An-Najah National University Faculty of Graduate Studies Problems Associated with Reconstitution, Administration, and Storage of Antibiotic Suspensions for Pediatrics in Nablus City-Palestine By Haya Ibrahim Anabousi Supervisor Dr. Rowa’ Al-Ramahi, PhD Co-supervisor Dr. Abd Al Naser Zaid, PhD This Thesis is Submitted as Partial Fulfillment of the Requirements for the Degree of Master of Clinical Pharmacy, Faculty of Graduate Studies, An-Najah National University, Nablus, Palestine. 2013 III Dedication To my family Specially my mother, father, husband, and my little daughter IV Acknowledgement Greeting goes to my supervisors Dr. Rowa' AL-Ramahi and Dr. Abd Al Naser Zaid for their sincere encouragement, helpful, and close supervision which has been invaluable for me throughout all stages of this study.Also my sincere thanks go to Dr. Samah AL- Jabi,Dr. Sa’ed Zyoud,Dr- Abdallah Othman, and Dr. Samera Halawa , and my friend Dema Adawi for their help and support during my study. Thanks to my family with all my love, specially my mother, father, husband, and Uncle Mohamad Sbeeh, who stood with me throughout my study and provided me with psychological support and encouragement. V اإلقرار :أنا الموقعة ادناه ، مقدمة الرسالة التي تحمل العنوان Problems Associated with Reconstitution, Administration, and Storage of Antibiotic Suspensions for Pediatrics in Nablus City-Palestine واعطاء وتخزين معلقات المضادات المشاكل المتعلقة بحل في مدينة نابلس/فلسطين لألطفالالحيوية ا تمت ء م، باستثناالرسالة إنما هو نتاج جهدي الخاصأقر بأن ما اشتملت عليه هذه ، أو أي جزء منها لم يقدم من قبل لنيل أي أن هذه الرسالة كاملةو االشارة اليه حيثما ورد، لدى أي مؤسسة تعليمية أو بحثية اخرى درجة أو لقب علمي أو بحثي Declaration The work provided in this thesis, unless otherwise referenced, is the researcher's own work, and has not been submitted elsewhere for any other degree or qualification. :Student’s Name ………………………………………… اسم الطالب: ………………………………………… التوقيع: Signature: ………………………………………… التاريخ: Date: VI Abbreviations Abbreviations Meaning MoH Ministry of Health CDC Center of Disease Control URTI Upper Respiratory Tract Infection USP United States Pharmacopeia EP European Pharmacopeia QC Quality Control OTC Over The Counter AOM Acute otitis media AAP American Academy of Pediatric AAFP American Academy of Family Physicians IM Intramuscular PCN Penicillin BID Twice Daily TID Three Times Daily PO Orally ICH International Conference of Harmonization BP British Pharmacopeia HPLC Highly Performance Liquid Chromatography NA Not Available PPI Patient Package Insert VII Table of contents No Contents Page Dedication III Acknowledge IV Declaration V Abbreviations VI Table of Contents VII List of Tables IX List of Figures X Abstract XI Chapter One : Introduction 1 1.1 Background 2 1.2 Oral pharmaceutical dosage form 5 1.2.1 Solid pharmaceutical dosage forms 6 1.2.2 Liquid pharmaceutical dosage forms 8 1.2.3 Pediatric dosage forms 9 1.3 Common infections that require antibiotics in children 10 1.3 .1 Otitis media 10 1.3.2 Pharyngitis 10 1.3.3 Sinusitis 11 1.4 Treatment for common bacterial infections in children 12 1.4.1 Acute otitis media treatment 12 1.4.2 Group A Streptococcus treatment 13 1.4.3 Acute bacterial sinusitis treatment 13 1.5 Significant of the study 15 1.6 Objective of the study 15 1.6.1 General objective 15 1.6.2 Specific objectives 15 Chapter Two : Literature review 16 2.1 Pharmaceutical solvents 17 2.2 Liquid medication measuring tools and accuracy 18 2.3 Studies related to dry powder antibiotic reconstitution, dose administration and storage conditions of antibiotic suspensions 19 2.4 Studies related to patient package inserts (PPIs) 22 Chapter Three : Methodology 24 3.1 Setting 25 3.2 Population of the study 25 3.3 Sample size 25 VIII No Contents Page 3.4 Data collection 26 3.5 Statistical analysis 30 Chapter four : Results 31 4.1 Socio-demographic characteristics 32 4.2 Prescribed antibiotics and indications 33 4.3 Reading and understanding the instructions 34 4.4 Reconstitution of antibiotic suspension 35 4.5 Administration of antibiotic doses 37 4.6 Storage conditions 40 Chapter Five : Discussion 43 5.1 Reading and understanding instructions 44 5.2 Dry powder antibiotic reconstitution 45 5.3 Administration of antibiotic dose 47 5.4 Antibiotic storage condition 50 5.5 Limitations 52 5.6 Conclusions 52 5.7 Recommendations 53 References 54 Appendices 64 Appendix (1) 65 Appendix (2) 67 Appendix (3) 70 Appendix (4) 71 FGHIJب ا IX List of tables No Table Page Table (1.1) ICH stability zones 22 Table (3.1) Instructions for the most commonly prescribed antibiotic suspensions 27 Table (4.1) Sociodemographic characteristics of 400 mothers 32 Table (4.2) Indications for used antibiotic 33 Table (4.3) The most commonly prescribed antibiotic 34 Table (4.4) Reading and understanding instructions to prepare antibiotic suspension 35 Table (4.5) Water used to prepare antibiotic suspension 35 Table (4.6) Water addition steps 37 Table (4.7) Drug administration 38 Table (4.8) Dose medicinal cup equal drug dose? 38 X List of figures No Figure Page Figure (4.1) Tool used to measure water amount 36 Figure (4.2) Mothers' practice regard shaking antibiotic suspension before use 37 Figure (4.3) Mothers' practice for direction use 3 times daily 39 Figure (4.4) Mothers' practice regard the use of antibiotic suspension after 2 weeks 39 Figure (4.5) Mothers' practice regard the use of remnant of antibiotic suspension 40 Figure (4.6) Storage condition of dry powder antibiotic 41 Figure (4.7) R5Storage condition of antibiotic suspension 41 Figure (4.8) Mothers' definition of dry and cool place 42 XI Problems Associated with Reconstitution, Administration, and Storage of Antibiotic Suspensions for Pediatrics in Nablus City-Palestine By Haya Ibrahim Anabousi Supervisor Dr. Rowa’ Al-Ramahi, PhD Co-supervisor Dr. Abd Al Naser Zaid, PhD Abstract Pediatric infectious diseases either viral or bacterial remain a very common community health problem; in bacterial infection an antibiotic is the drug of choice, to achieve therapeutic effect and prevent treatment failure antibiotics must be properly used. The objective of this study is to evaluate the appropriateness of antibiotic suspensions use for pediatrics among Palestinian mothers including their reconstitution, dose administration, duration, and storage condition. This study was a questionnaire based cross sectional descriptive study. It was conducted at Ministry of Health (MoH) primary health care Al-Wosta clinic and a pediatric private clinic in Nablus city between 22 January, and 22 March 2013. A sample of400 mothers, 200 visited MOH, and 200 visited the private clinic were met and asked to answer a face to face questionnaire. The results showed that most common pediatric infections were bronchitis 110 (27.5%), throat infection (pharyngitis) 110 (27.5%), and otitis media 108 (27.0%), the most commonly prescribed antibiotic was amoxicillin, amoxicillin and clavulanic acid, and azithromycin. Regarding mothers' XII practice 347 (86.8%) of mothers told that they read instructions, 311 (77.8%) could understand manufacturer instructions, and 176 (44.0%) of mothers asked pharmacists for advice if they didn’t understand the instructions. In order to prepare antibiotic suspension 302 (75.5%) used boiled then cooled tap water, and 192 (84.4%) of mothers used syringe to measure the needed amount of water, and 304 (76.6%) of mothers added water in two steps, 392(98.0%) of mothers claimed that they shook the drug bottle before used. Regarding dose administration, 313 (78.2%) considered syringe as the most accurate tool for dose administration, most of mothers told that they gave drug dose with major meals when direction were to give three times daily. About use duration 6 (1.5%) of mothers claimed that they used antibiotic suspension after 2 weeks, and 26 (6.5%) gave left over antibiotic suspension to another child. One hundred seventy seven (44.2%) of mothers told they stored dry powder antibiotic in medicinal cabinet, while 226 (56.5%) of them stored suspension in refrigerator. Although our results reflect good knowledge about antibiotic suspension use between Palestinian mothers there is a room for improvement. The pharmacists are recommended to explain directions to mothers and confirm on them by writing, to supply them with syringe with suitable calibration for dose administration, and to tell them about storage condition and duration of use. Chapter one Introduction 2 Chapter One Introduction 1.1 Background According to the Center of Disease Control (CDC) antibiotics are drugs that fight infections caused by bacteria by killing or inhibiting their growth. Alexander Fleming discovered the first antibiotic, penicillin, in 1928. After the first use of antibiotics in the 1940s, they transformed medical care and dramatically reduced illness and death especially among elderly and children from infectious disease. Antibiotic include penicillins, cephalosporins, macrolides, sulfa drugs, aminoglycosides, tetracyclines and quinolones. It is important to have rational approach to antibiotics use as improper use can cause bacterial resistance (Center of Disease Control, 2013). Pediatric infectious diseases either viral or bacterial remain a very common community health problem with an average occurrence of 6-8 times a