Objective To construct a human resource allocation model for the Experimental Medicine Department through the measurment of working hour load,in order to achieve accurate and efficient allocation of human resources in the Experimental Medicine Department under the background of medical insurance payment reform.Methods The Department of Experimental Medicine,a 1 100-beds tertiary general hospital in Chengdu,was selected as the research object.The task list method and expert consultation method were used to analyze the work connotation,business process and specific operation of technicians in detail,and the business of laboratory medicine was divided into three dimensions:inspection operation,transactional task and management responsibility.The business operation time of all in-service technicians in the department was measured by stopwatch timing,work sampling,self-recording and back-up interviews,the average value method was used to describe the time consumption of each work step,and the working hours of the work items were counted according to the task list.Combined with the DORATASK model and the standard time concept,a manpower allocation model of the experimental medicine department was established.Results The total time spent of the inspection work was 1 320.82h,the total time of the whole process of the measured transactional work was multiplied by the operation frequency,and the total time spent of the monthly average transactional work was 523.38h,and the average monthly total time spent of the management work was 168 hours by multiplying the number of management positions by the standard working hours.Substituting the data into the model,the average monthly workload of technicians in the hospital was 2 012.2h,and the number of technicians in non-night shift,on-duty or compensatory leave positions was 14 to 15.The measurement results were basically consistent with the number of manpower allocated recommended by experts from multiple departments of the hospital.From 2021 to 2023,the model measurements were continuously tracked,which were consistent with the staffing of the department.Conclusion The human resource allocation model for work hour load adopts quantitative methods,combined with standard time and physiological slack rate,to provide a scientific and flexible path for human resource allocation decision-making.Based on this,the management can gain insight into work intensity and efficiency bottlenecks,implement targeted cost control and manpower optimization,ensure efficient resource utilization and cost control,and promote continuous optimization and upgrading of hospital operation management.

Objective:To explore the value of metanephrine, normetanephrine, and some steroid hormones in the assessment of adrenal venous sampling (AVS).Methods:This retrospective study enrolled 101 patients with primary aldosteronism who underwent AVS at Peking Union Medical College Hospital between June 1, 2021, and October 1, 2024. Multiple hormones, including aldosterone, cortisol, metanephrine, normetanephrine and steroid hormone profiles, were measured in samples from the inferior vena cava and bilateral adrenal veins during AVS. Selectivity index and lateralization index were calculated based on the levels of different hormones to determine successful AVS cannulation (selectivity index≥2) and aldosterone hypersecretion lateralization (lateralization index≥2). Patients who underwent unilateral adrenalectomy were followed for at least 6 months. Clinical and biochemical outcomes were assessed according to the Primary Aldosteronism Surgical Outcome (PASO) criteria, with biochemical remission defined as achieving complete or partial biochemical remission postoperatively. The efficacy of different hormones relative to cortisol for calculating selectivity index and lateralization index was evaluated for subtype classification.Results:The age at diagnosis of the enrolled patients was (50.5±9.6) years, including 77 males. Regarding the selectivity index, five hormones including metanephrine, normetanephrine, androstenedione, 17α-hydroxypregnenolone, and dehydroepiandrosterone demonstrated significantly higher selectivity index compared to cortisol (all P<0.05). Based on the cortisol-derived selectivity index, AVS cannulation was unsuccessful in 8 patients; using the five indices, unsuccessful cannulation occurred in 2, 2, 3, 4, and 5 patients, respectively. Based on postoperative follow-up, 55 patients were identified as having unilateral surgically relievable primary aldosteronism. In identifying these patients, the performance of metanephrine, normetanephrine, androstenedione, 17α-hydroxypregnenolone, and dehydroepiandrosterone was non-inferior to cortisol, correctly identifying 95% (52/55), 93% (51/55), 91% (50/55), 87% (48/55), and 89% (49/55) of cases, respectively. However, among these patients, there were no statistically significant differences in the success rate of intubation in AVS and the ability to identify patients with unilateral primary aldosteronism between the five indicators and cortisol (all P>0.05). Using cortisol-based lateralization as the reference standard, androstenedione and dehydroepiandrosterone both achieved an accuracy of 90% (84/93) for determining the lateralized side, while 17α-hydroxypregnenolone, normetanephrine, and metanephrine achieved accuracies of 89% (83/93), 81% (74/93), and 80% (73/93), respectively. Conclusion:Metanephrine, normetanephrine, androstenedione, 17α-hydroxypregnenolone and dehydroepiandrosterone could increase the success rate of intubation in AVS, with a high ability to identify patients with unilateral primary aldosteronism, and are expected to replace cortisol as new indicators of AVS.

