Optimal Device and Regimen of Nasal Saline Treatment for Sinonasal Diseases: Systematic Review.

Objective: This review aimed to systematically determine the optimal nasal saline regimen for different types of sinonasal diseases. Data Sources: PubMed, Embase, SCOPUS, Cochrane Library, Web of Science, ClinicalTrials.gov. The last search was on December 6, 2021. Review
Methods: Study selection was done by 2 independent authors. Randomized controlled trials and meta-analyses were included. The effects of nasal saline treatment through various devices, saline tonicities, and buffer statuses were evaluated in patients with allergic and nonallergic rhinitis, acute and chronic rhinosinusitis (CRS), CRS with cystic fibrosis, and postoperative care, including septoplasty/turbinoplasty and endoscopic sinus surgery.
Results: Sixty-nine studies were included: 10 meta-analyses and 59 randomized controlled trials. For allergic rhinitis, large-volume devices (≥60 mL) were effective for treating adults, while low-volume devices (5-59 mL) were effective for children. Isotonic saline was preferred over hypertonic saline due to fewer adverse events. For acute rhinosinusitis, saline irrigation was beneficial in children, but it was an option for adults. Large-volume devices were more effective, especially in the common cold subgroup. For CRS, large-volume devices were effective for adults, but saline drop was the only regimen that had available data in children. Buffered isotonic saline was more tolerable than nonbuffered or hypertonic saline. The data for CRS with cystic fibrosis and nonallergic rhinitis were limited. For postoperative care, buffered isotonic saline delivered by large-volume devices was effective.
Conclusion: Nasal saline treatment is recommended for treating most sinonasal diseases. Optimal delivery methods for each condition should be considered to achieve therapeutic effects of saline treatment.

Intranasal saline treatment is effective, inexpensive, and safe. It mechanically washes out mucus, secretory aggregation, and inflammatory cytokines from the nose. In addition, it promotes mucociliary clearance and helps reduce mucosal edema. Currently, it is recommended as an adjunct therapy for sinonasal diseases, such as rhinosinusitis, rhinitis, and upper respiratory tract infections. It is unclear whether nasal saline treatment benefits all or only specific types of sinonasal diseases. There are several kinds of devices, such as spray, drop, syringe, pot, aerosol, and squeeze bottle. These devices deliver the saline solution into the nose and paranasal sinuses with different volumes and pressure. Different solutions (buffered or nonbuffered saline) and tonicities (hypertonic or isotonic) are used. These factors contribute to the difference in treatment outcomes.

There are limited systematic reviews that determine the optimal device and regimen of nasal saline treatment for different sinonasal diseases. This systematic review aimed to assess the therapeutic effects and safety of nasal saline treatment for sinonasal diseases and identify an optimal delivery method for each sinonasal disease.

Methods

A systematic search was conducted through databases for relevant publications: PubMed, Embase, SCOPUS, Cochrane Database Library, Web of Science, and ClinicalTrials.gov. The date of the last search was December 6, 2021. The search strategy employed combinations of the following Medical Subject Headings keywords: nose, nasal, irrigation, spray, inhalation, atomization, vaporization, saline, and sodium chloride. Randomized controlled trials (RCTs) and meta-analyses of systematic reviews were included. The search terms are provided in the Supplemental File (available online).

Study selection was performed independently by 2 authors using a web-based application for systematic review (covidence.org). Titles and abstracts were screened. Nonrelevant studies and duplicate studies were excluded. Full text of the screened articles was assessed for eligibility. Any disagreement on the study selection process was resolved by discussions until a final consensus was reached. Study selection was based on the following inclusion criteria: (1) RCT or meta-analysis conducted in humans, (2) patients with any sinonasal disease and any age, (3) intranasal saline treatment with any delivery method (tonicity, buffered, pH, temperature, volume, and device), (4) comparison between saline treatment and no-saline treatment or between 2 delivery methods, and (5) any clinical outcomes.

Studies were excluded per the following criteria: (1) systematic reviews without meta-analysis, (2) conference abstracts without complete data, (3) non-English articles, (4) delivery methods unavailable in the market, (5) medicated saline, and (6) comparison between saline and other medications. Data from studies with mixed populations were excluded when not reported separately. The meta-analyses were thoroughly cross-checked for the included studies, duplication, and analyses.

The device was categorized according to the volume of saline delivered into the nose: very low (<5 mL), low (5-59 mL), and large (≥60 mL). Very low-volume devices included spray, drop, and aerosol; low-volume devices, syringe and jet flow; and large-volume devices, pot and squeeze bottles.

Sinonasal diseases were categorized into 3 groups:

Rhinitis: allergic rhinitis (AR) and nonallergic rhinitis (NAR)

Rhinosinusitis: acute rhinosinusitis (ARS), chronic rhinosinusitis (CRS), and chronic rhinosinusitis with cystic fibrosis (CRS-CF)

Postoperative care: after septoplasty/turbinoplasty and endoscopic sinus surgery (ESS)

The effects of saline treatment in each group were evaluated between saline and no-saline treatment, among different devices, between hypertonic and isotonic solution, and between buffered and nonbuffered saline.

Results

A total of 8090 publications were retrieved, of which 69 were included for review. The PRISMA flowchart (Preferred Reporting Items for Systematic Reviews and Meta-analyses) is displayed in . There were 10 meta-analyses and 59 RCTs (1 study by Ural et al assessed 3 patient subgroups). Twenty-three studies assessed nasal saline treatment in patients with rhinitis (23 AR and 0 NAR). Thirty-five studies assessed rhinosinusitis (17 ARS, 17 CRS, and 1 CRS-CF). Thirteen studies assessed postoperative care (2 septoplasty/turbinoplasty and 11 ESS).

Figure 1.

Diagram of study selections based on the 2009 PRISMA statement (Preferred Reporting Items for Systematic Reviews and Meta-analyses).

Rhinitis

Allergic Rhinitis

Of the 23 studies that assessed the effects of nasal saline treatment in patients with AR, 19 were RCTs and 4 were meta-analyses. Eleven RCTs assessed adult AR,[4-14] and 8 RCTs assessed pediatric AR.[15-22] Three meta-analyses pooled the data from adult and pediatric AR,[1,3,23] and 1 meta-analysis examined data only from children.

In adult AR, 4 RCTs compared the effects of saline treatment with no-saline treatment.[6,7,10,13] Duration of treatment ranged from 2 to 6 weeks. Three studies favored the saline treatment in symptom reduction.[6,7,10] The benefits were demonstrated after 2 to 3 weeks and continued until 4 to 6 weeks. Patients in the saline treatment group used fewer antihistamines.[7,10,13] The meta-analyses showed that saline treatment was superior in symptom improvements.[3,23] Adverse effects were not different from control.

In pediatric AR, 6 RCTs compared the effects of saline treatment with no-saline treatment.[15,17,19-22] All RCTs reported benefits of nasal saline treatment over control. Decreases in symptom score and antihistamine usage favored the nasal saline treatment at 4 weeks. The addition of saline spray to nasal steroid showed beneficial effects, such as reduced dosage of intranasal steroid spray, at 8 to 12 weeks.[17,22] In children with asthma, quality of life (QoL) improvement was shown at 12 weeks. The meta-analyses showed decreases in symptoms[3,23] and antihistamine usage. However, the disease-specific health-related QoL was not affected. Temporary otalgia and epistaxis were noted.