year, upper respiratory tract infections (URTI) represent the most common illnesses in pediatric outpatient setting. Most children have 4-6 acute URTI a year (Chan and Tang, 2006b), they include otitis media, pharyngitis, and sinusitis (Wells et al., 2009). When infection is caused by bacteria then antibiotic is the drug of choice, most of newborns, infants, and preschool children receive antibiotic in the form of dry powder for reconstitution to suspension before administration (McMahon et al., 3 1997b). To achieve therapeutic effect, prevent treatment failure and bacterial resistance antibiotics must be properly used. Antibiotics prescribed for infants and young children are usually dispensed as oral suspensions because of children’s inability to swallow tablets or capsules; unavailability of certain antibiotics in a chewable tablet form; and the discomfort, expense, and associated risk of antibiotic injections(Dusdieker et al., 2000). Appropriate use of antibiotic suspensions includes (i) the correct reconstitution, (ii) concentration, (iii) dose administration, (iv) duration of treatment course, and(v) storage conditions(Dusdieker et al., 2000). Although oral suspension is an appropriate formulation for pediatric age group, dose measuring accuracy is the challenge. Dose accuracy of pharmaceutical suspension depends on homogeneity of the dispersion and dose delivery device, if the medicine comes in suspension form, it should be shaken well before use. Suspension disadvantage is physical instability and particles sedimentation resulting in lack of dose uniformity, this may lead to dosing error if the preparation is not completely re-suspended before measuring the dose (McMahon et al., 1997a). In fact, the United State Pharmacopeia (USP), European Pharmacopeia (EP), and other regulatory bodies require a number of quality control (QC) tests in order to assure the homogeneity of the produced suspension and accordingly uniformity of content and dose. Manufacturers carry out several trials during reformulation and formulation in order to satisfy these requirements. 4 Moreover they carry out several pharmacopeial and technological QC tests such as particle size of the active ingredient, sedimentation rate, sedimentation volume, viscosity, flocculation, and etc. The most important objective of these tests is to achieve homogenous suspension with dose uniformity (European Medicines Agency, 2000). Accordingly oral liquid medications usually come with at least one of dose delivery devicessuch as; (i) medication cup,(ii) dropper, (iii) calibrated spoon, and (iv) syringe(Booth and Whaley, 2010, Ogden, 2007). Household silverware spoons should not be used for delivery of medications as they are not accurate. In fact these spoons are usually available in different size. Syringes have many advantages; they are accurate even for small volumes, they are easy to use, and more importantly they are easy to be cleaned. Regarding dosing cups dosing error are common with them, so as a general role they should not be used for doses less than 5 ml even if the cup has calibration less than 5 ml(Booth and Whaley, 2010, Kaneshiro, 2009). Storage conditions are also important, manufacturer instructions should be followed exactly, manufactures’ instructions recommend that some antibiotic suspensions need refrigerator, while for other antibiotic suspensions we need to avoid refrigerator. In addition climate condition should be taken in consideration for dry powder antibiotics, and antibiotic suspensions that don’t need refrigerator. 5 Antibiotics are misused because many patients do not take them according to their doctor or pharmacist instructions. They may stop taking their antibiotics too soon, before their illness is completely cured. Some patients save unused medicine and take it later for another illness, or pass it to other ill family members or friends and some patients go to the pharmacy and take the antibiotics as an over the counter (OTC) drug (Al Khalil et al., 2005). Mothers’ knowledge and practice regarding antibiotic reconstitution, dose administration, and storage were assessed; results showed that too few mothers have a correct practice regarding to (i) reconstitution, (ii) dose administration, (iii) storage condition without assistance (Iornguru et al., 2010). 1.2 Oral pharmaceutical dosage forms: Drugs are presented in wide variety of dosage forms, even same drug may be presented in several dosage forms. It is the role of pharmacists to know the different properties of these dosage forms in order to give patient the most appropriate formulation (Winfield and Richards, 2004). The oral rout of drug administration is the most convenient for patients (Helliwell and Taylor, 1993). There are solid and liquid oral dosage forms, solid dosage form such as capsules, tablets, while syrup, elixir, and suspension are liquid oral dosage forms (Shargel et al., 2004). 6 1.2.1 Solid oral dosage form: a- Tablets: Tablets are the most commonly used solid dosage form (Shargel et al., 2004). There are several types of tablets such as (WHO Pharmacopeia, 2013): 1- Uncoated tablets: The release of active ingredients from these types of tablets is unmodified. They are formed by compression and have no special coating. 2- Coated tablets: In this type of tablets a core surrounded by continuous layer as sugar coated tablets or film coated tablets, such as Augmentin film coated tablet 3- Effervescent tablets: Effervescent tablets are uncoated tablets generally containing acid substances and carbonates or hydrogen carbonates that react rapidly in the presence of water to release carbon dioxide. They are intended to be dissolved or dispersed in water before administration. Effervescent tablets, should be stored in tightly closed containers or moisture-proof packs and may require the use of separate packages containing water-adsorbent agents, such as silica gel. 7 4- Chewable tablets: Chewable tablets are usually uncoated. They are intended to be chewed before being swallowed. Chewable tablets are especially useful in formulation for children, as they are commonly used for multivitamins and antibiotics such as Augmentin 125,200,250,and 400 mg chewable tablet (Shargel et al., 2004). 5- Tablets used in oral cavity: Tablets for use in the mouth are usually uncoated. They are usually formulated to give a slow release and local action of the active ingredient(s) (for example, compressed lozenges) or the release and absorption of the active ingredient(s) under the tongue (sublingual tablets) or in other parts of the mouth (buccal) for systemic action. 6- Modified release tablets: Modified-release tablets are coated, uncoated or matrix tablets containing excipients or prepared by procedures which, separately or together, are designed to modify the rate, the place or the time of release of the active ingredient(s) in the gastrointestinal tract. Modified release tablets include: (i) Sustained-release tablets that are designed to slow the rate of release of the active ingredient(s) in the gastrointestinal tract. (ii) Delayed-release tablets are intended to resist gastric fluid but disintegrate in intestinal fluid, such as Klacid XL tablet. Tablets should be kept in well-closed containers and protected from light, moisture, crushing and mechanical shock. 8 b- Capsules. Capsules are solid dosage forms with hard or soft shells. They are of various shapes and sizes and contain a single dose of one or more active ingredients. They are intended for oral administration. The different categories of capsule include :( i) hard capsules, (ii) soft capsules, (iii) modified-release capsules (including delayed-release capsules (gastro- resistant/enteric capsules) and sustained-release capsules (extended- /prolonged-release capsules). Capsules should be kept in well-closed containers. They should be protected from light when required, and from excessive moisture or dryness, and should not be subjected to temperatures above 30 °C. 1.2.2 Liquid oral dosage forms: a- Solutions: Solutions are homogenous mixtures of solute/s dissolved in one or more solvents. Usually solid dissolved in liquid which is aqueous, oily, or alcoholic. Oral solutions have several advantages over solid dosage form as (i) easy to swallow, (ii) readily absorbed from gastrointestinal tract, (iii) preferred dosage form in children and elderly. In addition solutions have advantages over suspensions that the medication is dispersed homogenously throughout the formulations, so don’t need to shake the bottle before use. The dose usually administered as volume of multiple of 5 ml as “give the patient 5 ml medicine spoon” the term “teaspoonful” and 9 “tablespoonful” should not be used as expression for oral liquid dose as they are not accurate measures. Different forms of oral solutions such as (i) syrups, (ii) elixirs, (iii) tinctures, and (iv) oral drops (Kennedy, 2004a). b- Suspensions: Suspensions are dispersed system in which one substance (dispersed phase) is distributed in particulate form throughout another (continuous phase) (Kennedy, 2004b). Oral suspensions may show a sediment which is readily dispersed on shaking to give a uniform suspension which remains sufficiently stable to enable the correct dose to be delivered(WHO Pharmacopeia, 2013). So it is important to add label for suspension “Shake well before use” shaking the bottle will redisperse the medication and ensure that patient can measure an accurate dose. Another label needed to add “store in a cool place” as stability of suspensions may be adversely affected by temperature flocculation so suspension made from reconstitution of dry powders may need to be stored in refrigerator. In addition, reconstituted suspensions will have relatively a short shelf life so when used, patient be sure that it is freshly prepared (Kennedy, 2004b). 