Ward Design in Relation to Postoperative Wound Infection: Part I

The incidence of postoperative wound infection in a general surgical unit is reported both before and after transfer from a “Nightingale” type multibed ward to a new “race-track” type of surgical ward with controlled ventilation and with 40% of its beds in single rooms. Following transfer postoperative wound infection was reduced by about 55%.With the use of certain types of staphylococcal infection as an index of cross-infection it was shown that transfer was followed by a 72% reduction in cross-infection of wounds.A case is made for control of hospital cross-infection in surgical wards. The principal change in ward architecture resulting from the transfer was the extensive division of ward space into separate compartments (40% of single-bed rooms), which make controlled ventilation easier.     

神经内科与神经外科抗菌药物使用与细菌耐药的比较

目的 比较神经内科与神经外科抗菌药物使用与细菌耐药情况.方法 计算各类抗菌药物的累积每日约定剂量（defined daily doses,DDD）,以及院内感染主要病原菌的耐药率.结果神经内科的抗菌药物总用量为47.83 DDD/100床日,神经外科为78.91 DDD/100床日.神经外科院内感染的凝固酶阴性葡萄球菌、肠球菌和大肠埃希菌对抗菌药物的耐药率普遍较神经内科为高.结论 在抗菌药物使用与细菌耐药水平之间存在着一种联系.     

风险预判与主动干预在综合ICU患者多重耐药菌医院感染防控中的关键作用研究

目的:阐述风险预判与主动干预的综合防控措施对综合重症监护病房(GICU)患者多重耐药菌(MDRO)医院感染的防控效果。方法:对2018年1月~2019年12月入住GICU病房(分为A、B两个病区)>48 h的737例患者进行回顾性调查,其中A病区监测患者286例,MDRO防控参照院感科常规制度要求;B病区监测患者451例,MDRO防控采用入GICU时预判患者感染风险,再根据感染风险及患者自身状况对患者采取鼻腔去定植或肠道去定植的综合防控策略。用卡方检验比较两病区患者的感染结果与MDRO感染菌种分布情况,以验证不同防控策略的效果。结果:本研究共监测GICU住院患者737例,研究期间共发生MDRO医院感染85例。其中A病区监测患者286例,MDRO医院感染66例,感染率为23.1%;B病区监测患者451例,MDRO医院感染19例,感染率为4.2%,低于A病区(P<0.001)。单菌种感染结果显示,两病区感染菌种分布存在差异,CR-AB、CR-PA和MASR的感染率都为B病区低于A病区,两病区患者的共患病类型无差异。说明B病区MDRO防控效果优于A病区。结论:感染风险预判与主动干预的综合防控策略,有利于降低GICU患者MDRO医院感染发病率。     

ICU病区耐甲氧西林金黄色葡萄球菌感染的流行病学调查

目的通过对ICU病区耐甲氧西林金黄色葡萄球菌（MRSA）感染进行流行病学调查,并经过耐药菌谱的分析,探讨临床分离菌株的同源性,为预防和控制医院感染提供参考.方法对2005年3月7日～3月29日ICU病区感染MRSA的10例患者及医院环境进行了流行病学调查分析.结果ICU病区MRSA的感染率为47.6%.且环境中空气、陪护人员手、医务人员等亦培养出MRSA,通过耐药谱分析显示细菌具有高度同源性.结论该次MRSA感染为局部暴发流行.医院必须加强室内外环境和空气监控,防止交叉感染,严格无菌侵入性操作和抗生素的使用原则,从而有效减少MRSA院内感染的发生.     

