品牌故事

養生理念

科研技術

品牌系列

資訊專欄

產品專區

品牌故事

養生理念

科研技術

品牌系列

資訊專欄

產品專區

品牌故事

養生理念

科研技術

品牌系列

資訊專欄

產品專區

全球領先技術

專家學者

攜手全球科學力量,共創健康未來

無限極持續加大科研投入,與全球多家權威科研機構及知名學府合作,共同建立多個科研平台,推動健康產業創新發展,致力將中華養生文化傳播到全世界。

霍夫曼無限極研究計畫

2011年諾貝爾生理學或醫學獎得主霍夫曼教授,自2017年3月擔任無限極科學顧問以來,專注於中草藥領域的長期研究。同年10月,「霍夫曼無限極研究計畫」正式啟動,與歐洲最大的基礎科學研究機構——法國國家科學院(CNRS)合作,支持霍夫曼教授及其團隊進行尖端研究。研究內容涵蓋:中草藥多醣抗病毒與扶正氣作用、改善腸道免疫功能、組方抗衰老機制探索。

劍橋無限極研究中心 CIRCE

2015年,劍橋無限極研究中心成立,成為無限極首個海外科研合作平台。該中心專注於利用分子生物等前沿技術,深入研究中草藥的功效成分與作用機制。

未來,無限極將深化與劍橋大學的科研合作,聚焦於延緩衰老領域,推動科研成果快速轉化應用,為消費者帶來更多高品質健康產品,助力更多人擁有健康、美麗與快樂。

卡明斯基教授:科技引領健康未來

科克萊門斯‧卡明斯基教授(Professor Clemens Kaminski),現任劍橋大學化學工程與生物技術系主任,同時擔任劍橋無限極研究中心(CIRCE)首席科學家。卡明斯基教授帶領無限極與劍橋大學的合作團隊,致力於揭示天然來源產品的作用機制,並開發維持健康與預防疾病的新型健康產品。

透過這些卓越的科研合作,無限極在全球視野中推動健康產業邁向新高度,將中華養生文化與科學完美融合,不斷將東方養生智慧與西方領先技術結合,讓更多人從中受益,共同創造健康、美麗、和諧的生活。

  • 朱爾斯·霍夫曼(法國)

    朱爾斯·霍夫曼(法國)

    Jules A. Hoffman (French)

    諾貝爾獎生理學或醫學獎得主(2011)

    國家科學研究中心(CNRS)榮譽傑出研究主任、組長

    法國國家科學院院長(2007-2008)

  • 王琦(中國)

    王琦(中國)

    Wang Qi (Chinese)

    中國工程院院士(2019)

    第二屆國醫大師

    北京中醫藥大學終生教授(一級教授)

  • 克萊門斯·卡明斯基(英國)

    克萊門斯·卡明斯基(英國)

    Clemens Kaminski (British)

    劍橋大學化工與生物技術學院院長

    英國物理學會院士(2020)

    英國皇家化學學會院士(2020)

  • 王新陸(中國)

    王新陸(中國)

    Wang Xinlu (Chinese)

    第四屆國醫大師

    中華中醫學會首席健康科普專家

    山東中醫藥大學教授 博士生導師

  • 讓·呂克·伊姆勒(法國)

    讓·呂克·伊姆勒(法國)

    Jean-Luc IMLER (French)

    法國國家科學院(CNRS)分子與細胞生物學研究所所長

    法國國家科學院(CNRS)昆蟲免疫和發育模型研究組主任

    法國國家科學院(CNRS)銀質獎章獲獎者(2020)

  • 高錦明(中國香港)

    高錦明(中國香港)

    Robert Kam Ming KO (Hong Kong, China)

    香港科技大學生命科學部副主任、教授

    香港科技大學重要研發中心副主任

  • 大衛·埃森伯格(美國)

    大衛·埃森伯格(美國)

    David M. Eisenberg (American)

    哈佛大學陳曾熙公共衛生學院副教授

    哈佛醫學院補充和綜合醫學治療研究和教育部門創始主任(2000-2010)

    美國國立衛生研究院(NIH)、食品和藥物管理局(FDA)和國家醫學委員會聯合會前顧問

  • 王喜軍(中國

    王喜軍(中國)

    Wang Xijun (Chinese)

    教育部經典各方程研究中心主任

    國家中醫藥管理局中藥方代謝組學研究中心主任

    國家重點學科重要學A+學科帶頭人

  • 張勇民(法國)

