Kopi Peran Multiguna untuk Kesehatan

Authors

Hendro Sudjono Yuwono, Fakultas Kedokteran, Unisba; Ieva B. Akbar, Fakultas Kedokteran, Unisba; Tony Djajakusumah, Fakultas Kedokteran, Unisba; Suganda Tanuwijaya, Fakultas Kedokteran, Unisba; Nurhalim Shahib, Fakultas Kedokteran, Unisba; Herri S. Sastramihardja, Fakultas Kedokteran, Unisba; Hidayat Wijayanegara, Fakultas Kedokteran, Unisba; Yusuf Sulaeman Effendi, Fakultas Kedokteran, Unisba; Ahmad M. Djojosugito, Fakultas Kedokteran, Unisba; Nuzirwan Acang, Fakultas Kedokteran, Unisba; Herry Garna, Fakultas Kedokteran, Unisba; Nanan Sekarwana, Fakultas Kedokteran, Unisba
DOI: https://doi.org/10.29313/UP.129

Synopsis

ISBN : 978-623-5407-28-9, Jumlah Halaman : 280, Tinggi Buku : 23 cm, Tahun Terbit 2023

 

Kopi adalah minuman yang populer dan merupakan konsumsi favorit di seluruh dunia. Ternyata tidak hanya sebagai minuman kesehatan, tetapi digunakan untuk mengobati luka yang ampuh secara tradisional maupun modern. Kearifan lokal yang turun temurun telah berlangsung lama di kalangan penduduk pedesaan di Indonesia. Penderita luka yang disebabkan terutama oleh kecelakaan lalu lintas membutuhkan perawatan segera, tetapi mereka tentu awam tentang perawatan luka. Mereka memilih memberikan kopi bubuk buatannya sendiri sebagai "obat luka" yang ternyata penyembuhannya memuaskan. Pencipta alam telah mewariskan kepada masyarakat pengetahuan kearifan lokal yang diturunkan secara tradisional konon sudah sejak ratusan tahun yang lalu.

Sejarah panjang penggunaan kopi untuk luka masih dipraktikkan hingga sekarang di zaman modern. Pengetahuan kearifan lokal yang sudah menjadi obat tradisional tersebut harus menjadi prestasi budaya yang tinggi yang tercatat dalam sejarah yang memuliakan bangsa. Pemakaian kopi bubuk buatan rumahan sudah diterima sebagai perawatan handal untuk luka, dinilai sebagai patient-centered care, tetapi juga tergolong memenuhi value-based treatment dan humanis, Jangan sampai dimasukkan ke ‘dalam museum’, sekedar tontonan pasif yang tidak berguna, tetapi perlu ditelaah lebih mendalam dengan metode ilmu pengetahuan modern.

Buku ini berisikan tulisan para Guru Besar FK Unisba yang menelaah peran multiguna kopi untuk menjaga kesehatan pada umumnya merupakan laporan penelitian ilmiah yang dapat menyadarkan kita semua tentang kemampuan bahan alam kopi sebagai minuman sehari-hari yang efektif menjaga kesehatan dan hemat biaya. Buah (biji) kopi yang asli produk tanaman dari tanah air Indonesia diolah sebagai buah tangan bangsa sendiri sudah terkenal kelezatannya dan harum baunya yang mengugah semangat bekerja seluruh lapisan masyarakat.

References

Agar OT, Dikmen M, Ozturk N, Yilmaz MA, Temel H, Turkmenoglu FP. Comparative studies on phenolic composition, antioxidant, wound healing and cytotoxic activities of selected Achillea L. species growing in Turkey. Molecules. 2015;20:17976–8000.

Akbik D, Ghadiri M, Chrzanowski W, Rohanizadeh R. Curcumin as a wound healing agent. Life Sci. 2014;116:1–7.

Al-Yousef HM, Amina M. Essential oil of Coffee arabica L. husks: a brilliant source of antimicrobial and antioxidant agents. Biomed Res. 2018; 29(1):174–80.

