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JP2008529711A - Medical needle with antibacterial and painless function - Google Patents

Medical needle with antibacterial and painless function Download PDF

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Publication number
JP2008529711A
JP2008529711A JP2007556066A JP2007556066A JP2008529711A JP 2008529711 A JP2008529711 A JP 2008529711A JP 2007556066 A JP2007556066 A JP 2007556066A JP 2007556066 A JP2007556066 A JP 2007556066A JP 2008529711 A JP2008529711 A JP 2008529711A
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needle
silver
present
antibacterial
medical
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ヤン、ウォン−ドン
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ヤン、ウォン−ドン
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Priority claimed from KR1020050013855A external-priority patent/KR20060042115A/en
Priority claimed from KR1020050021174A external-priority patent/KR20060043621A/en
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M5/00Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
    • A61M5/42Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests having means for desensitising skin, for protruding skin to facilitate piercing, or for locating point where body is to be pierced
    • A61M5/422Desensitising skin
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M5/00Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
    • A61M5/178Syringes
    • A61M5/31Details
    • A61M5/32Needles; Details of needles pertaining to their connection with syringe or hub; Accessories for bringing the needle into, or holding the needle on, the body; Devices for protection of needles
    • A61M5/329Needles; Details of needles pertaining to their connection with syringe or hub; Accessories for bringing the needle into, or holding the needle on, the body; Devices for protection of needles characterised by features of the needle shaft

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  • Health & Medical Sciences (AREA)
  • Vascular Medicine (AREA)
  • Engineering & Computer Science (AREA)
  • Anesthesiology (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Hematology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Dermatology (AREA)
  • Finger-Pressure Massage (AREA)
  • Infusion, Injection, And Reservoir Apparatuses (AREA)

Abstract

本発明は、抗菌及び無痛機能を有する医療用針に関するもので、さらに詳しくは、粒径がナノ単位である銀(Ag)粒子が針本体に含まれているか、又は針表面にコートされていることから、抗菌性に優れ、かつ患者の痛症を軽減させる機能を有する医療用針(medical needles)に関する。
本発明の医療用針は、注射用針(needle for injection)、手術用針(needle for operation)及び漢方用針(needle for acupuncture)を含む。
【選択図】なし
The present invention relates to a medical needle having antibacterial and analgesic functions, and more specifically, silver (Ag) particles having a particle size of nano units are contained in the needle body or coated on the needle surface. Therefore, the present invention relates to medical needles having excellent antibacterial properties and a function of reducing pain in patients.
The medical needle of the present invention includes a needle for injection, a needle for operation, and a needle for acupuncture.
[Selection figure] None

Description

本発明は、抗菌及び無痛機能を有する医療用針に関するもので、さらに詳しくは、粒径がナノ単位の銀(Ag)粒子が針本体に含まれているか、又は針表面にコートされているため、抗菌性に優れ、かつ患者の痛症を軽減させる機能を有する医療用針(medical needles)に関するものである。本発明の医療用針は、注射用針(needle for injection)、手術用針(needle for operation)及び漢方用針(needle for acupuncture)を含む。   The present invention relates to a medical needle having antibacterial and painless functions. More specifically, the needle body contains silver (Ag) particles having a nano particle size or is coated on the needle surface. The present invention relates to medical needles that have excellent antibacterial properties and have a function of reducing patient pain. The medical needle of the present invention includes a needle for injection, a needle for operation, and a needle for acupuncture.

一般に、注射用針や手術用針又は漢方用針などのような医療用針は、施術者の手で患者に施術される。ところが、人間の手には通常20〜30万個/cm以上の細菌が存在すると知られている。さらに手洗いや殺菌などをよくしないと検出される細菌の数はさらに増加し、ひどい場合はダニ又はカビ菌などが発見される事例も報告されている。したがって、施術者が医療用針の取り扱い過程で患者に細菌が感染される可能性は常に存在するのが現状である。 In general, a medical needle such as an injection needle, a surgical needle, or a Chinese medicine needle is operated on a patient by a practitioner's hand. However, it is known that there are usually 200,000 to 300,000 bacteria / cm 2 or more in human hands. In addition, the number of bacteria detected if hand washing and sterilization are not improved further increases, and cases of ticks or fungi have been reported in severe cases. Therefore, the current situation is that there is always a possibility that the practitioner will be infected with bacteria in the course of handling the medical needle.