    張勇民(法國)

    Zhang Yongmin (French)

    法國國家藥學科學院院士(2012)

    法國國家科學研究中心一級主任研究員(2013)

    法國索邦大學(原巴黎第六大學)博士生導師

  • 杜志雲(中國)

    杜志雲(中國)

    Du Zhiyun (Chinese)

    廣東省“千百十”省級人才

    俄羅斯自然學科學研究外籍院士

    廣東省化妝品學會理事長

  • 朱爾斯·霍夫曼(法國)

    朱爾斯·霍夫曼(法國)

    Jules A. Hoffman (French)

    諾貝爾獎生理學或醫學獎得主(2011)

    國家科學研究中心(CNRS)榮譽傑出研究主任、組長

    法國國家科學院院長(2007-2008)

  • 王琦(中國)

    王琦(中國)

    Wang Qi (Chinese)

    中國工程院院士(2019)

    第二屆國醫大師

    北京中醫藥大學終生教授(一級教授)

  • 克萊門斯·卡明斯基(英國)

    克萊門斯·卡明斯基(英國)

    Clemens Kaminski (British)

    劍橋大學化工與生物技術學院院長

    英國物理學會院士(2020)

    英國皇家化學學會院士(2020)

  • 王新陸(中國)

    王新陸(中國)

    Wang Xinlu (Chinese)

    第四屆國醫大師

    中華中醫學會首席健康科普專家

    山東中醫藥大學教授 博士生導師

  • 讓·呂克·伊姆勒(法國)

    讓·呂克·伊姆勒(法國)

    Jean-Luc IMLER (French)

    法國國家科學院(CNRS)分子與細胞生物學研究所所長

    法國國家科學院(CNRS)昆蟲免疫和發育模型研究組主任

    法國國家科學院(CNRS)銀質獎章獲獎者(2020)

  • 高錦明(中國香港)

    高錦明(中國香港)

    Robert Kam Ming KO (Hong Kong, China)

    香港科技大學生命科學部副主任、教授

    香港科技大學重要研發中心副主任

  • 大衛·埃森伯格(美國)

    大衛·埃森伯格(美國)

    David M. Eisenberg (American)

    哈佛大學陳曾熙公共衛生學院副教授

    哈佛醫學院補充和綜合醫學治療研究和教育部門創始主任(2000-2010)

    美國國立衛生研究院(NIH)、食品和藥物管理局(FDA)和國家醫學委員會聯合會前顧問

  • 王喜軍(中國

    王喜軍(中國)

    Wang Xijun (Chinese)

    教育部經典各方程研究中心主任

    國家中醫藥管理局中藥方代謝組學研究中心主任

    國家重點學科重要學A+學科帶頭人

  • 張勇民(法國)

    張勇民(法國)

    Zhang Yongmin (French)

    法國國家藥學科學院院士(2012)

    法國國家科學研究中心一級主任研究員(2013)

    法國索邦大學(原巴黎第六大學)博士生導師

  • 杜志雲(中國)

    杜志雲(中國)

    Du Zhiyun (Chinese)

    廣東省“千百十”省級人才

    俄羅斯自然學科學研究外籍院士

    廣東省化妝品學會理事長

無限極全球科學顧問委員會

2022年11月,無限極將原有的「無限極科學顧問委員會」升級為「無限極全球科學顧問委員會」,由來自全球多學科、多領域的中西方權威專家組成。他們結合東方養生智慧與西方科學技術,為無限極提供專業諮詢和技術支援,推動健康理念的進一步發展。

實力科研 領先創新

發明專利

截止至2024年7月31日,無限極有權專利共604件,其中,發明專利319件,實用新型專利196件,設計專利89件

0

有權專利(件)

0

發明專利(件)

0

實用新型專利(件)

0

設計專利(件)

國際期刊學術論文

為了深入探討中草藥的健康功效與科技應用,無限極持續將研究成果發表於國際權威期刊,展示了公司在健康領域的科研成就,並以學術影響力推動中華養生文化的全球傳播。

  • Regulation effects of indigestible dietary polysaccharides on intestinal microflora: An overview

    Journal of Food Biochemistry

    2020:el3564

    Comparison of immunomodulatory effects of three polysaccharide fractions from Lentinula edodes water extracts

