JPWO2008044785A1 - Materials for improving cerebral blood flow and uses thereof - Google Patents

Abstract

The material for improving cerebral blood flow of the present invention is characterized by containing vegetable carbon fibers. Thus, a cerebral blood flow improving material capable of improving cerebral blood flow safely and effectively without side effects and its use are provided.

Description

  The present invention relates to a material for improving cerebral blood flow or a material for treating fibromyalgia and its use. Specifically, a material for improving cerebral blood flow or a material for treating fibromyalgia containing plant carbon fiber, an article for improving cerebral blood flow containing the material as a constituent element, and for treating fibromyalgia Or it relates to a diagnostic article.

Cerebral blood flow is closely related to cerebral metabolism and functional activity of nerve cells, and cerebral blood flow is said to be proportional to the functional activity under physiological conditions. Conventionally, it has been known that cerebral blood flow failure leads to various diseases and psychosomatic disorders. For example, cerebral blood flow reduction is known to cause ischemia-reperfusion brain injury, Alzheimer's disease, etc., and psychosomatic disorders such as insomnia, fatigue, malaise, depression, reduced concentration, etc. It is also known to occur.
Factors for lowering blood fluidity range from factors in daily life such as stress, disturbance in eating habits and sleeping hours, smoking, and other pathological factors such as hyperlipidemia, diabetes, obesity, and hypertension. Since blood circulation is important for the maintenance of biological functions, mainly the immune system, it is desirable to prevent and improve blood fluidity caused by these factors and to maintain the blood circulation in a good state. .
Various studies have been conducted on methods for improving cerebral blood flow. For example, a method of improving blood flow in the brain by improving serotonin neurotransmission with a heterocyclic carboxamide is known ⁽¹⁾ . In addition, it is known that a blood circulation improving agent comprising an aqueous solvent extract derived from purple potato as an active ingredient exerts a life-prolonging effect, an increase in cerebral blood flow (oxygen supply amount) and a vasorelaxation effect in rats under hypoxia. ⁽²⁾ In addition, it is known that a cerebral blood flow-enhancing agent containing at least one organic solvent extraction residue of cardamom, dill and fenugreek can prevent dementia, cerebrovascular disorder and the like ⁽³⁾ . In addition, a blood flow-improving agent containing the extract of the Labiatae plant hyssop is effective for the cold, stiff shoulder, low back pain, hyperlipidemia, diabetes, obesity, arteriosclerosis, cerebral infarction and cerebral hemorrhage sequelae It is known to show ⁽⁴⁾ . In addition, it has been proposed to apply a compound having a cholinesterase inhibitory action and at least one of Kamiyokuto or its constituent crude drugs to Alzheimer's disease associated with cerebrovascular disorder ⁽⁵⁾ . Furthermore, it is known that bedclothes, clothes, and supporters made of carbon fiber have an effect of improving blood flow by suppressing chain binding of red blood cells ⁽⁶⁾ .
1. JP-A-11-322711. JP-A-2001-145471 2. JP 2003-286177 A4. JP 2006-8575 A 5. JP 2006-176503 A6. JP 2004-223188 A

As described above, various pharmaceutical compounds for improving cerebral blood flow have been studied, but if such a compound is administered by an oral method or the like, side effects may occur, such as headache, dizziness, palpitation, Nausea etc. may occur. Moreover, in the case of a pharmaceutical compound, cerebral blood flow increases rapidly in a short time after taking, and it may decrease rapidly when the effect is lost. Such a rapid change may adversely affect the physical condition, and is not preferable from the viewpoint of maintaining body homeostasis. On the other hand, in bedding made of carbon fiber, there is no risk of side effects like pharmaceutical compounds, but the blood flow improvement effect can be improved with a microchannel array flow analyzer (MC-FAN). It has only been confirmed. Therefore, the effects of carbon fiber on the improvement of cerebral blood flow, the application effect on diseases caused by cerebral blood flow failure, and the correlation with diseases have not been known so far.
Therefore, the problem to be solved by the present invention is to provide a material for improving cerebral blood flow that can safely and effectively improve cerebral blood flow without side effects. In addition, as the use of the material, an article for improving cerebral blood flow that improves a disorder caused by cerebral blood flow failure or mental and physical disorders, and a treatment for a disease caused by cerebral blood flow failure such as fibromyalgia or It is to provide a diagnostic article.
As a result of intensive studies to solve the above-mentioned problems, the present inventor has found that, among carbon fibers, plant carbon fibers have an excellent effect on improving cerebral blood flow, and have completed the present invention. It was.
That is, the present invention is as follows.
(1) A material for improving cerebral blood flow, comprising vegetable carbon fibers.
In the material of the present invention, the carbon fiber is composed of, for example, a cellulosic raw material, and more preferably, one raw material selected from the group consisting of cotton, Umegashi fiber, bamboo fiber, hemp, viscose rayon, and copper ammonia rayon. Specifically, the cellulose raw material is heated in an oxidizing atmosphere to be infusibilized or flameproofed, and further heated in an inert gas atmosphere to be carbonized. Can be mentioned. Moreover, as said carbon fiber, what impregnated and dried wood vinegar liquid and / or bamboo vinegar liquid is mentioned, for example.
(2) An article (medical product) for improving cerebral blood flow, comprising the material described in (1) above.
Examples of the article for improving cerebral blood flow of the present invention include those used for improving diseases caused by cerebral blood flow insufficiency or psychosomatic disorder. Here, examples of the disease include fibromyalgia, lumbar back pain, rheumatoid arthralgia, postherpetic neuralgia, diabetic neuralgia, trigeminal neuralgia, peripheral neuralgia, phantom limb pain, and cancer pain. At least one pain selected.
(3) An article (medical product) for treating a disease caused by cerebral blood flow insufficiency, comprising the material according to (1) above.
(4) A diagnostic article (medical product) for a disease caused by cerebral blood flow insufficiency, comprising the material according to (1) above.
In the therapeutic article and diagnostic article of the present invention, examples of the disease caused by cerebral blood flow failure as a target disease include, for example, fibromyalgia, lumbar back pain, rheumatoid arthralgia, postherpetic neuralgia, diabetic Examples include at least one pain selected from the group consisting of neuralgia, trigeminal neuralgia, peripheral neuralgia, phantom limb pain, and cancer pain. Among them, fibromyalgia includes, for example, pain symptoms, physical symptoms, neurological symptoms and Those exhibiting at least one symptom selected from the group consisting of mental symptoms. The therapeutic article and diagnostic article of the present invention include, for example, the group consisting of the occipital region, lower cervical vertebrae, trapezius, supraspinatus, second gluteal muscle, lateral epicondyle, buttocks, greater trochanter and knee. The thing which has a shape which can cover all or a part of at least 1 area | region selected is mentioned.
(5) A material for treating fibromyalgia characterized by containing vegetable carbon fiber.
