DOCSLIB.ORG

3 Ways to Get Rid of Foot Odor - Wikihow

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
3 Ways to Get Rid of Foot Odor - Wikihow 3 Ways to Get Rid of Foot Odor - wikiHow http://www.wikihow.com/Get-Rid-of-Foot-Odor How to Get Rid of Foot Odor Cleaning Your Feet Freshening Your Footwear Using Home Remedies Are you suffering from a raging case of stinky feet? Do people wince when you walk by? Do your dogs avoid chewing on your shoes? Here are some suggestions that may help tame that fearsome foot odor. Method 1 of 3: Cleaning Your Feet Scrub your feet. It sounds obvious, but a quick rub with soapy water in the 1 shower isn't enough. The objective here is to get rid of any bacteria and dead skin cells that bacteria like to feed on. So when you wash your feet, exfoliate the entire surface of your foot with a washcloth, brush, or any other abrasive mechanism and use anti-bacterial soap. Don't forget to scrub between your toes, either. Dry your feet. When you dry your feet, dry them completely. Moisture, whether 2 it's water or sweat, is what creates a fertile breeding ground for bacteria, Take the time to dry your feet thoroughly and don't neglect the space between your toes. Use hand sanitizer. It may sound weird, but a good scented (or unscented) hand 3 sanitizer can kill germs on your feet and inhibit bacterial growth. Use antiperspirant. The same type of antiperspirant you apply under your arms 4 could also be used for your feet. Just make sure to get a separate stick for each area. Apply it to clean, dry feet at night, then put your socks and shoes on as usual in the morning. [1] It will help keep your feet dry and fresh during the day. Antiperspirant actually reacts with the electrolytes in sweat to form "gel plugs" that block off your sweat ducts. Since each one of your feet has over 250,000 sweat glands [2] (more sweat glands per inch than any other part of your body [3] ) a little antiperspirant can go a long way. Don't apply it right before going out, or you'll be slipping and sliding in your shoes. Keep a mixture of 1/2 regular vinegar and 1/2 isopropyl alcohol. Dribble this 5 daily (use a medicine dropper) over and between your toes and irritated skin on the feet and spread it. Both products are harmless to your skin, but the vinegar kills fungus and the alcohol inhibits or kills bacteria. It also helps get rid of toe fungus on contact. You can soak your feet in a solution of 1/2 vinegar, 1/2 water as a way to stave off bad odors. Add a few scoops of baking soda and thyme oil drops, both of 1 of 6 2/25/2014 9:58 PM 3 Ways to Get Rid of Foot Odor - wikiHow http://www.wikihow.com/Get-Rid-of-Foot-Odor which also help get rid of stinky smells. [4] Rub your feet with one or more of the following powders. Do this between 6 your toes as well. This is what most foot powders and sprays contain to combat foot odor: Talcum powder. It's an astringent, so it'll dry out your feet. Baking soda. This creates an alkaline environment that's not bacteria-friendly. Corn starch. This helps absorb sweat. Method 2 of 3: Freshening Your Footwear Wear sandals or open-toed shoes. Wearing open shoes lets the air flow around 1 your feet, keeping them cool and keeping you from producing as much sweat. When you do sweat, it will evaporate quickly due to air circulation. During colder months, wear leather or canvas shoes which allow your feet to "breathe." Steer clear of rubber and plastic shoes. Change your socks daily. Socks absorb your sweat when you wear them, and it 2 dries when you take them off. Putting on a dirty pair of socks for a second day in a row is essentially going to reheat that sweat, leading to a foul smell. Change your socks every day, especially if your feet tend to get sweaty. Unless you're wearing open shoes, you should always wear socks. Try two pair of socks to help with the wicking of moisture away from the foot. When you wash your socks, turn them inside out in the washer so the dead flakes of skin have a better chance of being washed away. Go for absorbent socks made of cotton or wool. Non-absorbent socks (like nylon) trap moisture around your foot, making a cozy little nook for bacteria. Lightly powder shoes and socks daily with baking soda. Dust out yesterday's 