Health Personnel ; Humans ; Infection Control ; Infectious Disease Transmission, Patient-to-Professional ; Occupational Diseases ; prevention & control

INTRODUCTION: Oropharyngeal swabs for diagnosis of COVID-19 often induce violent coughing, which can disperse infectious droplets onto providers. Incorrectly doffing personal protective equipment (PPE) increases the risk of transmission. A cheap, single-use variation of the face shield invented by a Singaporean team, SG Shield, aims to reduce this risk. This manikin study aimed to study the efficacy of the SG Shield in combination with standard PPE. METHODS: A person attired in full PPE whose face and chest was lined with grid paper stood in front of an airway manikin in an enclosed room. A small latex balloon containing ultraviolet fluorescent dye was placed in the oral cavity of the manikin and inflated until explosion to simulate a cough. Three study groups were tested: (a) control (no shield), (b) face shield and (c) SG Shield. The primary outcome was droplet dispersion, determined quantitatively by calculating the proportion of grid paper wall squares stained with fluorescent dye. The secondary outcome was the severity of provider contamination. RESULTS: The SG Shield significantly reduced droplet dispersion to 0% compared to the controls (99.0%, P = 0.001). The face shield also significantly reduced droplet contamination but to a lesser extent (80.0%) compared to the control group (P = 0.001). Although the qualitative severity of droplet contamination was significantly lower in both groups compared to the controls, the face shield group had more contamination of the provider's head and neck. CONCLUSION The manikin study showed that the SG Shield significantly reduces droplet dispersion to the swab provider's face and chest.
Humans ; Infectious Disease Transmission, Patient-to-Professional/prevention & control* ; COVID-19 ; Fluorescent Dyes ; Personal Protective Equipment ; Cough

Australia ; HIV Infections ; prevention & control ; transmission ; Hepatitis B ; prevention & control ; transmission ; Hepatitis C ; prevention & control ; transmission ; Humans ; Infectious Disease Transmission, Patient-to-Professional ; prevention & control ; Occupational Exposure ; Risk Assessment

China ; HIV Infections ; prevention & control ; transmission ; Health Knowledge, Attitudes, Practice ; Health Personnel ; statistics & numerical data ; Humans ; Infectious Disease Transmission, Patient-to-Professional ; prevention & control ; Occupational Exposure ; prevention & control

OBJECTIVETo investigate the knowledge, attitude of the AIDS prevention and occupational safety in dentist in Kunming and west part of Yunnan and evaluate the effect of education and intervention.

METHOD165 dentists in Yunnan were tested by KABP questionnaire before education. All of the 165 dentists participated a course on AIDS prevention. After that course the same questionnaire was answered by participants.

RESULTThe correct rates obviously increased. The understanding rates of the oral prevention measure were obviously improved.

CONCLUSIONThe knowledge of AIDS prevention is very low in dentist in Kunming and west part of Yunnan. The education intervention can effectively improve the understanding level of the AIDS prevention in dentist.

Acquired Immunodeficiency Syndrome ; prevention & control ; transmission ; China ; Dentists ; Education, Dental ; methods ; Humans ; Infectious Disease Transmission, Patient-to-Professional ; prevention & control ; Occupational Diseases ; prevention & control ; Occupational Health ; Surveys and Questionnaires

COVID-19/transmission* ; Equipment Design ; Health Personnel ; Humans ; Infectious Disease Transmission, Patient-to-Professional/prevention & control* ; Inventions ; Occupational Diseases/prevention & control* ; Pandemics ; Personal Protective Equipment ; Singapore/epidemiology*

OBJECTIVETo investigate the status and risk factors for hematogenous occupational exposure in medical staff in an infectious disease hospital, and to provide a scientific basis for targeted preventive and control measures.

METHODSThe occupational exposure of 395 medical workers in our hospital was monitored from January 2012 to December 2014, among whom 79 individuals with occupational exposure were subjected to intervention and the risk factors for occupational exposure were analyzed.