一方、最近、銀(Ag)をナノ(Nano)単位の極微細サイズに粒子化するいわば銀ナノ(Nano-silver)技術が産業的に多様に活用されている。周知のように、銀ナノ粒子はゾル溶液や粉末状に加工可能であり、人体に無害で、抗菌、脱臭、紫外線及び電子波遮断などの機能を有する。   On the other hand, recently, so-called silver nano (silver) technology for making silver (Ag) particles into ultra-fine size of nano units has been used in various industrial ways. As is well known, silver nanoparticles can be processed into a sol solution or powder, are harmless to the human body, and have functions such as antibacterial, deodorizing, ultraviolet light, and electron wave blocking.

銀ナノ粒子の抗菌作用メカニズムは、有害菌の細胞膜を溶解させ、細胞内の酵素と作用して栄養物質の代謝機能、つまり栄養物質の流入及び排出を遮断し、結局には有害菌を死滅させる。銀ナノ粒子はその大きさが小さいほど殺菌及び抗菌力に優れ、大腸菌、黄色ブドウ球菌、サルモネラ菌、ビブリオ菌、赤痢菌、肺炎菌、腸チフス菌及び耐性の強いMRSA(メチシリン耐性黄色ブドウ球菌)に対しても強力な抗菌及び殺菌作用を発揮するものと報告されている。   The antibacterial action mechanism of silver nanoparticles dissolves the cell membrane of harmful bacteria and acts with intracellular enzymes to block the metabolic function of nutrients, that is, the influx and excretion of nutrients, eventually killing harmful bacteria . The smaller the size of the silver nanoparticles, the better the bactericidal and antibacterial activity. However, it has been reported to exert a strong antibacterial and bactericidal action.

そこで、本発明は、医療用針の本体に銀ナノ粒子が含まれているか、又は針の表面に銀ナノ粒子がコートされていて、施術者の手による細菌感染のおそれを防止するとともに、患者の痛症を軽減し得る抗菌及び無痛機能を有する医療用針を提供することを目的とする。   Therefore, the present invention includes a medical needle body containing silver nanoparticles or a needle surface coated with silver nanoparticles to prevent the risk of bacterial infection by the practitioner's hand, and An object of the present invention is to provide a medical needle having antibacterial and painless functions that can alleviate pain.

多様な形態の漢方用針(needle for acupuncture)を示す図。The figure which shows the needle | hook for various forms of Kampo (needle for acupuncture). 通常の注射器の斜視図。The perspective view of a normal syringe. 本発明による銀ナノがコートされた針の断面を電子顕微鏡で60,000倍拡大撮影した写真。A photograph of a cross section of a needle coated with silver nano according to the present invention magnified 60,000 times with an electron microscope. 本発明による銀ナノがコートされた針の側面を電子顕微鏡で80,000倍拡大撮影した写真。A photograph of the side of a needle coated with silver nano according to the present invention, magnified 80,000 times with an electron microscope. 肥満患者に対する電気針の施術過程を示す概念図。The conceptual diagram which shows the treatment process of the electric needle with respect to an obese patient.

本発明は、注射用針(needle for injection)、手術用針(needle for operation)及び漢方用針(needle for acupuncture)から選ばれたいずれか一つの医療用針(medical needles)において、粒径0.1〜300nmの銀ナノ(Nano-silver)粒子が針表面に厚さ0.01〜50μmでコートされたことを特徴とする抗菌及び無痛機能を有する医療用針である。   The present invention relates to any one of medical needles selected from needles for injection, needles for operation, and needles for acupuncture. 1. A medical needle having antibacterial and painless functions, characterized in that 0.1-300 nm of nano-silver particles are coated on the needle surface with a thickness of 0.01-50 μm.

また、本発明は、注射用針(needle for injection)、手術用針(needle for operation)及び漢方用針(needle for acupuncture)から選ばれたいずれか一つの医療用針(medical needles)において、粒径0.1〜300nmの銀ナノ(Nano-silver)粒子が針重量の0.01〜20重量%だけ含まれていることを特徴とする抗菌及び無痛機能を有する医療用針である。   The present invention also relates to any one of the medical needles selected from needles for injection, needles for operation, and needles for acupuncture. A medical needle having antibacterial and analgesic functions, characterized in that the nano-silver particles having a diameter of 0.1 to 300 nm are contained by 0.01 to 20% by weight of the needle weight.