Devices

In adult patients, 1 RCT showed that nasal saline treatment with a squeeze bottle (240 mL) was better than a syringe (20 mL) in reducing symptoms. There were no adverse effects in either device. Spray was effective when compared with baseline.[9,10] Yet, there were no comparisons between spray and other devices.

No study directly compared the effects among different devices in children. Many devices (spray, atomizer device, or large-volume syringe) provided beneficial effects. Minor adverse events, such as otalgia, ear fullness, and epistaxis, occurred in 30% of the patients who used a large-volume device but none in very low and low-volume devices.[17,19-21]

Tonicity

In adult AR, 5 RCTs compared hypertonic saline (range, 1.8%-3%) and isotonic saline.[4,5,9,11,14] Symptom reduction and QoL improvement favored the hypertonic solution at the duration of 1 to 8 weeks.[5,9,11] Three meta-analyses with a mixed population of adults and children reported greater benefits of hypertonic saline.[1,3,23] Isotonic saline shortened the saccharin transit time (STT), but hypertonic saline did not. In 1 study, 2 of 40 patients (5%) noted nasal discomfort (light pain sensation) from the 3% hypertonic saline.

In pediatric AR, 3 RCTs compared the effects between hypertonic and isotonic saline.[16,18,19] The meta-analysis, which included these RCTs, favored the hypertonic saline over the isotonic saline. The antihistamine usage was not different between the tonicities. Adverse effects were reported without statistical differences.

Buffer

One RCT assessed the effects of buffered saline in adult AR among 3 groups: mild alkalinity (pH 7.2-7.4), high alkalinity (pH8.2-8.4), and nonbuffered saline. There were no differences among the groups in nasal symptoms, mucociliary clearance time, and nasal patency, although the mild alkaline buffered saline was preferred by the patients.

In children, there was no study that compared the buffered and nonbuffered saline. Buffered and nonbuffered saline showed benefits over the no-saline group.[15,17,19-21]

Summary

Nasal saline treatment decreased symptoms of AR. The duration of treatment was at least 2 weeks in adult patients and 4 weeks in pediatric patients. There was a slight chance of local nasal irritation in pediatric patients. A large-volume device (≥60 mL) was more effective and recommended in adult patients, while a very low- to low-volume device (<60 mL) was recommended in children. Hypertonic saline treatment was more effective in adults and children with AR. However, adverse events were reported in a small number of patients. Therefore, isotonic saline should be used first. Buffered and nonbuffered saline can be used in adults and children. A summary of the studies in AR is shown in .

Table 1.

Studies of Patients With Allergic Rhinitis.

First Author	Year	Study type	Patients b	Saline type c	Buffered	Devices c	Treatment duration	Outcomes	Main result
Adult
Yata 14	2021	RCT	80: adult, AR	I: Hypertonic saline 3% (40). II: Isotonic saline (40)	I: No. II: No	Syringe. 20 mL × 2/side	2 times/d, 2 wk	Symptom VAS, inferior turbinate size, PNEF	No difference in any outcomes between groups.
Piromchai 12	2020	RCT	116: adult, AR	Isotonic saline (116)	No	I: Squeeze bottle 240 mL (58). II: Syringe 20 mL (58)	2 times/d, 4 wk	Symptoms VAS, LKES, ease of use (Likert)	Squeeze bottle reduced symptoms more than syringe.
Sansila 11	2020	RCT	78: adult, AR	I: Hypertonic saline 1.8% (35). II: Isotonic saline (43).	I: Yes. II: No	Syringe 20 mL (80 mL/side)	2 times/d, 4 wk	RCQ36, TNSS	Hypertonic saline is superior to isotonic on RCQ36 and congestion.
Wang 23	2020	SRMA (12 studies: adult 6, children 6)	819: adult (342); children (477), AR	Saline vs no saline. Saline + medication vs medication. Hypertonic vs isotonic saline	Any	Any	1-12 wk	Symptom scores	Saline showed significant efficacy vs no saline. Saline was a safe adjunct. Hypertonic was superior in children.
Head 3	2018	SRMA (14 studies: adult 7, children 7)	747: adult (248); children (499), AR	Saline vs no saline. Saline + medication vs medication	Any	Very low <5 mL, low 5-59 mL, high ≥60 mL	1-6 mo	Patient-reported symptom score, disease specific HRQL, adverse effects	Saline improved symptoms vs no saline. Uncertain add-on benefit as adjunct.
Di Berardino 10	2017	RCT	40: adult, AR	I: Hypertonic saline (20). II: No saline (20)	I: Yes. II: NA	Spray. 1 sprays/side	3 times/d, 4 wk	Symptom score, STT, use of antihistamines	Saline reduced symptom and antihistamine use vs no saline.
Singh 9	2016	RCT	60: adult, AR	I: Hypertonic seawater 2.2% (30). II: Isotonic saline (30)	I: Yes. II: No	Spray. 2 sprays/side	3 times/d, 2 mo	Symptom score	Hypertonic seawater improved symptoms more than isotonic saline.
Chusakul 8	2013	RCT (crossover)	36: adult, AR	I: Isotonic saline (36). II: Isotonic saline, mild alkalinity (36). III: Isotonic saline, alkaline (36)	I: No. II: Yes (pH 7.2-7.4). III: Yes (pH 8.2-8.4)	Squeeze bottle. 240 mL	2 times/d, 10 d	Symptoms, STT, ARM	No difference between groups.
Hermelingmeier 1	2012	SRMA (10 studies: adult 7, children 3)	400: adult (314), children (86), pregnancy, AR	Saline vs no saline. Medicine consumption.	Any	Spray or irrigation	Varied:, up to 7 wk	Symptom score, medicine consumption, STT, QoL	Saline irrigation reduced symptom and medication use vs no saline.
Garavello 7	2010	RCT	45: adult, pregnancy, AR	I: Hypertonic saline 3% (22). II: No saline (23)	I: No. II: NA	Syringe. 10 mL/side	3 times/d, 6 wk	TNSS, RMM, use of antihistamines	Saline irrigation reduced nasal symptoms and antihistamine use.
Ural 4	2009	RCT	21: adult; AR/ARS/CRS	I: Hypertonic saline 3% (11). II: Isotonic saline (10)	I: No. II: No	Syringe. 4 mL/side	2 times/d, 10 d	STT	Hypertonic saline improved STT in CRS. Isotonic saline improved STT in AR and ARS.
Rogkakou 6	2005	RCT	14: adult, AR	I: Hypertonic saline (7). II: No saline (7)	I: No. II: NA	Spray. (unknown volume)	4 times/d, 4 wk	Symptoms, QoL, ARM	Saline spray improved symptoms and QoL vs control.
Cordray 5	2005	RCT	15: adult, AR	I: Hypertonic Dead Sea saline (5). II: Isotonic saline (5). III: Nasal steroid (5)	I: Yes. II: No. III: NA	Spray. 2 sprays/side	3 times/d, 7 d	RQLQ	Hypertonic saline and nasal steroid improved RQLQ, while isotonic saline did not.
Klimek 13	2001	RCT	75: adult, AR	I: Emser isotonic solution (38). II: No saline (37)	I: Yes. II: NA	Squeeze bottle. 250 mL	2-3 times/d, 2-4 wk	Allergic drug usage, symptoms, ECP and tryptase in nasal secretions	No difference in any outcomes except the lower allergic drug use in saline group.
Children
Jung 15	2019	RCT	20: children, AR/asthma	I: Isotonic saline (10). II: No saline (10)	I: No. II: NA	Syringe. 60-150 mL.	2 times/d, 12 wk	AR severity, QoL, eosinophil in nasal secretion	Saline irrigation improved severity and QoL, but not in the control group
Li 24	2019	SRMA (4 studies)	351: children, AR	Saline vs no saline. Hypertonic 1.25%-3% vs isotonic saline	Any	2.5, 5, 20, 240 mL	2-3 times/d, 3-6 wk	Symptom score, use of antihistamines, adverse effects	Hypertonic saline irrigation improved symptoms more than isotonic or no saline
Malizia 16	2017	RCT	30: children, AR	I: Hypertonic saline 3% (15). II: Isotonic saline (15)	I: Yes. II: No	Atomizer. 5 mL	2 times/d, 3 wk	Symptom score, RQLQ, PSQI, NCC	Hypertonic saline improved symptoms and NCC, more than isotonic saline
Chen 17	2014	RCT	61: children, AR	I: Combined isotonic seawater. and nasal steroid (26). II: Nasal steroid alone (17). III: Isotonic seawater alone (18)	I: Yes. II: NA. III: Yes	Spray. 4-6 sprays	2 times/d, 8-12 wk	Symptoms and signs of AR, eosinophils in the nasal secretions	The combination improved symptom and signs more than steroid or saline alone
Satdhabudha 18	2012	RCT	81: children, AR	I: Hypertonic saline 1.25% (40). II: Isotonic saline (41)	I: Yes. II: No	Syringe. (20 mL x6/side)	2 times/d, 4 wk	STT, TNSS	Hypertonic saline improved STT and TNSS more than isotonic saline
Marchisio 19	2012	RCT	220: children, AR	I: Hypertonic saline 2.7% (80). II: Isotonic saline (80). III: No saline (60)	I: No. II: No. III: NA	Syringe. 20 mL.	2 times/d, 4 wk	Symptoms, oral antihistamine use	Hypertonic saline reduced all symptoms. Isotonic only reduced rhinorrhea and sneezing. None reduced in no-saline group
Li 22	2009	RCT	26: children, AR	I: Isotonic saline alone (8). II: Combined saline and. nasal steroid (12). III: Nasal steroid alone (6)	I: No. II: No. III: NA	Unknown. 500 mL	2 times/d, 12 wk	Symptoms and signs, MCC, nasal secretion sICAM-1	The combination was superior to either steroid or saline alone
Garavello 20	2005	RCT	40: children, AR	I: Hypertonic saline 3% (20). II: No saline (20).	I: No. II: NA	Spray. 3 sprays/side	3 times/d, 7 wk	Nasal and ocular symptoms, oral antihistamine use	Saline reduced symptoms and oral antihistamine intake vs control
Garavello 21	2003	RCT	20: children, AR	I: Hypertonic saline 3% (10). II: No saline (10).	I: No. II: NA	Syringe. 2.5 mL/side	3 times/d, 6 wk	Symptoms, oral antihistamine use	Saline reduced symptoms and oral antihistamine intake vs control