1.2.3 Pediatric dosage forms: Pediatrics include: newborns, infants, toddlers, preschoolers, school age children, and adolescents. So for a given drug it may be necessaryto develop more than one formulation to provide access to all pediatric groups. Pediatric formulations include (i) liquid preparation as solutions 10 and suspensions, (ii) chewable tablets, (iii) fast dissolving tablets, and (iv) powders (Maldonhauado and Schaufelberger, 2011). 1.3 Common infections that require antibiotics in children: 1.3.1Otitis media: Otitis media is an inflammation of the middle ear usually follows a viral upper respiratory tract infection that causes Eustachian tube dysfunction and mucosal swelling in the middle ear. The causative organisms are mainly Steptococcal pneumonia, Haemophilusinfluenzae, and Moraxella cataralis. Clinical presentation involves otalgia, fever, irritability, and hearing loss. These often follow cold symptoms of runny nose, nasal congestion, or cough. Treatment includes reduction in sign and symptoms, eradication of infection, and prevention of complications as hearing loss (Wells et al., 2009). 1.3.2Pharyngitis: Pharyngitis is an acute infection of oropharynx or nasopharynx, viruses as rhinovirus, coronavirus, and adenovirus are the most common cause of acute pharyngitis, while Group A Streptococcus is the most causative bacterial microorganism. Clinical presentation includes sore throat, pain on swallowing, and fever (Wells et al., 2009). 11 1.3.3 Sinusitis: Sinusitis is an inflammation or infection of paranasal sinus mucosa, the majority of these infections are viral in origin, bacterial sinusitis can be categorized into acute; disease lasts less than 30 days with complete resolution of symptoms caused by Streptococcal pneumonia and Haemophilusinfluenzae, and chronic; in which the episode of inflammation last more than 3 months with persistence of respiratory symptoms, caused by polymicrobials including anaerobes (Wells et al., 2009). Although most URTI are caused by viruses antibiotics are frequently prescribed(World Health Organization, 1995). Inappropriate use of antibiotics leads to economically and clinically preventable negative consequences including unnecessary adverse effects, increase mortality and morbidity from treatment failure, wasting healthcare resources, and increase the emergency of bacterial resistance (Kenealy and Arroll, 2013). When a child has bacterial infection then an antibiotic is the drug of choice. Selection of the proper anti-microbial therapy depends upon knowledge of the most likely causative organism and susceptibility patterns in a particular region. The most narrow spectrum antibiotic that covers the likely organisms is preferred. In addition, cost, taste, and dosing schedule should be taken into account. It is important to make sure the patient has no allergy or sensitivity to the class of antibiotics intended to use (Uchicago, 2006). 12 1.4 Treatment for common bacterial infections in children: 1.4.1 Acute otitis media treatment: Based on CDC recommendations, treatment of acute otitis media (AOM) depends on whether the patient falls into the high or low risk category for resistant otopathogens. The primary risk factors for resistant bacteria are daycare attendance and antibiotic use in the preceding 30 days. For low risk patients, first-line therapy is low dose amoxicillin (40-45 mg/kg/day) or high dose amoxicillin/clavulanic acid (80-90/6.4mg/kg/day). For high risk patients (day care or antibiotics within 30 days), first line therapy is high dose amoxicillin/clavulanic acid, high dose amoxicillin (80- 90 mg/kg/day), or cefuroxime. AAP/AAFP (American Academy of Pediatrics, American Academy of Family Physicians) guidelines advise that if the patient is 6 months – 2years and the diagnosis of AOM is uncertain, or > 2 years with mild symptoms or uncertain diagnosis, it is acceptable to treat symptomatically for 48-72 hours, and begin antibiotic therapy only if symptoms do not improve. Alternative therapies: For patients with true allergies to penicillin, first line therapy is azithromycin 10 mg/kg x 1 day, followed by 5 mg/kg x 4 days. For low risk patients who fail initial antibiotic therapy at 72 hours, the next line of therapy is high dose amoxicillin/clavulanic acid, cefuroxime, or ceftriaxone intramuscular (IM for 3 days). For high risk patients who fail initial therapy, the next line is clindamycin or 3 days of IM ceftriaxone. For treatment failures farther out, with recurrent symptoms from 10-28 days 13 after initial treatment, low risk patients can be treated with high dose amoxicillin/clavulanic acid, cefuroxime, or IM ceftriaxone. High risk patients can be treated with high dose amoxicillin/clavulanic acid, cefuroxime, or IM ceftriaxone. Tympanocentesis should be considered for high risk patients who have either early or late treatment failure(Lieberthal et al., 2013). 1.4.2 Group A Strep Pharyngitis treatment: Penicillin V is the recommended treatment. For children < 27 kg (250 mg) three times daily (tid). For children > 27 kg (500 mg) twice daily (bid) or tid. Alternative therapy: For patients allergic to penicillin (PCN), erythromycin 20-40 mg/kg divided in 2-4 doses is first line therapy. In patients with whom compliance is an issue, a onetime dose of IM penicillin G can be used, 600,000 unit for < 27 kg, 1.2 million unit for > 27 kg. Length of treatment: Ten days of treatment are necessary to prevent the development of rheumatic fever (Uchicago, 2006). 1.4.3 Acute bacterial sinusitis treatment: First line therapy: For mild to moderate symptoms in a child without recent antibiotic therapy and not in daycare, first line therapy is amoxicillin 45-90 mg/kg/day divided bid. For children with severe symptoms (3-4 days of fever of > 102° and purulent nasal discharge), in daycare, or recently 14 treated with antibiotics, first line therapy is high dose (90 mg/kg/day amoxicillin., 6.4 mg/kg/day clavulanic acid) divided bid.Alternative therapies: For patients with allergies to penicillin, first line therapy is azithromycin 10 mg/kg kg x 1 day, followed by 5 mg/kg x 4 day, or clarithromycin 15 mg/kg/day divided bid. For patients who fail amoxicillin, high dose amoxicillin/clavulanic acid is the next step. If a patient is vomiting, a dose of IM ceftriaxone can be given, 50 mg/kg, and then PO antibiotics started in 24 hours if the patient has improved. Length of treatment: There are a variety of recommendations for length of treatment for sinusitis, ranging from 10-28 days. Treating for 10- 14 days is common, but there is no strong evidence for this (Wald et al., 2001, Uchicago, 2006). Depending on signs, symptoms, and specific physical examination doctors decide if the child has bacterial or viral infection, which affect drug prescription patterns. When a child has bacterial infection then antibiotic is the drug of choice. To achieve therapeutic effect and prevent treatment failure, antibiotics must be properly used. The appropriate use includes correct reconstitution, dose administration, and storage condition (Dusdieker et al., 2000).Mothers should read and follow the manufacturer’s instructions for antibiotic suspension reconstitution carefully including: type and amount of water that should be added, appropriate device for measuring the amount of water, and steps for water addition. 15 1.5 Significance of the study: There are limited data about problems associated with the reconstitution, administration, and storage of antibiotic suspensions among pediatrics in Palestine. It is important to evaluate the appropriate use of antibiotics in pediatrics in order to prevent misuse and overuse of antibiotics that lead to therapeutic failure, bacterial resistance, hospital admission, use of intravenous antibiotics, and even death. Findings can help in developing educational programs and improve mothers’ counseling to avoid improper use of antibiotics in pediatrics. 1.6 Objectives:- 1.6.1 General objective: The aim of this study is to evaluate the problems associated with reconstitution of dry powder antibiotic, dose administration and storage condition for antibiotic suspensions used for pediatrics among Palestinian mothers. 1.6.2 Specific objectives: 1- To assess mothers’ ability for dry powders antibiotics reconstitution. 2- To assess mothers’ ability for1`2 dose administration of antibiotic suspensions. 3- To assess how and where mothers store reconstituted antibiotic suspensions. 4- To find any possible relationship between mothers’ practices and a group of sociodemographic factors. 