SPORTS HEALTH PERFORMANCE COMPOSITION

Information

  • Patent Application
  • 20200316004
  • Publication Number
    20200316004
  • Date Filed
    June 19, 2020
    4 years ago
  • Date Published
    October 08, 2020
    4 years ago
Abstract
A topical composition that includes L-arginine that is used as a sports health composition. The composition can further include forskolin. Disclosed is a method of using the topical composition.
Description
BACKGROUND

Athletes work hard to prepare and perform successfully throughout a competitive season or for major events. Unfortunately, many ignore or forget the performance benefits gained through including recovery strategies within their daily training programs. Indeed there is a tendency for many athletes to limit the use of recovery techniques to times when they are ill or injured. Yet recovery strategies have far more benefits for athletes than merely as tools to assist with rehabilitation or recuperation.


Recovery is one of the basic principles of training methodology (Rushall & Pyke, 1990) and it has two primary roles: The first concerns monitoring the athlete's adaptation to training and stress so that appropriate recovery strategies can be determined. The second relates to the selection of specific recovery techniques and strategies to minimize any residual fatigue from training and competing.


The responsible athlete will also monitor training adaptations through regular recordings in a training diary or log book. Maintaining a daily record is an essential training tool for all athletes as it enables them to learn how to evaluate their stress levels and their adaptive responses. Learning to recognize “how they feel” is one of the most important skills any athlete can acquire. Recordings of the quality of sleep, morning rest rate and morning body weight, and a daily rating of fatigue levels are four critical markers that should be recorded regularly by athletes.


Recovery Strategies: Management

There are four generic types of training and competition fatigue (Calder, 2003). There are Metabolic Fatigue (energy stores); Neural Fatigue of either or both the peripheral nervous system (localized force production) and central nervous system (drive/motivation) Psychological Fatigue (emotional and social stress factors); and Environmental Fatigue (climate and travel).


A good coach understands not only what is being stimulated through prescribed training sessions, but also what is being fatigued. The challenge is to recognize the type of fatigue and then select specific strategies to reduce and minimize this fatigue as soon as possible after the training or performance situation. There are three major specialty areas to include when designing appropriate recovery strategies for an athlete's training program.


Nutrition: Fluid and Fuel for Recovery

The most important nutritional consideration for recovery relate to fluid and fuel replacement strategies (Burke, 2000). Monitoring fluid loss so that it is kept to a minimum is essential. A bodyweight loss of two percent or more during exercise will result in a reduction in aerobic output. if an athlete becomes excessively dehydrated, not only can this be dangerous and lead to overheating their aerobic capacity can be reduced by up to six-percent.


Adequate supplies of glycogen in the muscle and in the liver are needed to support the energy demands and promote recovery for the next training session. Athletes can minimize the effects of metabolic fatigue by starting each session with their fuel tanks full. They can top-up during the event with sports drinks and take other carbohydrate and protein foods. Small amounts of protein taken with carbohydrates before, during, and after hard training, are also recommended to help minimize muscle protein breakdown as a result of heavy workloads (Tarnopolsky, 2000).


Nutritional supplements should be used with caution and sound scientific advice. Many coaches and athletes are pressured to use supplements and new products and it is often difficult to source reliable evidence-based information about what is appropriate and safe to use. A useful website for advice on this area is www.ais.org.au/nutrition


Physical Therapies

A wide variety of activities and therapies are used to assist with recovery from training fatigue. Unfortunately, many recovery techniques popular with athletes and coaches have not been extensively investigated by scientists so coaches and athletes often rely on anecdotal information about what is best to use. The following list is an indication of some of the most commonly used recovery techniques.


Rest: Passive Rest

Passive rest, particularly in the form of sleep, is an area that is not well understood by either coaches or athletes. Sleep is probably the most important form of recovery an athlete can have. A good night's sleep of seven to nine hours provides invaluable adaptation time for adult individuals to adjust to the physical, neurological, immunological and emotional stressors that they experience during the day. An adolescent experiencing heavy training and a growth spurt may need up to ten hours a night and athletes who are sick often need more sleep as a part of recuperation. However, too much sleep can be detrimental to performance as it can slow down the central nervous system and lead to increased levels of melatonin that can leave the athlete feeling slow and lethargic.


Rest: Active Rest

Active rest is much undervalued by athletes. The end of the loading component of the training session is an ideal time to introduce active recovery activities, although active rest strategies can also be interspersed easily throughout the session (i.e., sets and reps). Activities can be selected to fulfill several tasks. They can either help to recover the physiological state of the athlete (light jog, walk, swim or cycle to recover the lactate system), recover neural fatigue (light jostling/shaking of muscle groups), or used as a means of psychological and emotional restoration (light but different activities).


Cross-training can also be used as a form of active rest provided the work intensities are modest (light aerobic) and the exercise undertaken are different to those normally performed in training, e.g., pool work after a game. Rest days are essential. Ideally at least one day per week should be a non-training day. This allows time for physical and psychological recovery as well as time for other interests and personal and family relationships.


Hydrotherapies

A wide range of hydrotherapies have been in use restoratively for several thousand years. Spas, pools, steam rooms, cold pools, and contrast temperature protocols were used by the ancient Greeks and Romans.