    Journal of Functional Foods

    2020,66:103791

    Ultrahigh pressure extraction of polysaccharide from Morinda officinalis and effect on the polysaccharide structure

    Separation Science and Technology

    2020: 1-11

    Photoprotective effect of Astragalus membranaceus polysaccharide on UVA-induced damage in HaCaT cells

    Pios one

    2020, 15(7): e0235515

    Photoprotective effect of Astragalus membranaceus polysaccharide on UVA-induced damage in HaCaT cells

    Pharmacology & Pharmacy

    2019, 10(6):318-328

    Purification of polysaccharide from Lentinus edodes water extract by membrane separation and its chemical cosposition and structure character!zat ion

    Food Hydrocolloids

    3784:11:00.000

    MPSSS impairs the immunosuppressive function of cancer-associated fibroblasts via the TLR4-NF- x B pathway

    Bioscience reports

    2019, 39(5).

    Supplementation with compound polysaccharides contributes to the development and metabolic activity of young rat intestinal iaicrobiota

    Food & function

    2019, 10(5): 2658-2675

    Study on quality regionalization of Lycii Fructus

    China journal of Chinese materia medica

    2019,44(6): 1156-1163.

    Hematopoietic effect of small molecular fraction of Polygoni mult iflori Radix Praeparata in cyclophosphamide-induced anemia mice

    Chinese journal of natural medicines

    2019, 17(7): 535-544.

    Comparison of Immunomodulatory Effects of Fresh Garlic and Black Garlic Polysaccharides on RAW 264. 7 Macrophages

    Journal of Food Science,

    2017, 82(3):765-771.

    Purification, structural characterization, and immunomodulatory activity of the polysaccharides from Ganoderma lucidum

    International Journal of Biological Macromolecules

    2019

    Lycium barbarum polysaccharides extend the mean lifespan of Drosophila melanogaster

    Food & Function

    2019, 10(7): 4231-4241

    Alkaline Extraction, Structural Characterization, and Bioactivities of (l-*6)-p -d-Glucan from Lentinus edodes

    Molecules

    2019,24(8): 1610.

    MPSSS impairs the immunosuppressive function of cancer-associated fibroblasts via the TLR4-NF- k B pathway

    Bioscience reports

    2019, 39(5).

    Comparison of structural, antioxidant and immuno - stimulating activities of polysaccharides from Tremella fuciformis in two different regions of China

    International Journal of Food Science & Technology

    201&53(8)

    Polysaccharides from Chinese Herbal Lycium barbarum Induced Systemic and Local Immune Responses in H22 Tumor-Bearing Mice

    Immunology Research

    2018, Article ID 3431782,12 pages.

    Fraction From Lycium barbarum Polysaccharides Reduces Inununotoxicity and Enhances Antitumor Activity of Doxorubicin in Mice.

    Integrative Cancer Therapies

    2018:15347354 1775354

    Eugenol triggers CDllb+Grl+ myeloid-derived suppressor cell apoptosis via endogenous apoptosis pathway

    Rsc Advances

    2018, 8(7):3833-383&

    An Asparagus polysaccharide fraction inhibits MDSCs by inducing apoptosis through toll-like receptor

    Phytotherapy Research

    2018(Suppl 2).

    Effects of l.ycium barbarum polysaccharides with different molecular weights on function of RAW264. 7 macrophages

    Food & Agricultural Immunology

    2018:1-13

    Effect of compound polysaccharide with Lentinan, Pachymaran and Tremella polysaccharide on mouse macrophage function

    Chinese Journal of Immunology

    2018

    Myeloid-derived suppressor cells promote B-cell production of IgA in a TNPR2-dependent manner

    Cellular & Molecular Immunology

    2017, 14(7):597-606.

    Immunoenhancenient of Edible Fungal Polysaccharides (Lentinan, Tremellan, and Pachymaran) on Cyclophosphamide-Induced Inununosuppression in Mouse Model

    Evidence-based complementary and alternative medicine

    2017, 2017(1):94591 56.

    A polysaccharide from Dictyophora indusiata inhibits the immunosuppressive function of cancer -associated fibroblasts

    Cell Biochemistry & Function

    2017,35(7).

    Effect of edible fungal polysaccharides on improving influenza vaccine protection in mice

    Food & Agricultural Immunology

    2017, 28(6): 1- 12.

