^ a b c Tomooka LT, Murphy C, Davidson TM (2000). "Clinical study and literature review of nasal irrigation". Laryngoscope 110 (7): 1189–93.  
  20. ^ UWHealth
  21. ^ Sajjan U, Moreira J, Liu M, Humar A, Chaparro C, Forstner J, Keshavjee S (2004). "A novel model to study bacterial adherence to the transplanted airway: Inhibition of adherence to human airway by dextran and xylitol". The Journal of Heart and Lung Transplantation 23 (12): 1382–1391.  
  22. ^ Danhauer JL, Johnson CE, Rotan SN, Snelson TA, Stockwell JS (2010). "National survey of pediatricians' opinions about and practices for acute otitis media and xylitol use". Journal of the American Academy of Audiology 21 (5): 329–346.  
  23. ^ a b c "Is Rinsing Your Sinuses Safe?". FDA. Sep 4, 2013. Retrieved 24 June 2015. 
  24. ^ Centers for Disease Control and Prevention. "Parasites – Naegleria". Retrieved 16 December 2011. 
  25. ^ Cetin, N; Blackall, D (19 April 2012). "Naegleria fowleri meningoencephalitis.". Blood 119 (16): 3658.  

External links

  • University of Wisconsin instructions, study and video
  • Nasal irrigation with a plastic syringe
  • Saline nasal irrigation: Its role as an adjunct treatment
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