One of the few published articles on the effectiveness of hydrotherapies comes from research with nationally ranked Finnish track and field athletes (Vitasalo et al., 1995). Researchers demonstrated that underwater massaging (using the jets in a spa) following plyometrics training helped athletes to maintain leg-explosiveness on the following day. In contrast, passive rest after such training resulted in a significant reduction in leg power.


The protocols used by the Finnish researchers were very similar to those used by the ancient Romans. Essentially, this routine involves first having a shower, followed by a spa (39 to 40° C.) for three minutes and then a cold shower or a plunge into a cold pool (10 to 15° C.) for 30 to 60 seconds. Warm immersion produces vasodilation of the peripheral circulation and the cold immersion encourages vasoconstriction. Three to five sets of this protocol producing rapid vasodilation and vasoconstriction will accelerate blood flow.


A contrast temperature following the same protocol as outlined above, was used by researchers from the University of Canberra in 1996 to measure lactate recovery in high-performance hockey players after a series of Wingate tests (Sanders, 1996). Results indicated that lactate levels were recovered equally fast by using either the contrast water immersion protocol or the active recovery protocol. Lactate recovery following passive rest was significantly slower.


Showering within five to ten minutes at the end of a training session is a good way to accelerate recovery of both lactates and peripheral neural fatigue. Contrasting temperatures can be achieved with a shower and bath at home or the use of a small paddling pool or tub for cold. immersion.


Sports Massage

Many claims are made about the benefits of sports massage and numerous research studies examining these claims have been undertaken over the last 15-20 years. Despite this there is not much evidence-based science to substantiate many claims that are made about the benefits of massage (Calder, 1990). What little information that does exist provides evidence for increased muscle and skin temperatures, leads to a relaxation response as demonstrated by a reduction in resting heart rates, blood pressure and a decrease in excitability of the motor-neuron pool. Improved mood states and feelings of well-being have been recorded in several studies and many athletes will use massage as both a means of relaxing physically and psychologically.


Acupuncture and Acupressure

Acupressure is often performed as an adjunct to sports massage but acupuncture requires more extensive qualifications and is less accessible and more expensive than massage. Both acupressure and acupuncture focus on applying pressure or stimulus to specific points located on 14 meridians (line patterns) on the body. http://smscsqlx.sasktelwebhosting.com/services/exphys/recoverystrategies.pdf


The products outlined in this application fit the unmet need for aids to improve “active rest” performance as well as actual performance during the sports activity.


SUMMARY

The present disclosure is generally directed to a product of a nitrous oxide (NO) donor that may be used to enhance both women's and/or men's sports health performance and active rest recovery. In one aspect of the invention is disclosed a topical composition comprising an effective amount of L-arginine with a base or carrier component and skin penetration enhancer, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.


In other aspects of the invention is disclosed a topical composition comprising an effective amount of L-arginine and forskolin with a base or carrier component and skin penetration enhancer, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.


In other aspects of the invention is disclosed a topical composition consisting essentially of an effective amount of L-arginine with or without forskolin with a base or carrier component and skin penetration enhancer, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.


In still other aspects is disclosed a topical composition consisting of an effective amount of L-arginine with a base or carrier component and skin penetration enhancer, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.


Also disclose is a method for dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise comprising delivering a topical composition to an area of the skin where desired, the topical composition comprising an effective amount of L-arginine with or without forskolin, with a base or carrier component and skin penetration enhancer.







DETAILED DESCRIPTION

The present disclosure is generally directed to a product of a nitrous oxide (NO) donor that may be used to enhance both women's and/or men's sports health performance and active rest recovery. An exemplary nitrous oxide donor can include L-arginine, which acts by keeping blood vessels dilated. The dilated blood vessels allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise. L-arginine also has several roles in the body such as assisting in wound healing, ensuring that cells divide properly, helping to remove ammonium from the body, facilitating immune function, and promoting the secretion of several hormones including glucagon, insulin, and growth hormone (The Natural Pharmacy, 1998.


Forskolin is a naturally occurring alkaloid derived from the Indian herb Coleus forskohlii that has been shown to induce smooth muscle relaxation and increase blood flow. Forskolin binds directly and stimulates adenylate cyclase increasing cAMP concentrations, and can directly reduce intracellular calcium concentrations in smooth muscle causing relaxation in a NO-independent pathway. Forskolin can optionally be used in compositions with L-arginine to enhance dissipation of lactic, thereby increasing sport performance via a NO independent pathway.


L-arginine may be provided as a free base, as L-arginine hydrochloride or as L-arginine alkyl (ethyl, methyl propyl, isopropyl butyl, isobutyl,) esters of L-arginine and salts thereof. Pharmaceutically acceptable salts include hydrochloride, glutamate, butyrate and glycolate.


Administration of L-arginine by intravenous infusion (IV) or orally at doses (6 to 30 gm) induced peripheral vasodilation in humans and improved endothelium-dependent vasodilation, resulting in improved muscle blood flow.

    • L-arginine oral (12 capsules of 0.5 gm of L-arginine HCL) was administered Bioavailability was 50 to 87% with a time to Cmax of 40 to 60 min
    • Mean Cmax: 6223 and 822 umol/L for 30 and 6 gm IV, and 310+/−152 umol/L for 6 gm oral
    • Half life 60 (IV) to 90 (PO) min
    • No significant changes in hemodynamics at 6 gm doses; blood pressure and total peripheral resistance were significantly decreased after 30 gm IV
    • Increased urinary cGMP and nitrate excretion (correlate with plasma concentrations) with 6 gm and 30 gm IV causing significant increases.


