key: cord-0921519-1mcgocvb authors: Shakoor, Sadia; Warraich, Haider J.; Zaidi, Anita K.M. title: Infection Prevention and Control in the Tropics date: 2019-05-28 journal: Hunter's Tropical Medicine and Emerging Infectious Diseases DOI: 10.1016/b978-0-323-55512-8.00020-x sha: 1d13ecdd4ba7d566d6603153b533e446a1a6f6c8 doc_id: 921519 cord_uid: 1mcgocvb Tropical settings present unique challenges to the practice of infection prevention and control. These are multi-faceted due to differences in the climate, culture, social, and political milieu of low- and middle-income countries situated in the tropics, as well as the lack of resources. The emergence of communicable diseases and low vaccination coverage also lead to nosocomial augmentation of community outbreaks, further increasing the economic burden of hospital management. Addressing these challenges requires innovative, low-cost, and tailored solutions suited to the tropical environment. Standard infection control precautions ("Standard Precautions") apply to all patients, regardless of their reason for admission or infection status (Table 20 .1). 2 The most important element of Standard Precautions is hand hygiene, which can be handwashing with soap and water or alcohol-based gels or foams that do not use water. Guidelines published by the HICPAC/SHEA/APIC/ IDSA Hand Hygiene Task Force provide specific recommendations. 3 Alcohol-based hand rubs can be used where there is limited access to water. They have better acceptability, less skin irritation, and quicker application compared with soap and water, resulting in improved compliance. Commercially prepared products are available, but a low-cost gel can be prepared by hospital pharmacies using 20 mL of glycerin, propylene glycol, or sorbitol mixed with 980 mL of >70% isopropanol. Gels combining chlorhexidine and alcohol may be more effective than alcohol alone because of chlorhexidine's prolonged bactericidal effect, but are expensive. They should be limited to situations when a high degree of hand antisepsis is necessary, such as before surgical procedures and placing invasive devices. Alcohol-based hand rubs should be combined with feedback and awareness messages and other basic infection control practices. • Unique challenges of infection control in the tropics include: • Hand hygiene Employ after touching blood, body fluids, secretions, contaminated items; immediately after removing gloves; between patient contacts Personal protective equipment (PPE) Gloves For touching blood, body fluids, secretions, contaminated items; for touching mucous membranes and non-intact skin Gowns During procedures and patient care activities when contact with clothing/exposed skin with blood/body fluids, secretions is anticipated Mask, eye protection During procedures and patient care activities when contact with clothing/exposed skin with blood/body fluids, secretions is anticipated rates of targeted HAIs can be calculated and compared across institutions, as well as before and after interventions. Although passive surveillance (based on clinical samples) is less costly and labor intensive, it can miss a reservoir of asymptomatic, colonized patients. Active surveillance involves screening asymptomatic patients for resistant organisms and can lead to rapid isolation of colonized patients. However, the patient populations that should be targeted for screening and the optimal screening method remain unresolved. Cost is another major limiting factor. Hospitals should assess what is feasible in their setting. To overcome surveillance shortcomings, the World Health Organization (WHO) has developed a low-cost, computer-based antimicrobial resistance (AMR) surveillance program (WHONET) that can monitor resistance trends and generate locally applicable guidelines on antimicrobial use. 4 An additional impediment to surveying resistant organisms is the lack of reliable culture and susceptibility data, as standardization and quality assurance of microbiology laboratories is not enforced in most developing countries. HAIs are a serious problem in high-income countries; 1.7 million cases and an estimated 100,000 deaths per annum are reported in the United States. 5 In a meta-analysis from low-income countries, HAIs were found to be greater than in the United States or Europe 6 ; gram-negative bacilli were the most common nosocomial pathogens. High rates of gram-negative HAIs have been documented in neonatal nurseries in low-income countries with rates threefold to twentyfold higher than in developed regions. 7, 8 HAIs are responsible for increased morbidity and mortality, are a waste of precious resources, and subvert patient expectations of quality medical care. This increases negativity toward the health care system, especially because patients bear the costs of HAIs in many developing countries. Reducing the risk of HAIs in developing countries is a priority of the WHO. 9 Hospitals with inadequate vector control can amplify vectorborne illnesses such as malaria, dengue, leishmaniasis, and filariasis because of infected patients in an overcrowded environment. 14 VHFs such as Lassa, Ebola, Marburg, and Crimean-Congo hemorrhagic fever present unique challenges for infection control measures. Nosocomial transmission can occur directly from the patient, when transferring the dead body, through contact with infectious fluids, contaminated equipment, or needle stick injuries. Standard precautions combined with strict contact precautions and single-room isolation, especially for acutely bleeding patients or in those with profuse diarrhea or vomiting, are recommended until discharge to prevent nosocomial transmission. 