In the material of the present invention, the carbon fiber is composed of, for example, a cellulosic raw material, and more preferably, one raw material selected from the group consisting of cotton, Umegashi fiber, bamboo fiber, hemp, viscose rayon, and copper ammonia rayon. Specifically, the cellulose raw material is heated in an oxidizing atmosphere to be infusibilized or flameproofed, and further heated in an inert gas atmosphere to be carbonized. Can be mentioned. Moreover, as said carbon fiber, what impregnated and dried wood vinegar liquid and / or bamboo vinegar liquid is mentioned, for example. Furthermore, examples of fibromyalgia include those that exhibit at least one symptom selected from the group consisting of pain symptoms, physical symptoms, neurological symptoms, and mental symptoms.
(6) An article for treating fibromyalgia, comprising the material of (5) above.
(7) An article for diagnosing fibromyalgia, comprising the material of (5) above.
Examples of the therapeutic article and diagnostic article for fibromyalgia of the present invention include the occipital region, lower cervical vertebrae, trapezius, supraspinatus, second gluteal muscle, lateral epicondyle, buttocks, greater trochanter and knee. The thing which has a shape which can cover all or a part of at least 1 area | region selected from the group which consists of is mentioned.
According to the material for improving cerebral blood flow and the article for improving cerebral blood flow comprising the material according to the present invention, cerebral blood flow can be safely performed in a short time without causing side effects and without impairing the homeostasis of the body. Can be improved. Therefore, if the present invention is applied to various diseases caused by cerebral blood flow insufficiency and psychosomatic disorders, cerebral blood flow can be improved safely and easily, and as a result, the improvement of symptoms can be mitigated. Is possible. In particular, the present invention is effective for alleviating the symptoms of fibromyalgia for which the root cause of the onset is unknown and no effective treatment has been found so far, and a useful method has not yet been established. It can also be applied to the diagnosis of symptoms.

FIG. 1 is an electron micrograph showing the structure of a material for improving cerebral blood flow according to the present invention.
FIG. 2 is a diagram showing the structure and configuration of a vegetable carbon fiber constituting the material for improving cerebral blood flow according to the present invention.
FIG. 3 is a diagram showing an analysis result of far infrared rays emitted from the material for improving cerebral blood flow according to the present invention.
FIG. 4 is a front view showing a configuration example of the therapeutic article according to the present invention.
FIG. 5 is an external perspective view and a vertical sectional view showing another configuration example of the therapeutic article according to the present invention.
FIG. 6 is a schematic diagram of a manufacturing process showing another configuration example of the therapeutic article according to the present invention.
FIG. 7 is a front view and a rear view showing still another configuration example of the therapeutic article according to the present invention.
FIG. 8 is a schematic diagram showing the tender points of the body.
FIG. 9 is a graph showing the clinical effect (FIQ index) of the carbon fiber sheet on fibromyalgia.
FIG. 10 is a graph showing the clinical effect (FIQ index) of a carbon fiber sheet on fibromyalgia.
FIG. 11 is a graph showing the clinical effect (FIQ index) of a carbon fiber sheet on fibromyalgia.
FIG. 12 is a graph showing the clinical effect (FIQ index) of a carbon fiber sheet on fibromyalgia.
FIG. 13 is a graph showing the clinical effect (FIQ index) of a carbon fiber sheet on fibromyalgia.
FIG. 14 is a graph showing the clinical effect (FIQ index) of a carbon fiber sheet on fibromyalgia.
FIG. 15 is a graph showing the clinical effect (cerebral blood flow) of a carbon fiber sheet on fibromyalgia.
FIG. 16 is a graph showing the clinical effect (cerebral blood flow) of the carbon fiber sheet on fibromyalgia.
DESCRIPTION OF SYMBOLS 1 ... Mat body 2 ... Cover 3 ... Carbon fiber sheet 4 ... Zipper 5 ... Mat 6 ... Mat core material 7 ... Cover material 8 ... Adhesive 10 ... Sheet 11a ... Feed roller 11b ... Feed roller 11c ... Feed roller 12 ... Pressure roller 13 ... winding roller 21 ... main body 22 ... carbon fiber sheet 23 ... collar

Hereinafter, the present invention will be described in detail. The scope of the present invention is not limited to these explanations, and other than the following examples, the scope of the present invention can be appropriately changed and implemented without departing from the spirit of the present invention.
It should be noted that all publications cited in the present specification, for example, prior art documents, publications, patent publications and other patent documents are incorporated herein by reference. This specification includes the contents of Japanese Patent Application No. 2006-280070 and Japanese Patent Application No. 2007-185818, which are Japanese patent applications on which the priority of the present application is claimed.
1. Definition
In describing embodiments of the present invention, definitions of terms in the specification will be described first.
In this specification, “cerebral blood flow” refers to blood flow in each part of the brain, specifically the cerebrum, midbrain, diencephalon (thalamic brain, hypothalamus), cerebellum, pons, medulla oblongata. Sure. The improvement of cerebral blood flow includes not only improvement of blood flow in the whole brain but also improvement of at least a part of blood flow. Various methods such as computed tomography (CT), positron emission tomography (PET), and nuclear magnetic resonance imaging (MRI) can be used to measure cerebral blood flow. The measurement of the cerebral blood flow is not limited to directly targeting the cerebral blood flow, but can be indirectly measured by targeting the blood flow of another part linked to the state of the cerebral blood flow. For example, as shown in the examples described later, cerebral blood flow can be indirectly measured by targeting earlobe blood flow that reflects the external carotid artery blood flow of the brain.
“Blood flow improvement” includes both improvement of blood fluidity and improvement of blood flow rate and blood volume. The improvement of blood fluidity means that blood circulation is improved to bring the blood into a so-called “freezing state”, in other words, blood viscosity is lowered to improve blood circulation. Although the mechanism of action for realizing such a “smooth state” has not been elucidated in detail, leukocyte adhesion ability due to increased erythrocyte deformability, decreased platelet aggregation ability, and increased leukocyte transformability. This is thought to be due to the reduction of On the other hand, the improvement of blood flow rate and blood volume means improvement of blood flow rate and blood flow rate in blood vessels.
Here, since “cerebral blood flow” affects or affects cerebral circulation and cerebral metabolism, “cerebral blood flow improvement” means “improvement of cerebral circulation” and “improvement of cerebral metabolism”. / Brain metabolism activation ".
“Improvement” includes not only changing from a bad state to a good state, but also maintaining a certain level of deterioration if left untouched, or minimizing the degree of deterioration. Meaning. Specifically, for example, improvement of a disease symptom means that the symptom disappears completely, but it does not disappear completely, but it is reduced, retreated, reversed in progress, or the progression is prevented or delayed. This includes cases where In the improvement effect, for example, in the case of completely or partially preventing diseases and symptoms of mental and physical disorders, the present invention is effective in preventing these. On the other hand, the present invention is effective for these treatments when the disease or the symptoms of mental and physical disorders are completely or partially cured.