Alves MJ, Ferreira ICFR, Froufe HJC, Abreu RMV, Martins A, Pintado

M. Antimicrobial activity of phenolic compounds identified in wild mush rooms, SAR analysis and docking studies. J Appl Microbiol. 2013;115: 346–57.

Andreu V, Mendoza G, Arruebo M, Irusta S. Smart dressings based on nano structured fibers containing natural origin antimicrobial, anti- inflammatory and regenerative compounds. Materials. 2015;(8):5154–93.

Arimbi D, Yuwono HS. pH of wound fluids treated using coffee powder and bacitracin-neomycin powder. Glob J Surg. 2016;4(1):9–11.

Ashcroft GS, Mills SJ, AsworthJJ. Ageing and wound healing. Biogeron tology. 2002;3:337–45.

Ashton CH. Caffeine and health. Br Med J. 1987 Nov 21;295(6609):1293–1294.

Ayelign A, Sabally K. Determination of chlorogenic acids (CGA) in coffee beans using HPLC. Am J Res Commun. 2013;1(2):78–91.

Bagdas D, Etoz BC, Gul Z, Ziyanok S, Inan S, Turacozen O, et al. In vivo systemic chlorogenic acid therapy under diabetic conditions: wound healing effects and cytotoxicity/genotoxicity profile. Food Chem Toxicol. 2015;81: 54–61.

Baker in Haig Scale in Poteete V (1993) Case study: eliminating odours from wounds Decubitus 1993; 6 (4): 43 – 6.

Beighton P, De Paepe A, Steinmann B, Tsipouras P, Wenstrup RJ.. Ehlers–Danlos syndromes: revised nosology, villefranche. Am J Med Genet. 1998; 77:31–7.

Bhat P. Efficacy of alfa EEG wave biofeedback in the management of an xiety. Ind Psych J. 2010;19:111–4.

Blumenthal M, Golberg A, Brinckman J. Herbal medicine. expanded com mission E monographs. Am Botanical Council. 2000:379–84.

Bradley M, Cullum N, Sheldon T. The debridement of chronic wounds: a systematic review. Health Technol Assess. 1999;3(17 Part 1): 1-78

Cameron OG, Modell JG, Hariharan M: Caffeine and human cerebral blood flow: a positron emission tomography study. Life Sci. 1990;47:1141–6.

Chen WC, Liou SS, Tzeng TF, Lee SL, Liu IM. Effect of topical appli cation of chlorogenic acid on excision wound healing in rats. Planta Med. 2013;79(08):616.

Clifford MN. Chlorogenic acids–their complex nature and routine deter mination in coffee beans. Food Chem. 1979;107(4):63–71.

Dikmen M, Öztürk Y, Sagratini G, Ricciutelli M, Vittori S, Maggi F. Evaluation of the wound healing potentials of two subspecies of Hypericum perforatum on cultured NIH3T3 fibroblasts. Phytother Res. 2011;25:208–14.

Douglass WC. Medical miracle. Panama: Rhino Publishing, SA; 2003.

Echeverri D, Montes FR, Cabrera M, Galan A, Prieto A. Caffeine’s vas cular mechanism of action. Int J Vas Med. Volume 2010:1–10.

Enoch S, Harding K. Wound bed preparation: the science behind the removal of barriers to healing. Medscape. 2003;15(7): 213-229

Farah A, Monteiro M, Donangelo CM, Lafay S. Chlorogenic acids from green coffee extract are highly bioavailable in humans. J Nutr. 2008;138: 2309–15.

EFSA (European Food Safety Authority). Scientific opinion on the safety of caffeine. European Food Safety Authority (EFSA) Journal, 2015 May 27;13 (5):4102.

Farah A, Donangelo CM. Phenolic compounds in coffee. Braz J Plant Physiol. 2006;18(1):23-36

Farahpour MR, Hesaraki S, Faraji D, Zeinalpour R, Aghaei M. Hydroethanolic Allium sativum extract accelerates excision wound healing: evidence for roles of mast-cell infiltration and intracytoplasmic carbo hydrate ratio. Braz J Pharm Sci. 2017;53(1):1–11.