RESULTSThe high-risk group was mainly the nursing staff (69.6%). The incidence of hematogenous occupational exposure was high in medical personnel with a working age under 3 years, aged under 25 years, and at the infection ward, accounting for 63.3%, 72.1%, and 72.2%, respectively. Hepatitis B virus, hepatitis C virus, Treponema pallidum, and human immunodeficiency virus were the primary exposure sources. Sharp injury was the major way of injury (91.1%), with needle stick injury accounting for the highest proportion (86.1%). Injury occurred on the hand most frequently (91.1%). The high-risk links were improper disposal during or after pulling the needle, re-capturing the needle, and processing waste, accounting for 46.8%, 17.7%, and 12.7%, respectively. Seventy-nine professionals with occupational exposure were not infected.

CONCLUSIONThe main risk factor for hematogenous occupational exposure in medical staff in the infectious disease hospital is needle stick injury. Strengthening the occupational protection education in medical staff in infectious disease hospital, implementing protective measures, standardizing operating procedures in high-risk links, and enhancing the supervision mechanism can reduce the incidence of occupational exposure and infection after exposure.

Hospitals ; Humans ; Incidence ; Infectious Disease Transmission, Patient-to-Professional ; prevention & control ; Medical Staff, Hospital ; Needlestick Injuries ; epidemiology ; Occupational Diseases ; prevention & control ; Occupational Exposure ; prevention & control ; Risk Factors

OBJECTIVESTo investigate the transmission process of severe acute respiratory syndrome (SARS) and to evaluate the infectiveness of SARS patients in different periods of disease epidemics.

METHODSStandardized questionnaire was used to conduct case investigation and contact tracing by combining the field investigation and telephone interview. Transmission process, infectivity, transmission chain and contact history of SARS were studied through data analyses.

RESULTSOn 25th March 2003, a 91 year old man was admitted to Hospital J in Beijing with stroke and fever. He died on 30th March. From 31st March, there was an outbreak of SARS among his contacts in the family and in the hospital he was admitted to. Contacts would include his relatives, other co-patients and health care workers in the Hospital J. Chinese Field Epidemiology Training Program trainees conducted an investigation of the outbreak. Among the 207 contacts of the index cases through different generations, there were 36 cases of SARS (attack rate 17%) patients with one death. There were 12 cases having directly contact with the index case and 13 cases with one secondary case. The transmission chains of this outbreak could clearly be depicted. All the cases had close contacts during the symptomatic period of their index patients. Among the relatives, 85% of the cases had 3 - 5-day contact with their index patients after the onset of the illnesses. There was no significant difference between the two attack rates-70% for whose who had contact with the patient before and after illness onset) and 67% for those who only had contact after the onset of the illness. Out of the 44 social acquaintances and 38 of the family members who had contacts with the index patients during the incubation period, no one was found ill. Among the close contacts at the hospital who had no protection when providing care to the patient, the attack rate was found over 80%.

CONCLUSIONSAll the secondary cases of this outbreak had a history of direct and close contacts to the index patients after the onset of the illness. There was no evidence indicating that SARS cases were infectious during their incubation period.

Aged ; Aged, 80 and over ; China ; epidemiology ; Humans ; Infectious Disease Transmission, Patient-to-Professional ; Male ; Severe Acute Respiratory Syndrome ; epidemiology ; prevention & control ; transmission

COVID-19/transmission* ; COVID-19 Testing ; Humans ; Infection Control ; Infectious Disease Transmission, Patient-to-Professional/prevention & control* ; Intraoperative Care ; Pandemics ; Personal Protective Equipment ; Postoperative Care ; Preoperative Care ; Tracheostomy/methods*

COVID-19/transmission* ; Cesarean Section ; Emergencies ; Female ; Humans ; Infectious Disease Transmission, Patient-to-Professional/prevention & control* ; Inservice Training ; Pregnancy ; Respiratory Protective Devices ; Time-to-Treatment