The organism to which the present invention is applied, that is, the target of the blood flow improvement effect and the disease improvement effect is not particularly limited. For example, the present invention is applicable to mammals, and the effect is exhibited. In particular, the present invention is particularly effective when applied to humans, animals such as pets and livestock, among mammals, since it leads to treatment and prevention of diseases. The species of animals other than humans is not particularly limited, but may be small animals such as dogs and cats, and may be medium to large animals such as pigs, goats, sheep, cows and horses. .
2. Material
(1) Material for improving cerebral blood flow
FIG. 1 is an electron micrograph showing the structure of a material for improving cerebral blood flow according to the present invention. 2 (a) is an electron micrograph showing the structure of the vegetable carbon fiber constituting the material for improving cerebral blood flow of FIG. 1, and FIG. 2 (b) is an X-ray of the vegetable carbon fiber. It is a figure which shows the result of a component analysis. Table 1 below shows the X-ray analysis conditions and detailed results of FIG. 2B, and Table 2 shows the elemental analysis of the material for improving cerebral blood flow by inductively coupled plasma (ICP) emission analysis. The results are shown.
As shown in FIGS. 1 and 2 and Tables 1 and 2, the material for improving cerebral blood flow (FIG. 1) according to the present invention includes a vegetable carbon fiber (FIG. 2A). Here, “vegetable” is intended to be composed of a cellulosic organic material, that is, a cellulosic material. Plant carbon fiber, for example, cellulosic carbon fiber is made from cellulose-based cotton (cotton), bamboo grass fiber, bamboo fiber, hemp and other natural plant fibers, timber, viscose rayon, copper ammonia rayon, etc. These can be obtained by carbonizing at a high temperature. Such a material for improving cerebral blood flow according to the present invention is different from a chemical fiber kneaded with charcoal, and charcoal itself forms fibers. Therefore, processing into a sheet or the like is easy, and it is possible to avoid the demerits of a product made of charcoal, such as a decrease in charcoal characteristics and effects caused by processing.
The molecular structure of the vegetable carbon fiber (FIG. 2A) is not particularly limited, and examples thereof include graphitic carbon, amorphous carbon, and carbon having an intermediate crystal structure thereof. The fiber diameter is not particularly limited as long as a desired effect can be obtained, but is, for example, about 5 to 20 μm, preferably about 7 to 15 μm, and more preferably about 7 to 11 μm. Also. A tow may be formed and twisted. The diameter of the twisted carbon fiber bundle is not particularly limited as long as a desired effect can be obtained, but is, for example, about 0.05 to 10 mm, preferably about 0.1 to 5 mm. Such vegetable carbon fibers contain C, O, P, Ca, Al, Si, Mg, Fe, Pb, and Cd as constituent elements (Tables 1 and 2).
The material for improving cerebral blood flow according to the present invention may be composed only of plant carbon fibers as described above, or may be composed of materials other than the fibers. For example, in addition to the above plant carbon fiber, polyacrylonitrile-based carbon fiber; glassy carbon fiber such as phenol resin-based carbon fiber, furan-based carbon fiber and polycarbodiimide-based carbon fiber; anisotropic pitch or synthetic pitch Pitch-based carbon fibers; polyvinyl alcohol-based carbon fibers; activated carbon fibers; other cellulosic carbon fibers may be used, and these fibers may be appropriately combined. Thus, when combining with other materials, the mixing ratio is appropriately selected in view of the strength, texture, manufacturing efficiency, cost, and the like of the desired material.
The form of the material for improving cerebral blood flow of the present invention is not particularly limited, and may be any of woven fabric, non-woven fabric, felt and the like. Moreover, a processing shape is not specifically limited, For example, a sheet form may be sufficient. When processing into a sheet form, it can be processed into a sheet having a thickness of about 2 to 3 mm.
About the vegetable carbon fiber which is a structural component of the raw material for cerebral blood flow improvement concerning this invention, the various well-known techniques known in the said technical field can be used for the manufacturing method. For example, as a preliminary oxidation treatment, cellulosic raw materials (specifically, cotton that is a vegetable fiber, or viscose rayon and copper ammonia rayon that are plant-derived regenerated fibers) in an oxidizing atmosphere (for example, in the air) ) To infusibilize or flameproof.
A conventional processing method can be used for each of these processes. Then, the vegetable carbon fiber used as the structural component of the raw material for brain blood flow improvement of this invention can be manufactured by heating (namely, baking) in inert gas atmosphere. Moreover, the temperature at the time of the said baking is 150-1500 degreeC, for example, Preferably it is 200-1100 degreeC, and nitrogen gas etc. can be used as an inert gas. After such firing, pores (micropores) of micro units may be appropriately formed in each of the obtained plant carbon fibers by an activation process.
In the vegetable carbon fiber of the present invention, the ratio of the number of oxygen atoms to the number of carbon atoms (O / C) is, for example, 0.1 to 0.6, and the ratio of the number of hydrogen atoms to the number of carbon atoms (H / C). ) Is, for example, 0.2 to 1.2. More preferably, the vegetable carbon fiber of the present invention has a ratio of oxygen atoms to carbon atoms (O / C) of 0.3 to 0.5, and a ratio of hydrogen atoms to carbon atoms (H / C). C) is 0.6 to 1.0. By setting it as such a component ratio, the characteristic of the vegetable carbon fiber effective in cerebral blood-flow improvement and the symptom improvement of a disease is aimed at. As a result, the effect of plant carbon fiber is more effectively achieved, and an excellent cerebral blood flow improvement effect and disease symptom improvement effect can be realized. Here, the ratio of the number of atoms of each element is a value determined from the ratio (% by weight) of each element determined by elemental analysis and the atomic weight of each element.
According to the above manufacturing method, harmful substances such as carbon monoxide generated during firing do not remain as impurities in the pores in the fiber. Therefore, the release of the impurities during use does not occur, and a safe material that does not affect the user's body can be obtained. Moreover, since flexibility can be imparted to each fiber, sufficient tensile strength and friction strength can be realized, and the durability is excellent.
Further, as disclosed in JP-A-11-206539 and JP-A-2000-160476, the vegetable carbon fiber is preferably impregnated with a wood vinegar and / or bamboo vinegar and dried. The carbon fiber subjected to such treatment has excellent bactericidal and antibacterial properties. Such a carbon fiber can be produced by immersing and heat-treating it in a treatment liquid containing at least one of a wood vinegar solution and a bamboo vinegar solution, and then drying it. As said process liquid, a wood vinegar liquid and a bamboo vinegar liquid may be used individually, respectively, or these may be mixed and used in a desired ratio. Wood vinegar and bamboo vinegar may be used as a stock solution or may be diluted to a desired concentration (for example, about 2-fold dilution). The treatment liquid may contain components other than wood vinegar and bamboo vinegar, such as mugwort extract.