Fife C. The challenges of negative pressure wound therapy in clinical prac tice. Today’s Wound Clinic. 2010;4(6):11–7.

Fischer TW, Hipler UC, Elsner P. Effect of caffeine and testosterone on the proliferation of human hair follicles in vitro. Int J Dermatol. 2007;46: 27–35.

Fujioka K, Shibamoto T. Chlorogenic acid and caffeine contents in various commercial brewed coffees. Puroast.com. 2005.p.1-5

Garna H, Yuwono HS, Tejasari M. Vulnerable Wound-base Cells Protected by Coffee Powder to Better Healing. Am J Med Case Rep., 2019;7 (9):214-216

https://faq.whatsapp.com/1317564962315842/?helpref=uf_share

Gerlach RW, Sagel PA, Barker ML, Karpinia KA, Magnusson I. Placebo- controlled clinical trial evaluating a 10% hydrogen peroxide whitening strip. J Clin Dent. 2004;15(4):118–22.

Grgic J, Trexler ET, Lazinica B, Pedisic Z. Effects of caffein intake on muscle strength and power: a systematic review and meta-analysis. J Int Soc Sports Nutr. 2018;15:1–10.

Hailemeskel B, Fullas F. The use of freshly roasted coffee bean powder in the treatment of burn wound: a case report. Dermatology. 2016;1(2):42–6.

Halliwell B, Clement MV, Long LH. Hydrogen peroxide in the human body. FEBS Letters 2000;(486):10–3.

Hayes, Inc. Negative pressure wound therapy–home use. A health technology assessment. Prepared for Washington State Health Care Authority. Final Report. 2016.

Henderson V, Timmons J, Hurd T, Deroo K, Maloney S, Sabo S. NPWT in everyday practice. November 2010. [diunduh 26 Janari 2019] Tersedia dari: woundsinternational.com.

Herman A, Herman AP. Caffeine’s mechanisms of action and its cosmetic use. Skin Pharmacol Physiol. 2013;26:8–14.

Hofman D. The autolytic debridement of venous leg ulcers. Technical guide. Wound Essentials. 2007;2:68–73.

Huang C, Leavitt T, Bayer LR, Orgill DP. Effect of negative pressure wound therapy on wound healing. Curr Problems Surg. 2014;51(7):301– 31.

Junker JPE, Kamel RA, Caterson EJ, Eriksson E. Clinical impact upon wound healing and inflammation in moist, wet, and dry environments. Advances Wound Care. 2013; 2(7):348–56.

Kabir F, Katayama S, Tanji N, Nakamura S. Antimicrobial effects of chlorogenic acid and related compounds. J Korean Soc Appl Biol Chem. 2014;57(3):359–65.

Khan A, Abdalla MA, Zakhary CM, Rushdi H, Hamdan JA, Youssef KN, et al. The relationship between caffeine and caffeinated drinks in causing intracranial hemorrhage in the elderly aspirin-taking population: a systematic review. Cureus.2021;13(9): e17783.

Kim PJ, Attinger CE, Crist BD, Gabriel A, Galiano RD, Gupta S, et al. Negative pressure wound therapy with instillation: review of evidence and recommendations. 2015. Diunduh 05 Agustus 2020. Tersedia dari: woundsresearch.com

Krischak GD, Augat P, Claes L, Kinzl L, Beck A. The effects of non- steroidal anti-inflammatory drug application on incisional wound healing in rats. J Wound Care. 2007;16:76–8.

Kumar V, Abbas AK, Fausto N. Robbins and Cotran pathologic basis of disease.Edisi ke-7. Philadelphia (USA): Elsevier Saunders; 2005.

Lan CCE, Liu IH, Fang AH, Wen CH, Wu CS. Hyperglycaemic conditions decrease cultured keratinocyte mobility: implica- tions for impaired wound healing in patients with diabetes. Br J Dermatol. 2008;159:1103–15.

Long LH, Halliwell B. Coffee drinking increases levels of urinary hydrogen peroxide detected in healthy human volunteers. Free Radic Res. 2000;32(5):463–7.