    A polysaccharide derived from Lentinus edodes impairs the immunosuppressive function of myeloid-derived suppressor cells via the p38 pathways

    Rsc Advances

    2017, 7(58)

    Effect of polysaccharides from Tremella fuciformis, on UV-induced photoaging

    Journal of Functional Foods

    2016,20:400- 410.

    Inununofflodulatory effects of polysaccharide cexpounds in macrophages revealed by high resolution ATM

    Scanning

    2016, 38(6)

    Polysaccharides from medicinal herbs as potential therapeutics for aging and age-related neurodegeneration

    Rejuvenation research

    2014,17(2): 201-204.

    Optimization for the extraction of polysaccharides from Ganoderma lucidum, and their antioxidant and antiproliferative activities

    Journal of the Taiwan Institute of Chemical Engineers

    2013, 44(6):886-894

    Polysaccharide from Lentinus edodes inhibits the immunosuppressive function of myeloid-derived suppressor cells

    PloS one

    2012,7(12): e51751.

    Long-Term Treatment with a Compound Polysaccharide-Based Health Product (Infinitus Polysac Plus) Enhances Innate and Adaptive Immunity in Mice

    Chinese Medicine

    2011,2(04): 178.

    Extraction and Antioxidant Activity of a Combined Fungus Polysaccharide

    Journal of Food Science and Biotechnology

    2013,3.

    A homogalacturonan from the radix of Platycodon grandiflorum, and the anti-angiogenesis activity of po1y-/o1igoga1acturonic acids derived therefrom

    Carbohydrate Research

    2011, 346(13):1930-6

    Comparison of Methods for Determination of Polysaccharides Content in Epiphyte Health Foods

    Modern Food Science and Technology

    2010,7.

    Polysaccharides in Lentinus edodes: Isolation, Structure, Immunomodulating Activity and Future Prospective

    Critical Reviews in Food Science and Nutrition

    54:474487 (2014)

    Modulation of Gut Microbiome Composition and Function in Experimental Colitis Treated with Sulfasalazine

    Frontiers in Microbiology

    2017, 8 (9) : 1-15

  • Regulation effects of indigestible dietary polysaccharides on intestinal microflora: An overview

    Journal of Food Biochemistry

    2020:el3564

    Comparison of immunomodulatory effects of three polysaccharide fractions from Lentinula edodes water extracts

    Journal of Functional Foods

    2020,66:103791

    Ultrahigh pressure extraction of polysaccharide from Morinda officinalis and effect on the polysaccharide structure

    Separation Science and Technology

    2020: 1-11

    Photoprotective effect of Astragalus membranaceus polysaccharide on UVA-induced damage in HaCaT cells

    Pios one

    2020, 15(7): e0235515

    Photoprotective effect of Astragalus membranaceus polysaccharide on UVA-induced damage in HaCaT cells

    Pharmacology & Pharmacy

    2019, 10(6):318-328

    Purification of polysaccharide from Lentinus edodes water extract by membrane separation and its chemical cosposition and structure character!zat ion

    Food Hydrocolloids

    3784:11:00.000

    MPSSS impairs the immunosuppressive function of cancer-associated fibroblasts via the TLR4-NF- x B pathway

    Bioscience reports

    2019, 39(5).

    Supplementation with compound polysaccharides contributes to the development and metabolic activity of young rat intestinal iaicrobiota

    Food & function

    2019, 10(5): 2658-2675

    Study on quality regionalization of Lycii Fructus

    China journal of Chinese materia medica

    2019,44(6): 1156-1163.

    Hematopoietic effect of small molecular fraction of Polygoni mult iflori Radix Praeparata in cyclophosphamide-induced anemia mice

    Chinese journal of natural medicines

    2019, 17(7): 535-544.

    Comparison of Immunomodulatory Effects of Fresh Garlic and Black Garlic Polysaccharides on RAW 264. 7 Macrophages

    Journal of Food Science,

    2017, 82(3):765-771.

    Purification, structural characterization, and immunomodulatory activity of the polysaccharides from Ganoderma lucidum

    International Journal of Biological Macromolecules

    2019

    Lycium barbarum polysaccharides extend the mean lifespan of Drosophila melanogaster

    Food & Function

    2019, 10(7): 4231-4241

    Alkaline Extraction, Structural Characterization, and Bioactivities of (l-*6)-p -d-Glucan from Lentinus edodes

    Molecules

    2019,24(8): 1610.

    MPSSS impairs the immunosuppressive function of cancer-associated fibroblasts via the TLR4-NF- k B pathway

    Bioscience reports

    2019, 39(5).