The treatment liquid is preferably heated before immersing the carbon fiber. The heating temperature of the treatment liquid is 90 ° C. or higher, preferably 100 ° C. or higher, more preferably 110 ° C. or higher, and still more preferably boiling temperature (for example, 120 to 150 ° C.). The immersion time in the treatment liquid is 3 to 15 seconds, preferably 5 to 8 seconds. The carbon fiber impregnated with the treatment liquid containing wood vinegar and / or bamboo vinegar by such immersion treatment is washed with distilled water and then dried. By such washing, the unique odor caused by the wood vinegar or bamboo vinegar can be removed.
In the step of drying the carbon fiber, drying may be performed with warm air, or drying may be performed by heating in vacuum. The temperature when drying with warm air is 100 ° C. or more and 600 ° C. or less, preferably the upper limit is 500 ° C., more preferably 400 ° C., and even more preferably 300 ° C. On the other hand, the heating temperature in the case of heat drying in vacuum is, for example, 100 ° C. or more and 600 ° C. or less, and a preferable upper limit value is 300 ° C. or less. The degree of vacuum is 10 ^-2 More than Torr, preferably 10 ^-3 More than Torr, more preferably 10 ^-4 More than Torr.
The material for improving cerebral blood flow according to the present invention improves cerebral blood flow safely and effectively without causing side effects, as shown in the examples below, by a simple method of directly or indirectly contacting the human body. Can be achieved. In particular, when the material of the present invention is applied when a disease symptom or psychosomatic disorder occurs due to low cerebral blood flow, it becomes possible to effectively and significantly improve the cerebral blood flow (Table 7, FIG. 15 and FIG. 16).
Although details will be described later, with such improvement in cerebral blood flow, disease symptoms and mental and physical disorders are improved (FIGS. 9 to 14). In particular, in this case, it is possible to selectively improve the cerebral blood flow while suppressing the influence on the whole body blood flow (peripheral blood flow), and the homeostasis of the body is maintained well. Furthermore, as a result of conducting preliminary tests on the safety and antibacterial properties of the skin according to the conventional method, the safety and antibacterial properties were both significantly confirmed. From this, it was shown that the material for improving cerebral blood flow according to the present invention is safe and hygienic.
As described above, the material for improving cerebral blood flow according to the present invention is useful for the treatment and prevention of disease symptoms and mental and physical disorders. It can also be used for diagnosis as in the case of fibromyalgia described later. The details of how the cerebral blood flow improvement effect is achieved have not yet been clarified, but in view of the function of carbon fiber, at least far infrared rays, negative ions, and α waves contribute. Inferred.
FIG. 3 is a diagram showing a result of analyzing far infrared rays emitted from the material for improving cerebral blood flow according to the present invention. In this analysis, far-infrared emissivity was measured for the material for improving cerebral blood flow of the present invention and a conventional Bincho charcoal sheet for comparison when a heat source at 40 ° C. was used. As shown in FIG. 3, the material for improving cerebral blood flow according to the present invention exhibits superior emissivity compared to Bincho charcoal due to the inclusion of vegetable carbon fiber. Therefore, in the material for improving cerebral blood flow according to the present invention, far-infrared rays are efficiently emitted using the body temperature of the human body in contact as a heat source.
(2) Fibromyalgia treatment material
The therapeutic material for fibromyalgia of the present invention contains plant carbon fiber. The vegetable carbon fiber is composed of, for example, a cellulosic raw material, and more preferably, is composed of one raw material selected from the group consisting of cotton, beetle fiber, bamboo fiber, hemp, viscose rayon and copper ammonia rayon. Specifically, the cellulose-based raw material is heated in an oxidizing atmosphere to be infusibilized or flameproofed, and further heated in an inert gas atmosphere to be carbonized. Moreover, as said carbon fiber, what impregnated and dried wood vinegar liquid and / or bamboo vinegar liquid is mentioned, for example. Furthermore, examples of fibromyalgia include those that exhibit at least one symptom selected from the group consisting of pain symptoms, physical symptoms, neurological symptoms, and mental symptoms.
The molecular structure, composition, production method and the like of the material for treating fibromyalgia are the same as those described in the above (1) Material for improving cerebral blood flow.
Although the details will be described later, according to the material for treating fibromyalgia according to the present invention, as shown in Examples described later, side effects are caused by a simple method of directly or indirectly contacting the human body. Therefore, it is possible to safely and effectively produce a fibromyalgia treatment effect. (Tables 4-6, FIGS. 9-14). It can also be used for diagnosis as in the case of fibromyalgia described later. Although the details of how the therapeutic effect of fibromyalgia is exerted have not yet been clarified, in view of the function of carbon fiber, at least far infrared rays, negative ions, and α waves Presumed to contribute.
3. Articles for improving cerebral blood flow (medical products)
The article for improving cerebral blood flow according to the present invention includes the above-described material for improving cerebral blood flow according to the present invention. The form of the article is not particularly limited as long as it includes the material. Specific examples of the article for improving cerebral blood flow according to the present invention include textile products containing a material for improving cerebral blood flow composed of plant carbon fibers, such as bedding (mats, sheets, pillows, etc.), clothes ( Underwear, outerwear (shirts, nightclothes, vests, etc.), socks, hats, gloves, stalls, hoods, supporters, belts, bandages, eyebands, eye masks, seat covers (chairs, sofas, etc.), rugs, etc. .
Such an article for improving cerebral blood flow according to the present invention is used by directly or indirectly contacting an animal body (for example, human skin) in any form. Hereinafter, the application form of the article for improving cerebral blood flow of the present invention will be described taking a human body as an example. Although the aspect of contact is not particularly limited, it may be worn on (attached to) the human body, or may be supine or sitting on the article. For example, if the article for improving cerebral blood flow is a supporter, underwear, or the like, it is in a mode of directly contacting the human body, and if it is a sheet or outerwear laid under the bed cover, it is in a mode of indirect contact with the human body. Moreover, if it is a sheet, a seat cover, etc., it will be in the form of being in direct contact with the human body exposed portion and indirect contact with the human body in the clothing portion.
The contact area with the human body is not particularly limited, and is appropriately set according to the purpose. It may be a local contact such as a hat, bandage, supporter or sock, or a wide range of contact such as a sheet, bed sheet or mat. Furthermore, the contact time is not particularly limited, and is appropriately set according to the purpose and effect. For example, in the case of treatment of fibromyalgia, which will be described later, since the symptom improvement effect is particularly great by long-time contact, as shown in the embodiment, it is possible to make a long-time contact such as during nighttime bedtime Preferably it is comprised.
By using the article for improving cerebral blood flow according to the present invention formed in various forms as described above, cerebral blood flow can be improved safely, simply and in a short time without causing side effects (in the examples described later). Table 7, FIG. 15 and FIG. 16). In particular, since it is only necessary to arrange and use it so as to come into contact with the human body, it is possible to use it regardless of location and time. And as a result of such use, it becomes possible to improve and alleviate various diseases and symptoms of psychosomatic disorder caused by cerebral blood flow failure (FIGS. 9 to 14 in Examples described later). In this case, since the cerebral blood flow can be improved while maintaining good homeostasis, the burden on the body is reduced as compared with the case where a pharmaceutical compound is used.