Numerous over the counter products (gels and creams) are available with or without other agents such as gensing, niacin and L-citrulline (concentrations up to 5%). Since an oral dose of 10 gm of L-arginine produces a peak arginine plasma concentration of 200 to 300 uM and the Km of NOS activity for endothelial cells is approximately 30 to 40 uM, a 10 gm oral dose produces plasma concentrations that are 10-fold above the Km. Therefore, topical administration of L-arginine needs to be delivered at concentrations greater than about 30 to 40 uM to achieve the desired physiological effects. Suitable topical formulations should deliver at least about 50 to 70 mg/L (50 to 70 ug/ml) to the endothelial cell membrane to achieve desired effective amounts of arginine free base. One skilled in the art would readily determine suitable amounts to be delivered in formulations comprising L-arginine hydrochloride or L-arginine alkyl (ethyl, methyl propyl, isopropyl butyl, isobutyl,) esters of L-arginine and salts thereof. In some embodiments, the L-arginine includes about 5 wt % to 60 wt %, about 15 wt % to 50 wt %, or about 20 wt % to 40 wt % of the total weigh of the topical composition.


In some embodiments, the composition can further include forskolin from about 0.01 to about 1 wt %, about 0.1 to about 0.5 wt %, or about 0.1 wt % based on the weight of the topical composition.


Base Components

The L-arginine is included with base or carrier components. The base components include glycols (e.g. propylene glycol USP, polyethylene glycol), oil-in water emulsions, water-in oil emulsions, lipophilic foams, water, anhydrous silicone base, lipophilic foam base, transdermal cream base and mineral oils. In some embodiments, the base component is from about 30 wt % to 80 wt %, about 40 wt % to 70 wt %, or about 50 wt % to 60 wt % based on the total weight of the topical composition. In some embodiments, the base components include base selected from oil in water emulsion, water in oil emulsion, anhydrous silicone base, lipophilic foam base, transdermal cream base, or transdermal gel base.


Those skilled in the art would readily understand how to prepare suitable topical compositions that are formulated with a transdermal cream base. A typical cream base may include commercially available components such as, for example, purified water, humectants, oil in water emulsifiers, lubricants, silicones, rheology enhancers, preservatives, vitamin E and liposomes.


Those skilled in the art would also readily understand how to prepare suitable topical compositions that are formulated with a transdermal gel base. A typical gel base may include commercially available components such as, for example, purified water, alcohols (benzyl alcohol, isopropyl alcohol, ethanol), nonionic and amphiphilic surfactants, emulsifiers cellulose ethers and cellulose derivatives, polyacrylate/polyalkenyl polyether derivatives, and pH adjusters (hydrochloric acid, sodium hydroxide).


Skin Penetration Enhancers

In some embodiments, the disclosed composition is delivered topically to the skin. Unfortunately, dermal and transdermal delivery can be limited by the permeability of the substance or composition. To enhance or improve the absorption or delivery of L-arginine through the skin, skin penetration enhancers may be included. Both chemical and/or physical approaches can be used to enhance the penetration of substances across the skin. A skin penetration enhancer may include compounds that assist in the effective delivery of a desired ingredient (e.g. L-arginine) into the skin. Exemplary skin penetration enhances include volatile oils (e.g. essential oils), fixed oils (e.g. fatty acids) and polysaccharides. Essential oils are volatile, odoriferous substances found in the flowers, fruit, leaves and roots of certain plants. Fatty acids, on the other hand, are composed of aliphatic hydrocarbon chains, which can be either saturated or unsaturated, and include a terminal carboxyl group.


Essential oils are a complex mixture of many diverse and unique chemical compounds. Essential oils can include compounds classified as:

    • nitrogen- and sulphur-containing compounds (e.g., allyl isothiocyanate found in mustard oil);
    • aromatic compounds, which are benzene derivatives (e.g., eugenol which is the main constituent of clove oil);
    • terpenes (e.g., 1,8-cineole in eucalyptus oil) and terpenoids; and
    • miscellaneous compounds (includes long-chain unbranched substances).


Exemplary essential oils include niaouli oil, eucalyptus oil, Alpinia oxyphylla oil, turpentine oil, sweet basil and tulsi oil, cardamom oil, peppermint oil, fennel oil, black cumin oil.


Terpenes, which is a constituent of an essential oil can be isolated from essential oils and are also suitable skin penetration enhancers. Terpenes do not have the aromatic character but contains carbon and hydrogen atoms with or without oxygen. Exemplary terpenes include the following classes along with specific examples in that particular class:











TABLE 1





Class
Exemplary Terpenes
Source







ACYCLIC
Geraniol and nerol
Geraniol is an unsaturated primary


MONOTERPENES

alcohol found in geranium and other


(Alcohols)

essential oils. It is found as esters and




as a glucoside, but mainly occurs in the




free form. Nerol is the isomeric alcohol




and is found in various essential oils,




primarily in neroli and bergamot oils




Palmarosa oil contains more geraniol




than any other oil and for nerol it is



Linalol
Linalol is found as (+)- and (−)-forms in




the oil of Linaloe (a plant found in




Central America), but can also be found




free and as esters in numerous other




essential oils. Rosewood oil contains




more linalol than any other oil.


