Projecting COVID-19 isolation bed requirements for people experiencing homelessness.

As COVID-19 spreads across the United States, people experiencing homelessness (PEH) are among the most vulnerable to the virus. To mitigate transmission, municipal governments are procuring isolation facilities for PEH to utilize following possible exposure to the virus. Here we describe the framework for anticipating isolation bed demand in PEH communities that we developed to support public health planning in Austin, Texas during March 2020. Using a mathematical model of COVID-19 transmission, we projected that, under no social distancing orders, a maximum of 299 (95% Confidence Interval: 223, 321) PEH may require isolation rooms in the same week. Based on these analyses, Austin Public Health finalized a lease agreement for 205 isolation rooms on March 27th 2020. As of October 7th 2020, a maximum of 130 rooms have been used on a single day, and a total of 602 PEH have used the facility. As a general rule of thumb, we expect the peak proportion of the PEH population that will require isolation to be roughly triple the projected peak daily incidence in the city. This framework can guide the provisioning of COVID-19 isolation and post-acute care facilities for high risk communities throughout the United States.

Prevention and control measures of the coronavirus disease 2019 (COVID-19) in low-risk departments: The spine surgery department example.

As the coronavirus disease 2019 (COVID-19) spreads globally, hospital departments will need take steps to manage their treatment procedures and wards. The preparations of high-risk departments (infection, respiratory, emergency, and intensive care unit) were relatively well within this pandemic, while low-risk departments may be unprepared. The spine surgery department in The First Affiliated Hospital of Anhui Medical University in Hefei, China, was used as an example in this study. The spine surgery department took measures to manage the patients, medical staff and wards to avoid the cross-infection within hospital. During the outbreak, no patients or healthcare workers were infected, and no treatment was delayed due to these measures. The prevention and control measures effectively reduced the risk of nosocomial transmission between health workers and patients while providing optimum care. It was a feasible management approach that was applicable to most low-risk and even high-risk departments.

Rapid expansion of temporary, reliable airborne-infection isolation rooms with negative air machines for critical COVID-19 patients.

More airborne-infection isolation rooms are needed in centers that treat severely affected coronavirus 2019 patients. Wards and rooms must be carefully checked to ensure an ample supply of medical air and oxygen. Anterooms adjacent to airborne-infection isolation rooms are required to maintain pressure differentials and provide an area for donning/doffing or disinfecting medical equipment.

Epidemic preparedness in New Hampshire: assessment of increased airborne infection isolation capacity 1 year after distribution of portable isolation units.

We surveyed hospital personnel regarding their preparedness to use and their actual use of portable isolation units that were distributed to increase facilities' capacity to place patients under airborne infection isolation precautions. Although personnel reported feeling prepared to use portable isolation units, the effectiveness of the unit deployment program would be enhanced by retrofitted rooms and an improved ability to monitor negative air pressure.

Controlling the exotic diseases: 1. Isolation facilities.

The exotic diseases are highly virulent transmissible conditions that include Lassa fever, some viral hemorrhagic fevers, smallpox and plague. Any of these diseases could be brought into or diagnosed in Canada as the result of natural or laboratory acquired infection. The patients must be isolated until the presumptive diagnosis is proved. High-security isolation is necessary and needs to be backed up by high-security laboratory services. In Canada facilities for high-security isolation are generally not available; therefore, hospitals must preplan and be ready to effect the best possible isolation under the existing conditions. The plan should address construction, ventilation, filtration, temperature and humidity, together with protective measures for staff and careful handling of laboratory specimens. Materials the patient has contacted and areas or vehicles he or she has been in will have to be decontaminated, and appropriate, safe disposal of corpses must be considered.