16 Chapter Two Literature review 17 Chapter two Literature review 2.1 Pharmaceutical solvents: Solvent or vehicle is the medium which contains the ingredients of medicine. The type of solvents depends on properties of active ingredients. There are different types of vehicles including: (i) Water: Water is the vehicle for most pharmaceutical preparations as it is widely available, inexpensive, non-toxic, non-irritant, and it is a good solvents for many ionized drugs. There are different types of water: a- Potable water is drinking water; its chemical composition may include mineral impurities which would react with drugs as calcium carbonate in hard water. b- Purified water is prepared from suitable potable water with suitable treatment as distilled water that has been prepared by distillation. c- Water for preparations is potable water that boiled then cooled, which can be used in oral or external preparations which are not intended to be sterile. d- Water for injections is pyrogen- free distilled water, sterile for parenteral use. 18 (ii) Other vehicles: a- Syrup BP is a solution of 66.7% v/v sucrose in water. It will promote dental decay and is unsuitable for diabetic patients. Sugar free solvents have replaced glucose solvent as sorbitol, mannitol, and xylitol. b- Alcohol (ethanol) is rarely used for internal preparations but is useful for external preparations. c- Glycerol may be used alone as a vehicle in some external preparations. It is viscous and miscible both with water and alcohol. It may be added stabilizerand sweetener in internal preparations. In concentrations above 20.0% v/v it acts as a preservative. d- Propylene glycol is a less viscous liquid and better solvent than glycerol (Kennedy, 2004a). 2.2 Liquid medications measuring tools and accuracy: Liquid medications usually come with dose measuring device as (i) medicine cup, (ii) dosing spoon, (iii) dropper, or (iv) syringe (Charles, 2008). One common error with liquid medications involves taking wrong dose too much or too little, this occurs due to confusion between different dose measurements (Institue for safe medication practice, 2013). To avoid dose measuring error (i) the dosing device that comes with the medicine should be used. If dosing device doesn’t come pharmacist should be asked to recommend one, (ii) household measuring device should never be usedas 19 they are inaccurate, (iii) users need to look carefully at the line on measuring tool (Institue for safe medication practice, 2013, Charles, 2008). 2.3 Studies related to the reconstitution of dry powder antibiotic, dose administration and storage conditions of antibiotic suspensions: Patient misunderstanding of label instructions is common, that leads to medication error and less effective medication (Davis et al., 2009b). A Malaysian study: showed that patients did not follow the instruction because they did not understand them. Only 21.4% of 205 patients were able to comprehend complete antibiotic instructions(Hassan et al., 1994). A Palestinian study that investigated utilization of antibiotics from a group of pharmacies in Nablus city showed that regarding antibiotic suspensions for children, 3.5% respondents said that the quantity of water added to prepare should not be a specific quantity, 10.1% could not decide or they had no idea whether it is specific or not (Al Khalil et al., 2005). In another study 25.5% of 107 mothers knew the crucial importance of viewing the lower meniscus of water at eye level to obtain the correct final volume of drug(Iornguru et al., 2010). For optimal reconstitution, pharmacies use distilled or purified water to reconstitute powders for suspension. Tap water is unsuitable for pharmaceutical formulation due to its high content of calcium and other minerals that are incompatible with the components of suspension. The correct procedure is to tab the bottle few times first to loose the powder, 20 then to add approximately half volume of water, shake the bottle vigorously and finally to add the remaining volume of water, and shake well (Technician Training Tutorial, 2011). In addition to optimal reconstitution, dose administration method should be taken into consideration to administer the right dose. Antibiotic dry powder products contain enclosed dosing devices as syringe, medicinal spoon, or medicine cup. It is important to use a suitable device to have the correct dose. In a study from Ghana, 95.0% of people used household spoons in dosing oral liquid medications, and 39.0% actually preferred the enclosed dosing devices, in that study oral syringe was the most common accurate dosing device, while the medicinal cup was relatively accurate if used correctly(Tbayor and Lkipo, 2010). In another study 80.0% of 100 parents used household teaspoon to measure acetaminophen syrup dose. The volume of these spoons were measured using a syringe, the average volume was from 1.5-5 ml, 79.0% parents assumed that household teaspoon contains 5ml of acetaminophen (Hyam et al., 1989) Proper use of antibiotic suspensions includes proper storage also. The storage condition of reconstituted antibiotic suspensions must be tightly controlled as drugs are chemicals that may react with external environment such as temperature, humidity, and light. This reaction may lead to change in physical properties as color, or drugs degradation that 21 results in reduction or loss of activity or cause adverse effects on patients’ health(Obitte et al., 2009). In fact the International Conference on Harmonization (ICH) has set of guidelines for the studying of the stability of active ingredients of the pharmaceutical products. A study to evaluate storage, utilization and cost of drug products in Palestinian households showed places that 40.6% of drugs were stored in pharmacy cabinet, 16% were stored in the refrigerator, 43.4% were stored in several places around the house (kitchen and bed rooms), in addition 32.5% of drugs were stored not in original container and approximately 70% of the reconstituted suspensions were stored outside the refrigerator (Sweileh et al., 2010). Another study from Durban showed that 49.0% of 100 patients stored medication in bedroom, 44.0% stored in common area in house, and 7.0% stored medication in car(Naidoo et al., 2006). Improper storage of suspension may affect their stability, for example antibiotic suspension as amoxicillin-clavulanic acid must be refrigerated at (2-8 °C) and should be used within 2 weeks to maintain its stability and antimicrobial activity. Validated HPLC (highly performance liquid chromatography) method showed that reconstituted amoxicillin-clavulanic acid suspension that was stored at room temperature (27-29 °C) was stable for 5 days only (Peace et al., 2012). The therapeutic effect of amoxicillin suspension decreased after 14days even if stored in refrigerator temperature (2-8 °C)(Naidoo et al., 2006). Others antibiotics should be stored out of the refrigerator, since cooling may affect the viscosity of the reconstituted formulation. 22 Dry powder antibiotics are also affected by storage conditions, in summer heat in some places can reach up to 50°C, this is higher than U.S Pharmacopeia's definition of room temperature (20-25°C) that affects dry powder antibiotic stability (Nwokoye et al., 2012).Accordingly, ICH divided the world into 4 stability zones, as shown in (table 1.1) (ICH, 2013) Table (2.1): ICH stability zones Zone Type of climate Temperature Zone I Temperate zone 21ºC ± 2ºC Zone II Mediterranean/subtropical zone 25ºC ± 2ºC Zone III Hot dry zone 30ºC ± 2ºC Zone IV Hot humid/tropical zone 30ºC ± 2ºC 2.4 Studies related to Patient Package Inserts (PPIs): PPIs are the most readily available form of written information on drugs for patients. They should be clear, understandable to general population to achieve safe and effective use of medication and avoid medication error (AL-Ramahi et al., 2012). A Palestinian study showed that 100 (45.0%) of 222 consumers reported that they always read information in the leaflet of the drug package, 65 (29.3%) said that they read PPI most of the time, 41 (18.5%) said that they read it sometimes, and only 16 (7.2%) of participants said that they rarely or don’t read PPI. Regarding to find front size in PPIs suitable for reading 39.5% of consumers answered with yes. Arabic language for PPIs was preferred by most consumers (89.8%). In addition 94 (42.3%) of consumers found information in PPIs useful and enough. 23 While 167 (74.0%) of consumers thought that information in PPIs need to be improved (AL-Ramahi et al., 2012). Another Palestinian study thatinvestigated the attitude of the Palestinian public to patient package insert PPI showed 51.7% of 371 participants said that they read PPI, but either find it vague or rise their fears and concerns(Sweileh et al., 2004). Others studies have shown that symbols and pictograms in the patient package insert help the patient understand and use the drug correctly(Bernardini et al., 2000).In addition there is a need to review and re-write the language of most PPI in the Palestinian market to make them easily readable and not to contain unnecessary or over-estimated language especially in the side effect section. It should be emphasized that PPI should not replace patient-pharmacist communication (Sweileh et al., 2004). 24 Chapter Three Methodology 25 Chapter three Methodology 3.1 Setting: This survey was carried out at a governmental primary healthcare center Al-Wosta clinicand a pediatric private clinic in Nablus city between 22, January2013 to 22, March2013. 