LIGHT BRUSH AND METHOD OF USE

Abstract

A light device includes an elongated arm comprising a plurality of light emitting diodes (“LEDs”) disposed at a first end of the elongated arm and configured to be positioned inside an oral cavity and to deliver one of a plurality of types of light treatments to the inside of the oral cavity according to a selected one of a plurality of operating modes. The light device further includes a body coupled to the elongated arm at a second end of the elongated arm. The body includes a battery for providing power to the LEDs. The body further includes a mode module coupled to the battery and the plurality of LEDs and configured to deliver power from the battery to at least one of the plurality of LEDS based on the selected operating mode.

Description

BACKGROUND

The oral cavity is the major reservoir for a variety of pathogens including bacteria, fungi and viruses. Dental plaque acts as a nucleus for bacteria and microorganisms that inhabit the enamel of teeth or gum line. Tongue-coating has also been associated as a risk indicator of aspiration pneumonia in edentate subjects.

Aggressive oral hygiene has been reported as being able to reduce pneumonia risk between 34-83% in high risk adults and appears to be an intervention method to reduce gastric and oral bacteria colonization. The Centers for Disease Control (CDC) has acknowledged the interplay between oral bacteria and health-care related pneumonia and stated that it was prudent for health-care facilities to implement a comprehensive oral-hygiene program. Education of health care workers to prevent pneumonias, interruption of transmission of microorganisms, and modifying host risk for infection have all received a CATEGORY 1A Grade by the U.S. Prevention Task Force. Dental caries is one of the most prevalent chronic diseases in the population worldwide, affecting 60-90% of school-aged children and almost 100% of the adult population.

Historically, implementing and being consistent with an oral care regimen in healthcare and home settings has been unsuccessful due to incomplete oral assessment tools, misconceptions on the importance of following oral care and hand hygiene, ineffective types of oral care products typically used in health care settings (e.g., swabs or sponges), patient resistance, “sensory-related” factors associated in special needs populations, and time.

SUMMARY

A light treatment device includes a light dome comprising a plurality of light emitting diodes (“LEDs”) and configured to be positioned inside an oral cavity and to deliver a plurality of types of light treatments to the inside of the oral cavity. The light treatment device further includes an elongated arm coupled to the light dome at a first end of the elongated arm and configured to maintain the light dome inside the oral cavity while the light dome delivers the light treatment. The light treatment device further includes a body coupled to the elongated arm at a second end of the elongated arm. The body includes a battery for providing power to the LEDs. The body further includes an interface for receiving a selection of an operating mode corresponding to one of the plurality of types of light treatments. The light treatment device further includes a mode circuitry coupled to the battery, the interface, and the plurality of LEDs and configured to deliver power from the battery to at least one of the plurality of LEDS based on the selected operating mode.

A method for delivering light treatment to an oral cavity includes providing a light treatment device comprising light dome, the light dome comprising a plurality of light emitting diodes (“LEDs”) and configured to be positioned inside an oral cavity and to deliver a plurality of types of light treatments to the inside of the oral cavity based on a selected mode of operation. The method further includes selecting a mode of operation of the light treatment device. The method further includes inserting the light treatment device into an oral cavity. The method further includes applying light treatment to the oral cavity based on the selected mode. The method further includes removing the light brush from the oral cavity.

A light device includes an elongated arm comprising a plurality of light emitting diodes (“LEDs”) disposed at a first end of the elongated arm and configured to be positioned inside an oral cavity and to deliver one of a plurality of types of light treatments to the inside of the oral cavity according to a selected one of a plurality of operating modes. The light device further includes a body coupled to the elongated arm at a second end of the elongated arm. The body includes a battery for providing power to the LEDs. The body further includes a mode module coupled to the battery and the plurality of LEDs and configured to deliver power from the battery to at least one of the plurality of LEDS based on the selected operating mode.

BRIEF DESCRIPTION OF THE DRAWINGS

In the accompanying drawings, structures are illustrated that, together with the detailed description provided below, describe exemplary embodiments of the claimed invention. Like elements are identified with the same reference numerals. It should be understood that elements shown as a single component may be replaced with multiple components, and elements shown as multiple components may be replaced with a single component. The drawings are not to scale and the proportion of certain elements may be exaggerated for the purpose of illustration.