Liang N, Kitts DD. Role of chlorogenic acids in controlling oxidative and inflammatory stress conditions. Nutrients. 2016,8(16):1–20.

Liang N, Kitts DD. Antioxidant property of coffee components: assessment of methods that define mechanisms of action. Molecules. 2014;19(11):19 180–208.

Little M, Lipworth W, Gordon J, Markham P. Another argument for values-based medicine. The Int J Pers Cent Med. 2011;1(4):649–56.

Macedo RM, Brentegani LG, de Lacerda SA. Effects of coffee intake and intraperitoneal caffeine on bone repair process--A histologic and histometric study. Braz Dent J. 2015;26(2):175–80.

Maxiselly Y, Anusornwanit P, Rugkong A, Chiarawipa R, Chanjula P. Morpho-physiological traits, phytochemical composition, and antioxidant activity of Canephora Coffee Leaves at various stages. Int J Plant Biol. 2022;13(2):106–14.

Menon VP, Sudheer AR. Antioxidant and anti- inflammatory properties of curcumin, Adv Exp Med Biol. 2007;595:105–25.

Mirza R, DiPietro LA, Koh TJ. Selective and specific macrophage ablation is detrimental to wound healing in mice. Am J Pathol. 2009;175:2454–62.

Mullen W, Nemzer B, Ou B, Stalmach A, Hunter J, Clifford M, et al. The antioxidant and chlorogenic acid profiles of whole coffee fruits are influenced by extraction procedures. J Agric Food Chem. 2011;(59):3754–62.

Mueller U, Sauer T, Weigel I, Pichner R, Pischetsrieder M. Identification of H2O2 as a major antimicrobial component in coffee. Food Funct. 2011;2:265–72.

Muller M, Trocme C, Lardy B, Morel F, Halimi S, Benhamou PY. Original article Matrix metalloproteinases and diabetic foot ulcers: the ratio of MMP-1 to TIMP-1 is a predictor of wound healing. Diabetic Med. 2008;25:419–26.

Muscat S. Influence of food-derived maillard reaction products on the cellular response of macrophages. Dissertation. Erlangen, Germany: Friedrich-Alexander University; 2007.

Nonthakaew A, Matan Na, Aewsiri T, Matan Ni. Caffeine in foods and its antimicrobial activity. Int Food Res J. 2015;22(1):9–14.

Ojeh N, Stojadinovic O, Pastar I, Sawaya A, Yin N, Tomic-Canic M. The effects of caffeine on wound healing. Int Wound J. 2016 Oct;13(5):605– 13.

Okonkwo UA, DiPietro LA. Diabetes and wound angiogenesis. Int J Mol Sci. 2017;1419(18):2–15.

Otberg N, Patzelt A, Rasulev U, Hagemeister T, Linscheid M, Sinkgraven R, et al. The role of hair follicles in the percutaneous absorption of caffeine. Br J Clin Pharmacol. 2008;65:488–92.

Paterson D. Coffee chemicals. Chemistry eduction in New Zealand. 2010; (8):13-661.

Paul L. Diet, nutrition and telomere length. J Nut Bio. 2011;22:895–901.

Penn JW, Grobbelaar AO, Rolfe KJ. The role of the TGF-β family in wound healing, burns and scarring: a review. Int J Burn Trauma. 2012;2(1):18–28.

Pawar RS, Toppo FA. Plants that heal wounds. A review. Herba Pol. 2012;58(1):47–65.

Pereira RF, Bartolo PJ. Traditional therapies for skin wound healing. Adv Wound Care. 2016;5(5):208–29.

Perry LM, Metzger J. Medicinal plants of East and Southeast Asia: attributed properties and uses. Cambridge, Massachussetts, USA: MIT Press; 1942.

Persidou TA. Microflora and the antimicrobial activity of coffee. London, UK: Queen Mary University of London; 2015.

Petrovska BB. Historical review of medicinal plants’ usage. Pharmacogn Rev. 2012 Jan–Jun;6(11):1–5.

Philips N, Auler S, Hugo R, Gonzalez S. Beneficial regulation of matrix metalloproteinases for skin health. Enzyme Res. 2011;(2011):1–4.