MONOCYCLIC
Limonene
The optically active limonene is


MONOTERPENES

widespread in nature and is found in


(Hydrocarbons)

its (+)- and (−)- forms in various




essential oils such as bergamot,




caraway, lemon and orange oils. The




signature oils for d-limonene and l-




limonene is grapefruit and fleabane,


MONOCYCLIC
α-Terpineol
Found in many essential oils such as


MONOTERPENES

camphor, neroli and petitgrain oil. The


(Alcohols) Alcohols

signature oil is lemon eucalyptus.


related to α-terpineol



β-Terpineol
Isomeric with α-terpineol, but is not




isolated from natural sources. Found in




commercial terpineol.



γ-Terpineol
Second isomer of α-terpineol and is




found in at least one essential oil and




commercial terpineol.


MONOCYCLIC
Menthol
Menthol is a constituent of numerous


MONOTERPENES

peppermint oils and is found as its (−)-


(Alcohols) Alcohols

form.


derived from thymol


MONOCYCLIC
Carveol
Carveol is found in caraway oil.


MONOTERPENES


(Alcohols) Alcohols


derived from carvacrol


MONOCYCLIC
Menthone
(−)-form is found in numerous


MONOTERPENES

peppermint oils, (+)-form also occurs


(Ketones)

naturally.


Ketones related to


menthone



Pulegone
Found in pennyroyal and many




other essential oils as its (+)-



iso-Pulegone
Often an accompaniment of pulegone in




essential oils.



Piperitone
Occurs in numerous eucalyptus oils as




(+)- and (−)-forms.


MONOCYCLIC
Carvomenthone
Isomeric with menthone and is a


MONOTERPENES

saturated ketone. (−)-Form is found in


(Ketones)

numerous essential oils.


Ketones related to


carvomenthone



Carvone
Occurs in its (+)-, (−)- and (±)-forms and



Unsaturated
is the main constituent of caraway and



ketone
dill oils. It can also be found in spearmint


MONOCYCLIC
1,8-Cineole
Widespread in essential oils, particularly


MONOTERPENES

in eucalyptus and wormseed oil.


(Oxides)


BICYCLIC
α-Thujene
Found in numerous essential oils.


MONOTERPENES


(Hydrocarbons)


BICYCLIC
Car-3-ene
Found in several turpentine oils.


MONOTERPENES


(Hydrocarbons)


BICYCLIC
α-Pinene
Widespread in nature, found in most


MONOTERPENES

essential oils of Coniferae. It is the


(Hydrocarbons)

main constituent of turpentine oil.




Secreted by conifers, turpentine oil




consists of resinous material dissolved in



β-Pinene (Nopinene)
Isomeric with α-pinene. Its signature oil




is galbanum.


BICYCLIC
Verbenol, verbenone
Verbenol and verbenone has been found


MONOTERPENES
and verbanone
in nature, with the latter being found in


(Oxygenated


verbena oil. The signature oil for



derivatives)

verbenone is rosemary verbenone.


BICYCLIC
Camphor
Not widely distributed in nature, is the


MONOTERPENES

major constituent of camphor oil,


(Ketones - camphane

obtained from the leaves and wood of


group)

the camphor tree (Cinnamomum


BICYCLIC
Fenchone
Occurs as the optically active forms in


MONOTERPENES

fennel, thuja and cedar leaf oils.


(Ketones - fenchane


group


SESQUITERPENES
Farnesol
Widely distributed in flower oils, in


(Alcohol)

particular those of the acacia, cyclamen




and the rose.



Nerolidol
Isomeric with farnesol and found in




neroli oil.



(−)-Guaiol
A crystalline alcohol found in guaiacum




wood oil.



(+)-Cedrol
Cedarwood oil.



(−)-α-Bisabolol
Camomile oil.


SESQUITERPENES
Bisabolene
Widespread in nature, found in bergamot


(Hydrocarbon)

and myrrh oils. Also in many other




essential oils.



The Azulenes
All hydrocarbons are derived from



(Unsaturated
azulene (C10H8), a parent hydrocarbon.



hydrocarbons)
Most of those attained from natural




origin have the molecular formula




C15H18. Azulenes is responsible for the




blue color of certain essential oils, or




when essential oils become blue/violet




when undergoing processes which might



(+)-Longifolene
Tricyclic sesquiterpene found in tl



β-Caryophyllene
Main hydrocarbon constituent of clove oil.



(+)-Aromadendrene

Eucalyptus oil.




(+)-β-Cedrene
Cedarwood oil.


ACYCLIC
Phytol
Found in rosemary oil.


DITERPENES


(Alcohol)


ACYCLIC
Squalene
It is found in the unsaponifiable fraction


TRITERPENES

of shark liver oil and in several plant


(Hydrocarbon)

sources such as vegetable oils and several




fungi. Jasmine is the signature oil.









In some embodiments, the terpene menthol is used as a skin penetration enhancer in a composition containing L-arginine.


Exemplary fixed oils or fatty acids include fish oil, fatty acids from algae and phospholipids (e.g. phosphatidylglycerol, phosphatidylethanolamine, phosphatidylcholine, phosphatidylserine, phosphatidic acid, phosphatidylinositol.