FIG. 1 illustrates an example light brush.

FIG. 2 illustrates an example side view of the example light brush of FIG. 1

FIG. 3 illustrates a front view of an example light dome of an example light brush.

FIG. 4 illustrates a block diagram of an example light brush.

FIG. 5 illustrates an example method for using an example light brush.

DETAILED DESCRIPTION

Low level laser therapy (“LLLT”), and similarly light emitting diodes (“LEDs”), is an example therapeutic modality for addressing oral bacteremia. A light brush described herein leverages LED technology to address bacteria/plaque build-up on the tongue, cheeks, and dental caries on teeth. The light brush is used intraorally to address oral tissue health by reducing signs and symptoms associated with bacteria, plaque and dental carries. The light brush was developed to provide an efficient instrument to help manage oral tissue health by reducing signs and symptoms associated with bacteria, plaque and dental carries for a large majority of populations and conditions. In particular, by using the light brush to apply different combinations of LED for different periods of time in order to deliver specific amounts of radiant energy, various conditions across various populations may be addressed in a cost-effective and efficient manner.

FIG. 1 illustrates an example light brush 100. The light brush 100 includes an arm 102 having a light dome 104 and configured to extend from a base 106 or a handle to aid in delivering light to a desired target location inside an oral cavity. In one example, the arm 102 is configured to be removable, thus being disposable and replaceable. For example, the arm 102 may be replaced if the light dome 104 of the arm 102 stops functioning as expected. In another example, the arm 102 may be interchanged with an alternate arm 102 having a light dome 104 capable of delivering an alternative light.

The arm 102 in combination with light dome 104 is configured to be substantially flat, as illustrated in a profile view of the light brush 100 in FIG. 2. A flat profile enables the arm 102 and the light dome 104 to be positioned inside a target location of a patient's oral cavity while minimizing discomfort to the patient. The flat profile also enables gentle positioning of the arm 102 and the light dome 104 inside a target location when handling and maneuvering the light brush 100 via the base 106.

Referring back to FIG. 1, the light brush 100 further includes a power button 108 positioned on the handle 106 and configured to enable the light brush 100 to turn on an off. The light brush 100 includes a battery (not shown) to provide power. The battery may be removable, in one example. The battery may be rechargeable, in one example.

In one example, the light brush 100 is configured to deliver light in multiple modes, each mode being associated with a different combination of light sources, and thus a different treatment type. In one example, the light brush 100 provides a red light source and a blue light source via the light dome 104. The red light provides restorative action, healing and pain relief, while the blue light source helps eradicate surface bacteria, as measured by a pH level, and in particular to reduce the appearance of “tongue plaque” on the surface area of the tongue. Thus, the light brush 100 may be configured to deliver red light to a target location while operating in a first mode and to deliver blue light to the target location while operating in a second mode. In one example, the light brush 100 may be configured to deliver a combination of red light and blue light to the target location while operating in a third mode.

In one example, the light brush 100 includes a first LED light indicator 110 for indicating when the light brush 100 is operating in a first mode. The light brush 100 includes a second LED light indicator 112 for indicating when the light brush 100 is operating in a second mode. The light brush 100 includes a third LED light indicator 114 for indicating when the light brush 100 is operating in a third mode. It should be appreciated that although three LED light indicators 110, 112, and 114 are illustrated, the light brush 100 may include any suitable number of LED light indicators corresponding to the number of modes which the light brush 100 is configured to operate in. In one example, the LED light indicators 110, 112, and 114 may also function as push buttons for selecting the corresponding operating modes of the light brush 100. In one example, the power button 108 may be configured to enable selection of an operating mode. For example, pushing the power button 108 once may turn the light brush 100 on, while pushing the power button 108 after the light brush 100 is powered on may enable cycling through the different operating modes.

To enable different operating modes, the light dome 104 is configured to include a plurality of LED light sources. FIG. 3 illustrates a front view 300 of an example light dome, such as the light dome 100 of FIG. 1. The front view 300 includes six light sources 302, 304, 306, 308, 310, and 312. A rear view (not shown) has an identical layout including six additional light sources, for a total of 12 light sources. Thus, the example light dome is a front-to-back light dome meaning it exposes light sources on both the front side and the back side.

