Therapeutic Strategies for Dry Mouth Management with Emphasis on Electrostimulation as a Treatment Option

Objectives Xerostomia is a subjective sensation of dry mouth. It is commonly associated with salivary gland hypofunction. Both changes in the composition of the saliva and a reduction in the quantity secreted may be an objective finding of dry mouth. Although there are no currently available cures for the conditions resulting in dry mouth, there are several treatment options that give hope for patients who suffer from xerostomia. Individuals with some residual salivary gland function, which are contraindicated to pharmacological therapies, would benefit the most from identifying novel, alternative effective methods for stimulating production of saliva. The aim of this study was to give an overview of the latest and most relevant data related to treatment modalities for the management of dry mouth conditions. Data Resources and Study Selection. The present review was prepared by searching the National Library of Medicine database using the relevant medical terms and their combinations. A total of thirty-three studies met the inclusion criteria. Data were extracted by one author and verified by another. Conclusion A number of patients showed positive treatment outcomes, and the adverse effects of both electrical stimulation (ES) and acupuncture have been reported as mild and transient. In patients who have undergone radiotherapy, acupuncture is shown to increase salivation. However, in patients with Sjogren's syndrome, the effects of ES devices seem to be elusive. Moreover, due to the instability of the findings in relation to longevity of clinical effect, patient satisfaction, quality of life, and clinical effectiveness of such treatments, the results remain vague.


Saliva and Oral Implications
e multiple functions of saliva, which are linked to its specific components and fluid characteristics, are crucial for maintaining the hypotonic environment; remineralization of dental enamel; control of the composition of oral microflora with its antibacterial, antiviral, and antifungal properties; mastication and swallowing; digestion of food; articulation of speech; and many other functions [1][2][3][4]. Approximately 0.6 L of saliva is excreted daily by major and minor salivary glands [5,6]. e secretion of salivary components is dependent upon the autonomic nervous system and regulated by several reflexes. e masticatory and gustatory afferent impulses, and thermoreceptive, olfactory, nociceptive, and psychic stimuli influence activation of the salivary gland cells [7][8][9]. ese afferent sensory impulses are transmitted to the salivation center in the brainstem (parasympathetic), to the upper thoracic segments of the spinal cord (sympathetic), and to higher brain structures, which may react with both inhibitory and excitatory efferent signals to the salivatory nuclei and thereby salivary glands [10].
Furthermore, the function of salivary glands is under the influence of many stimuli and factors, which can affect the flow, volume, and composition of saliva. It has been shown that the expression of aquaporin 5 and of specific clock genes involved in the regulation of circadian rhythms is subject to diurnal pattern in gene expression in mouse submandibular gland cells [11].
us, it is suggested that the molecular underpinnings orchestrating normal salivary secretion may be influenced by the circadian clock, which also may play a role in different pathologies of salivary glands [12]. e size of the glands and the level of hydration of the body are other factors related to salivary flow rates [13][14][15][16].
From the clinical aspect, both changes in the composition of saliva and a reduction in the quantity secreted may be an objective finding of dry mouth [17,18]. Dry mouth is a common problem in the general population with a prevalence between 10% and 33%, being more common in females [19,20]. Although xerostomia more frequently affects the elderly, it may also be present in young adults [21,22]. e subjective sensation of dry mouth in the older population may probably be attributed to other factors than age-related degenerative changes [23]. e higher prevalence of chronic conditions and the resultant general "polypharmacy" with wide use of various anticholinergic medications are considered as important factors [20,24]. Several medications, including commonly prescribed preparations, such as those used to treat hypertension, epilepsy, and depression, are reported to cause dry mouth through different mechanisms [20,24].