Exemplary polysaccharides (polymer of simple sugars and their derivatives) as skin penetration enhancers include chitosan, Aloe vera gel or Aloe vera juice.


Other skin penetration enhancers can include methyl salicylate, capsaicin (trans-8-methyl-N-vanillyl-6-nonenamide, which is an alkaloid derived from hot chili peppers, belonging from the genus Capsicum of the Solanaceae family), vitamin E (α-tocopherol and methyl salicylate (oil of wintergreen or wintergreen oil is an organic ester naturally produced by many species of plants, particularly wintergreens).


Skin penetration enhancers such as terpenes and phospholipids can also be used to prepare vesicles (e.g. liposomes, ivansomes and ethosomes) for transdermal delivery. In other embodiments, essential oils can also be incorporated into patches for transdermal delivery. Exemplary oils can include any of the disclosed essential oils. In some embodiments, the essential oils used in patches include menthol oil patches, lemon grass oil, clove oil, eucalyptus oil or combinations thereof. The transdermal patches used can include matrix, microreservoir, reservoir, adhesive and membrane-matrix hybrid type patches.


In some embodiments, the topical composition may include L-arginine in any suitable form and includes menthol, methyl salicylate, or capsaicin with a base or carrier. In other embodiments, the topical composition includes L-arginine and menthol in a range of about 1 wt % to 16 wt %, about 4 wt % to 12 wt %, or about 6 wt % to 10 wt % based on the total weight of the topical. In still other embodiments, the topical composition includes L-arginine and methyl salicylate in a range of about 1 wt % to 30 wt %, about 5 wt % to 25 wt %, or about 10 wt % to 20 wt % based on the total weight of the topical, base carrier with about 30 wt % of methyl salicylate.


Electrical Stimulation & Related Devices

Like L-arginine, electrostimulation may also facilitate blood vessel dilation which allows lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise. Both L-arginine and electrostimulation may allow the delivery of alternative actives, such as pain relief medication into the deeper tissue because of the vasodilation that it produces. In contrast to electrophoresis which requires actives to be in the ionized state for delivery, L-arginine and electrostimulation may allow non-ionized actives to be absorbed to a greater extent than in their absence.


Electro-stimulation may be done with a conductive pad that is separated into 2 polarity regions. An oscillating pulse voltage ranging from 60 Volts to 1000 Volts is applied to pad electrodes and the signal is then transmitted into the muscle transdermal. This is usually the way it is done.


An advantage of using L-arginine and/or electro stimulation is that it may assist in reducing the amount of topical pain reliever needed to produce the same therapeutic effect and in some cases may even reduce the chance of chemical burns that some topical pain relievers may produce. In some embodiments, the topical composition is applied in combination with electro stimulation. In other embodiment provide a method for dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise comprising topically administering an effective amount of a topical composition consisting essentially of L-arginine to a subject in combination with use of a transdermal electrically polarized conductive pad attached to an electro-stimulation power controlled device, wherein the effective amount of L-arginine in combination with an electric field (or current) enhancing skin penetration allows lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.


Pain Relief Medication and Muscle Relaxers

The disclosed topical compositions may also include pain relief medications. Suitable pain relief medications may include non-narcotic analgesics, NSAIDS, COX-2 inhibitors, narcotic pain medication central analgesics, narcotic analgesics and aspirin, topical analgesics or topical anesthetics as well as combinations of these medications. Exemplary pain relief medications include:












Non-Narcotic Analgesics

















Acetaminophen




















NSAIDs (Non-Steroidal Anti-Inflammatory Drugs)

















Bromfenac



Diclofenac



Diflunisal



Etodolac



Fenoprofen



Flurbiprofen



Ibuprofen



Indomethacin



Ketoprofen



Ketorolac



Meclofenamate



Mefenamic Acid



Meloxicam



Nabumetone



Naproxen



Oxaprozin



Phenylbutazone



Piroxicam



Sulindac



Tolmetin




















COX-2 Inhibitors

















Celecoxib




















Narcotic Pain Medications (Painkillers)

















Buprenorphine



Butorphanol



Codeine



Hydrocodone



Hydromorphone



Levorphanol



Meperidine



Methadone



Morphine



Nalbuphine



Oxycodone



Oxymorphone



Pentazocine



Propoxyphene



Tapentadol




















Central Analgesics

















Tramadol



Tramadol and



Acetaminophen




















Combinations

















Butalbital,
Acetaminophen and
Aspirin, Caffeine,


Acetaminophen,
Codeine
and Dihydrocodeine


and Caffeine


Butalbital, Aspirin,
Dihydrocodeine,
Aspirin and


and Caffeine
Acetaminophen, and
Codeine



Caffeine


Butalbital, acetaminophen,
Hydrocodone and
Hydrocodone and


caffeine, and codeine
Acetaminophen
Aspirin


Hydrocodone
Oxycodone and
Oxycodone and


and Ibuprofen
Acetaminophen
Aspirin


Morphine/Naltrexone
Pentazocine and
Pentazocine and



Acetaminophen
Aspirin


Pentazocine/Naloxone
Propoxyphene and
Propoxyphene,



Acetaminophen
Aspirin,




and Caffeine



















Topical Analgesics

















Capsaicin




















Topical Anesthetics

















Benzocaine



Benzocaine/Menthol



Dibucaine



Lidocaine



Lidocaine/Prilocaine










The disclosed topical compositions may also include muscle relaxants; suitable muscle relaxant are described below