In particular, the example light dome includes three red light sources and three blue light sources on the front side 300, all arranged vertically. More particularly, the light dome includes a first red LED light source 302 near the top of the front side 300. A first blue LED light source 308 is positioned below the first red LED light source 302. A second red LED light source 304 is positioned below the first blue LED light source 308. A second blue LED light source 310 is positioned below the second red LED light source 304. A third red LED light source 306 is positioned below the second blue LED light source 310. A third blue LED light source 312 is positioned below the third red LED light source 306.

A back side (not shown) is a mirror image of the front side 300 and includes an identical arrangement of LED light sources. It should be appreciated that the arrangement of LEDs described is one example embodiment. A light dome, such as the light dome 104 of FIG. 1 may include any suitable number and arrangement of LEDs.

While operating in first mode of operation, the red LED light sources 302, 304, and 306 on the front side 300, as well as the red LED light sources on the back side (not shown), are turned on to emit light while the blue LED light sources 308, 310, and 312 on the front side 300, as well as the blue LED light sources on the back side (not shown), are turned off. While operating in second mode of operation, the red LED light sources 302, 304, and 306 on the front side 300, as well as the red LED light sources on the back side (not shown), are turned off while the blue LED light sources 308, 310, and 312 on the front side 300, as well as the blue LED light sources on the back side (not shown), are turned on to emit light. While operating in a third mode of operation, all 12 LED light sources, including the red LED light sources 302, 304, and 306 on the front side 300, the blue LED light sources 308, 310, and 312 on the front side 300, as well as the red and blue LED light sources on the back side (not shown), are turned on to emit light.

It should be appreciated that the red LED light sources 302, 304, and 306 on the front side 300, the blue LED light sources 308, 310, and 312 on the front side 300, as well as the red and blue LED light sources on the back side (not shown), may be turned on and off in any suitable combination in while operating in alternative operating modes not described herein.

Thus, by adjusting the mode of operation, the light brush 100 can be configured to either to provide pain relief and treatment of inflammation, to provide treatment to eradicate surface bacteria, and to reduce the appearance of “tongue plaque” on the surface area of the tongue. By incorporating red/blue light sources on both the front and back of the light dome 300, the light brush is able to more effectively deliver light to a desired target location. In one example, the light dome 300 is configured to emit light from the front side 300 and the back side simultaneously.

In one example, the blue LED light sources 308, 310, and 312 emit a 415 nm blue. In one example, the red LED light sources 302, 304, and 306 emit a 660 nm red. In one example, the light brush 100 is configured to emit a combined light at 1 J/cm². In one example, the treatment intensity may be adjusted by turning on only a portion of the light sources.

In another example, the treatment intensity may be adjusted by controlling the length of time the light brush 100 emits light to a target location. In one example, the light brush 100 may include a time (not shown) to time the amount of time light is being delivered to a target location. In one example, the light brush 100 may include a user feedback mechanism (not shown) such an LED indicator or a vibration to notify a user when a desired length of time of treatment has been reached, indicating to turn off the light brush 100. In one example, the light brush 100 may be configured to automatically turn off and to stop emitting light upon the timer reaching the desired length of time of treatment.

It should be appreciated that, although the example light dome 300 is illustrated to include three red LED light sources 302, 304, and 306, and three blue LED light sources 308, 310, and 312 arranged in a vertical alternating pattern on the front side 300, and another three red LED light sources and three blue LED light sources arranged in a vertical alternating pattern on the back side (not shown), another example of a light dome (not sown) may include any suitable number of light sources, including any suitable combination of colors of light sources, arranged in any suitable pattern.

It should be appreciated that although the example light brush 100 describe herein may resemble a traditional tooth brush, the light brush 100 does not include bristles as a traditional tooth brush. Accordingly, the light brush 100 provides waterless treatment with no bristles or specialized toothpaste simultaneous to providing light treatment to the global target region inside the oral cavity.

It should be appreciated that, although the example light brush 100 is described herein with a configuration of LED light sources for treating pain eradicate surface bacteria, and reduce the appearance of “tongue plaque” on the surface area of the tongue within an oral cavity, the light brush 100 may be configured with LED light sources for performing additional or alternative functions. For example, the light brush 100 may be configured with LED light sources for improving circulation and oxygenation in the oral cavity of a patient.