In general, causes of xerostomia can be divided into two main groups: nonsalivary and salivary [17]. Nonsalivary causes of oral dryness may include dehydration, anxiety, mouth breathing, and neurological dysfunction [17], whereas the salivary causes of dry mouth are associated with pathological changes in salivary glands. A number of patients with systemic autoimmune diseases such as Sjogren's syndrome, systemic lupus erythematosus, rheumatoid arthritis, systemic sclerosis, and sarcoidosis suffer from dry mouth [25,26]. Exocrine glands in those patients become infiltrated with immune cells, predominantly CD4+ lymphocytes T-cells. e lymphocytes further induce the production of different cytokines that alter saliva secretion [27]. Simultaneously, an increased activity of certain matrix metalloproteinase, with a decrease in production of tissue inhibitors of such proteolytic enzymes, is found in those patients [28]. Disturbance of saliva production is also reported in patients with diabetes mellitus, obesity, hypertension, chronic kidney disease and chronic heart failure [29][30][31][32][33][34]. Common in those patients is increased predisposition to oxidative stress. Products of oxidation can aggregate and accumulate in the salivary glands leading to damage of secretory cells and increase in the formation of reactive oxygen species. is may enhance local oxidative stress even more [35][36][37].
A noteworthy correlation was found between salivary gland hypofunction, followed by xerostomia and patients suffering from dementia [38,39]. One plausible explanation is that neurological centers orchestrating function of salivary glands are impaired in those patients. However, this field requires more research in order to draw affirmative conclusions.
Xerostomia was reported in majority of COVID-19 patients. Since the virus has neuropathic and mucotropic effects on the salivary gland tissues, it is hypothesized that it alternates the structure and function of the gland at some point. As xerostomia occurs prior to other common symptoms of infection, this information could be used as an early diagnostic mark [40]. Furthermore, dry mouth is a common side effect of both chemotherapy and radiotherapy during the treatment of cancer [20,41].
Since the treatment of chronic diseases becomes more effective and the life expectancy increases, it is also reasonable to assume that the number of people living with xerostomia will be higher [20,23]. Dry mouth conditions may impact the quality of life in several ways. is includes difficulties with speech, chewing, and swallowing of food, due to the dehydrated mucosa [42]. Taste sensation can be impaired and tenderness of the oral mucosa and gums makes the wearing of dentures difficult. Infections in salivary glands, oral candidiasis, and increased incidence of root caries have been reported [18,43,44]. A positive correlation between xerostomia and/or hyposalivation and caries activity in a population of younger adult patients has been shown recently [45]. Patients with subjective sensation of dry mouth complain of burning mouth syndrome [46]. Furthermore, psychological discomfort and impaired sleep may be another consequence. Finally, majority of patients can feel stigmatized, as their condition is often not taken seriously by others.
is leads to social withdrawal and diminished self-esteem [42]. Effective treatment of patients with dry mouth is therefore important in order to improve the quality of life of sufferers, and, in addition, from both a patient and public health perspective it is of outmost importance to treat dry mouth symptoms and minimize potentially painful oral infections and costly tooth loss.
Since xerostomia may affect the quality of life in individuals, the main aim of this study was therefore to provide an overview of the latest and most relevant findings related to treatment modalities for the management of dry mouth conditions.

Data resources and Study Selection
Data collected from the National Library of Medicine database were used in this study. e search was conducted with the different combinations of the following terms: ("dry mouth" OR "xerostomia" OR "hyposalivation") AND ("treatment") AND ("electrical stimulation" OR "electrotherapy" OR "acupuncture") in an attempt to reveal relevant publications. e search was performed without restriction with regard to the language and study design. Selection criteria included articles published from 1981 to the present year. Primary search yielded 187 studies. All authors thereafter reviewed the titles and abstracts of the selected articles. Eventually, duplicates were excluded. Articles were also rejected if they were clearly unqualified. In case where updated versions of the paper were found, older versions were rejected. e authors then reviewed the remaining articles to determine their eligibility. Finally, thirty-three studies were accessed.

Current Treatment Options.