3 baking soda before adding in the fresh amount. Baking soda absorbs moisture and odors. Use cedar wood or cloves to freshen shoes. Put cedar wood shavings or whole 4 cloves inside your shoes for a few days when you don't need to wear them. The odor will disappear after a few days. Rotate your shoes. Let your shoes dry out completely so that bacteria don't set 5 up camp in there. It takes at least 24 hours for a shoe to dry out completely. Take out the insoles to help the drying process along. Otherwise, wearing the same pair day after day is a recipe for stinky feet. Crumpled newspaper inside 2 of 6 2/25/2014 9:58 PM 3 Ways to Get Rid of Foot Odor - wikiHow http://www.wikihow.com/Get-Rid-of-Foot-Odor wet shoes will dry them overnight. Wash your shoes regularly. Many shoes can be thrown in the washing machine. 6 Just make sure they dry thoroughly before you put them on. Remove your shoes often. Whenever you are able to take a break, remove your 7 shoes. This helps the shoes and your feet stay drier. Use a shoe dryer. There are several great, low-wattage shoe and boot dryers that 8 use convection air currents to slowly and completely dry wet, sweaty shoes. Place your footwear on them at the end of the day or workout and put on dry, warm and comfortable shoes about eight hours later. Dryers eliminate the moisture that odor-causing bacteria need to grow and help your shoes to last longer. Method 3 of 3: Using Home Remedies Use bleach. Add about two tablespoons (1 ounce) of bleach to a gallon of warm 1 water. Soak your feet in this solution for 5 to 10 minutes a day for a week. If you find this soak to be drying to your skin, you may apply a little baby oil. [5] Bleach your white socks in the laundry. If your shoes can withstand it, add the same solution to the insides of your shoes and soak them down. Wait 1/2 hour and then just rinse them out in the sink. Dry them thoroughly before wearing them again. Do a tea soak. Soak your feet in tea 30 minutes a day for one week. The tannic 2 acid in the tea will dry out your skin. [6] Use salt water. Apply half a cup of kosher salt for every quart of water. After 3 soaking, don't rinse your feet and just dry thoroughly.[7][8] Apply aluminum acetate. This will dry out your feet. Mix 1 packet Domeboro 4 powder or 2 tablespoons Burow's Solution (both available over-the-counter) in 1 pint of water. Soak for 10 to 20 minutes at a time.[8] Make a baking soda mixture. Apply 1 tablespoon baking soda for every quart of 5 water. [8] This makes skin more alkaline, which inhibits bacterial growth. 3 of 6 2/25/2014 9:58 PM 3 Ways to Get Rid of Foot Odor - wikiHow http://www.wikihow.com/Get-Rid-of-Foot-Odor Mix vinegar in water. This makes skin more acidic. Add a 1/2 cup vinegar for 6 every 1 quart of water. [8] Keep in mind that some people's foot odor can be described as "vinegary" so if this is you, this soak might make things worse. Put baby powder in your shoes. Applying baby powder or baking soda in your 7 shoes and socks will help dry out any future odors. Clean your feet with a pumice stone on daily basis. This will remove the dead 8 skin and prevent the bacteria to form. Know another method for How to Get Rid of Foot Odor ? Add it here... Name your method Add your steps using an ordered list. For example: 1. Step one 2. Step two 3. Step three Share Tips Wash your feet at least once a day. Try a natural deodorant that is crystal based. These sprays work by making the skin inhospitable for bacteria Use foot powders that are mostly made of cornstarch or other non-talc ingredients. Make sure you are getting the USDA recommended daily allowance (RDA) of zinc. A zinc deficiency can lead to foot odor, as well as general body odor AND bad breath. Make sure zinc is included in your multi- vitamin or get a separate zinc supplement. Powder your shoes outside, where there is good ventilation, e.g., on the porch Clipping and brushing your toe nails will probably help as well. Stress can stimulate sweating. That's why you might notice that your life and your feet stink at the same time. Do not walk with only your socks on. They pick up lots of bacteria this way. Then, when you put your shoes back on, the bacteria population explodes in the moist, warm environment.