FIG. 4 illustrates a block diagram of an example light brush 400, such as the light brush 100 of FIG. 1. The light brush 400 includes an input interface module 402 for receiving input from a user. Input may include, for example, request to power the light brush 400 on or off or to switch operating modes of the light brush 400. The input interface module 402 may include one or more buttons, for example, or other suitable mechanisms for receiving user input.

The light brush 400 includes an LED light source 406 for providing light treatment to a patient. The light brush includes a battery 404 for powering the LED light source 406. The battery 404 may be rechargeable in one example. The battery 404 may be removable in one example. The LED light source 406 may include any suitable combination of LEDS and colors of light sources. In one example, the LED light source 406 includes six 415 nm blue LEDs and six 660 nm red LEDs.

The light brush 400 includes a mode module 408 configured to turn on and off the LED light source 406 according to a mode provided by the input interface 402. The mode module 408 may include circuitry coupled to the battery 404 and configured to deliver power to the LED light source 406 from the battery according to the provided mode. In one example, the light brush 400 includes a timer module 410 configured to keep track of the amount of time that the LED light source 406 is emitting light for a given treatment. The timer module 410 may be configured to reset automatically upon the light brush 400 being powered on or off or upon the mode module 408 changing a mode of the light brush 400, for example.

The light brush 400 includes a feedback interface module 412 configured to provide user feedback. User feedback may include, for example, indication of a current mode of operation of the light brush 400 or the expiration of a desired treatment time as determined by the timer module 410. The feedback interface module may include an LED display, a vibration device, a speaker for providing an audible feedback, or another suitable mechanism for providing user feedback.

FIG. 5 illustrates a method for using a light brush, such as the light brush 100 of FIG. 1. At 502, a mode of operation for of the light brush is selected. In one example, a mode also includes a prescribed time for administering the light treatment to the patient. A mode may be selected via an input interface, such as the input interface module 402 of FIG. 4. A mode may be selected according to various factors. For example, depending on whether the intent is to treat a target area to improve the appearance of the surface area of tongue or to improve pH of the oral cavity will dictate the selection of the operating mode of the light brush, and in particular the type(s) of light to be delivered to the target area. The age and type of patient may also dictate the selection of the operating mode. For example, a child patient may require treatment for a shorter duration of time in order to achieve desired results as compared to a duration of time required for treating an adult patient to achieve the desired results. Moreover, the severity of a condition may also dictate the treatment mode. Additionally, maintenance of an oral cavity may require a different operation mode as compared to treatment of a condition of an oral cavity.

At 504, the light brush is inserted in an oral cavity of a patient and positioned such that light from a light dome of the light brush is directed towards a target location inside the oral cavity. At 506, the light brush is turned on and light is delivered to the target area at the selected mode for a prescribed length of time. In one example, an ideal length of time for delivering light to a target area is in a range between 15-60 seconds. Thus, between 15-60 J/cm² of light is delivered as part of a treatment. At 508, once the prescribed treatment time has expired, the light brush is removed from the oral cavity.

In one example, a treatment protocol may require multiple light treatments over the course of a day or multiple days. Thus, in one example, the method 500 described herein may be repeated as needed according to a prescribed frequency.

In one example, selecting a mode of operation comprises determining a severity level or a risk factor associated with an oral cavity condition for a particular patient. The determined severity levels may be translated to an overall risk factor score, which may then be used to determine a treatment protocol. For example, a patient may be assigned a first score, or range of scores, if the patient is determined to have zero to very little risk factors associated with an oral cavity condition. The patient may be assigned a second score, or range of scores, if the patient is determined to have mild risk factors associated with the oral cavity condition. A patient may be assigned a third score, or range of scores, if the patient is determined to have severe risk factors associated with the oral cavity condition. Factors used to assess a patient and determine a score may include, for example: determining a level of care, including measuring dependency for feeding, dressing, and mobility; determining cognitive/health status, including measuring areas that contribute to level of “alertness”, physiological factors (e.g., respiration/digestion); swallowing function; and interventions that present with global, pre/post static change (e.g., post effects of RX, CA, alcohol/tobacco abuse); determining pH of the Oral Cavity, including measuring acidic vs alkaline levels across areas (e.g., cheeks, gumline, tongue); and determining an oral/dental status, including measuring conditions of the oral cavity (e.g., tooth/tongue plaque; tissue and teeth conditions; saliva output).