    Comparison of structural, antioxidant and immuno - stimulating activities of polysaccharides from Tremella fuciformis in two different regions of China

    International Journal of Food Science & Technology

    201&53(8)

    Polysaccharides from Chinese Herbal Lycium barbarum Induced Systemic and Local Immune Responses in H22 Tumor-Bearing Mice

    Immunology Research

    2018, Article ID 3431782,12 pages.

    Fraction From Lycium barbarum Polysaccharides Reduces Inununotoxicity and Enhances Antitumor Activity of Doxorubicin in Mice.

    Integrative Cancer Therapies

    2018:15347354 1775354

    Eugenol triggers CDllb+Grl+ myeloid-derived suppressor cell apoptosis via endogenous apoptosis pathway

    Rsc Advances

    2018, 8(7):3833-383&

    An Asparagus polysaccharide fraction inhibits MDSCs by inducing apoptosis through toll-like receptor

    Phytotherapy Research

    2018(Suppl 2).

    Effects of l.ycium barbarum polysaccharides with different molecular weights on function of RAW264. 7 macrophages

    Food & Agricultural Immunology

    2018:1-13

    Effect of compound polysaccharide with Lentinan, Pachymaran and Tremella polysaccharide on mouse macrophage function

    Chinese Journal of Immunology

    2018

    Myeloid-derived suppressor cells promote B-cell production of IgA in a TNPR2-dependent manner

    Cellular & Molecular Immunology

    2017, 14(7):597-606.

    Immunoenhancenient of Edible Fungal Polysaccharides (Lentinan, Tremellan, and Pachymaran) on Cyclophosphamide-Induced Inununosuppression in Mouse Model

    Evidence-based complementary and alternative medicine

    2017, 2017(1):94591 56.

    A polysaccharide from Dictyophora indusiata inhibits the immunosuppressive function of cancer -associated fibroblasts

    Cell Biochemistry & Function

    2017,35(7).

    Effect of edible fungal polysaccharides on improving influenza vaccine protection in mice

    Food & Agricultural Immunology

    2017, 28(6): 1- 12.

    A polysaccharide derived from Lentinus edodes impairs the immunosuppressive function of myeloid-derived suppressor cells via the p38 pathways

    Rsc Advances

    2017, 7(58)

    Effect of polysaccharides from Tremella fuciformis, on UV-induced photoaging

    Journal of Functional Foods

    2016,20:400- 410.

    Inununofflodulatory effects of polysaccharide cexpounds in macrophages revealed by high resolution ATM

    Scanning

    2016, 38(6)

    Polysaccharides from medicinal herbs as potential therapeutics for aging and age-related neurodegeneration

    Rejuvenation research

    2014,17(2): 201-204.

    Optimization for the extraction of polysaccharides from Ganoderma lucidum, and their antioxidant and antiproliferative activities

    Journal of the Taiwan Institute of Chemical Engineers

    2013, 44(6):886-894

    Polysaccharide from Lentinus edodes inhibits the immunosuppressive function of myeloid-derived suppressor cells

    PloS one

    2012,7(12): e51751.

    Long-Term Treatment with a Compound Polysaccharide-Based Health Product (Infinitus Polysac Plus) Enhances Innate and Adaptive Immunity in Mice

    Chinese Medicine

    2011,2(04): 178.

    Extraction and Antioxidant Activity of a Combined Fungus Polysaccharide

    Journal of Food Science and Biotechnology

    2013,3.

    A homogalacturonan from the radix of Platycodon grandiflorum, and the anti-angiogenesis activity of po1y-/o1igoga1acturonic acids derived therefrom

    Carbohydrate Research

    2011, 346(13):1930-6

    Comparison of Methods for Determination of Polysaccharides Content in Epiphyte Health Foods

    Modern Food Science and Technology

    2010,7.