以下、本発明をさらに詳しく説明すれば以下の通りである。
本発明による医療用針は、注射用針(needle for injection)、手術用針(needle for operation)及び漢方用針(needle for acupuncture)から選ばれたいずれか一つであって、粒径0.1〜300nmの銀ナノ(Nano-silver)粒子が針表面に厚さ0.01〜50μmでコートされたことを特徴とする。このとき、コートの厚さが0.01μm以下であれば、銀ナノコート効果がほとんどなく、一方、50μm以上であれば、コストの上昇と厚さの増加による効果がほとんど発揮されないため、非経済的であるといえる。
Hereinafter, the present invention will be described in more detail as follows.
The medical needle according to the present invention is any one selected from a needle for injection, a needle for operation, and a needle for acupuncture, and has a particle size of 0. 1 to 300 nm of nano-silver particles are coated on the needle surface with a thickness of 0.01 to 50 μm. At this time, if the thickness of the coat is 0.01 μm or less, there is almost no silver nanocoat effect, whereas if it is 50 μm or more, the effects of the increase in cost and the increase in thickness are hardly exhibited, which is not economical. You can say that.

本発明では、粒径0.1〜300nmの銀ナノ粒子を用いるが、粒径0.1nm以下のものは未だ技術的に実現できないという問題があり、粒径300nm以上のものは抗菌効果が減少するという問題がある。   In the present invention, silver nanoparticles having a particle size of 0.1 to 300 nm are used, but those having a particle size of 0.1 nm or less are still not technically feasible, and those having a particle size of 300 nm or more have a reduced antibacterial effect. There is a problem of doing.

さらに、本発明は、針重量の0.01〜20重量%に相当する銀ナノ粒子が針本体に含まれていることを特徴とする。このとき、銀ナノ粒子の含量が0.01重量%以下であれば、抗菌効果がほとんど発揮されず、20重量%以上であれば、針の強度が低下し、粘性が増加して人体に挿入し難くなり、製造コストが上昇するという問題がある。   Furthermore, the present invention is characterized in that the needle body contains silver nanoparticles corresponding to 0.01 to 20% by weight of the needle weight. At this time, if the silver nanoparticle content is 0.01% by weight or less, the antibacterial effect is hardly exhibited, and if it is 20% by weight or more, the strength of the needle decreases, the viscosity increases, and it is inserted into the human body. There is a problem that the manufacturing cost increases.

(発明の形態)
図1は、本発明の一実施例であって、多様な形態の漢方用針(needle for acupuncture)を示す図である。漢方用針20は、針部30と取っ手部40とからなる。本発明は、少なくとも前記針部30に銀ナノが含有又はコートされたものである。
(Mode of Invention)
FIG. 1 is a view illustrating various types of needles for acupuncture according to an embodiment of the present invention. The Kampo needle 20 includes a needle part 30 and a handle part 40. In the present invention, at least the needle part 30 contains or is coated with silver nano.

図2は、通常の注射器の斜視図であって、注射器は、注射用針とシリンダとからなり、注射用針は針部20と連結部140とからなる。このとき、通常、針部20は金属製であり、連結部140及びシリンダ30,120は合成樹脂製である。本発明は、少なくとも前記針部20に銀ナノが含有又はコートされたものである。本発明の効果を高めるために、前記針部20以外に連結部140及びシリンダ30,120にも銀ナノを含有又はコートすることができる。   FIG. 2 is a perspective view of a normal syringe. The syringe includes an injection needle and a cylinder, and the injection needle includes a needle portion 20 and a connecting portion 140. At this time, the needle portion 20 is usually made of metal, and the connecting portion 140 and the cylinders 30 and 120 are made of synthetic resin. In the present invention, at least the needle part 20 contains or is coated with silver nano. In order to enhance the effect of the present invention, the connecting portion 140 and the cylinders 30 and 120 other than the needle portion 20 can also contain or be coated with silver nano.

図3は、プラズマコート法により銀ナノがコートされた針の断面を電子顕微鏡で60,000倍拡大して撮影したものである。図3からわかるように、コート断面が極めて滑らかに形成されているため、銀ナノコート膜が潤滑作用を行うことを確認することができる。   FIG. 3 is a photograph of a cross section of a needle coated with silver nano particles by a plasma coating method magnified 60,000 times with an electron microscope. As can be seen from FIG. 3, since the coat cross section is formed very smoothly, it can be confirmed that the silver nanocoat film performs a lubricating action.