The cerebral blood flow improvement article according to the present invention is useful for improving various diseases caused by cerebral blood flow insufficiency and symptoms of psychosomatic disorder, for example, for treatment, prevention or diagnosis of the symptom. It can be used as a medical article. Examples of various diseases caused by cerebral blood flow insufficiency include chronic pain diseases that exhibit symptoms related to nerve sensory abnormalities and hypersensitivity (more specifically, abnormal pain and hypersensitivity), for example, Examples include fibromyalgia, lumbar back pain, rheumatoid arthralgia, postherpetic neuralgia, diabetic neuralgia, trigeminal neuralgia, peripheral neuralgia, phantom limb pain, and cancer pain. In addition, since the symptoms are very similar to those of fibromyalgia, application to chronic fatigue syndrome is also effective as in the above-mentioned diseases.
4). Disease treatment articles (medical products)
FIG. 4 is a front view showing an example of a configuration of a disease treatment article according to the present invention. As shown in FIG. 4, the therapeutic article in this case is a mat for a bed or bedding configured to lie on top of it. Specifically, the mat includes a mat body 1 and a cover 2 that houses the mat body 1. The mat body 1 has a shape of 100 cm × 200 cm × 3 cm, for example, and is a vegetable carbon fiber sheet (hereinafter simply referred to as “carbon fiber sheet”) which is a sheet-like material for improving cerebral blood flow of the present invention. ) 3 is detachably mounted with a hook-and-loop fastener. The carbon fiber sheet 3 may be cotton, knitted, or woven, and is formed in a knitted or woven shape, for example. The carbon fiber sheet 3 has a sheet shape of, for example, 75 cm × 110 cm × 0.2 cm. On the other hand, the cover 2 is made of natural fibers such as cotton or synthetic fibers such as polyester, and covers the entire mat body 1 and has a shape capable of storing the mat body 1. A zipper 4 that opens and closes when the mat body 1 is put in and out is provided at the center of the cover 2.
FIG. 5 is a diagram showing another configuration example of the therapeutic article according to the present invention. FIG. 5A is an external perspective view, and FIG. 5B is a vertical sectional view. As shown in FIGS. 5 (a) and 5 (b), the therapeutic article in this case is a mat for a bed or a futon that is configured to lie on top of it. Specifically, the mat 5 includes a mat core material 6 and cover fabrics 7 arranged on upper and lower surfaces thereof, and has a configuration in which the mat core material 6 is sandwiched between the cover fabrics 7 by quilting. The mat core 6 has a sheet shape of, for example, 100 cm × 100 cm, and is made of a carbon fiber sheet that is a material of the present invention processed into a sheet shape. In this case, the carbon fiber sheet is composed of cotton-like carbon fibers. The cover fabric 7 is made of natural fibers such as cotton or synthetic fibers such as polyester.
Although the case where the quilting process is performed has been described with reference to FIG. 5, as illustrated in FIG. 6, the cover fabric 7 may be bonded (bonded) to the upper and lower surfaces of the carbon fiber sheet 3. FIG. 6 is a schematic view showing a series of manufacturing steps when manufactured by bonding. As shown in FIG. 6, for example, two cover fabrics 7 are bonded to the upper and lower surfaces of the carbon fiber sheet 3 with an adhesive 8 to form a sheet 10. In this case, for example, the carbon fiber sheet 3 is composed of knitted or woven carbon fibers. The sheet 10 has a sheet shape of, for example, 100 cm × 100 cm.
The manufacturing process of the sheet 10 will be described. First, a thermoplastic adhesive 8 (“◯” before heating) is applied to the upper and lower surfaces of the carbon fiber sheet 3 fed by the feed roller 11a, and the carbon fiber sheet Two cover fabrics 7 are fed forward with the carbon fiber sheet 3 by feed rollers 11b and 11c above and below 3, respectively. The carbon fiber sheet 3 and the two cover fabrics 7 advance in the same direction as the roller rotates. At this time, heat is applied to the adhesive 8 applied to the carbon fiber sheet 3. In FIG. 6, the heated adhesive 8 is indicated by “●”. Further, the cover fabric 7 and the carbon fiber sheet 3 are pressed by the pressure roller 12 from above and below, and the sheet 10 integrated by thermocompression is formed. The sheet 10 manufactured in this way is taken up by the take-up roller 13. As the adhesive 8, a conventionally used thermoplastic adhesive can be arbitrarily used. For example, a polyamide resin-based adhesive can be used. The bonding temperature of the adhesive 8 is not particularly limited. For example, in the case of a polyamide resin-based adhesive, it is preferably 125 to 130 ° C. The material of the cover fabric 7 is not particularly limited, but may be polyester, for example.
FIG. 7 is a diagram showing still another configuration example of the therapeutic article according to the present invention. FIG. 7A is a front view, and FIG. 7B is a rear view. As shown in FIGS. 7A and 7B, the therapeutic article in this case is a vest configured so as to cover the upper body from the top of the clothes such as a nightclothes. Specifically, the vest is composed of a main body 21 formed from a double fabric. The main body 21 is provided with a collar 23 having a length of about 5 cm, for example, and a carbon fiber sheet 22 is arranged in an upper third region covering the back from the shoulder. The collar 23 may be configured to be elongated so as to be wound around the neck.
The carbon fiber sheet 22 is processed into a sheet shape, and is sewn between the double fabrics forming the main body 21 and sandwiched between the fabrics in an upper third region covering the shoulder and the back. In this case, the carbon fiber sheet 22 may be cotton, knitted, or woven.
5). Articles for the treatment of fibromyalgia (medical products)
Hereinafter, an article for treating fibromyalgia comprising the above-described material for improving cerebral blood flow of the present invention will be described. The therapeutic article can be said to be an embodiment for improving cerebral blood flow described above.
First, the outline of fibromyalgia (which may be abbreviated as FMS or FM) will be described. Fibromyalgia is a painful disease of unknown cause and is often seen in middle-aged women. In Europe and the United States, research has been conducted from an early stage, and recognition is high. On the other hand, in Japan, the name of the disease has finally started to be recognized at academic societies and the like, and in general, it is not yet known. The greatest feature of this disease is that there are no abnormalities in normal examinations even though there are subjective symptoms such as pain. For this reason, a definitive diagnosis is difficult, and treatment cannot be performed or a disease is not recognized.
So far, fibromyalgia is diagnosed by a method based on the American College of Rheumatology (ACR) FM classification criteria published in 1990. In summary, 1) systemic pain persists for more than 3 months, 2) no abnormalities are found in normal examination, and 3) pressure of 4 kg or less out of 18 tender points (FIG. 8). The presence of pain in 11 or more places is a diagnostic item. In addition, the disease state is also evaluated using an index called FIQ (Fibromyalgia Impact Questionnaire). Table 3 below shows the evaluation items for evaluation by FIQ.