Objective To construct a human resource allocation model for the Experimental Medicine Department through the measurment of working hour load,in order to achieve accurate and efficient allocation of human resources in the Experimental Medicine Department under the background of medical insurance payment reform.Methods The Department of Experimental Medicine,a 1 100-beds tertiary general hospital in Chengdu,was selected as the research object.The task list method and expert consultation method were used to analyze the work connotation,business process and specific operation of technicians in detail,and the business of laboratory medicine was divided into three dimensions:inspection operation,transactional task and management responsibility.The business operation time of all in-service technicians in the department was measured by stopwatch timing,work sampling,self-recording and back-up interviews,the average value method was used to describe the time consumption of each work step,and the working hours of the work items were counted according to the task list.Combined with the DORATASK model and the standard time concept,a manpower allocation model of the experimental medicine department was established.Results The total time spent of the inspection work was 1 320.82h,the total time of the whole process of the measured transactional work was multiplied by the operation frequency,and the total time spent of the monthly average transactional work was 523.38h,and the average monthly total time spent of the management work was 168 hours by multiplying the number of management positions by the standard working hours.Substituting the data into the model,the average monthly workload of technicians in the hospital was 2 012.2h,and the number of technicians in non-night shift,on-duty or compensatory leave positions was 14 to 15.The measurement results were basically consistent with the number of manpower allocated recommended by experts from multiple departments of the hospital.From 2021 to 2023,the model measurements were continuously tracked,which were consistent with the staffing of the department.Conclusion The human resource allocation model for work hour load adopts quantitative methods,combined with standard time and physiological slack rate,to provide a scientific and flexible path for human resource allocation decision-making.Based on this,the management can gain insight into work intensity and efficiency bottlenecks,implement targeted cost control and manpower optimization,ensure efficient resource utilization and cost control,and promote continuous optimization and upgrading of hospital operation management.

Objective:To explore the value of metanephrine, normetanephrine, and some steroid hormones in the assessment of adrenal venous sampling (AVS).Methods:This retrospective study enrolled 101 patients with primary aldosteronism who underwent AVS at Peking Union Medical College Hospital between June 1, 2021, and October 1, 2024. Multiple hormones, including aldosterone, cortisol, metanephrine, normetanephrine and steroid hormone profiles, were measured in samples from the inferior vena cava and bilateral adrenal veins during AVS. Selectivity index and lateralization index were calculated based on the levels of different hormones to determine successful AVS cannulation (selectivity index≥2) and aldosterone hypersecretion lateralization (lateralization index≥2). Patients who underwent unilateral adrenalectomy were followed for at least 6 months. Clinical and biochemical outcomes were assessed according to the Primary Aldosteronism Surgical Outcome (PASO) criteria, with biochemical remission defined as achieving complete or partial biochemical remission postoperatively. The efficacy of different hormones relative to cortisol for calculating selectivity index and lateralization index was evaluated for subtype classification.Results:The age at diagnosis of the enrolled patients was (50.5±9.6) years, including 77 males. Regarding the selectivity index, five hormones including metanephrine, normetanephrine, androstenedione, 17α-hydroxypregnenolone, and dehydroepiandrosterone demonstrated significantly higher selectivity index compared to cortisol (all P<0.05). Based on the cortisol-derived selectivity index, AVS cannulation was unsuccessful in 8 patients; using the five indices, unsuccessful cannulation occurred in 2, 2, 3, 4, and 5 patients, respectively. Based on postoperative follow-up, 55 patients were identified as having unilateral surgically relievable primary aldosteronism. In identifying these patients, the performance of metanephrine, normetanephrine, androstenedione, 17α-hydroxypregnenolone, and dehydroepiandrosterone was non-inferior to cortisol, correctly identifying 95% (52/55), 93% (51/55), 91% (50/55), 87% (48/55), and 89% (49/55) of cases, respectively. However, among these patients, there were no statistically significant differences in the success rate of intubation in AVS and the ability to identify patients with unilateral primary aldosteronism between the five indicators and cortisol (all P>0.05). Using cortisol-based lateralization as the reference standard, androstenedione and dehydroepiandrosterone both achieved an accuracy of 90% (84/93) for determining the lateralized side, while 17α-hydroxypregnenolone, normetanephrine, and metanephrine achieved accuracies of 89% (83/93), 81% (74/93), and 80% (73/93), respectively. Conclusion:Metanephrine, normetanephrine, androstenedione, 17α-hydroxypregnenolone and dehydroepiandrosterone could increase the success rate of intubation in AVS, with a high ability to identify patients with unilateral primary aldosteronism, and are expected to replace cortisol as new indicators of AVS.