    Polysaccharides in Lentinus edodes: Isolation, Structure, Immunomodulating Activity and Future Prospective

    Critical Reviews in Food Science and Nutrition

    54:474487 (2014)

    Modulation of Gut Microbiome Composition and Function in Experimental Colitis Treated with Sulfasalazine

    Frontiers in Microbiology

    2017, 8 (9) : 1-15

  • Regulation effects of indigestible dietary polysaccharides on intestinal microflora: An overview

    Journal of Food Biochemistry

    2020:el3564

    Comparison of immunomodulatory effects of three polysaccharide fractions from Lentinula edodes water extracts

    Journal of Functional Foods

    2020,66:103791

    Ultrahigh pressure extraction of polysaccharide from Morinda officinalis and effect on the polysaccharide structure

    Separation Science and Technology

    2020: 1-11

    Photoprotective effect of Astragalus membranaceus polysaccharide on UVA-induced damage in HaCaT cells

    Pios one

    2020, 15(7): e0235515

    Photoprotective effect of Astragalus membranaceus polysaccharide on UVA-induced damage in HaCaT cells

    Pharmacology & Pharmacy

    2019, 10(6):318-328

    Purification of polysaccharide from Lentinus edodes water extract by membrane separation and its chemical cosposition and structure character!zat ion

    Food Hydrocolloids

    3784:11:00.000

    MPSSS impairs the immunosuppressive function of cancer-associated fibroblasts via the TLR4-NF- x B pathway

    Bioscience reports

    2019, 39(5).

    Supplementation with compound polysaccharides contributes to the development and metabolic activity of young rat intestinal iaicrobiota

    Food & function

    2019, 10(5): 2658-2675

    Study on quality regionalization of Lycii Fructus

    China journal of Chinese materia medica

    2019,44(6): 1156-1163.

    Hematopoietic effect of small molecular fraction of Polygoni mult iflori Radix Praeparata in cyclophosphamide-induced anemia mice

    Chinese journal of natural medicines

    2019, 17(7): 535-544.

    Comparison of Immunomodulatory Effects of Fresh Garlic and Black Garlic Polysaccharides on RAW 264. 7 Macrophages

    Journal of Food Science,

    2017, 82(3):765-771.

    Purification, structural characterization, and immunomodulatory activity of the polysaccharides from Ganoderma lucidum

    International Journal of Biological Macromolecules

    2019

    Lycium barbarum polysaccharides extend the mean lifespan of Drosophila melanogaster

    Food & Function

    2019, 10(7): 4231-4241

    Alkaline Extraction, Structural Characterization, and Bioactivities of (l-*6)-p -d-Glucan from Lentinus edodes

    Molecules

    2019,24(8): 1610.

    MPSSS impairs the immunosuppressive function of cancer-associated fibroblasts via the TLR4-NF- k B pathway

    Bioscience reports

    2019, 39(5).

    Comparison of structural, antioxidant and immuno - stimulating activities of polysaccharides from Tremella fuciformis in two different regions of China

    International Journal of Food Science & Technology

    201&53(8)

    Polysaccharides from Chinese Herbal Lycium barbarum Induced Systemic and Local Immune Responses in H22 Tumor-Bearing Mice

    Immunology Research

    2018, Article ID 3431782,12 pages.

    Fraction From Lycium barbarum Polysaccharides Reduces Inununotoxicity and Enhances Antitumor Activity of Doxorubicin in Mice.

    Integrative Cancer Therapies

    2018:15347354 1775354

    Eugenol triggers CDllb+Grl+ myeloid-derived suppressor cell apoptosis via endogenous apoptosis pathway

    Rsc Advances

    2018, 8(7):3833-383&

    An Asparagus polysaccharide fraction inhibits MDSCs by inducing apoptosis through toll-like receptor

    Phytotherapy Research

    2018(Suppl 2).

    Effects of l.ycium barbarum polysaccharides with different molecular weights on function of RAW264. 7 macrophages

    Food & Agricultural Immunology

    2018:1-13

    Effect of compound polysaccharide with Lentinan, Pachymaran and Tremella polysaccharide on mouse macrophage function

    Chinese Journal of Immunology

    2018

    Myeloid-derived suppressor cells promote B-cell production of IgA in a TNPR2-dependent manner

    Cellular & Molecular Immunology

    2017, 14(7):597-606.

    Immunoenhancenient of Edible Fungal Polysaccharides (Lentinan, Tremellan, and Pachymaran) on Cyclophosphamide-Induced Inununosuppression in Mouse Model

    Evidence-based complementary and alternative medicine

    2017, 2017(1):94591 56.

    A polysaccharide from Dictyophora indusiata inhibits the immunosuppressive function of cancer -associated fibroblasts

    Cell Biochemistry & Function

    2017,35(7).

    Effect of edible fungal polysaccharides on improving influenza vaccine protection in mice

    Food & Agricultural Immunology

    2017, 28(6): 1- 12.

