What type of study is this?

This is a In Vitro Study study.

What question did this study set out to answer?

The research aims to evaluate the geographical distribution and biological characteristics of Pythium insidiosum causing pythiosis.

December 9, 2025Open Access

Worldwide distribution of human pythosis and biological characteristics of a Pythium insidiosum strain susceptible to antibiotics from China: a dual-scale study

Key Points

The research aims to evaluate the geographical distribution and biological characteristics of Pythium insidiosum causing pythiosis.
Created a distribution map of human pythiosis cases worldwide from literature.
Conducted molecular biology and morphological studies on a P. insidiosum strain from China.
Performed in vitro and in vivo drug susceptibility tests with antibiotics in a mouse model.
Identified India and Thailand as hotspots for pythiosis and noted increasing cases in China, Americas, and Europe.
Confirmed superior antibiotic sensitivity of the isolated strain with doxycycline and azithromycin.
Achieved a 250-fold increase in zoospore induction using modified techniques within 24 hours.

Abstract

Introduction Pythiosis, caused by Pythium insidiosum ( P. insidiosum ), is an emerging disease with high mortality and morbidity. Despite its clinical severity and geographical strain variations, diagnostic and treatment challenges persist. Materials and methods We queried PubMed and Google Scholar for “ P. insidiosum ” and “pythiosis,” 1084 human pythiosis cases to generate a corresponding distribution map. Molecular biology, morphology, modified sporulation technique, and microscopic observation were employed to understand the biological properties of P. insidiosum with a strain of P. insidiosum isolated from a patient in Guangzhou. Drug susceptibility studies on the isolate were conducted both in vitro and in vivo . Results Molecular biology, morphology, and biological processes confirmed that this strain was P. insidiosum . Epidemiological investigations have revealed that India and Thailand are hotspots for human pythiosis, and sporadic cases are increasing in China, the Americas, and Europe. The modified method of zoospore induction achieved 250-fold greater than the traditional method within 24 h. In vitro drug testing demonstrated superior antibiotic sensitivity (doxycycline (DOX) MIC 4 μg/mL; azithromycin (AZM) MIC 8 μg/mL) versus antifungals ( 128 μg/mL). Subcutaneous infection models in immunocompromised mice showed 80 and 90% survival with oral AZM/DOX monotherapy versus 20% in controls ( P 0.05), correlating with reduced hepatic fungal burdens and attenuated neutrophilic periarteritis. Conclusion The distribution map underscores pythiosis as a growing climate-sensitive disease that requires enhanced surveillance in non-endemic regions. The modified method of zoospore induction and microstructure observation with Transmission Electron Microscopy (TEM) may be helpful for the rapid and sensitive detection of P. insidiosum . We also provided theoretical and technical support for the effective treatment of pythiosis in humans and animals with DOX and AZM in China, which offers novel insights into the potential of certain antibiotics as effective treatments.

Read Full Paperexternally

Mark Helpful

Bookmark

Relay

View Full Paper