図4は、本発明により銀ナノがコートされた針の側面を電子顕微鏡で80,000倍拡大撮影した写真である。   FIG. 4 is a photograph of the side surface of a needle coated with silver nano according to the present invention, magnified 80,000 times with an electron microscope.

本発明において銀ナノが含まれた医療用針の製造過程は、次のとおりである。先ず、針を構成する金属材料を加熱して融解し、ここに銀ナノ粒子を投入して攪拌した後、この混合物を金型モジュールに投入して成形又は射出し、射出物を徐冷すれば本発明の医療用針が完成される。   In the present invention, the manufacturing process of the medical needle containing silver nano is as follows. First, the metal material constituting the needle is heated and melted, and after the silver nanoparticles are added and stirred therein, the mixture is put into a mold module and molded or injected, and the injection is slowly cooled. The medical needle of the present invention is completed.

次に、本発明の一実施例として、電気めっき方法により銀ナノがコートされた医療用針を製造する工程を説明すると、次のようになる。先ず、針本体で不純物を取るための洗浄工程とすすぎ工程を行い、麻布を使用した研磨工程をしてから、水で再洗浄してめっき液に浸し、直流電源を加える。その次、前記針をめっきタンクに投入し、下めっきとニッケルめっきを施した後、銀ナノ溶液を投入し、直流電源を加え、洗浄工程を経て乾燥させると、銀ナノコートが完成する。   Next, as an embodiment of the present invention, a process for producing a medical needle coated with silver nano by an electroplating method will be described as follows. First, a cleaning process and a rinsing process for removing impurities with the needle body are performed, and a polishing process using linen is performed. Then, the cleaning process is performed again with water, immersed in a plating solution, and a DC power supply is applied. Next, the needle is put into the plating tank, and after the lower plating and the nickel plating are performed, the silver nano-solution is added, and a direct current power supply is applied, followed by drying through a washing step, thereby completing the silver nano-coat.

また、本発明の他の実施例として、プラズマ(plasma)コート法により銀ナノがコートされた医療用針を製造する工程を説明すると、次のようになる。先ず、完成した針表面の異物を洗浄し、すすぎ工程を行い、乾燥機で乾燥させて水分を蒸発させた後、針を固定台に取り付けた状態でプラズマ真空チャンバに投入してガスを注入する。次に、プラズマ(plasma)滅菌工程と銀ナノ1次表面加工作業を行った後、プラズマ2次表面加工を行い、その次、銀ナノコートを施して乾燥させると、銀ナノコートが完成する。   Further, as another embodiment of the present invention, a process for manufacturing a medical needle coated with silver nano particles by a plasma coating method will be described as follows. First, the foreign matter on the surface of the completed needle is cleaned, rinsed, dried with a dryer to evaporate the moisture, and then the gas is injected into the plasma vacuum chamber with the needle attached to the fixed base. . Next, after performing a plasma sterilization process and a silver nano primary surface processing operation, a plasma secondary surface processing is performed, and then silver nanocoat is applied and dried to complete the silver nanocoat.

以下、次の実験例により、本発明の抗菌及び無痛機能を有する医療用針に対する効能を試験した。   In the following, the effectiveness of the present invention for a medical needle having antibacterial and painless functions was tested.

(実施例)
現在市販されているステンレススチル注射用針(226ゲージ)5,000本と、電気針(長さ10.5cm)5,000本と、バネ針(長さ6cm)5,000本をそれぞれ購入し、これらを以下の条件に従いプラズマによる乾式スパッタリング法で蒸着して銀ナノ粒子をコートした。
(Example)
5,000 stainless steel needles for injection (226 gauge), 5,000 electric needles (10.5 cm in length), and 5,000 spring needles (6 cm in length) that are currently available These were deposited by a dry sputtering method using plasma according to the following conditions to coat silver nanoparticles.