3.2 Population of the study: All mothers who visited the selectedAl-Wosta governmental primary healthcare centerand a pediatric private clinic in Nablus city during the study period and meet the inclusion criteria were asked to participate in the study. Inclusion criteria: mothers who came in follow up visit for their childrenwho used reconstituted oral antibiotic suspension in the previous visit. Depending on Al-Wosta clinic registrations and computerized system in the private clinic. 3.3 Sample size: The minimum sample size for this study was calculated to be 384 mothers based on Roasoft sample size calculatoras Nablus city population is around 200 000, margin of error that can be accepted is 5.0%, and confidence level is 95.0% . So the target was 400 mothers. 26 3.4 Data collection: Data collection tool was a face to face questionnaire designed based on extensive literature review of similar studies (Al Khalil et al., 2005, Chan and Tang, 2006b, Bayor et al., 2010, Elberrya et al., 2012). The questionnaire included information about sociodemographic characteristics of study subjects, appropriate reconstitution, administration and storage of antibiotic suspensions (Appendix 1,2). The study protocol was authorized by the Institutional Review Boards (IRB) (Appendix 3) and Ministry of Health (Appendix 4) before initiation of this study. To evaluate the mothers' practice, the manufactures’ instructions on drug box and package insert were reviewed as in (table 3.1) and were compared with mothers’ practice. 2 7 T a b le ( 3 .1 ): I n st ru ct io n s fo r th e m o st c o m m o n ly p re sc ri b ed a n ti b io ti c su sp en si o n s A n ti b io ti c H o w t o r ec o n st it u te S te p s to a d d w a te r S to ra g e o f d ry p o w d er S to ra g e o f re co n st it u te d su sp en si o n B lactam (penicillin) A m o x it id 2 5 0 m g (A m o x ic il li n ) A d d 4 4 m l o f w at er 2 st ep s ea ch st ep ap p ro x im at el y h al f to ta l am o u n t S to re t h e d ru g at r o o m te m p er at u re b el o w 3 0 °C K ee p th e su sp en si o n re fr ig er at ed f o r 1 0 d ay s A m o x it id 4 0 0 m g (A m o x ic il li n ) A d d 4 6 m l o f w at er 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re t h e d ru g at r o o m te m p er at u re b el o w 3 0 °C K ee p th e su sp en si o n re fr ig er at ed f o r 1 0 d ay s B lactam (penicillin) C u ra m 3 1 2 .5 (A m o x ic il li n + C la v u la n i c ac id ) A d d d ri n k in g w at er t o th e li n e 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re at te m p er at u re b el o w 2 5 °C K ee p th e su sp en si o n re fr ig er at ed f o r 7 d ay s M o cl av (A m o x ic il li n + C la v u la n i c ac id ) A d d d ri n k in g w at er t o th e li n e 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re at te m p er at u re b el o w 2 5 °C K ee p th e su sp en si o n re fr ig er at ed f o r 7 d ay s O gm in 4 0 0 m g 7 0 m l (A m o x ic il li n + cl av u n ic ac id ) A d d 6 0 m l o f w at er 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re t h e d ru g at r o o m te m p er at u re b el o w 3 0 °C K ee p th e su sp en si o n re fr ig er at ed f o r 7 d ay s C la m o x in 4 0 0 (A m o x ic il li n + C la v u la n i c ac id A d d 6 0 m l o f d is ti ll ed w at er 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re at te m p er at u re b el o w 2 5 °C S to re a t re fr ig er at o r fo r 7 d ay s A u gm en ti n 3 5 m l (A m o x ic il li n + C av u la n i c ac id A d d 3 2 m l o f d is ti ll ed w at er N A S to re at te m p er at u re b el o w 2 5 °C K ee p i n r ef ri ge ra to r fo r 7 d ay s A u gm en ti n 7 0 m l (A m o x ic il li n + C la v u la n i c ac id A d d 6 4 m l o f d is ti ll ed w at er N A S to re at te m p er at u re b el o w 2 5 °C K ee p i n r ef ri ge ra to r fo r 7 d ay s 2 8 B lactam (pencilli n) B ep en v k (P en ic il li n V ) A d d 6 8 m l o f w at er 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re at te m p er at u re b el o w 3 0 °C S to re a t re fr ig er at o r fo r 7 d ay s B lactam (cephalosporins) A d ce f2 5 0 m g( C ef d in ir ) In v er t b o tt le a n d s h ak e th e p o w d er t o b ec o m e lo se . A d d 4 0 m l o f b o il ed an d co o le d w at er 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re at te m p er at u re b el o w 2 5 °C S to re at te m p er at u re b el o w 2 5 °C fo r 1 0 d ay s Je fl ex 2 5 0 m g (C ef al ex in ) S h ak e th e b o tt le to lo o se n gr an u le s ad d d is ti ll ed w at er to th e li n e 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re at te m p er at u re b el o w 2 5 °C S to re a t re fr ig er at o r fo r 7 d ay s Z in n at 2 5 0 m g (C ef u ro x im e) S h ak e th e b o tt le to lo o se n t h e p o w d er a d d 1 9 m l o f w at er O n e st ep S to re at te m p er at u re b el o w 3 0 °C S to re a t re fr ig er at o r n o t m o re t h an 1 0 d ay s Macrolides A ze n il 1 5 cm (A zi th ro m yc in ) T ap th e b o tt le to lo o se n t h e p o w d er a d d 9 m l o f d is ti ll ed w at er N A S to re at te m p er at u re b el o w 2 5 °C S to re at te m p er at u re b el o w 2 5 °C fo r 5 d ay s A ze n il 2 2 .5 cm (A zi th ro m yc in ) T ap th e b o tt le to lo o se n t h e p o w d er a d d 1 2 m l o f d is ti ll ed w at er N A S to re at te m p er at u re b el o w 2 5 °C S to re at te m p er at u re b el o w 2 5 °C fo r 5 d ay s A ze m ix 2 2 .5 cm (A zi th ro m yc in ) A d d 1 2 m l o f w at er 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re t h e d ru g at r o o m te m p er at u re b el o w 3 0 °C S to re t h e d ru g at r o o m te m p er at u re b el o w 3 0 °C fo r 5 d ay s E ry th ro ca re 4 0 0 m g (E ry th ro m yc in ) . A d d b o il ed an d co o le d w at er t o l in e 2 st ep s ea ch st ep ap p ro x im at el y h al f am o u n t S to re at te m p er at u re b el o w 2 5 °C S to re a t re fr ig er at o r fo r 7 d ay s Z it ro ci n 1 5 cm (A zi th ro m yc in ) A d d 7 m l o f d is ti ll ed w at er N A S to re at te m p er at u re 1 5 -3 0 °C S to re at te m p er at u re 1 5 -3 0 °C fo r 5 d ay s 2 9 Macrolides Z it ro ci n 2 2 .5 cm (A zi th ro m yc in ) A d d 1 0 .5 m l o f d is ti ll ed w at er N A S to re at te m p er at u re 1 5 -3 0 °C S to re at te m p er at u re 1 5 -3 0 °C fo r 5 d ay s Z it ro ci n 3 0 cm (A zi th ro m yc in ) A d d 1 4 cm o f d is ti ll ed w at er N A S to re at te m p er at u re 1 5 -3 0 °C S to re at te m p er at u re 1 5 -3 0 °C fo r 5 d ay s K la ci d (C la ri th ro m yc in ) A d d w at er to th e gr an u le s u n ti l th e li n e N A S to re at ro o m te m p er at u re b el o w 3 0 °C S to re at ro o m te m p er at u re b el o w 3 0 °C fo r 1 4 d ay s Sulfa S u lp ri m (T ri m et h o p ri m e+ S u lf a m et h o x az o le ) A lr ea d y re co n st it u te d N A S to re at te m p er at u re b el o w 3 0 °C S to re at te m p er at u re b el o w 3 0 °C • T h is i n fo rm at io n d ep en d in g o n p at ie n t p ac k ag e in se rt a n d m an u fa ct u re rs ’ in fo rm at io n o n d ru g b o x d u ri n g th e st u d y p er io d . 30 3.5 Statistical analysis: Statistical analysis was performed by using Statistical Package for Social Sciences (SPSS version 16.0). Mean ± standard deviation was computed for continuous data. Frequencies (percentages) were calculated for categorical variables. Categorical variables were compared using Chi- square. A p-value of less than 0.05 was considered to be statistically significant for all analyses. 31 Chapter Four Results 32 Chapter four Results 4.1 Socio-demographic characteristics: The study sample was 400 women. Women age was mainly between 20-30 years of age 258 (64.5%), with a mean age of 28.8±6.2 years, minimum age was 17 years, and maximum age was 52 years, 307 (76.8%) were from Nablus city, 236 (59.0%) of them had a child with age between 1-3 yearswith a mean age of 2.6±1.9 years, minimum age was 0.08years, and maximum age was 12 years, most of participants had high school or university degree (39.8% and 47.8% respectively), (70.8%) of mothers had medical insurance, (68.5%) of participants reported medium monthly income, and (79.2%)were not working (table 4.1). Table (4.1): Socio-demographic characteristics of 400 mothers Characteristics Frequency Percentage Mothers age Less than 20 years 13 3.2% Between 20-30 years 258 64.5% Between 31-40 years 115 28.8% Above 41 years 14 3.5% Monthly income Low 63 15.8% Medium 274 68.8% High 63 15.8% Educational level Elementary school 6 1.5% Middle school 44 11.0% High school 159 39.8% Diploma/University degree and more 191 47.8% 33 Characteristics Frequency Percentage Living place City 307 76.8% Village 90 22.5% Camp 3 0.8% Working mother Yes 83 20.8% No 317 79.2% Child age Less than 1 years 63 15.8% Between 1-3 years 236 59.0% Between 3.1-5 years 64 16.0% Above 5 years 37 9.2% 4.2 Prescribed antibiotics and indications During the study period the diagnosis according to prescribers was mainly throat infection (pharyngitis) in 110 (27.5%) children, bronchitis in 110 (27.5%), and otitis mediain 108 (27%)(table 4.2), and the most commonly prescribed antibiotic was amoxitid (amoxicillin) in 161(40.2%)children then ogmin (amoxicillin + clavulanic acid) in 51 (12.8%) as shown in(table 4.3). Table (4.2): Indications for used antibiotics Indication Frequency Percentage Throat infection (pharyngitis) 110 27.5% Bronchitis 110 27.5% Otitis media 108 27.0% Tonsillitis 45 11.2% Urinary tract infection 14 3.5% Dental infection 4 1.0% Pneumonia 4 1.0% Skin infection 3 0.8% Sinusitis 1 0.2% Trauma 1 0.2% 34 Table (4.3): The most commonly prescribed antibiotics (N=400) Prescribed antibiotic Frequency Percentage Amoxitid(Amoxicillin) 161 40.2.