Objective: To systematically analyze the revisions content and technological development trends of microbiological standards in the Chinese Pharmacopoeia (ChP) 2025 Edition, and explore its novel requirements in risk-based pharmaceutical product lifecycle management.
Methods: A comprehensive review was conducted on 26 microbiological-related standards to summarize the revision directions and scientific implications from perspectives including the revision overview, international harmonization of microbiological standards, risk-based quality management system, and novel tools and methods with Chinese characteristics.
Results: The ChP 2025 edition demonstrates three prominent features in microbiological-related standards: enhanced international harmonization, introduced emerging molecular biological technologies, and established a risk-based microbiological quality control system.
Conclusion: The new edition of the Pharmacopoeia has systematically constructed a microbiological standard system, which significantly improves the scientificity, standardization and applicability of the standards, providing a crucial support for advancing the microbiological quality control in pharmaceutical industries of China.

Objective:To systematically analyze the revisions content and technological development trends of microbiological standards in the Chinese Pharmacopoeia(ChP)2025 Edition,and explore its novel requirements in risk-based pharmaceutical product lifecycle management.Methods:A comprehensive review was conducted on 26 microbiological-related standards to summarize the revision directions and scientific implications from perspectives including the revision overview,international harmonization of microbiological standards,risk-based quality man-agement system,and novel tools and methods with Chinese characteristics.Results:The ChP 2025 edition demon-strates three prominent features in microbiological-related standards:enhanced international harmonization,intro-duced emerging molecular biological technologies,and established a risk-based microbiological quality control sys-tem.Conclusion:The new edition of the Pharmacopoeia has systematically constructed a microbiological standard system,which significantly improves the scientificity,standardization and applicability of the standards,providing a crucial support for advancing the microbiological quality control in pharmaceutical industries of China.

The microbial limit standards in the Chinese Pharmacopoeia 2020 edition primarily focus on total aerobic microbial count and specified objectionable microorganisms,which are insufficient for comprehensively assessing the potential risks posed by microbial contamination to drug efficacy and patient safety.With the increasing com-plexity of rising regulatory requirements,there is an urgent need to establish a scientific and systematic microbial risk assessment and control framework.In response,the Chinese Pharmacopoeia 2025 edition,introduces a new general guideline 9212 Risk Assessment and Control of Unacceptable Microorganisms for Non-sterile Products.This chapter systematically constructs a framework for the identification and control of risks associated with unacceptable microorganisms,filling a gap in the relevant field within international pharmacopoeias.This article systematically elaborates on its key elements based on its core framework and content.It covers the development background,core concepts,testing and identification strategies,evaluation of risk characterization factors,formulation of risk control measures,and implementation pathways.The aim is to provide pharmaceutical enterprises and regulatory agencies with systematic and clear practical guidance.

The Chinese Pharmacopoeia 2025 Edition added the 9213 Guideline for validation,verification,and transfer of microbiological analytical methods.Based on the characteristics of pharmaceutical microbiological analyt-ical methods and practical applications,it specified definitions of relevant terms and application scenarios,estab-lished technical indicators and acceptance criteria for methodological evaluation,and introduced key statistical tools and evaluation principles.This article systematically elaborates on the drafting background and process of the Guideline,and interprets its key content,aiming to offer theoretical guidance and practical reference for relevant practitioners in applying this guideline.This guideline strengthens the foundation of pharmaceutical microbial analytical methods in China and enhances the scientificity and accuracy of the pharmaceutical microbial standards system.

Whole Genome Sequencing(WGS)technology,leveraging its significant advantages in precise microbial identification and traceability analysis,has become a core tool in international pharmaceutical microbial quality control.The release and implementation of the Guideline 9110 for Microbial Whole Genome Sequencing Technology in the Chinese Pharmacopoeia 2025 Edition marks the official entry of China's pharmaceutical microbial quality con-trol into the genomic era.Guideline 9110 establishes universal technical specifications for the application of WGS technology in pharmaceutical microbial quality control,covering laboratory general requirements,key technical parameters,technical workflow,major factors affecting sequencing results,method validation,and application guidance.This article focuses on the background of the standard's development and its technical rationale,provi-ding a systematic interpretation of key technical indicators,the scope of application,and essential points for techni-cal implementation.It aims to offer theoretical guidance and practical references for the industry in applying WGS technology.

Porcine arthritis,one of the common chronic diseases in large-scale pig farms,can signifi-cantly reduce the production performance of meat pigs.In this study,a strain of Haemophilus pa-rasuis(HPS)was isolated from the joint fluid of a lame pig.The HPS was analyzed in terms of se-rotypes,virulence genes,and resistance genes.Additionally,it was treated with sensitive antibiotics to provide a theoretical basis for the comprehensive prevention and treatment of arthritis in meat pigs in future production settings.A strain of HPS type 14 was isolated from the joint fluid of dis-eased pigs.The HPS isolate demonstrated sensitivity to β-lactams and tetracyclines,while florfeni-col and polymyxin effectively inhibited its growth at low concentrations.However,the bacteria ex-hibited resistance to sulfonamides and ciprofloxacin.The treatment of affected pigs with clinical ar-thritis using doxycycline and enrofloxacin injections proved effective.Compared to the infected group,in which the sick pigs experienced difficulty flexing their carpal and tarsal joints and exhibi-ted significant lameness,the pigs in the treatment group showed marked improvement.Their joints were only slightly swollen,and the clinical symptoms of arthropathy were alleviated.