1)場所:S大学プラズマセンター
2)蒸着装備:CHAMBER 850W×850L×700H、TARGEサイズ:375×120、TARGET 1PART 2EA(TOTAL:6EA)、MAGNET 1PART 2EA(TOTAL:6EA)、POWER DC or RF、MBP +SCREW PUMP 7000L/MIN、TURBO MOLECULAR PUMP 3000M3/H
3)ホルダー:回転ホルダー
4)基本圧力:10-5トル以下
5)使用気体:Ar(99.99%)、酸素(99.999%)
6)工程圧力(Ar Pressure):1〜10mtorr
7)ガス流量(Gas Flow):9〜100cc/min
8)温度(Temperature):常温(Room Temperature)
9)電力:10〜150W
10)銀ターゲット:純度99.99% Ag
11)被コート体:ステンレススチル針3種
12)チャンバ温度:100℃
13)コート時間:60分
1) Location: S University Plasma Center 2) Deposition equipment: CHAMBER 850W x 850L x 700H, TARGE size: 375 x 120, TARGET 1PART 2EA (TOTAL: 6EA), MAGNET 1PART 2EA (TOTAL: 6EA), POWER DC or RF, MBP + SCREW PUMP 7000L / MIN, TURBO MOLECULAR PUMP 3000M3 / H
3) Holder: Rotating holder 4) Basic pressure: 10 -5 Torr or less 5) Gas used: Ar (99.99%), Oxygen (99.999%)
6) Process pressure (Ar Pressure): 1 to 10 mtorr
7) Gas flow: 9-100cc / min
8) Temperature: Room Temperature
9) Power: 10-150W
10) Silver target: purity 99.99% Ag
11) Coated body: 3 types of stainless steel needles 12) Chamber temperature: 100 ° C
13) Coat time: 60 minutes

前記の条件で蒸着電力を120Wに設定し、蒸着圧力を変化させつつ被コート体の針表面に銀ナノ皮膜をコートした。前記銀ナノコート膜に対して、蒸着圧力変化による電気比抵抗特性及び接着力特性の変化を測定した結果、蒸着圧力が10mtorrであるときに電気比抵抗が5.014μΩcmと最小であり、それ以上の蒸着圧力では電気比抵抗が増加する傾向があった。また、前記実施例によりコートされた針は、銀粒子が微細なナノ単位で膜を形成し、その表面が極めて柔らかくかつ一定の均一性を示した。   Under the above conditions, the deposition power was set to 120 W, and the silver nano-film was coated on the needle surface of the coated body while changing the deposition pressure. As a result of measuring changes in electrical resistivity and adhesive strength characteristics due to changes in deposition pressure, the electrical resistivity was a minimum of 5.014 μΩcm when the deposition pressure was 10 mtorr. The electrical resistivity tended to increase at the deposition pressure. In addition, the needle coated according to the above example formed a film with fine nano-particles of silver particles, and the surface thereof was extremely soft and showed uniform uniformity.

<試験例1>電気伝導度試験
前記実施例による銀ナノコート電気針を用いて肥満患者を対象として脂肪分解のための電気針施術を行った。電気針施術に用いられた電気刺激器はDメディカル社のSTAETRON(商品名)を使用した。施術方法は、図5のように、患者の特定肥満部位に前記電気針を3〜5cm間隔で並んで刺した後、電気針を電気刺激器と連結して1時間程度電気的な刺激を加えた。
<Test Example 1> Electrical Conductivity Test An electric needle treatment for lipolysis was performed on obese patients using the silver nanocoat electric needle according to the above example. As the electric stimulator used for the electric needle treatment, STAETRON (trade name) manufactured by D Medical Co., Ltd. was used. As shown in FIG. 5, after the electric needles are punctured at 3 to 5 cm intervals at a specific obese site of a patient as shown in FIG. It was.

一方、同じ患者に対して他の肥満部位に銀ナノコートを施していない通常のステンレス電気針を刺し、同じ方法で施術して患者の反応を比較し、その結果を下記表1に示した。   On the other hand, a normal stainless steel electric needle not coated with silver nanocoat was punctured on other obese sites on the same patient, and the patient's reaction was compared by the same method. The results are shown in Table 1 below.

前記表1の結果から、本発明の銀ナノ電気針は、通常のステンレス電気針に比べて電気伝導率に優れ、低い電流でも患者が著しく早い反応を見せ、かつ男性よりは女性がさらに敏感な反応を見せたことがわかる。さらに、人間が年をとるにつれて体内に水分が少なくなり人体伝導率が落ちることがわかる。   From the results shown in Table 1, the silver nanoelectric needle of the present invention is superior in electrical conductivity compared to a normal stainless steel electric needle, the patient shows a remarkably fast reaction even at a low current, and the woman is more sensitive than the man. You can see that it showed a reaction. Furthermore, it can be seen that as humans get older, the body has less water and the human conductivity decreases.