Routes of the transmission of Pseudomonas aeruginosa infection in resuscitation and intensive therapy departments

To find out if the transfer of P. aeruginosa infection by droplet route is possible in resuscitation and intensive care units, the bacteriological study of air samples taken in different rooms of resuscitation units (altogether 234 air samples) was carried out with the subsequent identification and typing of isolated P. aeruginosa strains. In most cases (70.5%) the microbial contamination of the air in the main rooms of resuscitation units was found not to exceed 500 microbial cells per cu. m, and no P. aeruginosa strains were isolated. The identification and typing of six P. aeruginosa strains isolated from the air of an isolation ward for patients with infectious complications made it possible to find out intraspecific differences of these microorganisms, as all of them belonged to strains of different sero- and pyocinotypes. Thus, the results of these investigations indicate that the droplet route of the transfer of P. aeruginosa hospital infection is not characteristic of resuscitation and intensive care units, as no P. aeruginosa strains are isolated from the main rooms of such units; likewise, no circulation of this microorganism was observed in the air of an isolation ward for patients with infectious complications.     

Energy and Cost Associated with Ventilating Office Buildings in a Tropical Climate

Providing sufficient amounts of outdoor air to occupants is a critical building function for supporting occupant health, well-being and productivity. In tropical climates, high ventilation rates require substantial amounts of energy to cool and dehumidify supply air. This study evaluates the energy consumption and associated cost for thermally conditioning outdoor air provided for building ventilation in tropical climates, considering Singapore as an example locale. We investigated the influence on energy consumption and cost of the following factors: outdoor air temperature and humidity, ventilation rate (L/s per person), indoor air temperature and humidity, air conditioning system coefficient of performance (COP), and cost of electricity. Results show that dehumidification of outdoor air accounts for more than 80% of the energy needed for building ventilation in Singapore’s tropical climate. Improved system performance and/or a small increase in the indoor temperature set point would permit relatively large ventilation rates (such as 25 L/s per person) at modest or no cost increment. Overall, even in a thermally demanding tropical climate, the energy cost associated with increasing ventilation rate up to 25 L/s per person is less than 1% of the wages of an office worker in an advanced economy like Singapore’s. This result implies that the benefits of increasing outdoor air ventilation rate up to 25 L/s per person — which is suggested to provide for productivity increases, lower sick building syndrome symptom prevalence, and reduced sick leave — can be much larger than the incremental cost of ventilation.     

Voluntary and Involuntary Control of Breathing with Imposed Ventilation Parameters

To clarify the mechanisms of interaction between voluntary and involuntary control of respiratory movements in a waking human, respiratory patterns were studied during self-controlled artificial ventilation used in place of natural breathing. Seven subjects controlled both the duration of artificial inhalations and the flow rate of air at excess pressure, continuously adjusting their actions to obtain the sensation of comfortable breathing. At rest, pulmonary ventilation was higher during self-controlled artificial breathing than during natural breathing. This trend was also noted during exercise. A correlation was observed between the velocity of the movement that started air flow and the artificial ventilation volume (r = 0.91). During self-controlled artificial breathing, the subjects sometimes took natural breaths. Natural inhalations did not influence the beginning or end of an artificial inhalation. Information received from respiratory receptors was assumed to play a certain role in the self-control of artificial breathing.     

Effectiveness of Hospital-Wide Methicillin-Resistant Staphylococcus aureus (MRSA) Infection Control Policies Differs by Ward Specialty

Methicillin-resistant Staphylococcus aureus (MRSA) is a major cause of preventable nosocomial infections and is endemic in hospitals worldwide. The effectiveness of infection control policies varies significantly across hospital settings. The impact of the hospital context towards the rate of nosocomial MRSA infections and the success of infection control is understudied. We conducted a modelling study to evaluate several infection control policies in surgical, intensive care, and medical ward specialties, each with distinct ward conditions and policies, of a tertiary public hospital in Sydney, Australia. We reconfirm hand hygiene as the most successful policy and find it to be necessary for the success of other policies. Active screening for MRSA, patient isolation in single-bed rooms, and additional staffing were found to be less effective. Across these ward specialties, MRSA transmission risk varied by 13% and reductions in the prevalence and nosocomial incidence rate of MRSA due to infection control policies varied by up to 45%. Different levels of infection control were required to reduce and control nosocomial MRSA infections for each ward specialty. Infection control policies and policy targets should be specific for the ward and context of the hospital. The model we developed is generic and can be calibrated to represent different ward settings and pathogens transmitted between patients indirectly through health care workers. This can aid the timely and cost effective design of synergistic and context specific infection control policies.     