Although there are no currently available cures for the conditions resulting in dry mouth, different treatment options give hope for patients who suffer from xerostomia. e most commonly used 2 International Journal of Dentistry approaches are the use of salivary substitutes and increased fluid intake, which aim to treat the symptoms. Some individuals may manage the problems associated with dry mouth through optimal handling of the underlying conditions [23]. For patients with milder symptoms, frequent sips of water and sucking of ice chips may result in sufficient relief [19]. It is recommended to reduce/avoid the consumption of alcoholic drinks, caffeine, and smoking as they additionally dehydrate the oral mucosa [47,48]. Topical application of oral rehydrating agents acts directly on the surface of the oral mucosa and may provide short-term relief [24]. It has been shown that the use of oral moisturizers and toothpastes result in significant improvements in whole unstimulated salivary flow rate, a decrease in colonization with Candida, and a subjective improvement of xerostomia in patients with primary Sjogren's syndrome and subjects that had undergone radiotherapy for head and neck cancer [49,50]. It is important to note that the utility of artificial saliva products is to some extent limited in xerostomia treatment, due to the different composition of artificial saliva compared to human saliva with respect to pH values, osmolality, and electrical conductivity [51]. e symptomatic treatment of xerostomia by means of topical medications stimulating saliva production or increased fluid intake may be sufficient for patients with some degree of preserved salivary gland function [20]. However, in patients with permanent destruction of salivary acini, in addition to palliative therapy, other forms of both local and systemic treatment may be necessary in order to induce secretions from the remaining salivary gland tissue. e two most common systemic agents are pilocarpine and cevimeline, which both act as the agonist for the muscarinic receptors on the surface of the salivary cells [52]. Several clinical studies have demonstrated that the use of pilocarpine results in significant improvement in symptoms associated with xerostomia [53][54][55]. However, since it is a cholinergic agent, it is associated with several side effects like increased sweating and lacrimation, frequent urination, nausea, headache, rhinitis, and gastrointestinal disturbances [56]. Cevimeline is an analog of acetylcholine and gives the same amount of relief from symptoms of dry mouth as pilocarpine. However, due to its high affinity to the M3 sub-receptor type, which is specific to the salivary gland tissue, it has fewer side effects compared to pilocarpine [52]. Bethanechol and anethole trithione are other drugs that exert their function via the parasympathetic system and have been shown to have some effect on dry mouth symptoms [52]. A study conducted on head and neck radiation therapy patients treated with either bethanechol or pilocarpine suggested that both medications have nearly the same effect on saliva production [57]. It is also worth mentioning another medicine, amifostine, currently the only medicine used in an attempt to prevent xerostomia in radiation therapy patients, due to its ability to scavenge free radicals [58].
Gene therapy in the treatment of dry mouth is based on delivery of genes into the salivary glands. Although it may become a therapeutic strategy for radiation-induced salivary hypofunction in the future, current therapies are primarily experimental, with most studies performed in animal models [59]. One clinical trial employing gene delivery to salivary gland in head and neck irradiated participants studied gene transfer utilizing the first-generation serotype 5, adenoviral (Ad5) vector coding for human aquaporin-1 (hAQP1) [60]. AQP1, expressed in the myoepithelial and endothelial cells of the human [61,62], is a water channel protein that facilitates fluid transfer by an osmotic gradient [63]. Delivery of AdhAQP1 vector to a single parotid gland was found to be safe and the results demonstrated that the transfer of the hAQP1 cDNA increased the flow in parotid gland and relieved symptoms in a subset of patients [64]. e improvements in these patients persisted for several years after the one-time treatment. At present, there are two ongoing clinical trials evaluating the delivery of aquaporin-1 (AQP1) via adeno-associated viral vector 2 (AAV2) to the parotid gland in human patients with radiation-induced salivary gland hypofunction [65,66]. Both studies are in phase 1 with the estimated study completion in 2022.
Another potential approach in regeneration of salivary gland tissue is the use of stem cells. Although clinical trials are mostly in its early phases, the obtained results in radiation-induced xerostomic patients seem to be promising [67]. e stem cells used in dry mouth treatment are mainly mesenchymal/stromal cells harvested from umbilical cord blood, bone marrow, or adipose tissue [68][69][70][71]. However, due to their potential to metastasize to other tissues, the long-term safety of these cells is yet to be investigated. e quality of life of a patient suffering from radiationinduced xerostomia may be significantly reduced. erefore, the use of low-power laser light for analgesive and antiinflammatory effect has been suggested. e laser light that is transformed into energy for the cells improves microcirculation, glandular cell proliferation, cellular respiration, ATP production, protein synthesis, and intracellular calcium levels [72]. Having in mind that this technique is noninvasive and noncostly, it could be used in xerostomia treatment.