Abbreviations: AR, allergic rhinitis; ARM, acoustic rhinometry; ARS, acute rhinosinusitis; CRS, chronic rhinosinusitis; ECP, eosinophilic cationic protein; HRQL, health-related quality of life; LKES, Lund-Kennedy Endoscopic Score; MCC, mucociliary clearance; NA, not applicable; NCC, nasal cytology count; PNEF, peak nasal expiratory flow rate; QoL, quality of life; PSQI, Pittsburgh Sleep Quality Index; RCQ36, 36-Item Rhinoconjunctivitis Quality of Life Questionnaire; RQLQ, Rhinoconjunctivitis Quality of Life Questionnaire; RMM, rhinomanometry; sICAM-1, soluble intercellular adhesion molecule; SRMA, systematic review and meta-analysis; STT, saccharin transit time; TNSS, Total Nasal Symptom Score; VAS, visual analog scale.

Roman numerals indicate patients groups.

Patient total number, age group (number per group), and disease.

Number per group in parentheses.

Nonallergic rhinitis

There was no study evaluating saline treatment in NAR. Tomooka et al investigated a mixed population of NAR, AR, and CRS, but the data could not be extracted separately.

Rhinosinusitis

Acute Rhinosinusitis

There were 17 studies that assessed the effects of nasal saline treatment in ARS. Ten RCTs[4,26-34] and 1 meta-analysis investigated the effects in adults. Five RCTs[36-40] and 1 meta-analysis were conducted in children.

In adult patients, 5 RCTs assessed nasal saline vs no-saline treatment.[26,27,30,31,33] Duration of treatment ranged from 1 to 4 weeks. There were no differences in symptom reduction,[26,30,31,33] QoL improvement,[30,31,33] and STT. However, a post hoc analysis of an RCT showed that the common cold subgroup benefited from saline irrigation on symptom reduction and QoL. The duration of illness after saline treatment showed mixed results. One RCT and 1 meta-analysis reported that the nasal saline treatment did not shorten the duration of illness. In contrast, 1 RCT cited decreases in the duration of illness and usage of medications. Minor adverse effects were indicated, such as dry nose and pain/irritation.

In children, 4 RCTs assessed nasal saline vs no-saline treatment.[36-39] There were no differences between the groups at the duration of 2 days. Symptom reductions (secretion and nasal obstruction) favored the saline at a longer duration (5 days to 3 weeks).[37-39] A meta-analysis showed benefits on nasal symptom reduction. Minor adverse effects were noted, such as nosebleed and burning sensation.

Device

Three RCTs compared the effects of saline treatment among different devices in adult patients.[28,29,32] The saline treatment, either nasal irrigation with a 250-mL hanging bag (large volume, no pressure) or atomized nasal douche at 7 to 8 mL (low volume, high diffusion, pressure), reduced symptoms and improved nasal patency.[28,29] One RCT assessed the overall effectiveness of a syringe (10 mL) with and without a silicone tip applicator. The patient-reported outcomes showed that the syringe with a silicone tip was more effective.

Two RCTs compared the effects of saline treatment among different devices in pediatric patients.[37,40] One study compared a low-volume syringe (20 mL) with a large-volume squeeze bottle (240 mL). The effects favored the squeeze bottle on reducing nasal obstruction and rhinorrhea. The other study compared a very low-volume spray (3 mL) with a low-volume jet flow (9 mL). There were no differences in the benefits and adverse events between the devices.