<試験例2>痛症試験 (1)
男女それぞれ5人の肥満患者に対して長さ10cmの長針を肥満部位に挿入し、電気針刺激器で電気を加えたとき、本発明の銀ナノコート針と従来のステンレススチル針を患者が比較してその結果を、下記表2に示した。
<Test Example 2> Pain test (1)
When a 10 cm long needle is inserted into an obese site for 5 obese patients, both male and female, and when electricity is applied with an electric needle stimulator, the patient compares the silver nanocoat needle of the present invention with a conventional stainless steel needle. The results are shown in Table 2 below.

前記表2の結果から明らかなように、患者のほとんどは、従来のステンレススチル針では、硬くてちくちくする痛みがあると答弁したのに対し、本発明の銀ナノコート針では、苦痛、痛症又は痛みがほとんどなく、遥かに柔らかい感じがすると陳述した。   As is apparent from the results in Table 2, most patients answered that there was a hard and tingling pain with the conventional stainless steel needle, whereas with the silver nanocoated needle of the present invention, pain, pain or He stated that there was little pain and it felt much softer.

<試験例3>痛症試験 (2)
前記試験例2の患者を対象として針を挿入又は引き抜きする際の感じ及び痛症の程度を調査し、その結果を下記表3に示した。
<Test Example 3> Pain test (2)
The feeling of pain when inserting or withdrawing the needle and the degree of pain were investigated for the patient of Test Example 2, and the results are shown in Table 3 below.

前記表3の結果から、本発明の銀ナノコート針は、刺されたとき又は抜かれたときに銀の潤滑作用により柔らかくて痛みがなく、施術の後にかゆみ、むくみ又はアレルギー反応もほんとんどないことがわかる。   From the results of Table 3, the silver nanocoated needle of the present invention is soft and painless due to the lubricating action of silver when stabbed or pulled out, and there is almost no itching, swelling or allergic reaction after treatment. Recognize.

<試験例4>体脂肪分解効果試験
本発明の銀ナノコート針と従来のステンレス針を用いてそれぞれ1か月間肥満患者に対する電気治療を行い、患者の体重変化を比較分析した後、下記表4に示した。
<Test Example 4> Body Lipolysis Effect Test Electrotherapy for obese patients was performed for 1 month each using the silver nanocoat needle of the present invention and a conventional stainless needle, and the weight change of the patient was compared and analyzed. Indicated.

本発明の銀ナノコート針で電気刺激及び耳に耳針を施術した者は、全員10kg以上体重減少を示したのに対し、ステンレススチル針で電気刺激を施したチームは、ほとんど10kg以下の低調な体重減少を示した。しかも、C.T撮影で内部体脂肪が急激に減少したことがわかる。このように、前記銀ナノコート針は、通常のステンレス製針に比べてより優れた体脂肪除去率を示すことから、電気伝導率と熱伝導率が高くて体脂肪を容易に分解することができることがわかる。   All the persons who performed electrical stimulation with the silver nanocoat needle of the present invention and the ear needle on the ear showed a weight loss of 10 kg or more, whereas the team subjected to electrical stimulation with a stainless steel needle was almost under 10 kg. Showed weight loss. In addition, it can be seen that the internal body fat decreased rapidly by CT imaging. As described above, the silver nano-coated needle exhibits a higher body fat removal rate than a normal stainless needle, and thus has high electrical conductivity and thermal conductivity and can easily decompose body fat. I understand.

<試験例5>痛症試験 (3)
総合病院の炎症性疾患の長期入院患者を対象として前記実施例による銀ナノコート注射用針を使用し、患者の反応を対照群と比較し、その結果を下記表5に示した。
<Test Example 5> Pain test (3)
The silver nanocoat injection needle according to the above example was used for a long-term hospitalized patient with an inflammatory disease in a general hospital, and the patient's reaction was compared with the control group. The results are shown in Table 5 below.

前記表5の結果から、本発明の銀ナノコート注射針は、一般のステンレス注射針に比べて優れた抗菌力を有することはもとより、注射針を刺すとき、皮下注射、筋肉注射、血管注射及びリンゲル注射のいずれにおいても、ナノ銀の微細な超微粒子の潤滑作用により人体の表皮、血管や筋肉を通過するときまたは注射針を引き抜くときの苦痛が著しく減少することがわかる。これは、前記注射針に銀ナノ粒子が微細にコートされていることから、挿入時に皮膚、筋肉、神経或いは血管の損傷、摩擦、押されなどが最小化されるためである。   From the results of Table 5, the silver nanocoat injection needle of the present invention has an antibacterial activity superior to that of a general stainless steel injection needle, and also when the needle is inserted, subcutaneous injection, intramuscular injection, vascular injection, and Ringer In any of the injections, it can be seen that the lubrication action of nano silver fine ultrafine particles significantly reduces the pain when passing through the epidermis, blood vessels and muscles of the human body or when the injection needle is withdrawn. This is because, since the silver nanoparticles are finely coated on the injection needle, damage to the skin, muscles, nerves or blood vessels, friction, and pressing are minimized during insertion.