Symptoms exhibited by fibromyalgia include pain symptoms, physical symptoms, neurological symptoms, and mental symptoms. Specific embodiments of pain symptoms include stiffness, joint / muscle pain, pain in the back of the eye, oral pain, headache and the like. Examples of physical symptoms include insomnia, fatigue, malaise, dry eye, frequent urination, diarrhea constipation, enteritis, dysmenorrhea, and irregular menstruation. Examples of neurological symptoms include limb sensory impairment, numbness, dizziness, tinnitus, and the like. Mental symptoms include anxiety, agitation, depression, sleep disorders, decreased concentration / attention, and the like.
On the other hand, treatment of these fibromyalgia symptoms includes drug therapy using antidepressants, tranquilizers, anti-inflammatory agents (painkillers), exercise therapy, diet therapy, and acupressure, acupuncture, and manipulative treatment. Physical therapy is being performed. However, no effective treatment has been found so far, and there is a great demand for this.
Various studies have been conducted to find an effective treatment method for fibromyalgia. For example, when cerebral blood flow is compared between a fibromyalgia patient and a healthy person, it has been found that cerebral blood flow is lower in a fibromyalgia patient than in a healthy person ("Inflammation and Immunity" vol. .12 no.6, 2004, p.28-32). However, it only suggests a correlation between fibromyalgia and cerebral blood flow, and it has not been known so far for details of the correlation and application to blood flow improvement treatment.
The therapeutic article of the present invention is particularly preferably configured to come into contact with the human body at and around the “tenderness point” of fibromyalgia. With this configuration, the symptom improving effect of fibromyalgia is more efficiently exhibited. The contact to the tender point may be direct contact, or may be indirect contact through one or more thin cloths such as underwear and sheets.
FIG. 8 is a schematic diagram showing 18 tender points of the body. As shown in FIG. 8, tender points (points indicated by “●”) are present on the subject on both sides of the body, and a four-stage evaluation (“no pain”, when palpation is performed at a strength of about 4 kg, "Slightly painful", "Mediumly painful", and "Very painful"). Specifically, the occipital region, lower cervical vertebrae, trapezius, supraspinatus, second gluteal muscle, lateral epicondyle, buttocks, greater trochanter and knee are characteristic tender point locations in fibromyalgia . In more detail, (1) occipital region: with suboccipital muscle tendon, (2) lower cervical vertebrae: anterior between fifth to seventh cervical vertebrae, (3) trapezius muscle: middle part of upper edge, (4) spines Upper muscle: Origin, above the scapula spine near the inner edge, (5) Second gluteal muscle: Second radius-one cartilage joint, just outside the joint, (6) Outer epicondyle: Superior condyle 2cm distal to (7) buttocks: 4 semi-upper outer side of buttocks, (8) greater trochanter: posterior part of trochanteric protrusion, (9) knee: tenderness at each pair of the fluffy part on the inside and slightly above Is a point.
It is most preferable to maintain the state in which the therapeutic article is simultaneously brought into contact with all the 18 tender points in order to enhance the symptom improvement effect and maintain the effect. However, even when covering and contacting at least one region of the above-mentioned tender points, the therapeutic article according to the present invention can exhibit a good symptom improving effect. Moreover, even if it is a case where the therapeutic article which concerns on this invention is made to contact the painful location other than these tender points, a favorable effect can be show | played. Furthermore, the therapeutic article according to the present invention has a sufficient effect not only in the constant contact but also in the daytime or nighttime only, and even for a short time of about 3 hours, preferably about 1 hour, for example. be able to.
Considering contact with the tender point, a mat or sheet (FIGS. 4 to 6), which is a medical product for fibromyalgia, has a shape that covers the buttocks from the back of the adult, specifically 50 to 110 cm × 70 to 110 cm. Or about 50 to 75 cm × 70 to 110 cm, particularly about 100 cm × 100 cm, about 75 cm × 110 cm, or about 55 cm × 80 cm. With this configuration, when an adult is supine, it is possible to cover at least the tender points in the occipital region, the supraspinatus, and the buttocks among the 18 tender points described above. The vest (FIG. 7) should have a shape that covers at least 10 tender points in the occipital region, lower cervical vertebra, trapezius, supraspinatus, and second gluteal muscles among the 18 tender points described above. preferable.
As shown in Examples described later, the therapeutic article according to the present invention can safely improve cerebral blood flow without causing side effects (Table 7, FIG. 15 and FIG. 16). And by such a blood flow improvement effect, at least one of the various symptoms of the aforementioned fibromyalgia is improved (FIGS. 9 to 14), and the average value of the FIQ index, which is the symptom evaluation index, decreases. There is a therapeutic effect. Since such a fibromyalgia treatment article only needs to be brought into contact with the human body for a predetermined period of time during the day or at night, a simple and effective treatment is realized. Moreover, not only a sufficient and long-lasting effect can be achieved with a short time use, but an effective symptom improvement effect can be maintained by the continuous use.
The details of how cerebral blood flow improvement can improve fibromyalgia symptoms have not been fully elucidated so far, but are related to mitigating fibromyalgia symptoms released from the brain into the bloodstream. It is speculated that this substance is effective because it is efficiently supplied from the cerebral circulation to the periphery by improving blood flow.
6). Articles for the treatment of various diseases caused by cerebral blood flow failure (medical products)
Although the treatment article for fibromyalgia has been described above, the treatment article can also be applied to various symptoms of various diseases caused by cerebral blood flow insufficiency. Examples of diseases caused by cerebral blood flow failure include chronic pain. Specifically, in addition to fibromyalgia, lower back pain, rheumatoid arthralgia, postherpetic neuralgia, diabetic neuralgia, trigeminal neuralgia. And various pains such as peripheral neuralgia, phantom limb pain and cancer pain. The therapeutic article can also be applied to various symptoms of mental and physical disorders. Furthermore, as other embodiments of the present invention, for example, various symptoms that do not lead to a disease but are not preferable or adversely affected in daily life, such as insomnia, fatigue, fatigue, depression, reduced concentration, It can also be applied to mental disorders such as anxiety and agitation, or physical disorders such as coldness, stiff shoulders, back pain, headache, and eye strain. Since the therapeutic article contains the material for improving cerebral blood flow according to the present invention, it is possible to effectively improve the above-mentioned malfunction symptoms by improving the cerebral blood flow.
The therapeutic article of the present invention can be used in combination with other conventional treatment methods. Other treatment methods to be used in combination are not particularly limited as long as more effective treatment can be realized, and are appropriately selected according to the patient and symptoms. Specifically, for example, in the case of fibromyalgia, conventional drug therapy, exercise therapy, diet therapy, physical therapy, and the like may be performed together with the use of the therapeutic article according to the present invention.
In the present invention, the above-mentioned therapeutic article according to the present invention is applied to patients with various diseases caused by cerebral blood flow failure such as fibromyalgia, that is, directly or indirectly brought into contact. It is possible to provide a method for treating the above diseases. According to the treatment method, the symptom can be easily and efficiently improved by improving the cerebral blood flow of patients with various diseases such as fibromyalgia.