Load more

Recommended publications
  • Characterization of Human Body Odor and Identification of Aldehydes Using Chemical Sensor
    Rev Anal Chem 2017; 36(2): 20160028 Sunil Kr. Jha* Characterization of human body odor and identification of aldehydes using chemical sensor DOI 10.1515/revac-2016-0028 to several chemical classes, including aldehyde, acid, Received April 27, 2016; accepted November 1, 2016; previously amine, alcohol, hydrocarbon, ketones, sterols, sulfur published online December 21, 2016 compounds, and terpenoids, generating human body odor (Amoore 1977, Fang et al. 1998, Toan et al. 1999, Abstract: Human body odor is a unique identity feature of Clancy and McVicar 2002, Jain 2004, Statheropoulos individual as well as an established composite of numer- et al. 2005, Havlicek and Lenochova 2006, Steeghs ous volatile organic compounds (VOCs) belonging to sig- et al. 2006, Wedekind et al. 2006, Penn et al. 2007, nificant chemical classes. Several analytical methods have D’Amico et al. 2008b, Preti and Leyden 2010, Wisthaler been used in the characterization of human body odor in and Weschler 2010, Yamazaki et al. 2010, Seeley et al. order to recognize the chemical composition of VOCs in 2011, Thorn and Greenman 2012, Agapiou et al. 2015a,b, medical, forensic, and biometric applications. Besides, Buljubasic and Buchbauer 2015, Sorokowska et al. 2015, real-time sensing systems (based on the chemical sensors) Allen et al. 2016, Colón-Crespo et al. 2016, Fialová et al. are being researched and developed for qualitative and 2016, Gildersleeve et al. 2016, Prokop-Prigge et al. 2016, quantitative recognition of VOCs in body odor. The pre- Sorokowska et al. 2016, Stefanuto and Focant 2016, sent review focuses the state-of-the-art research outcomes Verhulst et al.
    [Show full text]
  • Mosquito Host Seeking in 3D Using a Versatile Climate-Controlled Wind Tunnel System
    METHODS published: 11 March 2021 doi: 10.3389/fnbeh.2021.643693 Mosquito Host Seeking in 3D Using a Versatile Climate-Controlled Wind Tunnel System Annika Hinze 1, Jörgen Lantz 2, Sharon R. Hill 1,3 and Rickard Ignell 1,3* 1 Disease Vector Group, Chemical Ecology, Department of Plant Protection Biology, Swedish University of Agricultural Sciences, Alnarp, Sweden, 2 Jörgen Lantz Engineering Consulting Firm, Alnarp, Sweden, 3 Max Planck Centre Next Generation Chemical Ecology, Uppsala, Sweden Future anthropogenic climate change is predicted to impact sensory-driven behaviors. Building on recent improvements in computational power and tracking technology, we have developed a versatile climate-controlled wind tunnel system, in which to study the effect of climate parameters, including temperature, precipitation, and elevated greenhouse gas levels, on odor-mediated behaviors in insects. To establish a baseline for future studies, we here analyzed the host-seeking behavior of the major malaria vector mosquito, Anopheles gambiae sensu strico, to human odor and carbon dioxide (CO2), under tightly controlled climatic conditions, and isolated from potential background contamination by the presence of an experimenter. When presented with a combination Edited by: Bart R. H. Geurten, of human foot odor and CO2 (case study I), mosquitoes engaged in faster crosswind University of Göttingen, Germany flight, spent more time in the filamentous odor plume and targeted the odor source more Reviewed by: successfully. In contrast, female An. gambiae s. s. presented with different concentrations Merid Negash Getahun, International Centre of Insect of CO2 alone, did not display host-seeking behavior (case study II). These observations Physiology and Ecology (ICIPE), Kenya support previous findings on the role of human host-associated cues in host seeking Ivan V.