The mode of operation of the light brush, and therefore the protocol for treating the patient with the light brush may be adjusted according to the determined score. For example, Table 1 illustrates example protocols for using a light brush, such as the light brush 100 of FIG. 1, for treating a patient with a moderate risk factor score associated with aspiration pneumonia, while Table 2 illustrates example protocols for using a light brush, such as the light brush 100 of FIG. 1, for treating a patient with a severe risk factor score associated with aspiration pneumonia.

TABLE 1
Protocols for using a light brush for treating a patient with a moderate risk
factor score associated with aspiration pneumonia.
Population	Setting	Instructions/Duration	Frequency	Example Schedule	Maintenance
Child (6 years	#3:	Place the device in the	1-2 times a	Sunday: Red/Blue	When global
or older) or	Red/Blue	mouth. Ensure that the	week. It is	combo (AM or PM)	Oral/Dental
fragile	combo	flat head hovers over	recommended	Monday: No	scores reduce
teen/adult		the tongue area and the	to wait 1-2	application	to .9 or lower,
		neck of the device	days between	Tuesday: No	it is
		rests between the teeth.	applications.	application	recommended
		Close the lips and run		Wednesday: Red/Blue	to use this
		the device for 60		combo (AM or PM)	setting one
		seconds. Do this one		Thursday: No	time a day, 1-
		time a day, preferably		application	2 time a week
		in the morning.		Friday: No application	for
				Saturday: Reassess for	maintenance.
				global Oral/dental	If the global
				scores.	Oral/Dental
					score does
					not change,
					continue with
					this schedule
					until the
					global score
					is .9 or lower.
					When global
					Oral/Dental
					scores reduce
					to .9 or lower,
					it is
					recommended
					to use this
					setting one
					time a day
					once a week
					for
					maintenance.
Adult (18 years	#3:	Place the device in the	2-3 times a	Sunday: Red/Blue	When global
and older)	Red/Blue	mouth. Ensure that the	week. Wait 1-	combo (AM or PM)	Oral/Dental
	Combo	flat head hovers over	2 days	Monday: No	scores reduce
		the tongue area and the	between	application	to .9 or lower,
		neck of the device	treatment	Tuesday: Red/Blue	it is
		rests between the teeth.		combo (AM or PM)	recommended
		Close the lips and run		Wednesday: No	to use this
		the device for 60		application	setting one
		seconds. Do this 1-2		Thursday: Red/Blue	time a day, 1-
		times a day, preferably		combo (AM or PM)	2 time a week
		in the morning and		Friday: No application	for
		evening.		Saturday: Reassess for	maintenance.
				global Oral/dental	If the global
				scores.	Oral/Dental
					score does
					not change,
					continue with
					this schedule
					until the
					global score
					is .9 or lower.
					When global
					Oral/Dental
					scores reduce
					to .9 or lower,
					it is
					recommended
					to use this
					setting one
					time a day, 1-
					2 time a week
					for
					maintenance.

