Nasal irrigation: From empiricism to evidence-based medicine. A review.
Study Goal
The researchers sought to evaluate the optimization and efficacy of nasal irrigation protocols based on evidence-based literature.
Results Summary
Large-volume low-pressure nasal irrigation with undiluted seawater was found to be the most effective protocol, optimizing distribution, cleansing power, mucociliary clearance, and epithelium trophicity. Ionic composition and pH, particularly alkaline pH and elevated calcium, improved ciliary motility, while bicarbonates, potassium, and magnesium enhanced healing and reduced inflammation.
Population
Not specified (general sinonasal pathologies and postoperative care).
Effective Dosage
Large-volume low-pressure nasal irrigation with undiluted seawater (specific volume and frequency not detailed).
Duration
Not specified.
Interactions
None mentioned.
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
large-volume low-pressure nasal douche | increase | distribution and cleansing power of the irrigation solution in the nasal cavity | - | - | optimizes | #1 |
ionic composition and pH | increase | mucociliary clearance and epithelium trophicity | - | - | influence | #2 |
seawater | decrease | sodium ions | - | - | is less rich in | #3 |
seawater | increase | bicarbonates, potassium, calcium and magnesium | - | - | is richer in | #4 |
alkaline pH and elevated calcium concentration | increase | ciliary motility | in vitro | - | optimized | #5 |
Bicarbonates | decrease | secretion viscosity | - | - | reduce | #6 |
Potassium and magnesium | increase | healing | - | - | promote | #7 |
Potassium and magnesium | decrease | local inflammation | - | - | limit | #8 |
Large-volume low-pressure nasal irrigation using undiluted seawater | increase | protocol | - | - | seems to be the most effective | #9 |
Nasal irrigation plays a non-negligible role in the treatment of numerous sinonasal pathologies and postoperative care. There is, however, a wide variety of protocols. The present review of the evidence-based literature sought objective arguments for optimization and efficacy. It emerged that large-volume low-pressure nasal douche optimizes the distribution and cleansing power of the irrigation solution in the nasal cavity. Ionic composition and pH also influence mucociliary clearance and epithelium trophicity. Seawater is less rich in sodium ions and richer in bicarbonates, potassium, calcium and magnesium than is isotonic normal saline, while alkaline pH and elevated calcium concentration optimized ciliary motility in vitro. Bicarbonates reduce secretion viscosity. Potassium and magnesium promote healing and limit local inflammation. These results show that the efficacy of nasal irrigation is multifactorial. Large-volume low-pressure nasal irrigation using undiluted seawater seems, in the present state of knowledge, to be the most effective protocol.