The comparison between traditional Chinese medicine Jinzhen oral liquid (JZOL) and Western medicine in treating children with acute bronchitis (AB) showed encouraging outcomes. This trial evaluated the efficacy and safety of the JZOL for improving cough and expectoration in children with AB. 480 children were randomly assigned to take JZOL or ambroxol hydrochloride and clenbuterol hydrochloride oral solution for 7 days. The primary outcome was time-to-cough resolution. The median time-to-cough resolution in both groups was 5.0 days and the antitussive onset median time was only 1 day. This randomized controlled trial showed that JZOL was not inferior to cough suppressant and phlegm resolving western medicine in treating cough and sputum and could comprehensively treat respiratory and systemic discomfort symptoms. Combined with clinical trials, the mechanism of JZOL against AB was uncovered by network target analysis, it was found that the pathways in TRP channels like IL-1β/IL1R/TRPV1/TRPA1, NGF/TrkA/TRPV1/TRPA1, and PGE2/EP/PKA/TRPV1/TRPA1 might play important roles. Animal experiments further confirmed that inflammation and the immune regulatory effect of JZOL in the treatment of AB were of vital importance and TRP channels were the key mechanism of action.

Objective To investigate the clinical effects of sinus elevation surgery and implant restorationdue to in-sufficient bone massafter tooth extraction in patients with odontogenic maxillary sinusitis(OMS)and to provide a refer-ence for use in clinical practice.Methods This study was reviewed and approved by the Ethics Committee,and in-formed consent was obtained from the patients.Forty-five teeth were extracted from patients with OMS in the maxillary posterior area(the study group).Sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction in the study group.Forty-eight teeth were extracted from patients without"OMS"in the maxillary posterior area(the control group),and sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction inthe control group.In the study group,13 cases of discontinuous maxillary sinus floor bone and residual alveolar bone height of the maxillary sinus floor less than 4 mm were addressed with lateral wall sinus elevation,and the other 32 cases were addressed with crest-approach sinus elevation.In the control group,8 cases of residual alveolar bone height less than 4 mm in the maxillary sinus floor were addressed with lateral wall sinus,and the other 40 cases were addressed with crest approach sinus elevation.Restora-tions were placed 6 to 8 months after surgery.The patients were followed up 21 days,3 months,and 8 months after im-plantation and every 6 months after the placement of the restorations.The sinus bone gain(SBG),apical bone height(ABL)and marginal bone loss(MBL)were statistically analyzed 24 months after the restoration.Results The average preoperative mucosal thickness in the 45 patients in the study group was(1.556±0.693)mm,which was significantly larger than that in the control group(1.229±0.425)mm(P＜0.001).There were no perforations in either group.Twenty-four months after restoration,there was no significant difference in the SBG,ABH or MBL between the two groups(P＞0.05).Conclusion After the extraction of teeth from patients with OMS,the inflammation of the maxillary sinus de-creased,and the bone height and density in the edentulous area were restored to a certain degree.The effects of sinus floor lifting surgery and implant restoration do not differ between patients with and without OMS.

Objective To investigate the clinical effects of sinus elevation surgery and implant restorationdue to in-sufficient bone massafter tooth extraction in patients with odontogenic maxillary sinusitis(OMS)and to provide a refer-ence for use in clinical practice.Methods This study was reviewed and approved by the Ethics Committee,and in-formed consent was obtained from the patients.Forty-five teeth were extracted from patients with OMS in the maxillary posterior area(the study group).Sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction in the study group.Forty-eight teeth were extracted from patients without"OMS"in the maxillary posterior area(the control group),and sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction inthe control group.In the study group,13 cases of discontinuous maxillary sinus floor bone and residual alveolar bone height of the maxillary sinus floor less than 4 mm were addressed with lateral wall sinus elevation,and the other 32 cases were addressed with crest-approach sinus elevation.In the control group,8 cases of residual alveolar bone height less than 4 mm in the maxillary sinus floor were addressed with lateral wall sinus,and the other 40 cases were addressed with crest approach sinus elevation.Restora-tions were placed 6 to 8 months after surgery.The patients were followed up 21 days,3 months,and 8 months after im-plantation and every 6 months after the placement of the restorations.The sinus bone gain(SBG),apical bone height(ABL)and marginal bone loss(MBL)were statistically analyzed 24 months after the restoration.Results The average preoperative mucosal thickness in the 45 patients in the study group was(1.556±0.693)mm,which was significantly larger than that in the control group(1.229±0.425)mm(P＜0.001).There were no perforations in either group.Twenty-four months after restoration,there was no significant difference in the SBG,ABH or MBL between the two groups(P＞0.05).Conclusion After the extraction of teeth from patients with OMS,the inflammation of the maxillary sinus de-creased,and the bone height and density in the edentulous area were restored to a certain degree.The effects of sinus floor lifting surgery and implant restoration do not differ between patients with and without OMS.