    [Show full text]
  • Evaluation of 2-Butanone As a Substitute for Carbon Dioxide In
    EVALUATION OF 2-BUTANONE AS A SUBSTITUTE FOR CARBON DIOXIDE IN MALARIA MOSQUITO ATTRACTANTS MBURU MONICAH MIRAI (B.Sc. Hons, University of Nairobi) A THESIS SUBMITTED IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE AWARD OF THE MASTER OF SCIENCE IN APPLIED PARASITOLOGY DEGREE OF THE UNIVERSITY OF NAIROBI SCHOOL OF BIOLOGICAL SCIENCES JULY 2013 i DECLARATION I, Monicah Mirai Mburu, declare that this is my original work and it has not been presented for a degree in any other university. Candidate: Mburu Monicah Mirai Signature ; Date Supervisors: This thesis has been submitted with our approval as supervisors. Signature ; Date Prof. Wolfgang Richard Mukabana School of Biological Sciences, University of Nairobi, Nairobi, Kenya; and International Centre of Insect Physiology and Ecology (icipe), Nairobi, Kenya Signature ; Date Dr. James Mutunga International Centre of Insect Physiology and Ecology (icipe), Nairobi, Kenya ii DEDICATION To the family of Mr. and Mrs. Gabriel Mburu as well as Miss Dorothy Wambui. iii ACKNOWLEDGEMENTS I wish to acknowledge the support and help of the people who contributed to the completion of this work. I owe my deepest gratitude to my supervisors, Prof. Wolfgang Richard Mukabana and Dr. James Mutunga for their time, invaluable support, guidance and enthusiastic encouragement that was vital to the completion of this project. Their useful research critiques, valuable and constructive suggestions and corrections from initial to final levels enabled me develop an understanding and interest in malaria research thereby completing this work. I wish to acknowledge the School of Biological sciences, University of Nairobi for its contribution in the development of this work.
    [Show full text]
  • Bioprospecting for Anti-Mosquito Phytochemicals Associated with Olfaction and Larvicidal Activities from Selected Kenyan Plants
    i BIOPROSPECTING FOR ANTI-MOSQUITO PHYTOCHEMICALS ASSOCIATED WITH OLFACTION AND LARVICIDAL ACTIVITIES FROM SELECTED KENYAN PLANTS . JOHN BWIRE OCHOLA (MSc. B.Sc.) I84/27752/2013 A THESIS SUBMITTED IN FULFILMENT OF THE REQUIREMENT FOR THE AWARD OF THE DEGREE OF DOCTOR OF PHILOSOPHY (CHEMISTRY) IN THE SCHOOL OF PURE AND APPLIED SCIENCE OF KENYATTA UNIVERSITY JANUARY 2020 ii DECLARATION I certify that this thesis is my original work and has not been presented for award of a degree in any other university. Besides where due acknowledgement has been made, the work is the result of my labour which has been accomplished from the commencement date of the permitted studies application. Signature ……………………………… Date ………………………………… John Bwire Ochola Reg I84/27752/2013 Department of Chemistry Declaration by supervisors We confirm that the work reported in this thesis was carried out by the student under our supervision and has been submitted for examination with our approval as supervisors Signature ……………………………………. Date …………………… Prof. Ahmed Hassanali Department of Chemistry, Kenyatta University, Nairobi, Kenya Signature ……………………………………. Date …………………… Dr. Wilber Lwande Applied Bioprospecting Programme International Centre of Insect Physiology and Ecology, Nairobi, Kenya. Signature ……………………………………. Date …………………… Dr. Barbara Frei Haller Institute of Pharmaceutical Sciences, ETH Zurich Switzerland iii DEDICATION “To my wife Jackline and sons, Nathan, Seth, Lawrence and Ronnie, you kept my spirit alive.” iv ACKNOWLEGDEMENTS I express my sincere gratitude to Dr Wilber Lwande of ICIPE, Prof. Ahmed. Hassanali of the Department of Chemistry, Kenyatta University and Dr. Barbara Frei Haller of the Institute of Pharmaceutical Sciences, ETH Zurich, Switzerland for their support and mentorship throughout the research period and in the writing of this thesis.
    [Show full text]
  • Embarrassing Foot Odor?