Skeletal Muscle Relaxants:

Suitable muscle relaxants are known to those skilled in the art and may be identified, for example, at internet net sites such as http://www.drugs.com/drug-class/skeletal-muscle-relaxants.html and http://www.md-health.com/Muscle-Relaxers.html


Homeopathic and Herbal Preparations

Suitable homeopathic and herbal preparations are also known to those skilled in the art and may be identified, for example, at internet net sites such http://www.wisegeek.org/what-are-the-different-types-of-over-the-counter-muscle-relaxant.htm. Homeopathic medications generally are based on the idea that you treat a disorder with the same ingredients that cause it, and this holds true for muscle relaxants. Rather than trying to block nerve signals or change the surface chemistry of damaged tissues, these medications typically look to “treat like with like,” intending to stop tension and pain with diluted forms of the very supplements that can cause these problems. Examples include Calcarea phosphorica, which may be helpful for neck and upper back pain and tension; kali carb, which is used to treat lower back pain; and Arnica, which may help relax overworked muscles.


A number of herbs and plant materials can also be used to form what is basically an all-natural over-the-counter muscle relaxant. Herbs like catnip, valerian, bergamot, licorice, basil and caraway are typically believed to have anti-inflammatory properties, which can help reduce joint swelling. Valerian, a flowering perennial plant, has been used since medieval times to treat neck tension. Other herbs, such as kava root, white willow, horsetail and devil's claw, do better at combating pain. Many of these natural alternatives can be found either combined or in isolation in health or wellness stores, and are commonly sold as teas, capsules, or powders.


Some people also find relief by increasing the vitamin and mineral content of their meals. Proper amounts of calcium and magnesium can often help relieve muscle pain, and magnesium can help repair damaged nerve endings, too. Other important vitamins and minerals that help act as muscle relaxants include silica, potassium, vitamin C and alpha lipoic acid.


OTC Muscle Relaxants for Back Pain

Acetaminophen is a multi-purpose antipyretic medicine that reduces fever and eases pain. Also referred to as paracetamol; acetaminophen has limited side effects and hence can be used safely. However proper guidance is always required and overdose of the drug is often associated with liver disorders, skin and allergic rash along with abdominal pain. However, the action of acetaminophen in management of muscle pains is fairly limited see, for example, http://www.simple-remedies.com/health-tips-3/otc-muscle-relaxants.html. A non-steroidal anti-inflammatory drug or NSAID is another over-the-counter relaxant for muscles.


Natural Muscle Relaxants as Alternate Pain Relief

The various limitations are risks associated with the use of OTC have resulted in a need to identify natural muscle relaxants which can provide sustained pain relief. Here are certain natural products that can be beneficial.


Rosemary oil can alleviate pain from muscle cramps and spasms when mixed in a warm bath. Massaging the affected part with rosemary oil can provide sustained relief. Chamomile Essential Oil is also considered to have similar effect and helps in management of muscle spasms, pain and joint aches.


Herb Catnip has a tranquilizing effect that can help reduce inflamed or swollen joints.


Homeopathic remedies are yet another famous pain relievers with treatments like Calcarea phosphorica, Arnica and Kali carb. These remedies need to be taken in low dosage and should be repeated over several times in a day.


Milk containing turmeric and honey. Turmeric has strong anti-inflammatory properties while honey helps in reducing inflammatory response. Milk is considered to be a mood food and helps reduce anxiety and irritability associated with the muscular pain. Magnesium and calcium supplements play a pivotal role in reducing muscular pain and muscle spasms.


Topical Formulations

The disclosed L-arginine may be formulated as a topical preparation. Topical formulations include creams, ointments, lotions, gels, foams, sprays and patches (transdermal). Typically, the skin surface on which the disclosed topical composition is applied could be on legs, arms, abdomen, or back as may be convenient to the user.


Suitably, the compositions are administered at least one a day (e.g., one a day, twice a day, three times a day, or the like.) for as long as desired, suitably on the order of days to weeks to months, or longer if desired.


Those skilled in the art will readily determine suitable dosages of the topical compositions to be applied for a variety of the disclosed applications and formulations.


The topical compositions disclosed herein may be packaged in any convenient package depending on the particular formulation. Suitable dispensing or packaging may include, for example, squeezable tubes, sachets, pouches, or single or multiple use containers.


The topical compositions of the present disclosure are suitably used to facilitate blood vessel dilation to allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.


Also disclosed is a method for dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise. The method includes applying or delivering the topical composition of L-arginine, base and skin penetration enhancers.


The topical compositions disclosed herein provide the advantages of increasing blood flow, dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise and for the ability to deliver the composition more selectively to a specific, desired site.