Poteete V. Case study: eliminating odours from wounds decubitus. Decubitus. 1993 Jul;6(4):43–6.

Price P, Fogh K, Glynn C, Krasner DL, Osterbrink J, Sibbald RG. Why combine a foam dressing with ibuprofen for wound pain and moist wound healing? Int Wound J. 2007;4(Suppl 1):1–3.

Raissa F. The effect of the black seed (Nigella sativa L.) powder compared with Robusta coffee (Coffea canephora) powder on wound healing that has infected with MRSA. Master Degree Thesis. Bandung: Universitas Padjadjaran; 2008.

Raj CVS, Dhala S. Effect of naturally occurring xanthines on bacteria (I). Antimicrobial action and potentiating effect on antibiotic spectra. Appl Microbiol. 1965;13:432–6.

Rayment EA, Upton Z, Shooter GK. Increased matrix metalloproteinase-9 (MMP-9) activity observed in chronic wound fluid is related to the clinical severity of the ulcer, Br J Dermatol. 2008;158(5):951–61.

Reyzelman AM, Vartivarian M. Evidence of intensive autolytic debridement with a self-adaptive wound dressing. Wounds. 2015;27(8): 229–35.

Rhee SM, Valle MF, Wilson LM, Lazarus G., Zenilman JM, Robinson KA. Negative pressure wound therapy technologies for chronic wound care in the home setting. Technology Assessment Report. Rockville, Maryland, Johns Hopkins University Evidence-based Practice Center; 2014.

Roach REJ, Siegerink B, Le Cessie S, Rosendaal FR, Cannegieter SC, Lijfering WM. Coffee consumption is associated with a reduced risk of venous thrombosis that is mediated through hemostatic factor levels. J Thromb Haemost. 2012;10:2519–25.

Romdhoni, Yuwono HS, Hapsari P. Inhibition zone of coffee extract with caffeine and non-caffeine compared to vancomycin against MRSA bacterial culture. Dissertation. Bandung: Department of Surgery, Universitas Padjadjaran; 2018.

Ribeiro JA, Sebastiao AM. Caffeine and adenosine. J Alzheimer Dis. 2010;(20):S3- S1541.

Ruben B. Wound healing: reasons wounds will not heal. Wound Source. 2015. (diunduh 7 Mei 2017). Tersedia dari: www.woundsource.com.

Runti G, Pacor S, Colomban S, Gennaro R, Navarini L, Scocchi M. Arabica coffee extract shows antibacterial activity against Staphylococcus epidermidis and Enterococcus faecalis and low toxicity towards a human cell line. Trieste, Italy: Department of Life Sciences, University of Trieste; 2013.

Salter RB. Textbook of disorders and injuries of the musculoskeletal system: an introduction to orthopaedics, fractures, and joint injuries, rheumatology, metabolic bone disease, and rehabilitation. Philadelphia (USA): Lippincott Williams & Wilkins; 1999.

Santangelo M, Clemente M, Spiezia S, Grassia S, Di Capua F, Iovio MG, et al. Wound Complications after kidney transplantation in nondiabetic patients. Transplant Proc. 2009;41:1221–3.

Sarabahi S. Recent advances in topical wound care. Indian J Plast Surg. 2012;45(2):379–87.

Seo HS, Hirano M, Shibato J, Rakwal R. Hwang IK, Masuo Y. Effects of coffee bean aroma on the rat brain stressed by sleep deprivation: a selected transcript- and 2D gel-based proteome analysis. J Agric Food Chem. 2008;(56):4665–73.

Sharma OP, Bhat TK. DPPDH antioxidant assay revisited. Food Chemistry. 2009;113(4):1202–5.

Shahbaz HM, Mansoor A, Ijaz M, Mahmood MS, Mohy-ud-Din MT, Masood A, et al. Comparative wound healing efficacy of neem oil, turmeric and oxoferin on full thickness cutaneous wounds in a rabbit model. IOSR-JAVS. 2017;10(2):66–71.

Published

May 30, 2023
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