    Just ONE Application PediLux4™ is the unique new solution ™ to foot odor! Stop the Stink! PediLux4™ is the only single-use treatment for For Up to 90 Days with New Embarrassing bromhidrosis caused by the foul-smelling combination of sweat, bacteria and fungus. Unlike other over-the- Foot Odor? counter products that treat just the symptoms and not the cause, PediLux4™ attacks the source of the Deodorizing Foot Cream ™ odor, changing the skin’s environment to make it more ™ difficult for bacteria to reproduce. #1 Doctor-recommended product Stop the Stink! How does it work? • Easy to use For Up to 90 Days with New PediLux4™ utilizes zinc oxide as a base and is applied in • Works immediately conjunction with special all-cotton socks. The cream is • Guaranteed effective rubbed into the feet, especially between and under toes. The socks are worn for 8 hours, or overnight. • Available without a prescription A single treatment of PediLux4™ will last up to three months ™ and leave feet feeling fresh “As a professional I have spent many years dealing and smelling clean. with foot problems. I was completely shocked when Deodorizing I found out PediLux4 is just that simple. With one Foot Cream application the whole family immediately noticed the results. Two and half months out from one application now and it continues with good results. I am excited to have this available for my patients.” — Paul Clint Jones, DPM, Instep Foot and Ankle Recommended by/Available from: In addition to Bromhidrosis, PediLux4™ is also helpful for sufferers of hyperhidrosis (excessive sweating) as it includes anti-inflammatory agents that can help minimize sweating.
    [Show full text]
  • (12) United States Patent (10) Patent No.: US 9,668,948 B2 Klingman (45) Date of Patent: *Jun
    USOO9668948B2 (12) United States Patent (10) Patent No.: US 9,668,948 B2 Klingman (45) Date of Patent: *Jun. 6, 2017 (54) PRODUCTS AND METHODS FOR A 6LX 9/70 (2006.01) REDUCING MALODOR FROM THE A61O 15/00 (2006.01) PUDENDUM A6IR 8/49 (2006.01) (52) U.S. Cl. (71) Applicant: Shannon Elizabeth Klingman, Chaska, CPC ............ A61K 8/0208 (2013.01); A61K 8/365 MN (US) (2013.01); A61K 9/0034 (2013.01); A61 K 9/7007 (2013.01); A61O 15/00 (2013.01); (72) Inventor: Shannon Elizabeth Klingman, Chaska, A61 K 8/4953 (2013.01) MN (US) (58) Field of Classification Search None (*) Notice: Subject to any disclaimer, the term of this See application file for complete search history. patent is extended or adjusted under 35 U.S.C. 154(b) by 0 days. (56) References Cited This patent is Subject to a terminal dis- U.S. PATENT DOCUMENTS claimer. 2008/0050398 A1* 2, 2008 Bockmuehl ........ A61K 38/1709 (21) Appl. No.: 15/015, 197 424,190.1 (22) Filed: Feb. 4, 2016 OTHER PUBLICATIONS (65) Prior Publication Data K. Ara et al., “Foot odor due to microbial metabolism and its control.” Canadian Journal of Microbiology, Apr. 2006:52 (4):357 US 2016/O151257 A1 Jun. 2, 2016 64, abstract only from Pubmed: https://www.ncbi.nlm.nih.gov/ pubmed/16699586. Related U.S. Application Data (Continued) (63) Continuation-in-part of application No. 14/613,420, filed on Feb. 4, 2015, which is a continuation of Primary Examiner Ernst N Arnold application No. 12/875,123, filed on Sep.
    [Show full text]
  • Development of Deodorizing Agent from Natural Plant Extracts
    Development of deodorizing agent from natural plant extracts Taek Kyu Jung, Hyun-Chul Park, Kyung-Sup Yoon Saimdang Cosmetics Co., Ltd., R&D Center, 143, Yangcheongsongdae-gil, Ochang-eup, Cheongwon-gu, cheongju-si, Chungcheongbuk-do, Korea Keywords: Deodorizing, Plant extract, Isovaleric acid, Anti-microbial effect, Leusine dehydrogenase Short Summary There are many kinds of unpleasant odor in our daily life, such as body odor caused by metabolism and aging. According to recent studies, it is known that there are various kinds of odor-causing substances such as steroids, fatty acids, sulfur compounds, aldehydes, ester, ketones, and nitric compounds. Also, one of the causes of odor generation is thought to be microbiologically produced from precursors contained in the apocrine secretions. The aim of this study was to investigate the antiperspirant and deodorant of natural plant extracts for the representative odor substances such as isovaleric acid, ammonia and nonenal. Also, we were to investigate the antimicrobial effect for skin microbes and the leucine dehydrogenase inhibition effect of plant extracts. Introduction The generation of odor on various sites on the human body, e.g. foot, mouth, or axilla, is mainly caused by microbial transformation of odorless natural skin secretions into volatile odorous molecules. Thus, identification of the primary components in each body odor and clarification of the mechanisms of their generation are important for the development of methods to effectively control such odors [1]. The factor influencing human body odors were skin bacteria, life style, environmental factor (heat and humidity), physiological factors (age, gender), genetics and ethnicity, emotional factor and clinical disorders. Also, a wide range of volatile odorous substances has been implicated in axillary odor and is thought to be microbiological produced from precursors contained in the apocrine secretions [2-4].