Some additional non-limiting embodiments are provided below to further exemplify the present disclosure:

  • 1. A topical composition comprising an effective amount of L-arginine with a base or carrier component and skin penetration enhancer, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.
  • 2. A topical composition consisting essentially of an effective amount of L-arginine with a base or carrier component and skin penetration enhancer, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.
  • 3. A topical composition consisting essentially of an effective amount of L-arginine with a base or carrier component and skin penetration enhancer and forskolin, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.
  • 4. A topical composition consisting of an effective amount of L-arginine with a base or carrier component, and skin penetration enhancer, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.
  • 5. A topical composition consisting of an effective amount of L-arginine with a base or carrier component, forskolin, and skin penetration enhancer, the composition capable of dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.
  • 6. The topical composition as in any one of the preceding embodiments, wherein the L-arginine comprises about 5 wt % to 60 wt %, about 15 wt % to 50 wt %, or about 20 wt % to 40 wt % of the total weigh of the topical composition.
  • 7. The topical composition as in any one of the preceding embodiments, wherein the L-arginine is L-arginine ethyl ester, L-arginine hydrochloride or a free base of L-arginine.
  • 8. The topical composition of embodiments 1-5 wherein the effective amount of forskolin comprises about 0.01-1 wt %, preferably about 0.1-0.5 wt %, or more preferably about 0.1 wt % based on the weight of the topical composition.
  • 9. The topical composition as in any one of the preceding embodiments, wherein the base components comprises from about 30 wt % to 80 wt %, about 40 wt % to 70 wt %, or about 50 wt % to 60 wt % based on the total weight of the topical composition.
  • 10. The topical composition as in any one of the preceding embodiments, wherein the base is selected from oil in water emulsion or water in oil emulsion, anhydrous silicone base, lipophilic foam base, transdermal cream base, or transdermal gel base.
  • 11. The topical composition as in any one of the preceding embodiments, wherein the skin penetration enhancers comprise essential oils, fatty acids, or polysaccharides.
  • 12. The topical composition as in any one of the preceding embodiments, wherein the skin penetration enhancers are selected from methyl salicylate, menthol, Arnica, capsaicin and hyaluronic acid.
  • 13. The topical composition as in any one of the preceding embodiments, wherein the skin penetration enhancers comprise about 1 wt % to 50 wt %, about 5 wt % to 40 wt %, or about 10 wt % to 35 wt % based on the weight of the topical composition.
  • 14. The topical composition as in any one of the preceding embodiments, wherein the skin penetration enhancers comprise methyl salicylate in a range of about 1 wt % to 30 wt %, about 5 wt % to 25 wt %, or about 10 wt % to 20 wt % based on the total weight of the topical composition.
  • 15. The topical composition as in any one of the preceding embodiments, wherein the skin penetration enhancers comprise menthol in a range of about 1 wt % to 16 wt %, about 4 wt % to 12 wt %, or about 6 wt % to 10 wt % based on the total weight of the topical.
  • 16. The topical composition as in any one of the preceding embodiments, wherein in topical composition is in the form of a gel, cream, ointment, foam, spray or patch.
  • 17. The topical composition as in any one of the preceding embodiments, wherein in topical composition further comprises a pain reliever and/or a muscle relaxant.
  • 18. A method for dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise comprising delivering a topical composition to an area of the skin where desired, the topical composition comprising an effective amount of L-arginine with a base or carrier component and skin penetration enhancer.
  • 19. The method of claim 18 or any one of the preceding embodiments, wherein the L-arginine is L-arginine ethyl ester, L-arginine hydrochloride or a free base of L-arginine.
  • 20. The method of claim 18 or any one of the preceding embodiments, wherein the base components comprises about 30 wt % to 80 wt %, about 40 wt % to 70 wt %, or about 50 wt % to 60 wt % based on the total weight of the topical composition.
  • 21. The method of claim 18 or any one of the preceding embodiments, wherein the base is selected from oil in water emulsion or water in oil emulsion, anhydrous silicone base, lipophilic foam base, transdermal cream base.
  • 22. The method of claim 18 or any one of the preceding embodiments, wherein the skin penetration enhancers comprise essential oils, fatty acids, or polysaccharides.
  • 23. The method of claim 18 or any one of the preceding embodiments, wherein the skin penetration enhancers are selected from methyl salicylate, menthol, Arnica, capsaicin and hyaluronic acid.
  • 24. The method of claim 18 or any one of the preceding embodiments, wherein the skin penetration enhancers comprise about 1 wt % to 50 wt %, about 5 wt % to 40 wt %, or about 10 wt % to 35 wt % based on the weight of the topical composition.
  • 25. The method of claim 18 or any one of the preceding embodiments, wherein the skin penetration enhancers comprise methyl salicylate in a range of about 1 wt % to 30 wt %, about 5 wt % to 25 wt %, or about 10 wt % to 20 wt % based on the total weight of the topical composition.
  • 26. The method of claim 18 or any one of the preceding embodiments, wherein the skin penetration enhancers comprise menthol in a range of about 1 wt % to 16 wt %, about 4 wt % to 12 wt %, or about 6 wt % to 10 wt % based on the total weight of the topical composition.
  • 27. The method of claim 18 or any one of the preceding embodiments, wherein in topical composition is in the form of a gel, cream, ointment, foam, spray or patch.
  • 28. The method of claim 18 or any one of the preceding embodiments, wherein in topical composition further comprises a pain reliever and/or a muscle relaxant.
  • 29. A method for dilating blood vessels to thereby allow lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise comprising topically administering an effective amount of a topical composition consisting essentially of L-arginine to a subject in combination with use of a transdermal electrically polarized conductive pad attached to an electro-stimulation power controlled device, wherein the effective amount of L-arginine in combination with an electric field (or current) enhancing skin penetration allows lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.