The microbial limit standards in the Chinese Pharmacopoeia 2020 edition primarily focus on total aerobic microbial count and specified objectionable microorganisms,which are insufficient for comprehensively assessing the potential risks posed by microbial contamination to drug efficacy and patient safety.With the increasing com-plexity of rising regulatory requirements,there is an urgent need to establish a scientific and systematic microbial risk assessment and control framework.In response,the Chinese Pharmacopoeia 2025 edition,introduces a new general guideline 9212 Risk Assessment and Control of Unacceptable Microorganisms for Non-sterile Products.This chapter systematically constructs a framework for the identification and control of risks associated with unacceptable microorganisms,filling a gap in the relevant field within international pharmacopoeias.This article systematically elaborates on its key elements based on its core framework and content.It covers the development background,core concepts,testing and identification strategies,evaluation of risk characterization factors,formulation of risk control measures,and implementation pathways.The aim is to provide pharmaceutical enterprises and regulatory agencies with systematic and clear practical guidance.

The Chinese Pharmacopoeia 2025 Edition added the 9213 Guideline for validation,verification,and transfer of microbiological analytical methods.Based on the characteristics of pharmaceutical microbiological analyt-ical methods and practical applications,it specified definitions of relevant terms and application scenarios,estab-lished technical indicators and acceptance criteria for methodological evaluation,and introduced key statistical tools and evaluation principles.This article systematically elaborates on the drafting background and process of the Guideline,and interprets its key content,aiming to offer theoretical guidance and practical reference for relevant practitioners in applying this guideline.This guideline strengthens the foundation of pharmaceutical microbial analytical methods in China and enhances the scientificity and accuracy of the pharmaceutical microbial standards system.

Whole Genome Sequencing(WGS)technology,leveraging its significant advantages in precise microbial identification and traceability analysis,has become a core tool in international pharmaceutical microbial quality control.The release and implementation of the Guideline 9110 for Microbial Whole Genome Sequencing Technology in the Chinese Pharmacopoeia 2025 Edition marks the official entry of China's pharmaceutical microbial quality con-trol into the genomic era.Guideline 9110 establishes universal technical specifications for the application of WGS technology in pharmaceutical microbial quality control,covering laboratory general requirements,key technical parameters,technical workflow,major factors affecting sequencing results,method validation,and application guidance.This article focuses on the background of the standard's development and its technical rationale,provi-ding a systematic interpretation of key technical indicators,the scope of application,and essential points for techni-cal implementation.It aims to offer theoretical guidance and practical references for the industry in applying WGS technology.

Objective:To construct a thyroid nodule segmentation model using ultrasound dynamic images and explore its potential for assisting in the screening of thyroid nodules.Methods:A total of 126 patients with thyroid nodules（comprising 150 nodules）who were diagnosed and treated at Xuzhou Cancer Hospital from April 2024 to December 2024 were prospectively enrolled. Two-dimensional ultrasound was performed to capture short-axis and long-axis video images of thyroid nodules，forming a dynamic ultrasound image dataset. The dataset was divided into training，validation，and test sets in a ratio of 6∶1∶3. After the training loss curve converged，the model that performed well on the validation set was selected for testing. Three-fold cross-validation was employed for training and testing. All 300 ultrasound videos were divided into three subsets. In each experiment，two subsets were used as the training set，and one subset was used as the test set to evaluate the model's generalization ability. A collaborative spatiotemporal diffusion model was established based on the dynamic trends and tissue texture details of thyroid nodules. Six widely used segmentation metrics were employed to evaluate the model's application capabilities.Results:The study included 126 patients with 150 thyroid nodules，300 dynamic ultrasound images，and video lengths of 3-4 seconds per nodule，resulting in 12 312 segmented images. The size of the thyroid nodules was（10.7 ± 10.6）mm（transverse diameter）×（8.4 ± 6.3）mm（anteroposterior diameter）. Among the nodules，62（41.3%）had clear boundaries，while 88（58.7%）had indistinct boundaries；61（40.7%）exhibited regular shapes，while 89（59.3%）were irregular；66（44.0%）had a taller-than-wide aspect ratio；and 70（46.7%）showed microcalcifications. The collaborative diffusion model based on dynamic ultrasound image segmentation achieved the following scores：a Jaccard score of（69.22 ± 0.03）%，a Dice score of（79.16 ± 0.18）%，a Precision score of（86.70 ± 0.17）%，a Recall score of（77.82 ± 0.04）%，an Sα score of（85.26 ± 0.01）%，and an Eθmn score of（90.58 ± 0.17）%. Compared to other models，this model demonstrated significant improvements across all evaluation metrics，achieving the highest values in each metric with increments of over 8% and 1%，respectively. Conclusions:The collaborative diffusion model with a dynamic controller，constructed based on dynamic ultrasound images of thyroid nodules，demonstrates excellent performance in ultrasound image segmentation. It improves the accuracy of thyroid nodule screening，thereby providing a valuable auxiliary diagnostic tool for clinical practice.