    [Show full text]
  • Foot Odor, Known in the Medical Profession As Bromhidrosis, Can Be
    Foot odor, known in the medical profession as bromhidrosis, can be traced to bacteria that find your moist and warm feet, socks, and shoes the perfect place to breed and multiply. Thousands of sweat glands on the soles of the feet produce perspiration composed of water, sodium chloride, fat, minerals, and various acids that are the end products of your body's metabolism. In the presence of certain bacteria (namely those found in dark, damp shoes), these sweaty secretions break down, generating the stench that turns people green. Wash well. Those sweat glands on the soles of your feet produce perspiration composed of water, sodium chloride, fat, minerals, and various acids that are end products of your body's metabolism. In the presence of certain bacteria, these sweaty secretions break down, generating a foul smell. Washing away the bacteria with deodorant soap (and drying them well) will short-circuit this process. How often should you wash your feet? Enough to remove the offending bacteria but not so often that you remove all the protective oils from your skin. For strong foot odor, you may need to bathe your feet several times a day. However, if you notice that your feet are becoming scaly and cracked, cut back on the number of washings. Salt your tootsies. For extra-sweaty feet, try adding half a cup of kosher salt (it has larger crystals than ordinary table salt) to a quart of water and soaking your feet in the solution. After soaking, don't rinse your feet; just dry them thoroughly. As anyone who has ever taken a dip in the ocean likely knows, salt has a drying effect on the skin.
    [Show full text]
  • ABSTRACT PICKETT, TYLER EUGENE. Correlating The
    ABSTRACT PICKETT, TYLER EUGENE. Correlating the Perception of Foot Odor and the Amount of Odorous Chemicals Present in Footwear Materials. (Under the direction of Dr. R. Bryan Ormond). Foot odor is capable of determining the lifespan of textiles in the footwear industry. To combat the problem, industry leaders have begun creating various solutions, such as treatments and finishes on the shoe’s surfaces and fibers. The recent uptick in antimicrobial and anti-odor finishes has created the need for odor-relief efficacy assessments. Over the last year, a research effort has been made to develop such a test. The combination of odor panels, human wear trials, newly developed air sampling methods, and quantitative chemical analysis have all been combined to provide a correlation between the odor that a population of subjects has perceived in human-worn shoes and the detected amounts of key odor compounds sampled from the same shoes. Research has suggested that there are key odor compounds responsible for the perception of foot odor. Three of the major compounds include: acetic acid, propionic acid, and isovaleric acid. An analytical method using gas chromatography with a flame ionization detector (GC-FID) was developed to detect and quantify low odor concentrations of the three major compounds. A closed-system air sampling method was developed for the capture of acetic, propionic, and isovaleric acids. The intent was to create an easy-to-use, non-destructive, affordable method for repeatable use on shoes over a long period of time. The targeted odor compounds were caught by an open silica-gel sorbent bed and extracted by an acetone solvent.
