Simerdip Kaur scite author profile

Simerdip Kaur

3Publications

15Citation Statements Received

26Citation Statements Given

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Affiliations

Kent and Canterbury Hospital, East Kent Hospitals University NHS Foundation Trust, William Harvey Hospital

Publications

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Risk of Airborne COVID-19 Transmission While Performing Humphrey Visual Field Testing

Jain

Kaur

Kopsachilis

et al. 2020

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Precis: Designing and demonstrating an experiment that shows the risk of airborne transmission of COVID-19 between patients having visual fields analyzed is low. Purpose: The aim was to investigate the possibility of airborne transmission of COVID-19 during Humphrey visual field testing in a real-world scenario. Methods: A particle counter was placed within the bowl of Humphrey visual field analyzer (HFA) before and after turning on the machine to ascertain the effect of the air current produced by the ventilation system on aerosols. A second experiment was run where the particle counter was placed in the bowl and recorded particulates, in the air, as a 24-2 SITA standard was performed by a mock patient and then again immediately after the patient had moved away. We measured aerosol particle counts sized ≤0.3 μm, >0.3≤0.5 μm, >0.5≤1 μm, >1≤2.5 μm, >2.5≤5 μm, and >5≤10 μm. Results: Particulates of all sizes were shown to be significantly reduced within the bowl after turning the machine on, demonstrating that the air current produced by the HFA pushes air out of the bowl and it cannot stagnate. There was no significant difference in measurement of aerosol while there was a patient performing the test and immediately after they had moved away, suggesting that aerosols breathed out by the patient are not able to remain in suspension in the bowl because of the ventilation current. Conclusion: There is no significant difference between aerosol count in the bowl of a HFA before, during and after testing. This suggests the risk of airborne transmission of COVID-19 is low between subsequent patients. This is in keeping with manufacturer’s guidance on Humphrey visual field testing.

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Aerosol generation during phacoemulsification in live patient cataract surgery environment

Kaur

Kopsachilis

Zia

2021

J Cataract Refract Surg

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Cost-effective and adaptable cataract surgery simulation with basic technology

Kaur

Shirodkar

Nanavaty

et al. 2021

Eye

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Simerdip Kaur

Risk of Airborne COVID-19 Transmission While Performing Humphrey Visual Field Testing

Aerosol generation during phacoemulsification in live patient cataract surgery environment

Cost-effective and adaptable cataract surgery simulation with basic technology

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