About Rhino Horn
About Rhino Horn
- Rhino Horn is a medical device for nasal cleansing with saline water.
- Rhino Horn is manufactured by Yogaprosess AS, Oslo, Norway. Production started in 1998.
- Rhino Horn is designed by Per Peo Olsen.
- Rhino Horn is made of recyclable PEHD (PolyEthylene High-Density).
- Rhino Horn is registered as a trademark by Yogaprosess AS in EU, Norway, Turkey, Israel, Thailand, USA and Canada.
- Rhino Horn is CE-marked in compliance with the 93/42/EEC directive as a Class I medical device.
- Rhino Horn is produced under ISO 13485:2003, a certificate for the production of medical devices.
- Rhino Horn has been analysed by a so-called REACH 168 test, an EU defined test to detect any of 168 dangerous chemicals (SVHC – Substances of Very High Concern) which are included in the REACH system (Registration, Evaluation, Authorization and Restriction of Chemicals). Rhino Horn does not contain any of these dangerous chemicals, e.g. neither phthalates, cadmium nor Bisphenol A (BPA).
- Rhino Horn is registered in the national Norwegian register for medical equipment under GMDN category 9, group 41599 as Nasal Irrigation Applicator.
- The Norwegian Health Department has issued a Free Sales Certificate for Rhino Horn, which means that it has been approved for sale in all EEC countries (EU + EFTA).
Medical Studies on the Benefits of Nasal Cleansing
Wingrave W (1902) The Nature of Discharges and Douches. Lancet: 1373-1375.
Abstract: Discussing cleansing of the nasal passages as a central method of treating different illnesses in the last part of the 19th century.
Holmström M et al. (1997) Effect of Nasal Lavage on Nasal Symptoms and Physiology in Wood Industry workers. Rhinology 35: 108-112.
Abstract: A Swedish study of the effect of daily use of nasal cleansing of the nose with salt water for workers of the wood industry. There was a positive effect both on the experienced symptoms and also on the measured functions of the nose of these workers.
Talbot AR et al. (1997) Mucociliary Clearance and Buffered Hypertonic Saline Solution. Laryngoscope 107:500-503
Abstract: Buffered hypertonic saline nasal irrigation is an important addition to the care of sinus disease, both chronic and post surgical. Buffered hypertonic saline irrigation should be used in chronic and postoperative sinus patients. Those with other causes of sinusitis may also benefit from regular nasal irrigation with this solution.
Taccariello M et al. (1999) Nasal Douching as a Valuable Adjunct in the Management of Chronic Rhino-Sinusitis. Rhinology 37: 29-32
Abstract: An English study showing the significant improvement of the conditions in the nasal passages and improvement of the general quality of life of patients with chronic sinusitis, associated with the use of cleansing the nose with salt water.
Tomooka LT et al. (2000) Clinical Study and Literature Review of Nasal Irrigation. The Laryngoscope 110: 1189-1193.
Abstract: An American Study of 211 patients with different inflammatory conditions in the nose including allergic problems. They found that the daily use of nasal cleansing with salt water significantly improved a great lot of parameters of experienced discomfort. They concluded that this treatment has an enormous potential of improving the quality of life of millions of patients in a very cost effective way.
Heatley DG et al.(2001) Nasal Irrigation for the Alleviation of Sinonasal Symptoms. Otolaryngology — Head and Neck Surgery 125 (1): 44-48
Abstract: Daily nasal irrigation with hypertonic saline significantly improved symptoms of chronic sinusitis in this study. Many subjects were able to decrease or eliminate medication used during the study period.
Wormald PJ et al. (2004) A Comparative Study of Three Methods of Nasal Irrigation. The Laryngoscope 114: 2224-2227.
Abstract: Based on radiographic evaluation, nasal douches are more effective in distributing irrigation solution to the maxillary sinus and frontal recess compared to nasal spray and nebulization with RinoFlow.
Brown CL, Graham SM (2004) Nasal irrigations: good or bad? Current Opinion in Otolaryngology & Head & Neck Surgery 12 (1): 9–13.
Abstract: Nasal irrigations should no longer be considered merely adjunctive measures in managing sinonasal conditions. They are effective and underutilized. Apart from improved patient symptomatology, prescription medication use is often decreased. When nasal irrigations are combined with other medical modalities, patients with chronic sinusitis may not require surgical intervention as often.
Harvey RJ et al. (2008) Effects of endoscopic sinus surgery and delivery device on cadaver sinus irrigation. Otolaryngology — Head and Neck Surgery 139: 137-142.
Abstract: ESS greatly enhances the delivery of nasal
solutions, regardless of delivery device. Influence of delivery device on distribution was significantly higher with neti pot > squeeze bottle > pressurized spray.
Beule A et al. (2009) Efficacy of different techniques of sinonasal irrigation after modified Lothrop procedure. American journal of rhinology & allergy 23(1): 85-90. Abstract: The vertex to floor position using a squeeze bottle technique is advocated (in comparison to a spray). There may be some patients, however, for whom this position is not feasible. In these patients “bending over the sink,” while inferior to the “vertex to floor” position, still ensures some irrigation of the frontal sinus.
Welch KC et al. (2009) Clinical correlation between irrigation bottle contamination and clinical outcomes in post-functional endoscopic sinus surgery patients. American journal of rhinology & allergy 23(4): 401-404.
Abstract: Irrigation bottles used postoperatively have a measurable incidence of contamination. Contamination rate increases when bottles are used for longer than 1 week.
Keen M et al. (2010) The clinical significance of nasal irrigation bottle contamination. Laryngoscope 120(10): 2110-2114.
Abstract: Patients who irrigate their nose and sinuses commonly contaminate their irrigation bottle, most often with S. aureus, which can be in the biofilm form. Concurrent sinonasal and bottle infection with S. aureus was seen in 51% of patients during the study. Simple cleaning (methods Milton’s solution and microwaving) could reduce contamination of the bottles.
Fokkens WJ et al. (2012) European Position Paper on Rhinosinusitis and Nasal Polyps (EPOS 2012). Rhinology supplement 23: 1-298.
Abstract: European Rhinologic Society (ERS) and The European Academy of Allergy and Clinical Immunology, (EAACI) guidelines for acute and chronic rhinosinusitis with and without nasal polyps based on a systematic review (Evidence Based Medicine – EBM). Nasal saline irrigation (NSI) falls within recommended therapies with well-documented effects.
The American Rhinologic Society: Nasal/Sinus Irrigation