Four RCTs compared the effects of saline treatment among different tonicities in adult patients.[4,26,27,34] There were no differences between the hypertonic and isotonic saline for nasal symptom score[26,34] and days to resolution. The STT was markedly improved in the isotonic saline group in 1 study but not different in another. Nasal irritation was more frequent in the hypertonic saline group.

In children, 1 study compared 2.3% hypertonic saline with isotonic nasal saline drops for 5 days. There was no difference in symptom score reduction and no report of adverse effects in this study.

There was no comparative study between the buffered and nonbuffered saline. Both solutions were shown to be effective when compared with the baseline data.

The effects of nasal saline treatment for ARS had mixed results. It should be considered an option for adults but recommended for children with a duration >5 days. Devices with high diffusion, regardless of volume or pressure, were favored for adult patients, while large-volume with positive pressure devices were recommended for children. Isotonic saline is suggested for adults and children due to its low adverse event rate. Characteristics of the studies are displayed in .

Table 2.

Studies of Patients With Acute Rhinosinusitis.

First Author	Year	Study type	Patients b	Saline type c	Buffered	Devices c	Treatment duration	Outcomes	Main result
Adult
Chitsuthipakorn 31	2021	RCT	61: adult, ARS	I: Isotonic saline (30). II: No saline (31)	I: Yes. II: NA	Squeeze bottle. 250 mL. 1 bottle/time	2 times/d, 2 wk	SNOT-22, rhinologic subscore, symptom VAS, MLKES, % cure rate	No difference between groups in any outcomes. Post hoc analysis showed the benefits of saline irrigation in the viral subgroup.
Piromchai 32	2021	RCT (crossover)	12: adult, ARS	Isotonic saline	Yes	I: Syringe with nasal applicator (12). II: Syringe 10 mL alone (12).	10 min	Overall effectiveness	The syringe with nasal applicator had better overall effectiveness scores than the syringe alone.
Ramalingam 30	2019	RCT	61: adult, URI	I: Irrigation and gargling with hypertonic seawater 2%-3% (30). II: No irrigation and gargling (31)	I: Yes. II: NA	Not stated. 100 mL	6 times/d, 2-14 d	Duration of illness, OTC medication used, viral shredding	Duration of illness reduced by 1.9 d and less medication used by 36% in the irrigation/gargling group
Chanaseeyotin 33	2016	RCT	48: adult, ABRS	I: Isotonic saline (25). II: No saline (23)	I: Yes II: NA	Syringe. 20 mL, 5 times/nostril	2 times/d, 4 wk	Symptom VAS, SNOT-20	No difference between groups in any outcomes.
King 35	2015	SRMA (3 studies)	542: adult (152), children (390), URI	Isotonic saline or isotonic seawater vs no saline	Any	Spray. 2-3 sprays/nostril	3-6 times/d, 1-3 wk	Days to resolution, antibiotic usage	No difference between groups
Gelardi 29	2009	RCT	20: adult, ARS	Warm isotonic saline (36 ºC)	No	I: Syringe 10 mL (10). II: Irrigation bag 250 mL (10)	I: 3 times daily. II: 2 times/d, 2 wk	Symptom (VAS), RMM	Irrigation bag improved symptom and nasal resistance better than a syringe
Ural 4	2009	RCT	24: adult, AR/ARS/CRS	I: Hypertonic saline 3% (12). II: Isotonic saline (12)	I: No. II: No	Syringe. 4 mL/side	2 times/d, 10 d	STT	Isotonic improved STT, but the hypertonic did not
Hauptman 34	2007	RCT	80: adult, ARS	I: Hypertonic saline (40). II: Isotonic saline (40)	I: Yes. II: Yes	Spray. 1 mL/side, 1 time	10 min	Symptoms, ARM, STT	Not difference between groups for symptom reduction. Hypertonic better improved STT but had worse ARM than isotonic saline.
Passàli 28	2005	RCT	200: adult, ARS	Isotonic saline	No	I: Atomized douche (7-8 mL) (100). II: Syringe 20 mL (100)	4 times/d, 15 d	GSS, RMM, ARM, STT	Atomized douche improved all outcomes. But the syringe did not
Inanli 27	2002	RCT	60: adult, ARS	I: Hypertonic saline 3.0% (12). II: Isotonic saline (13). III: Nasal steroid spray (14). IV: Oxymetazoline 0.05% (9). V: No saline (12)	I: Yes. II: Yes. III: NA. IV: NA. V: NA	Irrigation 10 mL.	3 times/d, 3 wk	STT	No difference between groups
Adam 26	1998	RCT	119: adult, ARS	I: Hypertonic saline 1.6% (41). II: Isotonic saline (35). III: no saline (43)	I: Yes. II: No. III: NA	Spray. 2 sprays/nostril	3 times/d, 1 wk	Third-day nasal symptom score, days to resolution	No difference between groups in any outcomes
Children
Cabaillot 41	2020	SRMA (4 studies)	489: children, ARS/URI	Hypertonic saline 2.3% or isotonic saline (334) vs no saline (155)	Any	Drop, syringe, spray, jet flow.	2 d–3 wk	Rhinologic score, health status scores.	Saline irrigation benefited for rhinological symptoms
Satdhabudha 40	2017	RCT	74: children, ARS	Hypertonic saline 1.25%	Yes	I: Squeeze bottle 240 mL (38). II: Syringe 20 mL (36)	2 times/d, 2 wk	5S, satisfaction score, medication used	Squeeze bottle improved in 5S and satisfaction scores more than syringe
Köksal 39	2016	RCT	109: children, URI	I: Isotonic saline (38). II: Hypertonic seawater 2.3% (36). III: No saline (35)	I: No. II: Yes. III: NA	Drop	3 vials daily, 5 d	Nasal symptoms at days 1 and 7, sleep quality	Saline and seawater drop relieved nasal symptoms and improved sleep quality vs no saline
Wang 38	2009	RCT	69: children, ARS	I: Isotonic saline (30). II: No saline (39)	I: No. II: NA	Syringe. 15-20 mL.	1-3 times/d, 3 wk	TSS, PRQLQ, nPEFR, nasal smear, Water’s film score	Saline irrigation improved TSS, PRQLQ, nPEFR vs no saline
Šlapak 37	2008	RCT	390: children, common cold	I: Isotonic seawater (99). II: Isotonic seawater (95). III: Isotonic seawater (95). IV: No saline (101)	I: Yes. II: Yes. III: Yes. IV: NA	I: Jet flow 9 mL/side. II: Fine spray 3 mL/side. III: dual formula fine spray 3 mL/side. IV: NA	6 times/d, 3 wk	Nasal symptoms, medication used	Saline group showed faster resolution of some nasal symptoms and less medication used
Bollag 36	1984	RCT	46: children, URI	I: Isotonic saline (15). II: Phenylephrine drop (16). III: No saline (15)	I: No. II: NA. III: NA	Drop. 4 drops/side.	Every 2 h, 2 d	Nasal symptoms, respiratory symptom	No difference between groups

Abbreviations: 5S, 5 Symptoms Score; ABRS, acute bacterial rhinosinusitis; AR, allergic rhinitis; ARM, acoustic rhinometry; ARS, acute rhinosinusitis; CRS, chronic rhinosinusitis; GSS, Global Symptom Score; MLKES, Modified Lund-Kennedy Endoscopic Score; NA, not applicable; nPEFR, nasal peak expiratory flow rate; OTC, over the counter; PRQLQ, Pediatric Rhinoconjunctivitis Quality of Life Questionnaire; RCT, randomized controlled trial; RMM, rhinomanometry; SNOT, Sino-nasal Outcome Test; SRMA, systematic review and meta-analysis; STT, saccharin transit time; TSS, Total Symptom Score; URI, upper respiratory tract infection; VAS, visual analog scale.