Intraglandular administration of botulinum toxin prior to radiation treatment is another promising approach in the treatment of radiation-induced xerostomia. Although the mechanism of action is not yet clear, it is suggested that botulinum toxin reduces nerve stimulation and saliva production, thereby reducing the sensitivity of glandular cells to radiation. However, agreements for the use of this technique are still in the establishment phase [73,74].

Electrical Stimulation as a means for Treating Dry
Mouth. Electrical activity is essential for the development, function, and survival of neurons [75]. Already in 1791, Luigi Galvani`s animal experiments demonstrated that the application of electrical current resulted in contractions in the muscles of frog legs. Since then, it has been known that electrical stimulation (ES) may be a common rehabilitative strategy to restore function in muscle and neural tissues. Cardioversion and defibrillation further illustrate the huge therapeutic potential of ES in medicine, and evolving research has provided evidence that ES of the eye may be a International Journal of Dentistry Electrodes placed on the dorsum of the tongue and pressed against the hard palate; the maximum voltage was 6 V with a current of 9 uA; the maximum power was 12.4 mJ in a 3 minute stimulus cycle; the stimulus was increased until the patients reached their level of tolerance.
-Subjective patient evaluation was performed Intraoral clinical examination was performed.
is noninvasive electrostimulation has shown to be effective in patients with xerostomia due to Sjögren's syndrome or radiation therapy; patients reported slight to substantial improvement.
Steller et al. [82] Sjögren´s syndrome, N � 29 Electrodes placed on the dorsum of the tongue and pressed against the hard palate. An intensity control knob with intervals from 0 to 10 set peak stimulus output between 0 and 6 V; the maximum average current output is 9 uA and corresponds to a maximum average power dissipation of 0.2 uW.

Placebo device and electrodes
Subjective patient evaluation was performed. Intraoral clinical examination was performed e whole saliva flow rates were measured. e mean poststimulation whole saliva flow rate of subjects using the active device increased, while the mean poststimulation rate of those using a placebo device did not (P � 0.04). e results in this study indicate that some Sjögren's syndrome patients with residual salivary flow show a significant response to electrical stimulation, but others with low or absent whole saliva flow rates do not respond.
Talal et al. [83] Sjögren´s syndrome, N � 77 Electrodes placed on the dorsum of the tongue and pressed against the hard palate. e unit stimulus switch was pressed, and the stimulus intensity was adjusted to settings of 1-10 with the objective of reaching a setting of 10. e stimulation automatically shut off after 3 min.
Placebo device and electrodes e whole saliva flow rates were measured. e weight of the saliva was measured.
e patients using active devices showed a statistically greater (P � 0.005 to 0.02) increase in the production of saliva compared to control. At week 1, the differences between the prestimulation and poststimulation salivary production was 80% greater in the group with the active device than in the control group; the differences were 151% at week 2 and 116% at week 4. Undergone head and neck radiation therapy, N � 38 Classical acupuncture was used.
Classical acupuncture and superficial acupuncture as placebo Both groups showed significantly increased salivary flow rates after the acupuncture treatment. In the experimental group 68% and in the control group 50% of the patients had increased salivary flow rates at the end of the observation period. Observation period of 1 year.
-Immunoreactivity of neuropeptides was analyzed in the saliva collected 20 minutes before the start of acupuncture stimulation, then for 20 minutes while the needles were in situ, and the for another 20 minutes after the needles were removed. e results showed significant increases in the release of CGRP, NPY, and VIP both during and after acupuncture stimulation, especially in connection with electroacupuncture.
Blom et al. [86] Sjogren's syndrome, irradiation, and other causes, N � 70 Acupuncture and twoway ANOVA were used. -Salivary flow rates (SFR) for whole unstimulated and stimulated saliva were used as indicators of effects. Data were analyzed 6 month following a baseline course of 24 acupuncture treatments using two-way ANOVA. Statistically significant differences in unstimulated and stimulated salivary flow rates (P < 0.01) in all etiological groups after 24 acupuncture treatments and up to 6 months follow-up compared with baseline.