重症监护病房鲍曼不动杆菌医院感染的调查分析

通过对重症监护病房内鲍曼不动杆菌医院感染的临床特征和耐药性调查分析,为临床更好地预防和治疗该细菌所引起的感染提供参考。对我院2009年1月至2011年12月重症监护病房鲍曼不动杆菌医院感染的107例患者进行回顾性调查。94例患者有严重的基础疾病,与感染相关的因素还包括侵入性操作、深静脉置管、环境污染及长期广谱抗菌药物的使用;药敏结果显示鲍曼不动杆菌几乎均为多重耐药,对碳青霉烯类抗菌药物的耐药率逐年升高,2011年为89.5%。缩短住院时间、加强病区环境和空气监控、尽量减少侵入性操作和合理使用抗生素、规范医疗护理操作、避免交叉感染是减少鲍曼不动杆菌感染发生的重要措施。     

High tidal volume ventilation induces NOS2 and impairs cAMP- dependent air space fluid clearance

Tidal volume reduction during mechanical ventilation reduces mortality in patients with acute lung injury and the acute respiratory distress syndrome. To determine the mechanisms underlying the protective effect of low tidal volume ventilation, we studied the time course and reversibility of ventilator-induced changes in permeability and distal air space edema fluid clearance in a rat model of ventilator-induced lung injury. Anesthetized rats were ventilated with a high tidal volume (30 ml/kg) or with a high tidal volume followed by ventilation with a low tidal volume of 6 ml/kg. Endothelial and epithelial protein permeability were significantly increased after high tidal volume ventilation but returned to baseline levels when tidal volume was reduced. The basal distal air space fluid clearance (AFC) rate decreased by 43% (P < 0.05) after 1 h of high tidal volume but returned to the preventilation rate 2 h after tidal volume was reduced. Not all of the effects of high tidal volume ventilation were reversible. The cAMP-dependent AFC rate after 1 h of 30 ml/kg ventilation was significantly reduced and was not restored when tidal volume was reduced. High tidal volume ventilation also increased lung inducible nitric oxide synthase (NOS2) expression and air space total nitrite at 3 h. Inhibition of NOS2 activity preserved cAMP-dependent AFC. Because air space edema fluid inactivates surfactant and reduces ventilated lung volume, the reduction of cAMP-dependent AFC by reactive nitrogen species may be an important mechanism of clinical ventilator-associated lung injury.     

Transfer of Micro-organisms between Nurses and Patients in a Clean Air Environment

S ummary . A uni-directional downflow ('laminar'flow) ventilation system for a single-bed patient-room is described. It produced clean air at velocities as low as 0.12 m/sec (25 ft/min). Bacteriological studies on bed-making done in the room showed that strains of Staphylococcus aureus carried on the nurses'external clothing were often transferred to the patients'bedclothes. This possible route of patient infection was almost eliminated when the nurses wore disposable plastic aprons over their dresses.     

The infectiousness of tuberculosis patients coinfected with HIV

Background

The current understanding of airborne tuberculosis (TB) transmission is based on classic 1950s studies in which guinea pigs were exposed to air from a tuberculosis ward. Recently we recreated this model in Lima, Perú, and in this paper we report the use of molecular fingerprinting to investigate patient infectiousness in the current era of HIV infection and multidrug-resistant (MDR) TB.