    A polysaccharide derived from Lentinus edodes impairs the immunosuppressive function of myeloid-derived suppressor cells via the p38 pathways

    Rsc Advances

    2017, 7(58)

    Effect of polysaccharides from Tremella fuciformis, on UV-induced photoaging

    Journal of Functional Foods

    2016,20:400- 410.

    Inununofflodulatory effects of polysaccharide cexpounds in macrophages revealed by high resolution ATM

    Scanning

    2016, 38(6)

    Polysaccharides from medicinal herbs as potential therapeutics for aging and age-related neurodegeneration

    Rejuvenation research

    2014,17(2): 201-204.

    Optimization for the extraction of polysaccharides from Ganoderma lucidum, and their antioxidant and antiproliferative activities

    Journal of the Taiwan Institute of Chemical Engineers

    2013, 44(6):886-894

    Polysaccharide from Lentinus edodes inhibits the immunosuppressive function of myeloid-derived suppressor cells

    PloS one

    2012,7(12): e51751.

    Long-Term Treatment with a Compound Polysaccharide-Based Health Product (Infinitus Polysac Plus) Enhances Innate and Adaptive Immunity in Mice

    Chinese Medicine

    2011,2(04): 178.

    Extraction and Antioxidant Activity of a Combined Fungus Polysaccharide

    Journal of Food Science and Biotechnology

    2013,3.

    A homogalacturonan from the radix of Platycodon grandiflorum, and the anti-angiogenesis activity of po1y-/o1igoga1acturonic acids derived therefrom

    Carbohydrate Research

    2011, 346(13):1930-6

    Comparison of Methods for Determination of Polysaccharides Content in Epiphyte Health Foods

    Modern Food Science and Technology

    2010,7.

    Polysaccharides in Lentinus edodes: Isolation, Structure, Immunomodulating Activity and Future Prospective

    Critical Reviews in Food Science and Nutrition

    54:474487 (2014)

    Modulation of Gut Microbiome Composition and Function in Experimental Colitis Treated with Sulfasalazine

    Frontiers in Microbiology

    2017, 8 (9) : 1-15

截止至2024年7月31日,無限極有權專利共604件,其中,發明專利319件,實用新型專利196件,設計專利89件

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發明專利(件)

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發明專利

總部及實驗室資源

無限極廣場

2021年11月啟用的廣州無限極廣場,不僅是無限極對卓越追求的具體展現,更是融合時尚、環保與高科技的創新傑作。這座新地標由被譽為「國際建築界女王」的札哈·哈蒂(Zaha Hadid)精心設計,以象徵「無限」與「平衡」的「∞」為靈感,將無限極的品牌理念融入每一寸建築設計中,彰顯健康與未來科技的完美融合。

歷時5年,總投資達200億新台幣(45億元人民幣),佔地約4.5萬平方米,總建築面積高達18.5萬平方米。無限極廣場集全球行政總部、科研中心和體驗中心於一體,成為廣州的新地標。

無限極科研中心

無限極廣場內的無限極科研中心設有超過60間專業實驗室,全面覆蓋從產品研發到檢測的每一環節,專注於保健食品、美妝保養品、清潔化學生活用品以及養生用品的創新研究與開發。科研中心聚焦於中草藥產品的核心技術與科學應用,特別重視產品的功效性與安全性,推動其標準化與國際化,為中華養生文化賦予現代科學基礎。部分實驗室資源包括:複合多醣實驗室、中草藥品質研究室、口腔護理研究室、日化配方技術研究室、色譜光譜分析室等…

從田間到舌尖的品質管理

在無限極,我們始終堅信,產品品質是企業的生命線。30年來,我們不斷深化全產業鏈品質管理模式,將嚴格的標準貫穿於原料種植、產品研發、生產製造、物流配送與售後服務的每一個環節,確保產品的安全性和卓越功效。品質管理不僅是一項技術,更是一份對消費者的承諾