Roman numerals indicate patients groups.

Patient total number, age group (number per group), and disease.

Number per group in parentheses.

Chronic Rhinosinusitis

There were 17 studies that assessed the effects of nasal saline treatment. Sixteen articles (13 RCTs and 3 meta-analyses) assessed adult CRS or mixed adults and children with CRS.[4,42-57] One RCT was conducted in children.

Four RCTs compared the effects of nasal saline with no-saline treatment.[42,43,46,52] The benefits of 2-week nasal saline treatment were not shown. One RCT showed significant symptom improvement in the saline irrigation group over no saline at 4 weeks. Taccariello et al found that saline douche and saline spray for 8 weeks improved the QoL and nasal endoscopic appearance. One RCT and 2 meta-analyses[47,50] did not provide additional data. Adverse effects were indicated in the nasal saline group, including irritation, burning, tearing, and nosebleeds, with a prevalence of 0% to 23%.[43,59]

No study assessed the effects of saline irrigation vs no saline in children. There was 1 RCT by Shoseyov et al that assessed the effects among different tonicities in children.

Two RCTs assessed the effects of different devices.[42,43] One study demonstrated that the nasal douche (60 mL) improved endoscopic appearances but not QoL, whereas the very low-volume spray had the opposite effects. The other study compared 2 large-volume devices (bulb syringe vs irrigation pot) and showed no difference in the 31-item Rhinosinusitis Outcome Measure.

In children, there was no direct comparison of devices. One study showed that nasal drops relieved nasal symptoms with acceptable tolerability.

Nine studies (8 RCTs[4,44,46,48,49,54,56,57] and 1 meta-analysis ) assessed different tonicities of nasal saline treatment in adult CRS. The data from 1 RCT could not be used. Hypertonic saline was more effective than isotonic saline in improving symptoms (nasal congestion[48,49,54,56,57] and nasal discharge),[48,49,54,56,57] the Lund-Mackay computed tomography score, and STT. In contrast, 1 RCT reported similar effectiveness between hypertonic and isotonic saline.

The risks of adverse events in the hypertonic saline group was significantly higher than the isotonic saline. Most events were irritation and burning sensation.

One RCT assessed hypertonic saline (3.5%) vs isotonic saline (0.9%) drops in children. Both tonicities showed significant improvements in postnasal drip, cough, and radiologic score from the baseline. Hypertonic saline significantly reduced cough and radiologic score better than isotonic saline but not the postnasal discharge score. Adverse effects in the pediatric group, such as itching and burning sensation, were indicated in the high tonicity group in the first 3 to 4 days. Two meta-analyses did not provide additional data.[47,50]

One RCT compared buffered saline with nonbuffered saline. Buffered saline improved symptoms and the Rhinoconjunctivitis Quality of Life Questionnaire scores. No adverse event was reported from the study.

No study compared buffered and nonbuffered saline in children.

Nasal saline treatment for at least 4 weeks is recommended for adults. The saline should be buffered and delivered in a large-volume device. Due to its higher adverse events, hypertonic saline is suggested only after isotonic saline has failed to improve the symptoms. Nasal drop can be used in pediatric CRS, preferably with isotonic saline. A summary of the studies in patients with CRS is displayed in .

Table 3.

Studies of Patients With Chronic Rhinosinusitis.

First Author	Year	Study type	Patients b	Saline type c	Buffered	Devices	Treatment duration	Outcomes	Main result
Adult
Liu 55	2020	SRMA (7 studies)	454: adult, CRS	Hypertonic saline vs isotonic saline	Any	Any	Any	Symptom score, radiologic score, STT	Hypertonic saline improved symptoms and STT more than isotonic saline.
Muthubabu 54	2020	RCT	60: adult, CRS	I: Hypertonic saline 3.5% (30). II: Isotonic saline (30)	I: No. II: No	Squeeze bottle, 100 mL	3 times/d, 6 wk	SNOT-20 subscores (obstruction, discharge, postnasal drip, ear pain, facial pain)	Hypertonic saline showed significant improvement in symptoms more than isotonic saline.
Rachana 52	2019	RCT	400: adult, CRS	I: Isotonic saline (200). II: No saline (200)	I: Yes. II: NA	Syringe, 20 mL/side	2 times/d, 4 wk	Nasal symptoms, RSDI	Saline group showed more improvement on symptoms than no saline.
Nimsakul 51	2018	RCT	23: adult, CRS	I: Heated isotonic saline (12). II: Nonheated isotonic saline (11). III: Heated isotonic saline (9 healthy)	I: No. II: No. III: No	Squeeze bottle, 250 mL	One time	Nasal symptom, STT, PNIF, ARM	No difference between heated and nonheated saline
Chong 50	2016	SRMA (1 study)	76: adult, CRS	Saline irrigation vs no saline	Any	Any	Any	HRQL, patient-reported disease severity, endoscopic score, CT score, adverse event	Saline improved QoL and symptoms vs no saline.
Nikakhlagh 46	2016	RCT	185: adult, CRS	I: No saline (not stated). II: Hypertonic saline (not stated). III: Isotonic saline (not stated). IV: Hypotonic saline (not stated)	I: NA. II: No. III: No. IV: No	Not stated	Not stated, 3 wk	Nasal symptoms	Isotonic saline showed better effect than hypertonic saline on nasal congestion.
Sudhakaran 56	2016	RCT	46: adult, CRS	I: Hypertonic saline 3% (23). II: Isotonic saline (23)	I: No. II: No	Drop, 10 drops/nostril	3 times/d, 4 wk	LM score, symptom VAS	Hypertonic saline was more effective than isotonic saline in symptoms VAS reduction and radiologic score.
Kumar 57	2013	RCT	42: adult, CRS	I: Hypertonic saline 3.5% (21). II: Isotonic saline (21)	I: No. II: No	Drop, 10 drops	3 times/d, 4 wk	Symptoms, radiologic score	Hypertonic saline was more effective than isotonic saline in symptom reduction and radiologic score.
Berjis 49	2011	RCT	114: adult, CRS	I: Hypertonic saline 3% (57). II: Isotonic saline (57)	I: No. II: No	Drop, 4-5 drops	Frequency, not stated, 1 mo	Symptoms, patient satisfaction	Hypertonic saline irrigation was more effective than isotonic saline in symptom reduction and patient satisfaction
Čulig 48	2010	RCT	60: adult, CRS	I: Hypertonic seawater 2.1% (30). II: Isotonic seawater (30)	I: Yes. II: Yes	Spray, 3 s of continuous spray/side	3-6 times/d, 2 wk	Nasal symptoms, medication used	Hypertonic seawater improved all symptoms while isotonic seawater improved only congestion and rhinorrhea
Ural 4	2009	RCT	42: adult, AR/ARS/CRS	I: Hypertonic saline 3% (18). II: Isotonic saline (24)	I: No. II: No	Syringe, 4 mL/side	2 times/d, 10 d	STT	Hypertonic saline improved STT, but isotonic saline did not.
Harvey 47	2007	SRMA (6 studies)	334: adult-children, CRS	Saline vs no treatment, Saline vs placebo, Hypertonic vs isotonic saline	Any	Any	Any	QoL measures, symptom scores, adverse events, radiologic scores, endoscopic score	Saline irrigations improve CRS symptoms vs no-saline irrigation.
Friedman 45	2006	RCT	42: adult, CRS	I: Hypertonic Dead Sea solution 1.8% (22). II: Hypertonic saline 1.8% (20)	I: Yes. II: No	Irrigation (volume not stated) and spray	2 times/d, 1 mo	Nasal symptoms, RQLQ	Hypertonic Dead Sea solution is more effective in reducing RQLQ and symptom score than the hypertonic saline.
Heatley 43	2001	RCT (crossover)	128: adult, CRS	I: Hypertonic saline 2.7% (43). II: Hypertonic saline 2.7% (39). III: No treatment (reflexology, 46)	I: No. II: No. III: NA	I: Bulb syringe. II: Irrigation pot (volume not stated for both). III: NA	Once daily, 2 wk then crossover between 1 and 2	RSOM31, SF36, patient satisfaction, medication use	There was no difference between the irrigation groups and reflexology after 2 wk
Bachmann 44	2000	RCT	40: adult, CRS	I: Emser hypertonic saline 1.1% (20). II: Isotonic saline (20)	I: Yes. II: No	Nasal irrigator, 200 mL	2 times/d, 7 d	Symptoms, endoscopic finding, STT, olfactometry, RMM	No difference between Emser salt hypertonic solution and isotonic irrigation at 7 d
Taccariello 42	1999	RCT	62: adult, CRS	I: Isotonic seawater (21). II: Hypertonic alkaline saline (19). III: No saline (22)	I: Yes. II: Yes. III: NA	I: Spray. II: Douche 60 mL. III: NA	2 times/d, 8 wk	STT, CBF, endoscopic score, ARM, QoL, nasal score diary card	Both saline groups showed significant improvements in endoscopic score or QoL, while no improvement was found in the control group at 8 wk
Children
Shoseyov 58	1998	RCT	30: children, CRS	I: Isotonic saline (15). II: Hypertonic saline 3.5% (15)	I: No. II: No	Drop, 10 drops	3 times/d, 4 wk	Cough/postnasal drip, radiologic score	The hypertonic saline significantly better than normal saline for cough and radiologic score.