Methods and Findings

All air from a mechanically ventilated negative-pressure HIV-TB ward was exhausted over guinea pigs housed in an airborne transmission study facility on the roof. Animals had monthly tuberculin skin tests, and positive reactors were removed for autopsy and organ culture for M. tuberculosis. Temporal exposure patterns, drug susceptibility testing, and DNA fingerprinting of patient and animal TB strains defined infectious TB patients. Relative patient infectiousness was calculated using the Wells-Riley model of airborne infection. Over 505 study days there were 118 ward admissions of 97 HIV-positive pulmonary TB patients. Of 292 exposed guinea pigs, 144 had evidence of TB disease; a further 30 were tuberculin skin test positive only. There was marked variability in patient infectiousness; only 8.5% of 118 ward admissions by TB patients were shown by DNA fingerprinting to have caused 98% of the 125 characterised cases of secondary animal TB. 90% of TB transmission occurred from inadequately treated MDR TB patients. Three highly infectious MDR TB patients produced 226, 52, and 40 airborne infectious units (quanta) per hour.

Conclusions

A small number of inadequately treated MDR TB patients coinfected with HIV were responsible for almost all TB transmission, and some patients were highly infectious. This result highlights the importance of rapid TB drug-susceptibility testing to allow prompt initiation of effective treatment, and environmental control measures to reduce ongoing TB transmission in crowded health care settings. TB infection control must be prioritized in order to prevent health care facilities from disseminating the drug-resistant TB that they are attempting to treat.     

Internal air current patterns depend on the ventilation method in a scaled-up culture vessel for micropropagation

Air current patterns were visualized inside a scaled-up culture vessel under natural or forced ventilation. Metaldehyde particles were used as tracers, and their patterns were recorded as video images by a high-resolution-and-contrast camera. Under natural conditions, the air currents were mainly influenced by natural convection that developed due to the lighting scheme, which caused differences in temperature among various articles in the chamber, including a sweet potato plantlet, supporting material, a multi-cell tray, and the culture vessel. Under forced ventilation, the air current pattern and air speed were affected by ventilation rates and by air-supply methods that were either parallel downward or circular upward. Uniformity of air movement could be achieved with air distribution pipes inside a modified vessel. Under forced ventilation, growth, photosynthetic rate, and transpiration of the micropropagated plantlets were enhanced around the air outlet as well as the inlet in the large-scale vessel. Those plant responses were probably induced by uniform spatial distribution of air current and gas concentrations.     

鲍曼不动杆菌的临床分布特点及耐药性分析

调查鲍曼不动杆菌的临床分布及其对抗菌药物的耐药情况,为临床合理用药提供依据。将哈尔滨医科大学第一附属医院临床各种来源的鲍曼不动杆菌1582株采用K-B法进行药敏试验,并对结果进行统计分析。2008至2010年共检出鲍曼不动杆菌1582株,临床分布以ICU最多(484株,占54.5%)。对抗菌药物的耐药率逐年增高,ICU抗菌药物的耐药率明显高于非ICU病区。该菌株对临床常用抗菌药物高度耐药和多重耐药,对亚胺培南和美罗培南耐药率高达90.9%和90.3%。鲍曼不动杆菌耐药情况相对严重,临床须重视鲍曼不动杆菌的感染,加强院內感染的控制及耐药性的监测,根据药敏结果选择合适抗生素,延缓耐药性进程。     

耐甲氧西林葡萄球菌感染的调查与分析

目的调查住院患者耐甲氧西林葡萄球菌(methicillin-resistant staphylococci,MRS)的感染情况,以便采取有效的防治措施。方法收集临床分离菌株,用mecA基因PCR扩增法鉴定MRS,并结合临床资料对本院MRS感染进行回顾性调查研究。结果住院患者标本中共收集到68株葡萄球菌,其中MRS 38株(阳性率为55.9%)。MRS感染主要多发于年龄>60岁,男性,合并多种疾病患者,科室分布以呼吸内科、泌尿外科及ICU病房为主。药敏结果显示MRS对万古霉素、利奈唑烷及喹努普汀的敏感率为100%,对替考拉宁敏感率为94.7%,对利福平的敏感率为57.9%,其余抗菌药物敏感率均<30%。结论及时了解本院患者MRS感染分布及耐药情况,有助于我们采取相应的监测及防治措施。     