<試験例6>痛症試験 (4)
前記試験例5の患者を対象として注射針を挿入又は引き抜きする際の患者の痛症及び感じと注射針の脱着後の肌の反応及び現象を調査し、その結果を表6に示した。
<Test Example 6> Pain test (4)
The patient's pain and feeling when inserting or withdrawing the injection needle and the skin reaction and phenomenon after removal of the injection needle were investigated for the patient of Test Example 5, and the results are shown in Table 6.

前記表6の結果から、患者のほとんどは、従来のステンレス注射針は、挿入時に硬くて極めてちくちくすると答弁したが、本発明の銀ナノコート注射針は、挿入又は引き抜きする際に痛症が極めて軽減し、施術後の傷あとが従来の注射針の場合と比較して遥かに早く治り、むくみ、アレルギー又はかゆみなどの反応と炎症性反応が全くないことがわかる。   From the results in Table 6, most patients answered that conventional stainless needles were hard and extremely crisp when inserted, but the silver nanocoated needles of the present invention greatly reduced pain when inserted or withdrawn. In addition, it can be seen that the wound after the treatment heals much faster than in the case of the conventional injection needle, and there is no reaction such as swelling, allergy or itching and no inflammatory reaction.

本発明の抗菌及び無痛機能を有する医療用針は、先ず、抗菌、殺菌、防臭、除毒機能に優れ、施術時に人体に好ましい陰イオンと遠赤外線が発生して血液循環と内分泌活動を促進させ、抗ウイルスと抗アレルギー効果及び迅速な痛症緩和と早い体脂肪分解が可能である。また、銀ナノの優れた潤滑作用により人体挿入時の苦痛を軽減させ、特に電気針の施術時には銀ナノの優れた電気伝導率と熱伝導率により弱い電流でも人体に挿入された針又は注射器の電気伝導率と熱伝導率を高める効を有する。   The medical needle having antibacterial and painless functions of the present invention is excellent in antibacterial, bactericidal, deodorizing and detoxifying functions, and generates anions and far-infrared rays that are favorable to the human body during treatment to promote blood circulation and endocrine activity. Anti-viral and anti-allergic effects, rapid pain relief and rapid body lipolysis. In addition, the excellent lubrication action of silver nano reduces the pain when inserting the human body, especially during the operation of an electric needle, the excellent electrical conductivity and thermal conductivity of silver nano make it possible for the needle or syringe inserted into the human body even with a weak current. It has the effect of increasing electrical conductivity and thermal conductivity.

Claims (2)

注射用針(needle for injection)、手術用針(needle for operation)及び漢方用針(needle for acupuncture)から選ばれたいずれか一つの医療用針(medical needle)において、粒径0.1〜300nmの銀ナノ(Nano-silver)粒子が針表面に厚さ0.01〜50μmでコートされたことを特徴とする抗菌及び無痛機能を有する医療用針。   In any one medical needle selected from needle for injection, needle for operation, and needle for acupuncture, the particle size is 0.1 to 300 nm. A medical needle having an antibacterial and analgesic function, characterized in that a nano-silver particle is coated on the needle surface with a thickness of 0.01 to 50 μm. 注射用針(needle for injection)、手術用針(needle for operation)及び漢方用針(needle for acupuncture)から選ばれたいずれか一つの医療用針(medical needle)において、粒径0.1〜300nmの銀ナノ(Nano-silver)粒子が前記針の全重量100重量%に対して0.01〜20重量%だけ含まれていることを特徴とする抗菌及び無痛機能を有する医療用針。   In any one medical needle selected from needle for injection, needle for operation, and needle for acupuncture, the particle size is 0.1 to 300 nm. A medical needle having antibacterial and analgesic functions, wherein the nano-silver particles are contained in an amount of 0.01 to 20% by weight based on 100% by weight of the needle.
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