15 Patients can be cohorted in a designated area; failing that, they can be housed in a portion of a larger ward, in an uncrowded corner of a large hall, in rooms designated for airborne isolation, or in private rooms. In the Ebola virus outbreak of 2014, treatment centers were created for assessing, observing, and treating patients suspected of having Ebola. Health care workers should be specifically trained in caring for these patients and other personnel restricted. Personal protective equipment (PPE) should include a scrub suit, gloves, and waterproof boots (if the floor is soiled), over which a disposable gown, plastic apron, thick gloves, fluid-resistant particulate respirator (FFP2-or EN-certified equivalent or U.S. NIOSH-certified N95), and protective goggles or face shield should be worn. If this level of protection is not available, alternatives are old shirts for scrubs, Universal risk factors for HAIs include severity of underlying disease and factors associated with poor patient outcomes, such as malnutrition, length of hospital stay, inter-hospital transfers, use of invasive medical devices (intravascular devices, urinary catheters, intubation, and mechanical ventilation), surgery, and prolonged and/or broad-spectrum antimicrobial therapy. In developing countries there are multiple additional contributors (Table 20. 3). These include lack of surveillance to control infections and outbreaks, inappropriate antibiotic use, non-adherence to infection control practices, inadequate sterilization of medical equipment, reuse of single-use devices, and reservoirs of infection in places such as contaminated food and water in the hospital. Staff training, adequately sterilizing equipment, and improving compliance with hand hygiene are easier to address than are overcrowding and understaffing. Several recent outbreaks in the tropics have mandated development of infection control strategies specific to transmission dynamics of infectious agents (see Table 20 . Outbreaks of cholera, measles, non-typhoidal Salmonella, and other fecal-oral-transmitted organisms have been reported. 12 Drivers of infections include overcrowding, improper patient isolation, the presence of visitors and outsiders, contaminated food products brought into the hospital, and infected hospital food-handlers. 13 High prevalence of multidrug-resistant organisms immunity, vaccinating the non-immune, prompt diagnosis, and early institution of airborne isolation precautions. 21 Emerging infections such as Zika, Chikungunya, West Nile virus, and plague (see Fig. 20 .1) require vector control measures and transmission-based precautions in addition to standard precautions. Individuals co-infected with HIV and tuberculosis (TB) have rapidly progressive disease. Those with pulmonary disease are highly infectious via aerosolized droplet nuclei, posing challenges for infection control and a risk to health care and laboratory workers. U.S. CDC guidelines recommend rapid diagnosis and treatment, isolation in negative-pressure rooms, and special masks to prevent nosocomial transmission, which are rarely feasible in resource-poor settings. However, early diagnosis and treatment, outpatient evaluation of suspected TB patients, a separate TB ward with adequate ventilation using exhaust fans and large open windows to allow ultraviolet (UV) rays from sunlight, early collection of samples, disinfecting sputum containers, and treating the sputum with household bleach can be applied. 22 The WHO published guidelines to control TB transmission in health care settings 23 ; washable cotton gowns for disposable gowns, plastic bags for boots, plastic sheets or plastic cloth for aprons, commercially available eyeglasses for eye protection, and plastic bottles modified for sharps disposal. In regions prone to VHF outbreaks, a VHF coordinator should be appointed to oversee preparations and response and to coordinate activity and mobilize communities for rapid control. 16 Respiratory viral illnesses with significant morbidity and a high transmission potential such as MERS-CoV and influenza need transmission-based precautions. The Centers for Disease Control and Prevention (CDC) and WHO advise standard contact and airborne precautions for these patients. [17] [18] [19] [20] Contact precautions should exceed 24 hours in duration after symptom resolution. Health care worker vaccination against influenza virus may only provide minimal protection against novel influenza strains and therefore may not be feasible to sustain in areas with limited resources. disposal, regular laundry of linen, and encasing pillows and mattresses in plastic. 34 Waste disposal can decrease rodent infestations, and screened doors and windows, as well as traps, are used in vector control. New and more cost-effective light-emitting diode (LED) insect traps are effective. Device-associated infections (DAIs) include central line (CL)-associated bloodstream infections, catheter-associated urinary tract infections, and ventilator-associated pneumonia. Invasive device use in developing countries has increased without prerequisite infection control measures, resulting in higher rates of DAIs than in industrialized countries. Surgical procedures are associated with higher post-operative wound infection rates due to inadequate aseptic precautions. Although most data are anecdotal, surgical wound infections are reported to be as high as 12.5% in Vietnam and 19.6% in Kenya. Recent data also show that surgical site infection (SSI) rates are higher in warmer climates. 37 A surgical checklist developed by the WHO has reduced surgical mortality and morbidity by encouraging the use of simple measures by surgery, anesthesia, and nursing staff. Ensuring delivery of antibiotic prophylaxis in the operating room using verbal confirmation alone improved antibiotic prophylaxis compliance from 56% to 83%. Chlorhexidine-alcohol is the antiseptic of choice for pre-operative surgical-site skin cleansing, and is superior to povidone-iodine in preventing post-operative wound infections. 