7). Articles for diagnosis of diseases (medical products)
Since the article using the material for improving cerebral blood flow according to the present invention can fluctuate cerebral blood flow before and after its use, it should be used for diagnosis of diseases caused by cerebral blood flow insufficiency (illustrated as described above). Is possible. For example, in fibromyalgia, as mentioned above, an increase in cerebral blood flow is achieved by using an article using a material for improving cerebral blood flow (article for treating fibromyalgia), and the symptoms are improved. Fibromyalgia can be diagnosed using changes in cerebral blood flow before and after use as an index.
Therefore, in the present invention, it is possible to provide an article for diagnosing a disease including the cerebral blood flow improving material according to the present invention described above. In addition, about the form and application aspect of the diagnostic article of this invention, the form and application aspect similar to the therapeutic article of this invention mentioned above can be employ | adopted suitably.
In the present invention, the above-described diagnostic article according to the present invention is applied to a subject (patient), that is, a disease caused by cerebral blood flow failure characterized by direct or indirect contact (illustration) Can provide the same diagnostic method as described above.
For example, a method for diagnosing fibromyalgia using a change in the cerebral blood flow of a patient before and after application of the diagnostic article according to the present invention as an index will be described. If the blood flow changes significantly (increased), it can be diagnosed that the possibility of fibromyalgia is high, and if there is no significant change (increased), the possibility of fibromyalgia is low Can be diagnosed. By combining such diagnosis based on cerebral blood flow and conventional evaluation by FIQ, an effective diagnosis can be realized in fibromyalgia for which no diagnostic method has been established so far. In this case, in addition to the sensory FIQ diagnosis based on the subjectivity of the patient, it is possible to make a diagnosis based on an objective and quantitative analysis based on the cerebral blood flow volume, so that the accuracy (reliability) of the diagnosis is improved. Early diagnosis is also possible.

Hereinafter, the present invention will be described more specifically with reference to examples. However, the present invention is not limited to these examples.
In the following examples, clinical trials were conducted on fibromyalgia patients, and the effects of the medical product for fibromyalgia according to the present invention were examined. In addition, in this clinical study, consent to participate in this clinical study (informed consent) was obtained in writing for patients and healthy subjects to be studied. In addition, this clinical study was conducted with the approval of the ethics committee at the conducting hospital.
〔Test method〕
1. Target patient:
A fibromyalgia patient who meets the ACR (American College of Rheumatology) FM classification criteria who is undergoing outpatient treatment was considered as a test patient. In this example, drug therapy and other treatment methods for the target patients were not performed at all from one month before the end of the clinical trial to the end of the trial. These patients are intractable patients with severe fibromyalgia who are not treated with conventional methods (specifically, drug therapy, diet therapy, exercise therapy, etc.), and the average The FIQ index is as high as 50 or more, and daily life and social life are significantly impaired.
In the following, in this example, for comparison with a fibromyalgia patient (test patient), the same clinical test was performed on healthy individuals as controls.
2. Plant carbon fiber sheet:
In this example, “Orgahexa (registered trademark) 02” manufactured by E-Tex (currently Seras Medico) Co., Ltd. was used as a sheet mainly composed of vegetable carbon fiber made from viscose rayon. This plant carbon fiber has 59.4 wt% carbon, 30.5% oxygen, and 3.9 wt% hydrogen, an oxygen / carbon atomic ratio (O / C) of 0.39, and a hydrogen / carbon atomic ratio (H / C). C) is 0.79. In this embodiment, the sheet is simply referred to as “carbon fiber sheet”. This carbon fiber sheet has the configuration shown in FIG. 5, and is a 100 cm × 100 cm sheet manufactured by thermocompression bonding (FIG. 6).
3. Test method:
A carbon fiber sheet was laid under the bed sheet with the acromion line as the upper end, and the patient was supine on the bed sheet. Here, in the case of the evaluation test by FIQ, the use time of the carbon fiber sheet was defined as the nighttime sleeping time of the test patient. The patient's bedtime followed the usual lifestyle. On the other hand, in the case of the cerebral blood flow measurement test, the test patient was laid on a sheet for a predetermined time described later, and the predetermined time was defined as the usage time of the carbon fiber sheet.
A) Evaluation test by FIQ:
The pathogenesis of fibromyalgia was evaluated using the questionnaire (FiQ) shown in Table 3 (above). As shown in Table 3, the evaluation value of each FIQ item is a relative value based on the subjective judgment of the patient. In the evaluation test by FIQ, FIQ before use and after use for a predetermined period (specifically, after 1 hour, after 1 week, and after 2 weeks) were examined. In addition, the FIQ after the discontinuation period in the case of discontinuing use for 2 weeks after using the carbon fiber sheet for 2 days was also examined.
B) Measurement test such as cerebral blood flow:
Since the earlobe blood flow is considered to reflect the external carotid artery blood flow, the earlobe blood flow was measured here, and the state of cerebral blood flow of the test patient was examined from the measurement result. At the time of the test, the test patient was placed on the bed on which the carbon fiber sheet was placed as described above, and the cerebral blood flow was measured by a laser Doppler method in a resting state. As a laser Doppler blood flow meter (LDF), Cybermed CDF-2000 (manufactured by OAS Co., Ltd.) was used, and the attached measurement software was used for analysis. These measurements and analyzes were performed according to the instrument operation manual. Details of the principle of the laser Doppler method and the like are described in, for example, “Clinical Dialysis vol.22 no.5, p.25-31, 2006”. The cerebral blood flow and the blood flow in peripheral tissues (that is, the whole body blood flow) are obtained by measuring the blood flow in the earlobe and the fingertip using a laser Doppler blood flow meter, respectively. At the time of measurement, the measurement sensor was lightly brought into contact with two places, the earlobe and the index finger pad side, and fixed with surge tape. And it measured until the blood flow was stabilized for 10 to 15 minutes from the start of measurement, and then measured for 30 minutes in a resting state.
〔result〕
1. FIQ evaluation test:
FIG. 9 is a graph showing the clinical effect obtained 1 hour after using the carbon fiber sheet. The details of the graph are as shown in Table 4 below. The numerical values on the vertical axis of the graph and the numerical values in Table 4 below are the values of the patient's subjective relative evaluation (that is, the FIQ index) in the questionnaire of Table 3 (above). As shown in FIG. 9 and Table 4 below, for each item of “pain”, “fatigue”, “mood” and “stiffness” in the FIQ items, a significant improvement effect was obtained in all the test patients (p < 0.05), in particular, the effect of improving “feeling of fatigue” and “mood” was remarkable. From these results, it was clarified that the carbon fiber sheet is effective in alleviating the symptoms of fibromyalgia and exhibits immediate effect in a short time of 1 hour after use.
FIG.10 and FIG.11 is a graph which shows the clinical effect obtained in one week after use of a carbon fiber sheet. The details of the graph are as shown in Table 5 below. The numerical values on the vertical axis of the graph and the numerical values in Table 5 below are values of the patient's subjective relative evaluation (FIQ index) in the questionnaire in Table 3 (above).