Wong et al. [87] Undergone head and neck radiation therapy, N � 46 Codetron treatment was given twice weekly for 6 weeks. Nonpolarizing, balanced biphasic, square electrical pulses of 250 ms duration were delivered in trains with a repetition rate of 4 hz. Each acupuncture point was randomly stimulated for 10 s each time; each session of codetron treatment lasted for a total of 20 min; this was followed by a 2-week break and then another 6-week course of treatment was repeated.
e whole saliva flow rates were measured. e quality of life questionnaire assessments were performed. Improvement in xerostomia symptoms was noted, with a mean increase in the visual analog scale score of 86 (P < 0.0005) and 77 (P < 0.0001) at 3 and 6 months after treatment completion, respectively.
For all patients, the increase in the mean basal and citric acidprimed whole saliva production at 3 and 6 months after treatment completion was also statistically significant (P < 0.001 and P < 0.0001, respectively).
No statistically significant change in the quality-of-life evaluation compared with baseline was observed.
International Journal of Dentistry 5 Cho et al. [90] Undergone head and neck radiation therapy, N � 12 Acupuncture was conducted twice weekly for 6 weeks in a singleblind setting.
Randomized into two groups: Real or sham acupuncture e effect was evaluated by measuring whole salivary flow rates and questionnaire-based assessment of subjective symptoms pretreatment and posttreatment (3 and 6 weeks after acupuncture treatment).
Both groups showed a slight increase in whole salivary flow rates, with no significant differences between them. Real acupuncture markedly increased unstimulated salivary flow rates, and improved the score for dry mouth according to the xerostomia questionnaire, by 2.33 points versus 0.33 in the controls.

Ami and
Wolff [91] Dry and burning mouth, N � 1 A Saliwell Crown was placed in the lower third molar area, in vicinity to the lingual nerve. e stimulating device is mounted on a commercially available dental implant. e Saliwell Crown is composed of an electric circuit, two 1.5 V batteries, a microprocessor, a wetness sensor, an IR receiver, and stimulating electrodes.
-Both stimulated and unstimulated saliva flow rates were measured. Subjective patient evaluation was performed.
e results showed a constant significant increase in the salivary secretion and symptomatic improvement as presented in the questionnaires. e frequency of dry and burning mouth has decreased during the study. 6 International Journal of Dentistry International Journal of Dentistry 7 performed. e whole saliva flow rates were measured. e active device performed better than the sham device for patient-reported xerostomia severity (P < 0.002), xerostomia frequency (P < 0.05), quality of life impairment (P < 0.01), and swallowing difficulty (P < 0.02). At the end of stage 2, statistically significant improvements were verified for patientreported xerostomia severity (P < 0.0001), xerostomia frequency (P < 0.0001), oral discomfort (P < 0.001), speech difficulty (P < 0.02), sleeping difficulty (P < 0.001), and resting salivary flow rate (P < 0.01).
Alajbeg et al. [95] Xerostomia, N � 94 GenNarino containing an electronic circuit with a microprocessor, a pair of stimulating electrodes, and a 30 mA/h battery. e electrodes contact the oral mucosa in the mandibular third molar area, close to the lingual nerve. e electrical current is of low intensity and not felt by the patient.
-Subjective patient evaluation was performed. Intraoral clinical examination was performed. e whole saliva flow rates were measured. Improvements achieved at month 5 from baseline were sustained throughout the followup period for the primary outcome, xerostomia severity, and the second outcomes resting whole saliva flow rate, xerostomia frequency, oral discomfort and difficulties in speech, swallowing and sleeping. No significant side effects were detected.
Simcock et al. [96] Undergone head and neck radiation therapy, N � 145 Randomized crossover design with participants receiving two group sessions of oral care education and eight acupunctures using standardized methods.
Acupuncture group and oral care education group e whole saliva flow rates were measured.
Acupuncture compared with oral care, produced significant reductions in patients' reports of severe dry mouth with sticky saliva, needing to sip fluids to swallow food and in waking up at night to drink. No significant changes in either stimulated or unstimulated saliva measurements over time. 8 International Journal of Dentistry . e pulse rate was fixed at 50 Hz, the pulse duration was fixed at 250 μm, the time was fixed for 5 min, and the unit was used in normal mode.
-Both stimulated and unstimulated saliva flow rates were measured.
29 of 30 patients showed increased saliva flow during stimulation. A statistically significant improvement in saliva production (P < 0.05) during stimulation was noted. Extra-oral application of TENS is effective in increasing the whole salivary flow in most of the postradiated oral cancer patients with xerostomia. TENS therapy may be useful as an effective supportive treatment modality in postradiated oral cancer patients.