Finite difference analysis of respiratory heat transfer

A numerical computer model of heat and water transfer within the tracheobronchial tree of humans was developed based on an integral formulation of the first law of thermodynamics. Simulation results were compared with directly measured intraluminal airway temperature profiles previously obtained in normal human subjects, and a good correlation was demonstrated. The model was used to study aspects of regional pulmonary heat transfer and to predict the outcomes of experiments not yet performed. The results of these simulations show that a decrease in inspired air temperature and water content at fixed minute ventilation produces a proportionately larger increase in heat loss from extrathoracic airways relative to intrathoracic, whereas an increase in minute ventilation at fixed inspired air conditions produces the opposite pattern, with cold dry air penetrating further into the lung, and that changes in breathing pattern (tidal volume and frequency) at fixed minute ventilation and fixed inspiratory-to-expiratory (I/E) ratio do not affect local air temperature profiles and heat loss, whereas changes in I/E ratio at fixed minute ventilation do cause a significant change.     

Ventilation in conscious dogs during acute and chronic hypercapnia.

Minute ventilation was measured in conscious dogs, at rest and during exercise (1 mph), over 60 min immediately following the acute inhalation of 5% carbon dioxide in air and at 2, 4, 7, and 14 days while breathing the same gas mixture in a chamber. The dogs were also studied in the immediate period of air recovery from chronic hypercapnia and 1 day later. Control studies were carried out with the dogs breathing air in the chamber under comparable conditions. A triphasic ventilation change was ovserved in dogs at rest over the 14 days of hypercapnia. After an initial marked increase in ventilation during acute hypercapnia, ventilation returned to control levels by 2 days and then appeared to be elevated above control studies from 4 to 14 days at a time when blood acid-base balance became compensated. When the same dogs were studied during exercise, ventilation was also not different from air control at 2 days of hypercapnia; however during exercise, unlike the resting studies, there was only a tendency for a secondary increase in ventilation at 7 and 14 days of hypercapnia. During the immediate recovery from chronic hypercapnia when the dogs breathed air there was no evidence of hypoventilation either at rest or exercise despite arterial alkalosis. At 24 h of recovery it appeared that dogs while at rest had a slightly reduced ventilatory response to 5% carbon dioxide relative to control studies. The findings provide suggestive evidence that other factors, in addition to acid-base balance, might contribute to the regulation of ventilation during chronic hypercapnia and the recovery from chronic hypercapnia.     

A forced-air ventilation system for rodent cages

A novel forced-air ventilation system for rodent cages was developed. The apparatus was operated at an air flow rate of 56 L/min when used with a 230 mm wide X 450 mm long X 165 mm deep cage. Air velocity measurements in the cage did not exceed 8 m/min at animal (rat) height. The average NH3 concentration in a cage which housed two 250 g rats was less than 0.3 ppm at the end of the third day, whereas the concentration measured in a cage without the forced-air ventilation system was 150 ppm after 3 days. Tests of the water content of soiled bedding showed the forced-air ventilation system to provide a much drier environment for the rodents.     

Interactions of respiration and the bradycardia of submersion in harbor seals.

Six harbor seals with percutaneous tracheostomies were artificially ventilated while immersed. Changes in the oxygen content of the inspired gas and in the minute-volume altered the magnitude of the bradycardia observed after the animal had been submerged for 30 s. The average heart rate in five seals changed from 16.7 (S.D. = 4.4) beats per minute during artificial ventilation with N2, to 58.7 (S.D. = 10.4) beats per minute while breathing air, but this cardiac chronotropic effect of oxygen was blocked by addition of 7% CO2 to the inspired gas. Ventilatory minute-volumes above approximately 3 litres/min caused cardiac acceleration in a manner related to ventilation; below this, changes in heart rate were inconsistent. While being artificially ventilated with air, the average heart rate in five seals changed from 16.5 beats per minute to 73.4 beats per minute as ventilation was increased from 0 to greater than 8 litres/min. These experiments demonstrate that O2, CO2, and ventilatory minute-volume have significant effects upon the heart rate of seals under water and suggest the presence of chemoreceptor-mediated effects on heart rate during submersion.