TABLE 2
Protocols for using a light brush for treating a patient with a severe risk
factor score associated with aspiration pneumonia.
Population	Setting	Instructions/Duration	Frequency	Example Schedule	Maintenance
Child (6 years	#1: Blue	Place the device in the	It is	Sunday: Blue	When global
or older) or	(1-2 times	mouth. Ensure that the	recommended	(AM)/Blue (PM)	Oral/Dental
fragile	a week)	flat head hovers over	to wait one day	Monday: No	scores reduce
teen/adult	#2 Red:	the tongue area and the	to apply the red	application	to 1.5 or
	(1-2 times	neck of the device	application after	Tuesday: Red	lower, change the
	a week)	rests between the teeth.	using the blue	(AM)/Red (PM)	LightBrush
		Close the lips and run	application and	Wednesday: No	setting to #3.
		the device for 60	vice-versa.	application	It is
		seconds. Do this two (2)		Thursday: Blue	recommended
		times a day, preferably		(AM)/Blue (PM)	to use this
		in the morning and		Friday: No application	setting one
		evening.		Saturday: Red	time a day, 1-2
				(AM)/Red (PM)	times a week, with a
				Recalculate for	“rest” a day
				the global	in between.
				Oral/Dental	If the global
				score to	Oral/Dental
				determine next	score does
				course of action.	not change,
					continue one
					more week
					with the
					initial
					settings,
					frequency, and
					schedule.
					When global
					Oral/Dental
					scores reduce
					to 1.5 or lower,
					change the
					LightBrush
					setting to #3.
					It is
					recommended to use
					this setting one
					time a day, 1-2 times
					a week, with a
					“rest” a day
					in between.
Adult (18 years	#1: Blue	Place the device in the	It is	Sunday: Blue	When global
and older)	(1-2 times	mouth. Ensure that the	recommended	(AM)/Blue (PM)	Oral/Dental
	a week)	flat head hovers over	to wait one day	Monday: No	scores reduce
	#2 Red:	the tongue area and the	to apply the red	application	to 1.5 or lower,
	(1-2 times	neck of the device	application after	Tuesday: Red	change the
	a week)	rests between the teeth.	using the blue	(AM)/Red (PM)	LightBrush
		Close the lips and run	application and	Wednesday: No	setting to #3.
		the device for 60	vice-versa.	application	It is
		seconds. Do this two (2)		Thursday: Blue	recommended
		times a day, preferably		(AM)/Blue (PM)	to use this
		in the morning and		Friday: No application	setting one
		evening.		Saturday: Red	time a day, 1-2
				(AM)/Red (PM)	times a week, with a
				Recalculate for	“rest” a day
				the global	in between.
				Oral/Dental	If the global
				score to	If the global
				determne next	score does
				course of action.	not change,
					continue one
					more week
					with the
					initial settings,
					frequency, and
					schedule.
					When global
					Oral/Dental
					scores reduce
					to 1.5 or lower,
					change the
					LightBrush
					setting to #3.
					It is
					recommended to use
					this setting one
					time a day, 1-2 times
					a week, with a
					“rest” a day
					in between.

To the extent that the term “includes” or “including” is used in the specification or the claims, it is intended to be inclusive in a manner similar to the term “comprising” as that term is interpreted when employed as a transitional word in a claim. Furthermore, to the extent that the term “or” is employed (e.g., A or B) it is intended to mean “A or B or both.” When the applicants intend to indicate “only A or B but not both” then the term “only A or B but not both” will be employed. Thus, use of the term “or” herein is the inclusive, and not the exclusive use. See, Bryan A. Garner, A Dictionary of Modern Legal Usage 624 (2d. Ed. 1995). Also, to the extent that the terms “in” or “into” are used in the specification or the claims, it is intended to additionally mean “on” or “onto.” Furthermore, to the extent the term “connect” is used in the specification or claims, it is intended to mean not only “directly connected to,” but also “indirectly connected to” such as connected through another component or components.

While the present application has been illustrated by the description of embodiments thereof, and while the embodiments have been described in considerable detail, it is not the intention of the applicants to restrict or in any way limit the scope of the appended claims to such detail. Additional advantages and modifications will readily appear to those skilled in the art. Therefore, the application, in its broader aspects, is not limited to the specific details, the representative apparatus and method, and illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the spirit or scope of the applicant's general inventive concept.

Claims

1. A method for delivering light treatment to an oral cavity, comprising, providing a light treatment device comprising light dome, the light dome comprising a plurality of light emitting diodes (“LEDs”) and configured to be positioned inside an oral cavity and to deliver a plurality of types of light treatments to the inside of the oral cavity based on a selected mode of operation;selecting a mode of operation of the light treatment device;inserting the light treatment device into the oral cavity;applying light treatment to the oral cavity based on the selected mode;removing the light treatment device from the oral cavity.

2. The method of claim 1, further comprising prescribing a time duration for the light treatment, wherein applying the light treatment comprises applying the light treatment for the prescribed time duration.

3. The method of claim 1, wherein applying the light treatment comprises applying a pain relief light treatment.

4. The method of claim 1, wherein applying the light treatment comprises applying the light treatment for improving pH level inside the oral cavity.