Zadik et al. [99] Oral chronic graftversus-host disease (cGVHD), N � 6 e electrodes directly contact the oral mucosa in the mandibular third molar area, in proximity to the lingual nerve. International Journal of Dentistry 9 e data analysis revealed that control and S1B group showed increased salivary flow rate after stimulation by TENS therapy, compared with the unstimulated salivary flow, whereas in S1A and S1B group it was found to be statistically nonsignificant.

10
International Journal of Dentistry  Saliva flow was slightly increased in those in the dry mouth group receiving IFCS compared with those who did not receive IFCS (approximately 130%).
However, no such difference was found in the young and older adult groups. ere was no significant difference in the VAS values of pain and discomfort or in the stress marker levels between patient who received or did not receive IFCS in the three groups. IFCS delivered to submandibular and sublingual glands may promote saliva secretion in persons who suffer from dry mouth in a manner that does not induce pain or physical stress.
Konidena et al. [104] 50 postmenopausal females with or without dryness Divided into 2 groups of 25 each; (1) postmenopausal women with oral dryness and (2) postmenopausal women without oral dryness e TENS unit was ultrasonic TENS. e technical specifications of the TENS unit were 220 V, A/C 50 Hz, 0-100 mA at 1 k load, biphasic wave form, available in pulsed/ continuous form, and 2 intensities, I and II. e electrode of TENS unit was then placed vertically, externally on the skin overlying the parotid gland, in the preauricular area bilaterally, 1 cm in front of the tragus area.
-Unstimulated whole saliva was collected by the low forced splitting method. External salivary secretion of parotid glands by electrodes of TENS unit was done and sialometry was repeated. e salivary flow rates were compared within both groups before and after stimulation and between two groups.
e mean salivary flow rates at baseline were statistically significantly lower in group 1 than group 2. ere was a mean increase of 0.33 ml and 0.46 ml with TENS stimulation in the two groups, respectively. Postmenopausal women with perception of oral dryness had lower salivary flow rates. 90% of the subjects, irrespective of oral dryness status, responded to TENS therapy. TENS stimulation resulted in a statistically significant increase in the quantity of whole saliva flow rate in postmenopausal women with or without dryness.

12
International Journal of Dentistry Subjects with complaint of hyposalivation, N � 25 TENS units were placed over the parotid region. e intensity control switch was adjusted for patient's comfort. e intensity was turned up 1 increment at a time at 5 s intervals until the optimal intensity level was reached.
-Unstimulated saliva was collected using modified carlson crittenden cup placed over the Stenson's duct bilaterally for 5 min and measured. A paired ttest, evaluating mean changes in stimulated versus unstimulated salivary flow rates.
Significant increase in parotid salivary flow rates (SFR) in 19 of 25 patients after TENS. Males showed more salivary secretion compared to females. TENS showed to be effective in increasing the SF rate in hyposalivatory patients with residual saliva.
Dyasnoor et al. [106] Diabetes mellitus patients with xerostomia, N � 40 Tabletop TENS unit with surface electrode pads were placed externally in the skin overlying the parotid glands (anteroposteriorly between the tragus of the ear and the midmasseter region and superoinferiorly between the region of the head of the mandible and above the lower boarder of the mandible. e pulse rate was fixed at 50 Hz, and the intensity was gradually increased to a maximum tolerable level for each patient.
-Unstimulated saliva through the "low forced splitting" method and stimulated saliva collecting using TENS were assessed and compared. Long-term effects of TENS application were evaluated by recalling the patient 24 hours later.
A statistically significant increase in stimulated whole saliva after TENS application in continuous mode (P < 0.001) was demonstrated compared with the unstimulated saliva, especially in xerostomia patients with diabetes. Burst mode inferred a statistically significant decrease in salivary flow (P < 0.001).
In patients with diabetes with xerostomia and hyposalivation, TENS was highly effective in stimulating whole salivary flow.
Paim et al. [107] Undergone head and neck radiation therapy, N � 15 TENS was adjusted with 50 Hz of frequency and 250 μs of pulse width intensity was adjusted over a 20-minute period according to maximum tolerance. e electrodes were placed bilaterally on the region of the salivary glands.