    [Show full text]
  • Development of Anti-Odour and Super Moisture Absorbent Socks S
    23922 S. Grace Annapoorani/ Elixir Tex. & App. Design 70 (2014) 23922-23925 Available online at www.elixirpublishers.com (Elixir International Journal) Textiles and Apparel Design Elixir Tex. & App. Design 70 (2014) 23922-23925 Development of anti-odour and super moisture absorbent socks S. Grace Annapoorani Department of Textiles and Apparel Design, Bharathiar University, Coimbatore-46, Tamil Nadu, India. ARTICLE INFO ABSTRACT Article history: The foot is among the heaviest producers of sweat in the body, as it is able to produce over Received: 11 March 2014; 1 US pint (0.47 l) of perspiration per day. Socks help to absorb this sweat and draw it to Received in revised form: areas where air can evaporate the perspiration. Although perspiration is odorless and 99% 23 April 2014; water, it provides a perfect medium for bacteria to grow. The bacteria cause foot odour. Accepted: 2 May 2014; Foot odour is a type of body odour that affects the feet of humans and is generally considered to be an unpleasant smell. Wearing polyester or nylon socks may increase Keywords perspiration and therefore may intensify foot odor. In order to overcome this problem, a Anti-odour, nylon sock was with increased moisture absorbency. The super absorbent solution was Super Absorbent, prepared by using various chemicals. Then the solution was examined for antibacterial Foot, activity by well diffusion method. The nylon socks were treated with this solution by dip Socks. dry method. The finished sample shows good moisture absorbency and also having antimicrobial activity when compared with the untreated sample by the testing method AATCC (147 and 30).
    [Show full text]
  • Global Change and Human Vulnerability to Vector-Borne Diseases
    GLOBAL CHANGE AND HUMAN VULNERABILITY TO VECTOR-BORNE DISEASES Topic Editors Rubén Bueno-Marí and Ricardo Jiménez-Peydró PHYSIOLOGY GENETICS FRONTIERS COPYRIGHT STATEMENT ABOUT FRONTIERS © Copyright 2007-2013 Frontiers is more than just an open-access publisher of scholarly articles: it is a pioneering Frontiers Media SA. All rights reserved. approach to the world of academia, radically improving the way scholarly research is managed. All content included on this site, The grand vision of Frontiers is a world where all people have an equal opportunity to seek, share such as text, graphics, logos, button and generate knowledge. Frontiers provides immediate and permanent online open access to all icons, images, video/audio clips, downloads, data compilations and its publications, but this alone is not enough to realize our grand goals. software, is the property of or is licensed to Frontiers Media SA (“Frontiers”) or its licensees and/or subcontractors. The copyright in the FRONTIERS JOURNAL SERIES text of individual articles is the property of their respective authors, The Frontiers Journal Series is a multi-tier and interdisciplinary set of open-access, online subject to a license granted to Frontiers. journals, promising a paradigm shift from the current review, selection and dissemination The compilation of articles processes in academic publishing. constituting this e-book, as well as All Frontiers journals are driven by researchers for researchers; therefore, they constitute a service all content on this site is the exclusive property of Frontiers. to the scholarly community. At the same time, the Frontiers Journal Series operates on a revo- Images and graphics not forming lutionary invention, the tiered publishing system, initially addressing specific communities of part of user-contributed materials may not be downloaded or copied scholars, and gradually climbing up to broader public understanding, thus serving the interests without permission.
    [Show full text]
  • The Cowl, November 10, 1983 NEWS
    mm PC SOCCER FORUM ON WOMAN RANKED 11th. SEXUALITY TO TAKE IN NATION PLACE NEXT WEEK See Story Page 12 See Story On Page 10 VOL. X X X V III NO. 11_________________ PROVIDENCE COLLEGE, PROVIDENCE, R.I.___________________ N O VEM BER 10, 1983 Congressional News Friars Club To Assess Their Role At PC by Kathy Bisegna lion with or jurisdiction over the Friars Club, both organizations Rev. Phillip Smith, O.P. open­ will work for the enhancement of ed the November 7, Student Con­ student involvement at Pro­ gress meeting with a prayer and a vidence College. In the spirit of short talk. this cooperation, these student During his talk Fr. Smith groups seek to foster the goals of wanted to commend students for PC and the best interests o f the their support of last week’s students. “ President’s Forum on Culture In other business, Rev. John A. and Values" which featured Gary McMahon, O.P., sent a letter to Wills. He said that the success of the Student Congress to thank the forum is leading the way for them for naming the 'Person of another such presentation in the the Year' award in his honor. In spring. his letter, Fr. McMahon said that The Student Congress - BOP - finding the proper words to thank Friars Club Wheelchair Race is Congress was difficult. McMahon slated for Sunday, November 20. said that he was "flabbergasted by The race will run from the Rhode such an honor.” Island State House to Colonel’s Lifestyles committee chairper­ Corner and is to benefit Meeting son Tracey Lynch, announced the Street School.
    [Show full text]