38 Chlorhexidine-gluconate-based scrubs are more effective than povidone-iodine-based aqueous scrubs in reducing bacterial contamination on staff hands before operations. S. aureus-associated post-operative wound infections can be decreased by treating nasal carriers of S. aureus with pre-operative mupirocin nasal ointment and chlorhexidine soap. However, application in developing countries may be limited by the need to identify S. aureus carriers using rapid DNA detection. Unsafe injections and sharps injuries are instrumental in transmitting blood-borne pathogens such as hepatitis B and C and HIV. 39, 40 It is estimated that 16 billion syringes are sold worldwide each year, the vast majority in developing countries; injection rates vary from 1.7 to 11.3 per person per year. Up to 75% of these may be non-sterilized. Needle stick injuries to health care workers are another source of blood-borne pathogen infection. Needle sticks result from lack of training, improper disposal and destruction of needles, attempts to recap needles, and other unsafe practices. Trainee staff and nurses are most at risk when drawing blood. Improving injection safety requires programmatic reform at a national level. Although expensive, the availability of needle disposal kits and disposable "auto-destruct" syringes should be increased. however, there is little evidence of efficacy and cost-effectiveness in low-resource settings. AMR is a global health crisis, 24, 25 with carbapenem and colistin resistance recently emerging among gram-negatives. 26, 27 The proportion of resistant organisms such as methicillin-resistant Staphylococcus aureus, extended-spectrum β-lactamase-producing Enterobacteriaceae, and multidrug-resistant Pseudomonas aeruginosa and Acinetobacter spp. is substantially higher in developing countries. 6 Factors that predispose to AMR infections are misuse of broadspectrum antimicrobials (inappropriate prescription, suboptimal dosing and duration), low-potency antibiotic formulations, poor hospital hygiene, overcrowding, lack of infection control, unavailability of reliable diagnostic and susceptibility testing, and a lack of personnel trained in controlling infections. Managing AMR requires adherence to infection control and restricted antibiotic use. Hospitals and health care facilities should initiate antibiotic stewardship programs (ASPs) that can reduce AMR and associated costs. ASPs function best with the collaboration and support of physicians, infection control teams, nurses, microbiology laboratories, pharmacy services, quality management teams, and information systems. However, if they depend on the availability of diagnostic laboratories and information systems, it may be a challenge to implement them where there are limited trained personnel and resources. Moreover, it is difficult to restrict antibiotics where third-generation cephalosporins and fluoroquinolones are freely available over-the-counter and are widely used. 28 Countries that adhere to the WHO's essential drug policies provide greater access to essential drugs for vulnerable populations with less indiscriminate prescription of antimicrobials and injections. 29 Newborn care and neonatal sepsis are major challenges. Lack of infection prevention antepartum and intrapartum, overcrowding, poor hand hygiene, and invasive devices for ventilatory support and vascular access contribute to high rates of infections in the newborn and especially in premature infants. High antibiotic use exerts antibiotic selection pressure, and an overwhelming proportion of neonatal intensive care infections are resistant to multiple antibiotic classes. 8, 30 Pan-resistant Acinetobacter and Pseudomonas are common. Infection control in the labor ward and neonatal intensive care unit (NICU) requires hand hygiene and rational antibiotic use, along with an appropriately trained and motivated workforce. 7, 8, 31 Although preventive measures such as using chlorhexidine gluconate and catheter care bundles in NICUs have proven effective against neonatal HAIs, 32 resource constraints and lack of public health attention to generating inexpensive solutions hinder control efforts. Hospital design affects thermal comfort, availability of clean air, control of air movement, and indoor air quality. In many tropical regions, resource limitations and electric power shortages prevent using heating, ventilation, and air conditioning (HVAC) systems. Because airborne isolation of patients with TB, measles, and varicella pneumonia employ modifications in HVAC, isolating these patients is difficult without HVAC. Multi-bed hospitals can employ hybrid natural and mechanical ventilation to optimize air movement and exchanges per hour. Not many solutions are available for thermal comfort in hot and humid climates, but design features to decrease indoor temperature such as cantilevered roofs can be added to existing buildings. Cockroaches, ants, bedbugs, flies, and rodents abound in tropical regions and can carry microorganisms. 33 Their proliferation can be controlled by adequate plumbing, waste Health care workers, medical and allied health students, and the public should be educated about the dangers of unsafe injections; health care workers should be trained in safe practices. Surveillance of needle stick injuries and post-exposure prophylaxis for health care workers should be part of hospital infection-control programs. Infection control can be achieved if strong institutional commitment exists. Despite the challenges, studies reviewing the cost-effectiveness of even minimal infection control measures are universally optimistic. These measures lower the costs incurred from HAIs due to longer hospital stays, greater disease morbidity and mortality, and antimicrobial agent use. 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