-Evaluation of the salivary flow was performed through sialometry before and immediately after application of TENS. e most prevalent region for RT was the oropharynx (80% of cases). e mean dose used in RT was 64,6 ± 7,24 Gy. After TENS, salivary flow increased significantly (P � 0.0051) from 0.05 mL/min to 0.01 mL/ min. e response to TENS was directly correlated with the intensity of the tolerated electric current (r � 0.553; P � 0.032) and the dose used in RT (r � −0.514; P � 0.050). TENS was able to increase the salivary flow rate of patients with RTinduced hyposalivation.
International Journal of Dentistry 13 Severe xerostomia, no collectable saliva, N � 3 GenNarino contains an electronic circuit with a microprocessor, a pair of stimulation electrodes, and two 3 V 30 mAmp/h batteries. e electrodes contact the oral mucosa in the mandibular third molar area, close to the lingual nerve on one side. e electrical stimulation is of low intensity and not felt by the patient. In this trial, the stimulation signals were pulse-trains at 5 Hz, biphasic, at rectangular pulses of 1 mSec, with an output of 150 µA.
e whole saliva flow rates were measured.
All the three subjects developed the capacity to spit saliva, not only in direct response to the electrostimulation but also after free intervals without electrostimulation. In addition, their symptoms of dry mouth severity and frequency improved. For all three subjects, no significant changes in the vital signs and in the oral mucosal status were observed.
Control group received a 50 μs, 2 Hz TENS at acupoints ST6 and TE17 three times a week for 3 weeks Whole salivary flow rate and dry mouth intensity were measured totally five times for both groups, at pretreatment, after 3, 6, and 9 TENS sessions, and one week after the treatment was completed.
After 6 TENS sessions were completed, whole salivary flow rates increased stably until the end of 9 TENS sessions for the treatment group.
In the follow-up week after treatment, there was significant increase as well. However, significant improvement in dry mouth intensity was observed at all posttests than that at pretreatment in both groups. Whole salivary flow rates and dry mouth intensity improving were only observed during and one week after the TENS sessions.
14 International Journal of Dentistry Iovoli et al. 2020 [112] Patients treated with radiotherapy with or without chemotherapy for head and neck cancer (N � 30), with at least grade 1 or 2 symptomatic dry mouth Patients randomly assigned to receive ALTENS four-times weekly for 6 weeks or two times weekly for 12 weeks.
-XeQoLS was administered at 6, 9, 15, and 21 months from the start of ALTENS treatment. A linear model was used to model the overall XeQoLS score at the 15month endpoint.
is study demonstrates that both ALTENS regimens are safe, well tolerated, and appear to be equally effective.
Koike et al. [113] Healthy adults (N � 20) Electrical stimulation was applied at constant strength for 60 minutes to the suprahyoid muscles using VitalStim ® .

Increase in saliva flow
was promoted after NMES. erefore, NMES may have effects on patients with xerostomia.
promising therapy for either preserving or restoring vision in several retinal and optic nerve diseases [76].
Electrostimulation of the salivary glands and acupuncture aim to increase the production of saliva. In ES, a handheld battery-operated device is used to provide an electrical stimulus to the hard palate or dorsum of the tongue. Alternatively, a transcutaneous electrical nerve stimulation (TENS) device may be utilized by connecting the electrodes to the skin and may be used either in clinical setting or in the patient's home. Acupuncture and ES have been shown to exert both clinical and biological effect with regard to the treatment of dry mouth [44,77]. It has been demonstrated that application of electrical impulses to one or more arms of the salivary reflex arch may result in increased secretion of saliva [43]. ES of the lingual nerve, i.e., the efferent trigeminal fibers, may stimulate the sublingual and submandibular glands to increase salivation [44]. Regarding acupuncture, it is suggested to induce physiological effects such as increased peripheral blood flow and stimulation of the autonomic nervous system, which in turn may lead to increased production of saliva [78]. e beneficial effects of noninvasive ES in patients with xerostomia due to Sjögren's syndrome and radiation therapy have been reported previously, which sparked a research interest in the effects of ES in clinical studies for treating dry mouth [79].