Abbreviations: AR, allergic rhinitis; ARM, acoustic rhinometry; ARS, acute rhinosinusitis; CBF, ciliary beat frequency; CRS, chronic rhinosinusitis; CT, computed tomography; HRQL, health-related quality of life; LM, Lund-Mackay; NA, not applicable; PNIF, peak nasal inspiratory flow; QoL, quality of life; RCT, randomized controlled trial; RMM, rhinomanometry; RQLQ, Rhinoconjunctivitis Quality of Life Questionnaire; RSDI, Rhinosinusitis Disability Index; RSOM31, 31-item Rhinosinusitis Outcome Measure; SF36, 36-item Medical Outcomes Study Short Form; SNOT-20, 20-item Sino-nasal Outcome Test; SRMA, systematic review and meta-analysis; STT, saccharin transit time; VAS, visual analog score.

Roman numerals indicate patients groups.

Patient total number, age group (number per group), and disease.

Number per group in parentheses.

Chronic Rhinosinusitis With Cystic Fibrosis

No study evaluated the effects of saline vs no saline in CRS-CF. Just 1 study by Mainz et al was identified. It compared hypertonic saline (6.0%) with isotonic saline via a randomized crossover study design.

The study utilized an atomizer delivering a very low volume (1 mL per nostril) of saline once daily for 28 days. Benefits were shown when compared with the baseline. Other devices were not assessed.

Both tonicities showed improvements from baseline in 20-item Sino-nasal Outcome Test (SNOT-20) score and nasal symptoms. The improvements were not different between the tonicities. Minor adverse events were noted in both tonicities.

There was no comparison between buffered and nonbuffered saline treatment. Nonbuffered saline demonstrated improvements from the baseline.

Limited data showed that saline treatment could be used for symptom control and QoL improvement. The saline may be hypertonic or isotonic and delivered by a very low–volume device (atomizer). Only data of nonbuffered saline were available.

Postoperative Care

After Septoplasty/Turbinoplasty Surgery

Two RCTs evaluated the effects of saline treatment after septoplasty/turbinoplasty.[61,62] None of these studies used the no-saline treatment as control. Saline irrigation decreased the crusting and improved nasal obstruction, which was assessed by visual analog scale and anterior rhinomanometry. Benefits were shown during postoperative days 7 to 15. The STT showed mixed results.[61,62] Minor adverse effects were noted. There was no eligible study in pediatric patients.

None of these studies compared different devices. Kurtaran et al studied the effects of a large-volume device (60 mL). The improvements in crusting, nasal obstruction, and STT were reported on postoperative day 15. Süslü et al did not state the volume of nasal saline.

Two RCTs compared the effects of 2 tonicities.[61,62] Hypertonic and isotonic saline improved the crusting and nasal obstruction greater than tap water. Hypertonic saline was more effective than isotonic saline in improving the crusting, nasal obstruction, and nasal patency.[61,62] However, hypertonic saline caused more adverse effects, such as burning sensation.

Süslü et al compared buffered with nonbuffered isotonic saline. Nasal patency improvement was not different between the groups. Yet, nonbuffered saline (pH 5.5) caused more burning sensation than buffered saline (pH 7.4). The authors believed that the burning sensation might be caused by the acidity of the solution.

With minor adverse events reported, nasal saline irrigation may be used after septoplasty/turbinoplasty. The large-volume saline is suggested to reduce crusting. Although hypertonic saline showed greater beneficial effects than isotonic saline, it was more likely to cause undesirable effects. Therefore, isotonic saline is recommended. The effects of buffered and nonbuffered saline were comparable, although nonbuffered saline caused more irritation. The buffered saline is recommended due to its better tolerability. Characteristics of the studies are displayed in .

Table 4.

Studies in Postoperative Period After Septoplasty/Turbinoplasty: Adults.

First Author	Year	Study type	Patients b	Saline type c	Buffered	Devices	Treatment duration	Outcomes	Main result
Kurtaran 62	2018	RCT	120 adults, septoplasty and RF	I: Tap water (30). II: Isotonic saline (30). III: Isotonic saline with xylitol (30). IV: Hypertonic seawater 2.3% (30)	I: No. II: Yes. III: Yes. IV: Yes	60 mL (30 mL/side; device not stated)	3 times/d, 15 d	STT, VAS (crusting, dryness, obstruction) at days 7 and 15	Hypertonic and isotonic saline improved the crusting and nasal obstruction greater than tap water. Hypertonic saline was more effective than isotonic saline in reducing the crusting and improving nasal obstruction and patency.
Süslü 61	2009	RCT	45 adults, septoplasty	I: Hypertonic seawater 2.3% (15). II: Isotonic saline (15). III: Isotonic saline (15)	I: Yes. II: Yes. III: No	Instillation (volume not stated)	6 times/d, 20 d	STT, ARM, VAS (burning sensation) at days 5 and 20	No significant difference in STT on the postoperative day 5 among the 3 groups. On day 20, the hypertonic saline improved STT and nasal patency more than isotonic saline.