% Ogmin(Amoxicillin+Clavulanic acid) 51 12.8% Azemix(Azithromycin) 33 8.2% Moclav(Amoxicillin+Clavulanic acid) 30 7.5% Azenil(Azithromycin) 28 7.0% Erythrocare(Erythromycin) 25 6.2% Jeflex(Cefalexin) 15 3.8% Curam(Amoxicillin+Clavulanic acid) 14 3.5% Augmentin(Amoxicillin+Clavulanic acid) 10 2.5% Adcef(Cefdinir) 8 2.0% Zitrocin(Azithromycin) 7 1.8% Zinnat(Cefuroxime) 6 1.5% Clamoxin(Amoxicillin+Clavulanic acid) 5 1.2% Sulprim(Trimethoprim+sulfamthoxazole) 3 0.8% Bepenvk(Penicillin V) 3 0.8% Klacid(Clarithromycin) 1 0.2% 4.3 Reading and understanding the instructions: Among the 400 mothers,347 (86.8%) claimed that they read the manufacturer instructions either on the box or in the package insert, 311 (77.8%) of them told that they could understand the instructions. In case of not understanding the instructions, 176 (44%) of participants asked for help from pharmacists, while 41 (10.2%) asked their doctors (table 4.4). 35 Table (4.4): Reading and understanding instructions to prepare antibiotic suspension (N=400) Characteristics Frequency Percentage Read instructions Yes 347 86.8% No 50 12.5% Understand instructions Yes 311 77.8% No 45 11.2% Pharmacist advise 176 44.0% Doctor advise 41 10.2% Others 180 45.5% 4.4 Reconstitution of antibiotic suspensions: In order to reconstitute dry powder antibiotic, most mothers 302 (75.5%) used boiled and cooled tap water, 52 (13.0%) used mineral water, 31(7.8%) used tap water directly, 7(1.8%) used distilled water, and 5 (1.2%) of drugs were prepared by pharmacists(table 4.5).Fortunately the correct practice (use boiled then cold tap water, use distilled water, and one prepared by pharmacist) was done by 310 (77.8%). And there was no significant association between correct practice and socio-demographic characteristics. Table (4.5): Water used to prepare antibiotic suspension (N=400) Water used Frequency Percentage Boiled and cooled tap water 302 75.5% Mineral water 52 13.0% Tap water directly 31 7.8% Distilled water 7 1.8% Prepared by pharmacists 5 1.2% Already reconstituted 3 0.8% 36 Regarding the method of reconstitution, 192 (48.4%) of mothers used syringe as tool to measure the volume of water, while 179 (45.1%) of participants used line on drug bottle, 25 (6.3%) used enclosed medicinal cup, and 1 (0.3%) used baby bottle as shown in (figure 4.1) according to the instructions, the correct practice was followed by 344 (86.8%) of mothers.There was no significant association between correct practice and socio-demographic characteristics. Figure (4.1): Tools used to measure water volume(N=397) The water was added either in one step, two steps, or several steps. And the correct practice according to the instructions was done by 304 (76.6%) of mothers as shown in (table 4.6). There was no significant association between correct practice and socio-demographic characteristics. Table (4.6) Water addition steps (N=397) Addition steps Frequency Percentage One step 48 12.1% Two steps 304 76.6% Several steps 45 11.3% 192 179 25 1 0 50 100 150 200 250 Syringe Line on box Enclosed medicinal cup Baby bottle F re q u e n cy Tool Used To Measure Water volume 48.4% 45.1% 6.3% 0.3% 37 4.5 Administration of antibiotic doses: Most of the mothers392 (98.0%) claimed to shake the drug bottle before use as shown in (figure 4.2) which means that 98.0% of mothers followed correctpractice. Figure (4.2): Mothers’ practice regarding shaking antibiotic suspensions before use (N=400) Among 400 mothers,313 (78.2%) of them considered syringe as the most accurate tool for drug administration, 57(14.0%), 20 (5.0%), and 10 (2.5%) of them considered household teaspoonful, medicinal spoonsful, and medicinal cup as the most accurate tool respectively, as shown in (table 4.7), the correct practice according to related studies was practiced by 313 (78.2%) of mothers. And there was no significant association between correct practice and socio-demographic characteristics. 392 8 0 50 100 150 200 250 300 350 400 450 Yes No F re q u e n cy Shake Well Before Use 98.0% 2.0% 38 Table (4.7): Drug administration (N=400) Tool used to administer dose Frequency Percentage Syringe 313 78.2% Household teaspoon 57 14.3% Medicinal spoon 20 5.0% Medicinal cup 10 2.5% The mothers were asked if the full medicinal cup equals drug dose always, 39 (9.8%) of mothers answered that enclosed medicinal cup is equal to the drug dose as shown in (table 4.8). And the correct answer was by 347 (86.8%) of mothers who said that the full cup is not always equal to the dose. Table (4.8): Dose medicinal cup equal drug dose? (N=400) Medicinal cup equal dose Frequency Percentage Yes 39 9.8% No 347 86.8% Don’t know 14 3.5% The mothers were asked about their practice if the direction for antibiotic suspension is“use three times daily”; 224(56.0%)of mothers told that they administer the dose with major mealsas shown in (figure 4.3) the correct practice was done by 112 (28.0%) of mothers. And there was no significant association between correct practice and socio-demographic characteristics. 39 Figure (4.3) Mothers practice for direction" use 3 times daily" Regarding the duration of administration; 394 (98.5%) of mothers didn’t used suspension after two weeks of reconstitution (figure 4.4), and374 (93.5%) of mothers didn’t use the leftover (remnant) for another child as shown in (figure4.5).Fortunately the correct practice according to manufacturer instructions was done by 394 (98.5%), 374 (93.5%) respectively. And there were no significant association between correct practices and socio-demographic characteristics. Figure (4.4): Mothers’ practice regarding of the use antibiotic suspension after 2 weeks (N=400) 112 64 224 0 50 100 150 200 250 Every 8 hours Any 3 times With major meals F re q u e n cy Mothers defintion of direction use 3 times daily 28.0 16.0% 56.0% 6 394 0 50 100 150 200 250 300 350 400 450 Yes No F re q u e n cy Used Antibiotic Suspension After 2 Weeks 1.5% 98.5% 40 Figure (4.5): Mothers’ practice regarding the use of remnant antibiotic suspension(N=400) 4.6 Storage conditions for antibiotic suspensions: Regarding the storage of dry powder; 177 (44.2%) of mothers told that they stored dry powder antibiotic in medicinal cabinet, 72 (18.0%) in kitchen, 56 (14.0%) in refrigerator,48 (12.0%) in dining room, 22(5.5%) above refrigerator, and 25 (6.2%) of mothers used antibiotic directlyas shown in (figure 4.6), and the correct practice ( store in medicinal cabinet, and used directly) was done by 202 (50.5%) of mothers. And there was no significant association between correct practice and socio-demographic characteristics. 26 374 0 50 100 150 200 250 300 350 400 Yes No F re q u e n cy Used Left over (Remnant) of Antibiotic Suspension 6.5% 93.5% 41 Figure (4.6): Storage condition of dry powder antibiotic (N=400) Storage of suspension after reconstitution; 226 (56.5%) of mothers told that they stored antibiotic suspension in refrigerator, 71 (17.8%) in medicinal cabinet, 54 (13.5%) in kitchen, 31 (7.8%) indining room, and 18 (4.5%) above refrigeratorfigure (4.7), and the correct practice was done by 200(50.0%) of mothers. And there was no significant association between correct practice and socio-demographic characteristics. Figure (4.7): Storage condition of antibiotic suspension (N=400) 56 75 177 22 48 25 0 20 40 60 80 100 120 140 160 180 200 F re q u e n cy 14.0% 44.2% 5.5% 12.0% 6.2% 18.0% 226 54 71 18 31 0 50 100 150 200 250 Refrigerator Kitchen Medicinal cabinet Above refrigertor Dining room F re q u e n cy 56.5% 13.5% 17.8% 4.5% 7.8% 42 Mothers were asked about the meaning of “store in a cool place"; 164 (41.0%) of mother answeredwith refrigerator, 141(35.2%) answered with any temperature, 93 (23.2%) answered was medicinal cabinet, and 2 (0.5%) answered with freeze (figure 4.8). The correct practice was followedby 93(23.2%)mothers according to (BP), also we can consider refrigerator as suitable place in case of temperature above 8-15 °Cto avoid temperature flocculation for suspensions (Winfield, 2004). And there was no significant association between correct practice and socio-demographic characteristics. Figure (4.8): Mothers’ definition of a cool place (N=400) 164 2 141 93 0 20 40 60 80 100 120 140 160 180 Refrigerator Freez Any temperature Medicinal cabinet F re q u e n cy 41.0% 0.5% 35.2% 23.2% 43 Chapter Five Discussion 44 Chapter five Discussion Most children have 4-6 acute URTI yearly when infection is caused by bacteria then antibiotic is the drug of choice(Chan and Tang, 2006b). To achieve therapeutic effect and prevent treatment failure, antibiotic must be properly used. Suitable dosage forms for pediatric use are usually available in pharmacy(Maldonhauado and Schaufelberger, 2011). Among these dosage form dry antibiotic suspension are most used(Cetinkaya, 2012). Most antibiotics are water sensitive; accordingly they should be formulated as dry suspension for reconstitution(Ogden, 2007). The reconstitution requires addition of suitable pharmaceutical solvent which is water. The appropriate use includes (i) correct reconstitution, (ii) dose administration, (iii) and storage conditions. This study demonstrates Palestinian mothers' practice regarding antibiotic dry powder reconstitution, dose administration, and storage conditions of antibiotic suspensions, and compares their practice to other mothers. 