As shown in FIGS. 10 and 11 and Table 5 below, the FIQ index was significantly improved in all patients (p <0.0005). Specifically, the average FIQ index before using the carbon fiber sheet was 73.2, whereas the average FIQ index after using the sheet was 52.9, and the FIQ drop rate was 27.5 ± 15.0. %Met. Here, since it has been reported that satisfaction in improving symptoms of fibromyalgia patients can be obtained with a decrease of about 10% in the FIQ index, the use of carbon fiber sheets is extremely effective in improving the symptoms of fibromyalgia. It has been shown to be effective for treatment and useful for treatment.
In addition, the “physical disability” and “work break” in the FIQ items did not show significant improvement, but this is presumed to be due to the following reasons. In other words, this was because the target patient was a severe fibromyalgia patient (FIQ index of 70 or more) that would interfere with daily life and social life, so he was already unemployed or bedridden. This is probably because a case was included. In this case, the symptom improvement effect of the carbon fiber sheet is not reflected in the numerical value. Therefore, such a result does not deny the symptom improvement effect of the carbon fiber sheet.
12 and 13 are graphs showing clinical effects obtained two weeks after using the carbon fiber sheet. The details of the graph are as shown in Table 6 below. The numerical values on the vertical axis of the graph and the numerical values in Table 6 below are values of the patient's subjective relative evaluation (FIQ index) in the questionnaire in Table 3 (above).
As shown in FIGS. 12 and 13 and Table 6 below, the FIQ index was significantly improved in patients using the carbon fiber sheet (p <0.0005). Specifically, the average FIQ index before use of the carbon fiber sheet was 76.7, whereas the average FIQ index after use of the sheet was 41.2, and the FIQ drop rate was 46.1 ± 25.5. %Met. The reason why no significant improvement was found in “physical disability” and “work break” in the FIQ items is as described above. Moreover, although the significant improvement was seen as a whole FIQ item, the example which a symptom worsened after sheet | seat use was also seen. This is presumably due to the fact that there was a large drop in temperature during the observation period and the presence of physiology and the like. Therefore, these deterioration examples do not deny the symptom improvement effect of the carbon fiber sheet.
FIG. 14 is a graph showing the clinical effect when the use of the carbon fiber sheet is interrupted. The numerical value on the vertical axis of the graph is the value of the subjective relative evaluation (FIQ index) of the test patient in the questionnaire in Table 3 (above). As shown in FIG. 14, on the second day after the use of the carbon fiber sheet, improvement was obtained in the FIQ items of “pain”, “fatigue”, “mood”, and “stiffness”. It became clear that the symptoms worsened (FIQ index increased) in all items, and returned to the level before use by interruption.
2. Cerebral blood flow measurement test:
Table 7, FIG. 15 and FIG. 16 are tables and graphs showing the measurement results of earlobe blood flow and finger tip blood flow in the test patients and healthy individuals. The numerical data in Table 7, FIG. 15 and FIG. 16 are all expressed as “average value ± standard deviation”.
As shown in Table 7, in the test patient before using the carbon fiber sheet, the ratio of the earlobe blood flow rate to the finger tip blood flow rate (earlobe / fingertip) was 0.69 on average. On the other hand, the average of the ratio (earlobe / fingertip) was 1.23 in healthy persons. As described above, the earlobe blood flow can be regarded as cerebral blood flow, and the finger tip blood flow can be regarded as peripheral blood flow (systemic blood flow). It was clarified that the cerebral blood flow of the test patient is about 70% of the whole body blood flow, which is smaller than that of a healthy person. On the other hand, although there were individual differences in systemic blood flow, there was no significant difference between the test patients and healthy individuals.
As shown in FIG. 15, when a test patient with low cerebral blood flow (earlobe blood flow) uses a carbon fiber sheet, cerebral blood flow (earlobe blood flow) is improved and blood flow velocity is increased. And increased by 152%. In addition, it has been clarified that almost no change is observed in the whole body blood flow (finger tip blood flow) (specifically, 97% on average) with respect to such improvement in cerebral blood flow. Thus, in the test patient, the use of the carbon fiber sheet restored the cerebral blood flow to the same level as the total blood flow, and the ratio of the earlobe / fingertip before and after use changed from an average of 0.69 to an average of 1.03. did.
On the other hand, in healthy individuals, as shown in FIG. 16, the cerebral blood flow (earlobe blood flow) tends to increase after use of the carbon fiber sheet, but the increase in blood flow velocity is small compared to the test patient, The average increase was 119%. On the other hand, as for the whole body blood flow (finger tip blood flow) of a healthy person, no significant change was observed before and after use of the sheet as in the case of the test patient, and the average was 96%. Thus, in healthy persons, the degree of improvement in cerebral blood flow before and after the use of the carbon fiber sheet is smaller than that of fibromyalgia patients. Specifically, the average ratio of earlobe / fingertip before and after use is 1 on average. .23 to an average of 1.40.
From the above results, it was revealed that the carbon fiber sheet has an effect of significantly improving only the cerebral blood flow of the test patient, and does not affect the body circulation of the test patient and healthy persons.

Claims (13)

A material for improving cerebral blood flow, comprising plant carbon fiber. The material according to claim 1, wherein the vegetable carbon fiber is composed of a cellulosic material. The raw material according to claim 2, wherein the cellulosic material is one selected from the group consisting of cotton, Umegashi fiber, bamboo fiber, hemp, viscose rayon and copper ammonia rayon. An article for improving cerebral blood flow, comprising the material according to any one of claims 1 to 3. An article for treating a disease caused by cerebral blood flow insufficiency, comprising the material according to any one of claims 1 to 3. A diagnostic article for a disease caused by cerebral blood flow insufficiency, comprising the material according to any one of claims 1 to 3. The disease is at least one selected from the group consisting of fibromyalgia, lumbar back pain, rheumatoid arthralgia, postherpetic neuralgia, diabetic neuralgia, trigeminal neuralgia, peripheral neuralgia, phantom limb pain and cancer pain. The article according to claim 5 or 6, which is pain. A material for treating fibromyalgia characterized by containing plant carbon fiber. The material according to claim 8, wherein the vegetable carbon fiber is composed of a cellulosic material. The material according to claim 9, wherein the cellulosic material is one selected from the group consisting of cotton, Umegashi fiber, bamboo fiber, hemp, viscose rayon and copper ammonia rayon. The material according to at least one of claims 8 to 10, wherein the fibromyalgia exhibits at least one symptom selected from the group consisting of pain symptoms, physical symptoms, neurological symptoms, and mental symptoms. An article for treating fibromyalgia, comprising the material according to any one of claims 8 to 11. Can cover all or part of at least one region selected from the group consisting of the occipital region, lower cervical spine, trapezius, supraspinatus, second gluteal muscle, lateral epicondyle, buttocks, greater trochanter and knee The article of claim 12 having a shape.