Abbreviations: ARM, acoustic rhinometry; RCT, randomized controlled trial; RF, radiofrequency tissue reduction of inferior turbinate; STT, saccharin transit time; VAS, visual analog scale.

Roman numerals indicate patients groups.

Patient total number, age group (number per group), and disease.

Number per group in parentheses.

After Endoscopic Sinus Surgery

There were 10 RCTs and 1 meta-analysis that assessed post-ESS saline treatment.[63-73] All RCTs assessed adult populations, of which 5 evaluated nasal saline vs no-saline treatment.[63-67] The study duration ranged from 5 days to 12 months.

One RCT evaluated the outcomes at the first 5 postoperative days. The saline spray did not show benefit on nasal symptoms. At 3 weeks, Freeman et al demonstrated the benefits of atomized douching on nasal discharge reduction. At 3 months, 4 RCTs reported mixed results.[64-67] One RCT cited no benefits on adhesion, polyps, crusting, mucosal edema, and nasal discharge improvements. Another study indicated no benefit of saline treatment at 3 months on the SNOT-20, minimal cross-sectional area, smell test, STT, and endoscopic scores. In contrast, 2 RCTs reported beneficial effects of saline treatment on nasal symptoms,[65,67] nasal endoscopy, and QoL. Clinical outcomes were significantly improved after 3 months and up to 12 months. When the benefits were assessed by severity of CRS, Liang et al found that the benefits were shown in the mild CRS subgroup with computed tomography scores ≤12.

There was no study in the pediatric population.

Two RCTs compared the effects of saline treatment between 2 devices.[68,72] Salib et al randomly assigned nasal saline treatment via 2 puffs of saline spray into 1 nostril and a squeeze bottle (120 mL) into the other nostril in the same patient. The large-volume irrigation showed better endoscopic findings at 2 and 4 weeks. Nasal endoscopic findings were not different at 3 months. The benefits assessed by the patient’s perception favored the large volume throughout the follow-up period. The other RCT evaluated the feasibility of a multicenter trial and recruited a small number of patients.

Five other studies that utilized large-volume devices (240 mL) for saline treatment showed improvements from the baseline.[65-67,69,70] Very low-volume devices used in 2 studies did not show beneficial results.[63,64]

Five RCTs compared hypertonic with isotonic saline.[63,66,69-71] There were no differences between hypertonic and isotonic saline in improving symptoms,[63,69,71] SNOT-20 scores,[66,69,71] endoscopic scores, minimal cross-sectional area, smell threshold, and STT.[66,69,71] However, hypertonic saline demonstrated more benefits than isotonic saline during the first 6 weeks,[69,71] but these differences did not persist in the longer follow-up period. One meta-analysis compared different solutions with isotonic saline and reported no differences in symptoms or endoscopic scores.

More patients receiving hypertonic saline refused or discontinued the treatments than isotonic saline. The adverse events, as reported in the hypertonic saline group, were irritation, increased mucous secretion, and pain.

Three studies compared the effectiveness between the buffered and nonbuffered saline.[63,68,70] All were inconclusive due to discrepancies of other factors between the experimental arms. Pinto et al and Perić et al compared buffered hypertonic with nonbuffered isotonic saline. Salib et al compared buffered isotonic saline spray with nonbuffered isotonic saline irrigation using a bottle. Although the differences between buffered and nonbuffered saline were inconclusive, both solutions revealed beneficial effects as compared with baseline.

The benefits at a short postoperative period were not demonstrated. Saline treatment is recommended when the duration of treatment is >3 weeks and up to 3 months after ESS. A large-volume device is preferred. Hypertonic and isotonic saline showed benefits on subjective and objective outcomes. Due to the potential of increasing pain and irritations caused by hypertonic saline, isotonic saline is recommended for the postoperative period after ESS. Buffered and nonbuffered saline can be used. Characteristics of the studies are displayed in .

Table 5.

Studies of Saline Treatment During Postoperative Period After Endoscopic Sinus Surgery: Adults.

First Author	Year	Study type	Patients b	Saline type c	Buffered	Devices c	Treatment duration	Outcomes	Main result
Wang 71	2020	RCT	93: adult, CRSwNP	I: Hypertonic seawater 2.0% (48). II: Isotonic seawater (45)	I: Yes. II: Yes	Spray. 5 spray/nostril	3 times/d, 24 wk	SNOT-22, symptoms VAS, LKES, STT at 2, 8, 16, and 24 wk	Hypertonic saline improved edema, crusting, STT more than isotonic saline spray at 8 wk
Peric 70	2019	RCT	30: adult, CRSwNP/AERD	I: Hypertonic seawater 2.3% (15). II: Isotonic saline (15)	I: Yes. II: No	Not mentioned. 60 mL (30 mL/nostril)	3 times/d, 4 wk	Symptom score, endoscopic score at 1, 7, 14, 21, and 28 d	Hypertonic seawater improved symptoms and/or endoscopic score more than isotonic saline at 7-28 d
Chen 73	2018	SRMA (3 studies)	233: adult, CRS	I: Electrolyzed acid water (1.1%), hypertonic saline 2.7%, Ringer lactate solution. II: Isotonic saline	I: No. II: No	Any	6 wk to 2 mo	SNOT-22, symptoms VAS, endoscopic score, computed tomography score, eosinophil count, adverse events	No difference in symptom or endoscopic scores among various solutions
Giotakis 67	2016	RCT	158: adult, CRSwNP	I: Emser salt solution 1.175% or isotonic mineral salt mixture (110). II: No saline (48)	I: Yes. II: NA	Squeeze bottle. 250 mL	2 times/d, 12 mo,	Nasal symptom score, general QoL scores, endoscopic score, missed workday at 3, 6, 9, and 12 mo	Saline irrigation improved symptoms but not nasal mucosa vs no-saline group
Macdonald 72	2015	RCT	86: adult, CRS (55 CRSwNP,31 CRSsNP)	Isotonic saline	Yes	I: Squeeze bottle 240 mL (43). II: Spray, 2 spray/nostril (43)	2 times/d, 1 mo	SNOT-22, NSS, POSE at 1 mo	Both devices showed significant improvement in all outcomes
Jiang 66	2014	RCT	110: adult, CRS	I: Electrolyzed acid water (1.1%) (36). II: Isotonic saline (35). III: No saline (39)	I: No. II: No. III: NA	Pulsatile nasal irrigator. 250 mL	Once daily, 2 mo (during 1-3 mo postoperative)	SNOT-20, ARM, UPSIT, endoscopic score, VAS (comfortable of device), bacterial culture, STT at 3 mo	No difference among 3 groups
Low 69	2014	RCT	63: adult, CRS (31 CRSwNP, 32 CRSsNP)	I: Isotonic saline (22). II: Hypertonic saline 2.7% (21). III: Ringer lactate solution (20)	I: No. II: No. III: No	Squeeze bottle. 240 mL	3 times/d, 6 wk	SNOT-20, STT, VAS, endoscopic score at 1, 3, and 6 wk	Ringer solution irrigation showed better SNOT-20 and VAS than both saline types. Hypertonic saline reduced polypoid mucosa more than isotonic saline.
Salib 68	2013	RCT	25: adult, CRS (17 CRSwNP, 8 CRSsNP)	I: Isotonic seawater (25). II: Isotonic saline (25). Act as own control	I: Yes. II: No	I: Spray 2 spray/side (25). II: Squeeze bottle 120 mL (25). Use I and II in separate nostril	3 times/d, 12 wk	SNOT-22, modified LKES at 2, 4, and 12 wk	Squeeze bottle showed significantly better LKES than spray at 2 and 4 wk
Liang 65	2008	RCT	77: adult-children, CRS	I: Isotonic saline (44). II: No saline (33)	I: Yes. II: NA	Pulsatile nasal irrigator. 250 mL/nostril	Once daily, 3 mo	Symptom score, endoscopic score at 2 wk, 1, 2, and 3 mo	Saline irrigation benefited mild CRS
Freeman 64	2008	RCT	17: adult, CRS	I: Isotonic saline on one nostril (17). II: No saline on the other nostril (17)	I: No. II: NA	Atomized douching device. 2 mL into the one side	3 times/d, 6 wk	Endoscopic finding: adhesions, polyps, crusting, discharge, edema at 3 wk and 3 mo	Saline douching reduced nasal discharge; no difference in long-term endoscopic findings
Pinto 63	2006	RCT	60: adult, CRS	I: Isotonic saline (20). II: Hypertonic saline 3.0% (20). III: No saline (20)	I: No. II: Yes. III: NA	Spray. 2 sprays/nostril	4 times/d, 5 d	Nasal symptoms, medication used at everyday from 1 to 5	No difference of saline spray vs no saline