e methods include therapies such as acupuncture and acupuncture-like TENS [80], both of which focus on specific points in and around the head and neck region and aim to stimulate the parasympathetic innervation of salivary glands. e first study on acupuncture for the treatment of xerostomia was reported in 1981 [81], and since then, many studies using this method have reported an increase in salivary flow rate in both healthy and diseased patients (Table 1). Blom and collaborators showed that the effects of acupuncture resulted in relief for patients who have undergone head and neck radiation therapy and in individuals with Sjogren's syndrome.
e study also demonstrated that the relief reported by the patients continued for up to six months posttreatment [86]. Another study reported that the use of acupuncture in patients with xerostomia increased the amount of calcitonin gene-related peptide in saliva [85], a protein known to positively affect the salivary flow and provide beneficial trophic effects on the oral mucosa. ree other controlled trials studied the therapeutic efficacy of acupuncture in patients that exhibited radiationinduced xerostomia [84,90,96]; however, they all exhibited the high risk of bias due to the overall poor reporting of blinding and randomization. A single-blinded study showed no significant difference in salivary flow in the active acupuncture group compared with control patients (sham acupuncture) after six weeks of twice-a-week acupuncture treatment [90]. Furthermore, Simcock et al. investigated the effects of eight weeks of once-a-week acupuncture compared to the effects of the use of artificial saliva, and they reported an improvement in xerostomia symptoms in acupuncture patients compared to controls [96]. However, in this study, the magnitude of the improvement, as well as clinical significance, was indistinct. No statistical difference in salivary (i) flow between individuals randomized to twelve weeks of real or sham acupuncture was also reported by Blom et al. in 1996 [84]. A recent study from 2019, a randomized clinical trial, found that true acupuncture resulted in significantly fewer and less severe symptoms one year after treatment vs standard care control and sham acupuncture in radiationinduced xerostomia patients, although authors reported inconsistence in results with sham acupuncture and suggested further research to confirm their findings clinically [114]. Acupuncture-like TENS perform the same objective as acupuncture without using the needles and has been shown to be effective. Wong and colleagues utilized a method termed Codetron to deliver electric nerve stimulation twice a week for six weeks to patients with symptomatic xerostomia resulting from radiation therapy [87]. ey evaluated the residual salivary function and the results demonstrated statistically significant improvements in both subjective complaints of dry mouth and salivary flow rates for up to six months after treatment [81]. Another study investigated the effects of twelve weeks of acupuncture-like TENS (twice per week for a total of 24 sessions of 20 min each) versus pilocarpine and showed no significant difference in salivary flow or xerostomia-related quality of life scale score between the groups [102]. However, this study lacked the detailed information regarding the blinding, sequence generation, and allocation concealment.

Conclusion and Future Perspectives
Xerostomia, a symptom of dry mouth, is a condition that at present has no definitive means for treatment. Several inductive and palliative treatment approaches appear to be effective for reducing the morbidity associated with xerostomia. Most of the available treatment options are quite simply transient and are not considered to be an optimal treatment option. e present review has its limitations. e studies included in the work were reported between 1981 and 2021 and the patient population has changed during this time. Furthermore, the radiotherapy modalities have also progressed, where patients included in the most recent studies receive lower radiation dosage to salivary tissues.
So far, there is poor evidence on the effects of any of the interventions included in this review on patients with xerostomia. A number of patients with xerostomia show some indications of positive outcomes of these treatments, and the adverse effects of both ES and acupuncture have been reported as mild and transient. In patients who have undergone radiotherapy, the acupuncture is shown to increase salivation. However, in patients with Sjogren's syndrome, the effects of ES devices seem to be elusive. Moreover, due to the instability of the findings in relation to longevity of clinical effect, patient satisfaction, quality of life, and the clinical effectiveness of such treatments, the results remain unclear. Further well-designed and conducted double-blind studies are warranted in order to understand the benefits of these treatment modalities ( Figure 1).

Conflicts of Interest
e authors declare no conflicts of interest.

Authors' Contributions
AT, AM, MH, TPU, and AS equally contributed to the conception, design, data acquisition, and interpretation, and drafted and critically revised the manuscript. All authors gave their final approval and agreed to be accountable for any aspect of the present review.