5.1 Reading and understanding instructions: For optimal usefulness from antibiotic suspension manufacturer instructions should be followed exactly. This study showed that 347 (86.8%) of 400 mothers read the instructions either on box or package insert, and 311(77.8%) told that they understood the instructions.This is a good level of awareness and understanding compared to others Palestinian 45 studies,one showed that 100 (45.0%) of 222 consumers reported that they always read information in the leaflet of the drug package(AL-Ramahi et al., 2012), anothershowed that 51.7% of 371 participants said that they read PPI(Sweileh et al., 2004).One study showed that patient instructions understanding ranged from (53.0%) for least understood to (89.0%) for most commonly understood label(Davis et al., 2009b). It is recommended to make instructions clear and complete as much as possible, and to encourage patients or caregivers to read instruction always. 5.2 Dry powder antibiotic reconstitution: Reconstitution of dry powder antibiotic depends on type of antibiotic and manufacturer instructions. Generally distilled or boiled then cooled tap water is used. First the bottle should be tabbed few times to loose the powder, then approximately half volume of water should be added, the bottle is shaken vigorously, the remaining of water should be added and shaken well(Technician Training Tutorial, 2011). One exceptionis zinnat (cefuroxime) where the recommended addition of water isin one step (zinnat manufacturer instruction). In this study 302 (75.5%) of mothers used boiled then cooled tap water, 7 (1.8%) of mothers used distilled water, this follow the correct practice. While 52 (13.0%) used mineral water, and 31 (7.8%) used tap water directly, this follow wrong practice. As mineral water is usually rich in minerals, accordingly this practice may cause decomposition of drug, 46 and incompatibilities such as interactions with the drugs leading to complexion reactions(Kennedy, 2004a). And 304 (76.6%) of mothers followed correct practice in addition of water in two steps.Addition of water in one step makes difficult to get the lumps out(Ogden, 2007), while measuring volume of water several times toadd increases the percentage of error in measured volume(Ansel, 2010). Regarding the volume of water, antibiotics as Amoxitid (amoxicillin), Curam, Moclav (amoxicillin+clavulanicaci), Erythrocare (erythromycin), and Jelex (cephalexin) have line as mark on bottle to which water should be added, while other antibiotics either have medicinal cup, or syringe to measure volume of water. Fortunately the correct practice was done by 344 (86.6%) of mothers. Despite this good practice of reconstitution, the addition of water up to the mark or using medicinal cup as measuring tool may result in inaccurate fluid volume due to the width of these tools. In fact in measuring volume, it is recommended to use narrow tools to achieve correct volume(Ansel, 2010). A previous Palestinian study asked about quantity of water added showed that 3.5% said the quantity of water that should be added to prepare suspension is not a specific quantity, and 10.1% could not decide or they had no idea wither it is specific or not(Al Khalil et al., 2005). In another study, 25.5% of 107 mothers knew the crucial importance of viewing the lower meniscus of water at eye level to obtain the correct final volume of suspension (Iorngurum, Ogunbajo et al. 2011). In our study, similar to 47 other studies some caregivers don’t know the correct practice regarding reconstitution of antibiotic dry powder. This requires better counseling and education from prescribers and pharmacists when suspensions are prescribed or dispensed. It would be a good practice if pharmacists perform the suspension in pharmacy using suitable cylinders and suitable water. 5.3 Administration of antibiotic dose: Appropriate dose administration includes shaking the bottle before use, and using accurate delivery tool, and dose interval. In this study most of the mothers 392 (98.0%) claimed to shake the drug bottle before use in order to redistribute the powder to administer right dose. In another study from Nigeria,among 107 mothers 24.4% didn’t shake the bottle immediately before measuring the dose volume which leads to incorrect dose (Iorngurum, Ogunbajo et al. 2011). In fact this wrong practice will lead to incomplete or wrong mixing of water with dry suspension. This will result in missing of the most important pharmacopeial quality test which is the uniformity of distribution of the drug and accordingly the content of uniformity of the dose(Kunague, 2011). In general our results reflected high level of awareness regarding this point. According to this study 313 (78.2%) of mothers considered syringe as the most accurate device for dose administration, while 57 (14.3%) 48 considered household teaspoonful as the most accurate device for dose administration. The correct practice was followed by most of the mothers. A Ghanaian study showed that 95.0% of 97 respondents used household spoons in dosing oral liquid medications(Chan and Tang, 2006b).The American Academy of Pediatrics (AAP) Committee on Drugs in a 1975 study reported 75 % of patients used a household teaspoon or kitchen measuring spoon when dosing liquid medication. In another Israeli study, 80 % of 100 children were given medications by a household teaspoon with mean volume of 2.95ml that resulted in under dose(Hyam et al., 1989). A similar report from the UnitedState indicated a household teaspoon was the device most frequently used for measuring liquid medications in 73.0% of 130 patients. Clinicians and pharmacists need to be aware that many people continue to use inaccurate devices for measuring liquid medication, such as household spoons. They should encourage the use of more accurate devices, particularly the oral dosing syringe. Clinicians should always consider the possibility of a medication dosing error when faced with an apparent treatment failure(Madlon-Kay and Mosch, 2000). In another study majority of adult believed that oral syringe and dosing cup would measure an accurate dose (Sobhani et al., 2008). A study by Chang in 2010 dosing cups caused the most medication errors as 99.0% of which were overdose due to assumption that cup constituted the 49 entireactual dose itself. In this study most of mothers 347 (86.8%) didn’t assume that medicinal cup equal drug dose, which is a correct practice. Regarding to dosing interval most of mothers 224 (56.0%) assumed that" use three times daily" means to give the drugs with major meals and this is a wrong practice. As we know three times daily for antibiotics means to administer the medication every 8 hours. A study of 359 patientstested whether the use of more explicit language to describe dose and frequency of use for prescribed drugs could improve comprehension, showed that patients were significantly more likely to understand instructions with explicit time period as in morning 89.0%, compared to instruction as twice daily 77.0%, or by hour interval 53.0%(Davis et al., 2009a). Regarding to this point, the role of pharmacists is very important and they should write the proper instructions and confirm on them during dispensing to avoid antibiotic failure or toxicity if the dosing interval are not followed properly. According to manufacturer directions antibiotic suspensions should be discarded after 10 days of reconstitution for antibiotics as amoxicillin, cefidinir, and cefuroxime, while amoxicillin-clavulanic acids, erythromycin, cephalexin should be discarded after 7 days, and after 5 days for antibiotic azithromycin. And this practice was done by most of the mothers394 (98.5%). Regard using of left over antibiotic suspension 26 (6.5%) of mothers used left over antibiotic suspension.Study about amoxicillin suspension stability the therapeutic effects of suspension decreased after 14 days even if stored in refrigerator(Naidoo et al., 50 2006).Another study showed that 15.0% of 421 parents gave left over antibiotic suspension to their children whichmeans that they keep antibiotics after reconstitution(Chan and Tang, 2006a). Asit is well known, the medications should not be given to other individuals, this practice was followed by 374 (93.5%) of mothers.A Malaysian study showed that 24.0% of 421 parents gave shared antibiotics(Chan and Tang, 2006a), so our results reflect good awareness regarding rational use of antibiotics. 