Abbreviations: AERD, aspirin-exacerbated respiratory disease; ARM, acoustic rhinometry; CRS, chronic rhinosinusitis; CRSsNP, chronic rhinosinusitis without nasal polyp; CRSwNP, chronic rhinosinusitis with nasal polyp; LKES, Lund-Kennedy Endoscopic Score; NA, not applicable; NSS, Nasal and Sinus Symptom Score; POSE, perioperative sinus endoscopy; QoL, quality of life; RCT, randomized controlled trial; SNOT, Sino-nasal Outcome Test; STT, saccharin transit time; UPSIT, University of Pennsylvania Smell Identification Test; VAS, visual analog scale.

Roman numerals indicate patients groups.

Patient total number, age group (number per group), and disease.

Number per group in parentheses.

Discussion

Intranasal saline treatment may not be a one-size-fits-all for the different sinonasal diseases. In patients with AR, the saline treatment showed benefits on symptom reduction after 2 to 4 weeks. A large-volume device was recommended for adult AR, but it could cause adverse events in some children. Therefore, a low-volume device was recommended for children. Isotonic saline was suggested due to its effectiveness and tolerability. There were no differences between the buffered and nonbuffered saline. Therefore, either could be chosen.

In adult patients with ARS, the benefits of saline treatment were not revealed in most RCTs. However, symptom and QoL improvements were demonstrated in the common cold subgroup through large-volume saline irrigation. In addition, Ramalingam et al showed a reduction in duration of the common cold. Due to this conflict in high-level evidence, the saline treatment was suggested as an option in adult ARS. The improvements in nasal obstruction and rhinorrhea were demonstrated in children after 5 days of saline treatment and up to 3 weeks. These findings were supported by the majority of RCTs and 1 meta-analysis. Thus, it was recommended for pediatric ARS, and isotonic saline delivered via a large-volume device was suggested.

Improvements in symptoms, QoL, and nasal endoscopic findings were demonstrated in adults with CRS after 4 weeks of nasal saline treatment. Therefore, it was recommended for CRS and should be administered for at least 4 weeks. Buffered isotonic saline delivered by a large-volume device was suggested. The evidence in children was limited to nasal saline drops.

The nasal saline treatment enhances mucociliary function, which benefits patients with CRS-CF. Just saline atomizer was recommended because it was the only device used in 1 study. Nasal saline irrigation after septoplasty/turbinoplasty and ESS reduced crusting and nasal obstruction. Isotonic saline delivered by a large-volume device effectively cleared out the clotted blood, mucous, and debris in the postoperative cavity. Beneficial effects after ESS were demonstrated up to 3 months, and then mixed results were reported. Effects of saline for healing and re-epithelization should be clearly seen during the first 3 months.

This review identified knowledge gaps and research opportunities. The beneficial effects of saline treatment are still unclear in adults with NAR, ARS, and CRS-CF. There is insufficient evidence of saline for pediatric CRS, CRS-CF, and postoperative care. Optimal devices for saline treatment for children with CRS require further studies.

This review had limitations. The recommendations suffered from heterogeneity of delivery methods and timing of evaluations. For instance, the outcomes of nasal saline spray was assessed at 5 days after ESS, while other studies evaluated the larger-volume device after 2 weeks or later. In addition, there were other confounding factors, such as the endotype of CRS that might affect a later stage of postoperative healing.

This review showed different levels of evidence among conditions. AR had very strong evidence supporting the saline treatment, whereas others conditions had relatively much weaker evidence. This review did not intend to discourage the saline usage in those without firmly supportive data. It rather informed how much the evidence currently existed and which delivery methods provided the best possible outcomes based on the available data. Future research is likely to provide or change the answers to a certain topic and/or change the recommendations. Physicians can always use their discrete decision to use the saline treatment or to wait until more evidence becomes available.

Conclusion

Evidence supported the use of the nasal saline treatment for AR, ARS, CRS, CRS-CF, and postoperative patients, but there were no data for NAR. For AR, large-volume devices were effective for treating adults, but low-volume devices were effective for children. Isotonic saline had fewer adverse events than hypertonic saline. For ARS, the evidence supported the use of saline irrigation in children, but there was weak evidence for adults. Large-volume devices were more effective, especially in the common cold subgroup. For CRS, large-volume devices were effective for adults, but saline drop was the only available data in children. Buffered isotonic saline was more tolerable than nonbuffered or hypertonic saline. There were limited data for CRS-CF. For postoperative care, buffered isotonic saline delivered by large-volume devices was effective.

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Supplemental material, sj-docx-1-opn-10.1177_2473974X221105277 for Optimal Device and Regimen of Nasal Saline Treatment for Sinonasal Diseases: Systematic Review by Wirach Chitsuthipakorn, Dichapong Kanjanawasee, Minh P. Hoang, Kachorn Seresirikachorn and Kornkiat Snidvongs in OTO Open: The Official Open Access Journal of the American Academy of Otolaryngology-Head and Neck Surgery Foundation