5. The method of claim 1, wherein the plurality of types of light treatments comprise a treatment for reducing the appearance of tongue plaque on a surface area of a tongue.

6. The method of claim 1, wherein applying the light treatment comprises applying light emitting from six 415 nm blue LEDs at a combined 1 J/cm2.

7. The method of claim 1, wherein applying the light treatment comprises applying light emitting from six 660 nm red LEDs at a combined 1 J/cm2.

8. The method of claim 1, wherein the light dome is positioned at an end of an elongated arm, the light dome and the elongated arm having a flat profile without bristles or other structure protruding from the light dome to facilitate insertion thereof into the oral cavity, the method further comprising gently positioning the light dome in the oral cavity while minimizing discomfort to a recipient of the light treatment, and maintaining the light dome inside the oral cavity while the light dome delivers the light treatment inside the oral cavity with the light dome spaced from tissue inside the oral cavity during such treatment.

9. The method of claim 8, wherein the plurality of LEDs comprises at a first plurality of LEDs located on a first side of the light dome, and a second plurality of LEDs on a second side of the light dome that is opposite the first side, wherein applying the light treatment comprises applying light from the first side of the light dome and/or the second side of the light dome based on the selected mode.

10. The method of claim 9, wherein the first plurality of LEDs comprises at least one 415 nm blue LED and at least one 660 nm red LED, wherein the second plurality of LEDs comprises at least one 415 nm blue LED and at least one 660 nm red LED,wherein applying the light treatment comprises emitting light from at least one of the 660 nm red LEDs, emitting light from at least one of the 415 nm blue LEDs or emitting light from at both 660 nm red and 415 nm blue LEDs based on the selected mode.

11. The method of claim 8, wherein the recipient of the light treatment is a human or other animal.

12. A method comprising: inserting a flat head of a light treatment device into an oral cavity of a recipient's mouth, the head located at a distal end of an elongated arm of the light treatment device and having opposing side surfaces to provide a flat profile without bristles or other structure protruding from the head to facilitate the insertion of the head and a portion of the elongated arm into the oral cavity and enable gentle positioning thereof in the oral cavity of the recipient's mouth;selecting a mode of operation of the light treatment device to activate a plurality of light emitting diodes (“LEDs”) disposed on at least one of the opposing side surfaces of the head; anddelivering at least one type of light treatment to the oral cavity based on the selected mode while the LEDs are spaced from tissue inside the oral cavity during such treatment.

13. The method of claim 12, further comprising controlling a wavelength of light emitted from the plurality of LEDs based on the selected mode.

14. The method of claim 13, wherein the plurality of LEDs comprises at least one 415 nm blue LED and at least one 660 nm red LED on a first of the opposing side surfaces of the head, wherein the selected mode comprises one of a first mode to provide 660 nm red light treatment, a second mode to provide 415 nm blue light treatment and a third mode to provide both 660 nm red light and 415 nm blue light treatment.

15. The method of claim 14, wherein the plurality of LEDs further comprise a second plurality of LEDs on a second of the opposing side surfaces of the head, wherein the second plurality of LEDs comprises at least one 415 nm blue LED and at least one 660 nm red LED.

16. The method of claim 12, wherein the plurality of LEDs comprises at a first plurality of LEDs located on a first side of the light dome, and a second plurality of LEDs on a second side of the light dome that is opposite the first side, wherein applying the light treatment comprises applying a light treatment comprises applying light from the first side of the light dome and/or the second side of the light dome based on the selected mode.

17. The method of claim 16, wherein the first plurality of LEDs comprises at least one 415 nm blue LED and at least one 660 nm red LED, wherein the second plurality of LEDs comprises at least one 415 nm blue LED and at least one 660 nm red LED,wherein applying the light treatment comprises emitting light from at least one of the 660 nm red LEDs, emitting light from at least one of the 415 nm blue LEDs or emitting light from at both 660 nm red and 415 nm blue LEDs based on the selected mode.

18. The method of claim 12, further comprising automatically turning off and stop light from being emitted in response to a timer reaching a desired length of time for the light treatment.

19. The method of claim 12, further comprising providing user feedback to indicate at least one of the selected mode or expiration of a desired treatment time.

20. The method of claim 12, wherein the recipient of the light treatment is a human or other animal.