嚴選道地原料:精挑細選來自最佳產地的純正中草藥原料,確保功效與純度。

專業種植技術:採用現代化與標準化的種植模式,實現全流程可追溯與可控。

創新研發團隊:融合中華養生文化與現代科學技術,開發高品質產品。

生產嚴格品控:每件產品須經過數千道檢測工序,確保零瑕疵。

消費者的保障:將最安全、最道地、最有保障的產品送達消費者手中,實踐對健康的承諾

100-1=0:絕對零容忍的品質理念

無限極的品質理念可被濃縮為簡單的公式:「100-1=0」,體現了我們對錯誤零容忍的決心。從原料採購到成品出廠,每個環節都受到嚴格把控。絕大多數產品須通過超過千項品質檢測,確保符合國際安全與品質認證標準。「100-1=0」並非僅僅是一句口號,而是我們對每位消費者的承諾,亦是無限極實現全球品質信譽的重要基石。

從源頭確保品質與安全

在健康養生產業深耕超過30年的無限極,始終視產品品質為生命線。憑藉全產業鏈原料管理模式,從原料種植、產品研發、生產製造到物流配送和售後服務,無限極在每個環節都精益求精,確保產品品質最安全、最道地、最有保障。

無限極對原料安全設立了極高標準,例如進行180項農藥殘留掃描與5種重金屬檢測,確保所有原料符合國際綠色標準。為選擇合適的原料產地和合作種植戶,無限極以「田間即廠房」的理念,從種子選育、生態環境監控到田間管理和採收加工全程把控,以確保每一批原料的高純度、良好功效和道地性。
全程可追溯的中草藥種植管理

無限極在多地建立了中草藥種植基地,包括靈芝、三七、香菇、巴戟天與茯苓等名貴藥材,採用現代化與標準化的管理模式,實現了全流程的可追溯性與可控性,確保中草藥原料的純正與安全

為保障中草藥的高品質,無限極創新性地採用「五統一管理模式」:

統一品種:以靈芝為例,無限極嚴選浙江龍泉道地靈芝種苗,確保其功效全面、抗病性強且產量穩定。

統一生產資料:標準化採購生產資料,降低不合格原料風險

統一田間管理:為不同中草藥制定詳細的種植技術規程與管理規範,精準滿足其生長需求。

統一技術服務:每年邀請專家為種植戶提供專業技術指導,確保種植技術與標準同步升級。

統一採收與加工:嚴格依照道地藥材採收規範,確保收成時的最佳品質。例如,遵循茯苓三年成熟的自然規律,堅持延遲採收以保證品質卓越。

生產製造基地

為了帶給消費者綠色、健康、高品質的產品,無限極不斷升級產品生產工藝,打造環保、高科技的智能化工廠,先後在中國內地建立了新會、營口南北兩大生產基地,創建了中國首條符合保健食品GMP規範的高速玻璃瓶裝口服液生產線,嚴格依照國家GMP標準執行生產管理與品質管理。

無限極新會生產基地

無限極新會生產基地位於廣東省江門市,第一期工程於2005年2月26日落成並啟用。 2008年-2012年,第二期工程、第三期工程相繼竣工投產,累計投資超過台幣130億元。生產基地佔地約20萬平方公尺,是集展示、體驗、交流為一體的沉浸式體驗空間,已成為無限極的企業文化展示與產品體驗平台。

無限極營口生產基地

位於中國遼寧省營口市,佔地約35萬平方公尺, 主要包括生產大樓、檢測中心、參觀展廳等,並設有專門的參觀路線,已成為多功能的企業文化展示和產品體驗平台。生產基地建造內容包括提取車間、口服液生產車間、固體製劑車間、產品檢測中心、辦公大樓、餐廳、員工宿舍、公用工程等,具備低能耗、低排放、高效益的特性。

無限極產品檢測中心

無限極生產基地的產品檢測中心已相繼通過中國合格評定國家認可委員會(CNAS)實驗室認可,英國FAPAS(重金屬、農藥殘留檢測)、德國DRRR(營養成分檢測)和英國LGC國際能力驗證。多家國際權威機構對公司產品檢測水準的認可,支持著無限極堅持強化檢測能力,保障檢測質量,為您提供更多、更好、更安全的優質產品。

國際權威認證

無限極的兩大生產基地——新會廠與營口廠,憑藉世界一流的生產設施和嚴格的品質控制,均獲得多項國際權威認證:

新會廠有ISO9001、FSSC22000、GMP和HACCP認證。

營口廠有ISO9001、FSSC22000和HACCP認證。

兩大生產基地均獲ISO、FSSC、HACCP等各大國際權威機構的認可。

此外,我們的檢測能力還獲得FAPAS認證。作為全球領先的實驗室檢測機構,FAPAS的權威性確保無限極的產品檢測達到全球頂尖水準。