It will be readily apparent to one of ordinary skill in the relevant arts that other suitable modifications and adaptations to the composition, methods and applications described herein can be made without departing from the scope of any of the embodiments. The following examples are included herewith for purposes of illustration only and are not intended to be limiting.


EXAMPLES

A topical composition as an oil in water emulsion is formulated with L-arginine monohydrochloride 20 wt %, with or without forskolin 0.1% wt %, methyl salicylate 15 wt %, menthol 5 wt %, and oil in water (O/W) emulsion with preservative 60 wt %. This composition is packaged in 5 mL foil package. After exercise, this topical composition is applied to skin to dilate blood vessels allowing lactic acid to dissipate from muscular tissue.

Claims
  • 1. A method for dilating blood vessels allowing lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise comprising delivering a topical composition to an area of the skin where desired, the topical composition comprising an effective amount of L-arginine with a base or carrier component and skin penetration enhancer.
  • 2. The method of claim 1, wherein the L-arginine is L-arginine ethyl ester, L-arginine hydrochloride or a free base of L-arginine.
  • 3. The method of claim 1, wherein the base is selected from oil in water emulsion, water in oil emulsion, anhydrous silicone base, lipophilic foam base, transdermal cream base, or transdermal gel base.
  • 4. The method of claim 1, further comprising methyl salicylate in a range of about 10 wt % to 20 wt % based on the total weight of the topical composition.
  • 5. The method of claim 1, wherein the topical composition is in a form of a gel, cream, ointment, foam, spray or patch.
  • 6. The method of claim 1, wherein the topical composition further comprises a pain reliever or a muscle relaxant.
  • 7. The method of claim 1, wherein the skin penetration enhancer is about 10-35 wt % and consisting of a mixture of methyl salicylate and menthol consists of about 1-16 wt % of the menthol with the remainder consisting of the methyl salicylate.
  • 8. The method of claim 1, wherein the topical composition comprises about 20-40 wt % L-arginine, about 0.01-1 wt % forskolin, about 10-35 wt % skin penetration enhancer consisting of a mixture of methyl salicylate and menthol, and about 40-70 wt % base or carrier component.
  • 9. The method of claim 1, wherein delivering the topical composition is selected from the group consisting of applying to the skin by massage, applying to the skin by rubbing into a muscular area, applying to the skin with a bandage, tape, or clothing, applying to the skin on a surface of an ice pack, heating wrap, blanket, or massage roller, applying to the skin in athletes clothing, compression wraps, or underwear, and a combination thereof.
  • 10. A transdermal electrically polarized conductive pad attached to an electro-stimulation power controlled device to administer an effective amount of an L-arginine topical composition in combination with an electric field or current enhancing skin penetration allowing lactic acid to dissipate from muscular tissue during exercise or during the recovery phase after exercise.
  • 11. The transdermal electrically polarized conductive pad of claim 10, wherein the L-arginine is L-arginine ethyl ester, L-arginine hydrochloride or a free base of L-arginine.
  • 12. The transdermal electrically polarized conductive pad of claim 10, further comprising a base selected from oil in water emulsion, water in oil emulsion, anhydrous silicone base, lipophilic foam base, transdermal cream base, or transdermal gel base.
  • 13. The transdermal electrically polarized conductive pad of claim 10, further comprising methyl salicylate is in a range of about 10 wt % to 20 wt % based on the total weight of the topical composition.
  • 14. The transdermal electrically polarized conductive pad of claim 10, further comprising a pain reliever or a muscle relaxant.
  • 15. The transdermal electrically polarized conductive pad of claim 10, further comprising about 10-35 wt % skin penetration enhancer consisting of a mixture of methyl salicylate and menthol consists of about 1-16 wt % of the menthol with the remainder consisting of the methyl salicylate.
  • 16. The transdermal electrically polarized conductive pad of claim 10, comprising about 20-40 wt % L-arginine, about 0.01-1 wt % forskolin, about 10-35 wt % skin penetration enhancer consisting of a mixture of methyl salicylate and menthol, and about 40-70 wt % base or carrier component.
  • 17. A method for dilating blood vessels to allow synergistic deep delivery of a topical composition to tissues comprising delivering a topical composition to skin, wherein the topical composition comprises an effective amount of L-arginine, a base or carrier component and skin penetration.
  • 18. The method of claim 17, further comprising an active component selected from the group consisting of NSAIDS, COX-2 inhibitors, narcotic pain medication, central analgesics, narcotic analgesics, aspirin, topical analgesics, topical anesthetics, and a combination thereof.
  • 19. The method of claim 18, further comprising delivering the topical composition in combination with electrostimulation.
CROSS-REFERENCE TO RELATED APPLICATION & PRIORITY CLAIM

This application is a divisional of U.S. application Ser. No. 15/474,375, filed Mar. 30, 2017, which claims the benefit of U.S. Provisional Application No. 62/315,859, filed Mar. 31, 2016, which are each incorporated by reference in their entireties herein.

Provisional Applications (1)
Number Date Country
62315859 Mar 2016 US
Divisions (1)
Number Date Country
Parent 15474375 Mar 2017 US
Child 16906850 US