5.4 Antibiotic storage conditions: Storage conditions of drugs are important as drugs are chemicals that may react with external environment such as temperature, humidity, and light. This leads to change in drugs concentrations properties and therapeutic effects. Most of people store medications in kitchen or bathroom cabinet, that speeds up medication breakdown process; as in both conditions drugs were exposed to humidity and warm. Instead medicinal cabinet should be placed in cool and dry place, away from direct sun light, and out of reach from children (Dugdal, 2011). In this study a good percentage of mothers 177 (44.2%) stored dry powder antibiotic in medicinal cabinet, and 226 (56.5%) of them stored antibiotic suspension in refrigerator. In both cases around half of the mothers followed the correct practice. These results are close to results from another Palestinian study which showed that 40.6% of drugs were 51 stored in pharmacy cabinet, in another hand same study showed that 70.0% of the reconstituted suspensions were stored outside the refrigerator (Sweileh, et al. 2010), and another Iraqi study which showed that 42.0% of all drugs were stored appropriately (Jassim, 2010). A mini survey determined packaging in which amoxicillin preparations are dispensed, temperature and humidity condition under which they were stored by patients by Naidoo, etal in 2006 revealed that 53.0% of 100 patients stored antibiotic suspension in refrigerator, and 47.0% stored them in common area in house, as temperature range in Durban from 31-42°Cthis could result in decrease therapeutic efficacy and increase in bacterial resistance. So storage conditions are very important and patients and caregivers in our country need more education regarding this point because many people store medications in inappropriate places. Mothers were asked about storage condition “store in dry place” the correct answer was answered by 93 (23.2%) of mothers. According to British Pharmacopeia (BP) “cool place” is between 8-15°C, in case that temperature in place above that rang so we can use refrigerator to avoid temperature flocculation (Winfield, 2004).This again is the responsibility of the prescribers and pharmacists who should concentrate on this point during counseling. 52 5.5 Limitations: Thefirst limitation of this study is that the answers reported by the respondents cannot be validated and recall bias is possible, but this cannot be avoided in survey studies. Another limitation is the study was performed in Nablus city so it might not be representable to the practice in villages and camps. However, these results can give a baseline data that can be useful in designing and implementing suitable educational programs and performing other related studies. 5.6 Conclusions: This study reflected a good level of awareness regarding antibiotic dry powder reconstitution, dose administration, and storage conditions for antibiotic suspensions among Palestinian mothers. However, there is a room for improvement in mothers’ practice; it is the role of pharmacists to reconstitute antibiotic dry power using suitable tool and suitable water, in addition to their responsibilities to explain the manufacturer instructions to mothers and confirm on them by writing, and supply them with suitable dose administration tool, focus on dose intervals, duration of use, and storage conditions for both dry powder antibiotic and antibiotic suspensions. 53 5.7 Recommendations: To achieve higher level of awareness and correct practice regarding antibiotic suspensions use,cooperation between drugs companies, pharmacists, and doctors is needed. 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Geneva. 64 Appendices 65 Appendix (1) ة:الشخصيالمعلومات عمر االم المستوى التعليمي لالم مكان السكن في فلسطين □مخيم □قرية □مدينه وجود تأمين صحي □ال □نعم دخل االسرة الشهري □عالي □متوسط □منخفض العمل □ال (ربة منزل) □نعم عمر الطفل المضاد الحيوي الموصوف للطفل الداعي لالستخدام هل تقرأي التعليمات بدقة قبل قيامك بتحضير معلق المضاد الحيوي؟ □ال □نعم هل تجدي التعليمات بشأن تحضير المعلق واضحة؟ □ال □نعم اذا كانت التعليمات غير واضحه،هل تتوجهين لطلب نصيحة الصيدالني؟ □الدكتور □ال □نعم ماهي نوعية المياه التي تستخدمينها لتحضير معلق المضاد الحيوي؟ □مياه مقطره □مياه الصنبور (باردة بعد غليها ) □مياه معدنية □الصيدالني يقوم بتحضيره □مياه الصنبور مباشرة ما هي االداة التي تستخدميتها لقياس كمية المياه المراده؟ □لعلبهالخط المرسوم ع ا □السرنجه □الغطاء المصاحب للعلبة ...................ادوات اخرى :عدد خطوات اضافة المياه للدواء □عدة خطوات □خطوتين □خطوة واحده 66 هل تقومي برج العلبة قبل االستعمال؟ □ال □نعم :االداة االكثر دقة لقياس جرعة الدواء □السرنجة □الملعقه المصاحبه للعلبة □الغطاء المصاحب للعلبة □ملعقه الشاي المنزلية عند استعمالك للغطاء المرافق للعلبة،هل تعتقدي ان الجرعه تساوي حجم الغطاء □عرف ال ا □ال □نعم اين تقومي بحفظ معلق المضاد الحيوي قبل تحضيره؟ ظهر الثالجة □خزانة االدوية □المطبخ □الثالجة □استعمله مباشره □غرفة المعيشة □ اين تقومي بحفظ المضاد الحيوي بعد تحضيره؟ ظهر الثالجة □خزان االدوية □المطبخ □الثالجة □غرفة المعيشة □ ؟و تعريفك ليحفظ في مكان بارد ماه خزانة □اي درجة حرارة □الفريزر □الثالجة □االدوية من تحضيره؟هل سبق لك ان استعملت المضاد الحيوي بعد اسبوعين □ال □نعم هل سبق لك ان استعملت بقية المضاد الحيوي لطفل اخر؟ □ال □نعم مرات باليوم تعني 3إعطاء الجرعة □اوقات خالل النهار 3اي □ساعات 8كل □مع الوجبات الرئيسية 67 Appendix (2) Personal information: Mother age Educational level Elementary □ middle school □ high school □ diploma/ university or more□ Living place City□village □ camp□ Health insurance Yes □ no □ Monthly income Low □ medium □high□ Work Yes □ no □ Child age Prescribed antibiotic Indication 68 Did you read instructions carefully before preparation of antibiotic suspension? Yes □ no □ Did you understand the instructions? Yes □ no□ If you didn’t understand instructions, you ask Pharmacist □no □ doctor □ What was the type of water you used to prepare antibiotic suspension? Mineral water □ boiled then cooled water □ distilled water □ tap water directly □ prepared by pharmacist□ What was the tool you use to measure volume of water? Medicinal cup □ syringe □ line on bottle □ others Steps to add water One step□ two steps □ several steps□ Did you shake the bottle before use? Yes □ no□ The most accurate tool for dose administration Medicinal cup □ medicinal spoon □ household teaspoonful□ 69 Does medicinal cup equal dose? Yes □ no □ don't know□ Where did you store dry powder antibiotic? Refrigerator □ kitchen □ medicinal cabinet □ above refrigerator □ dining room □ used directly□ Where did you store antibiotic suspension? Refrigerator □ kitchen □ medicinal cabinet □ above refrigerator □ dining room □ What is your definition of cool place? Refrigerator □ freeze □ any temperature □ medicinal cabinet□ Did you use antibiotic suspension after 2 weeks? Yes □ no□ Did you use leftover antibiotic to other child? Yes □ no□ Three times daily mean Every 8 hours □ any tree times daily □ with major meals□ 70 Appendix (3) 71 Appendix (4) جامعة النجاح الوطنية كلية الدراسات العليا المشاكل المتعلقة بحل واعطاء وتخزين معلقات المضادات في مدينة نابلس/فلسطين لألطفالالحيوية إعداد هيا إبراهيم عنبوسي إشراف رواء الرمحي د. عبد الناصر زيد د. على درجة الماجستير في الصيدلة السريرية قدمت هذه االطروحة استكماال لمتطلبات الحصول في جامعة النجاح الوطنية نابلس، فلسطين. م2013 ب المشاكل المتعلقة بحل واعطاء وتخزين معلقات المضادات في مدينة نابلس/فلسطين لألطفالالحيوية إعداد هيا ابراهيم عنبوسي إشراف رواء الرمحي د. عبد الناصر زيدد. الملخص في حالة العدوى البكتيريه و البكتيرية.أمن االطفال من العدوى الفيروسية يعاني الكثير على نتيجة عالجية فعاله يجب الحصولولضمان األمثلاستعمال المضادات الحيوية هو الحل وتبرز اهمية هذه الدراسة في تقييم مدى صحة استعمال المضاد الحيوي بطريقة صحيحة. ،ات الحيوية، وكيفية اعطاء الجرعةالفلسطينيات بالنسبة لتحضير المضاد ممارسات االمهات .ظروف التخزينو ات عيادمجموعة من هذه الدراسة هي عبارة عن دراسة وصفية، تم تطبيقها في 2013- 1-22الفترة الواقعة بين خاص فيأطفال وزارة الصحة الفلسطينية وعيادة طبيب ، حيث تم تحليل البيانات بواسطة استبيان أعد لهذا الغرضباستخدام ، وذلك 2013- 3- 22و .SPSSالبرنامج االحصائي هي التهاب القصبات وتوصلت الدراسة الى أن معظم العدوى التي يعاني منها االطفال ، وأن %)27.0( 108التهاب االذن الوسطى و %) 27.5( 110التهاب الحلق %) و27.5( 110 ، قامت أم 400قار االموكسيسلين. من بين هو ع االطباءقبل اكثر مضاد حيوي تم وصفه من أم االخريات بزيارة عيادة أطفال 200وزارة الصحة بينما قامت ال اتأم بزيارة عياد 200 قراءة التعليمات الموجودة على ب%) من االمهات يقمن 86.8( 347خاصة، وأظهرت النتائج ان فهموا التعليمات بشكل كامل وفي ن%) منه77.8( 311الى ان باإلضافةعلبة الدواء بدقة ، %) من االمهات لسؤال الصيدالني. اما بالنسبة 44.0( 176حالة عدم الفهم للمعلومات توجه ج %) من االمهات أن مياه الصنبور باردة 75.5( 302لكيفية تحضير معلق المضاد الحيوي اجاب ية %) ام تستعمل السرنجة لقياس كم84.4( 192ان الى باإلضافةبعد غليها هي المستعملة، %) من االمهات أن عملية اضافة الماء تكون 76.6( 304، واشار المياه المرادة لتحضير المعلق %) من 98.0( 392على مرحلتين. وحول كيفية تقديم جرعة المضاد الحيوي للطفل فإن %) من االمهات ان 78.2( 313االمهات يقمن برج الزجاجة قبل اعطاء الجرعة، واعتبر ن االمهات ان %) م9.8( 39الجرعة، بينما وجدت إلعطاءالسرنجة هي االداة االكثر دقة س المرافق لعلبة الدواء يمثل الجرعة الدوائية للطفل. وعند سؤال االمهات عن كيفية اعطاء أالك ء مع الوجبات الدوا يقدم م%) انه56.0( 224مرات يوميا اجاب معظم االمهات 3الجرعة %) انهم يستعملونه لمدة تصل اكثر من 1.5( 6الرئيسية. وحول مدة استعمال المعلق اجاب باعطاء بقية معلق المضاد الحيوي قمن%) من االمهات ي6.5( 26الى ان باإلضافةاسبوعين ، %) 44.2( 177خيرا بالنسية لظروف التخزين كانت االجابة لدى معظم االمهات الطفل اخر.و %) بحفظ المعلق بالثالجة. 56.5( 226بحفظ المعلق قبل تحضيره في خزانة االدوية ، و اجاب %) أن 41.0( 146وعند سؤال االمهات عن تعريفهم ليحفظ في مكان بارد اجاب معظمهم .المكان هو الثالجة تعكس معرفة االمهات الجيدة حول كيفية تحضير معلق المضاد النتائجبالرغم ان هذه الى ظروف التخزين. هناك فرصة باإلضافةالحيوي وكيفية تقديم الجرعة ومدة االستخدام والتأكيدلتحسين الوضع وذلك يقع على عاتق الصيدالني حيث من واجبه توضيح المعلومات لالم ، وتذكير االم بمدة االستعمال رنجات بالقياس المناسبويدها بالسالى تز باإلضافةعليها كتابة، وبظروف التخزين.