Objective To investigate the clinical effects of sinus elevation surgery and implant restorationdue to in-sufficient bone massafter tooth extraction in patients with odontogenic maxillary sinusitis(OMS)and to provide a refer-ence for use in clinical practice.Methods This study was reviewed and approved by the Ethics Committee,and in-formed consent was obtained from the patients.Forty-five teeth were extracted from patients with OMS in the maxillary posterior area(the study group).Sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction in the study group.Forty-eight teeth were extracted from patients without"OMS"in the maxillary posterior area(the control group),and sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction inthe control group.In the study group,13 cases of discontinuous maxillary sinus floor bone and residual alveolar bone height of the maxillary sinus floor less than 4 mm were addressed with lateral wall sinus elevation,and the other 32 cases were addressed with crest-approach sinus elevation.In the control group,8 cases of residual alveolar bone height less than 4 mm in the maxillary sinus floor were addressed with lateral wall sinus,and the other 40 cases were addressed with crest approach sinus elevation.Restora-tions were placed 6 to 8 months after surgery.The patients were followed up 21 days,3 months,and 8 months after im-plantation and every 6 months after the placement of the restorations.The sinus bone gain(SBG),apical bone height(ABL)and marginal bone loss(MBL)were statistically analyzed 24 months after the restoration.Results The average preoperative mucosal thickness in the 45 patients in the study group was(1.556±0.693)mm,which was significantly larger than that in the control group(1.229±0.425)mm(P＜0.001).There were no perforations in either group.Twenty-four months after restoration,there was no significant difference in the SBG,ABH or MBL between the two groups(P＞0.05).Conclusion After the extraction of teeth from patients with OMS,the inflammation of the maxillary sinus de-creased,and the bone height and density in the edentulous area were restored to a certain degree.The effects of sinus floor lifting surgery and implant restoration do not differ between patients with and without OMS.

Objective To investigate the clinical effects of sinus elevation surgery and implant restorationdue to in-sufficient bone massafter tooth extraction in patients with odontogenic maxillary sinusitis(OMS)and to provide a refer-ence for use in clinical practice.Methods This study was reviewed and approved by the Ethics Committee,and in-formed consent was obtained from the patients.Forty-five teeth were extracted from patients with OMS in the maxillary posterior area(the study group).Sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction in the study group.Forty-eight teeth were extracted from patients without"OMS"in the maxillary posterior area(the control group),and sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction inthe control group.In the study group,13 cases of discontinuous maxillary sinus floor bone and residual alveolar bone height of the maxillary sinus floor less than 4 mm were addressed with lateral wall sinus elevation,and the other 32 cases were addressed with crest-approach sinus elevation.In the control group,8 cases of residual alveolar bone height less than 4 mm in the maxillary sinus floor were addressed with lateral wall sinus,and the other 40 cases were addressed with crest approach sinus elevation.Restora-tions were placed 6 to 8 months after surgery.The patients were followed up 21 days,3 months,and 8 months after im-plantation and every 6 months after the placement of the restorations.The sinus bone gain(SBG),apical bone height(ABL)and marginal bone loss(MBL)were statistically analyzed 24 months after the restoration.Results The average preoperative mucosal thickness in the 45 patients in the study group was(1.556±0.693)mm,which was significantly larger than that in the control group(1.229±0.425)mm(P＜0.001).There were no perforations in either group.Twenty-four months after restoration,there was no significant difference in the SBG,ABH or MBL between the two groups(P＞0.05).Conclusion After the extraction of teeth from patients with OMS,the inflammation of the maxillary sinus de-creased,and the bone height and density in the edentulous area were restored to a certain degree.The effects of sinus floor lifting surgery and implant restoration do not differ between patients with and without OMS.

Objective To investigate the clinical effects of sinus elevation surgery and implant restorationdue to in-sufficient bone massafter tooth extraction in patients with odontogenic maxillary sinusitis(OMS)and to provide a refer-ence for use in clinical practice.Methods This study was reviewed and approved by the Ethics Committee,and in-formed consent was obtained from the patients.Forty-five teeth were extracted from patients with OMS in the maxillary posterior area(the study group).Sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction in the study group.Forty-eight teeth were extracted from patients without"OMS"in the maxillary posterior area(the control group),and sinus elevation and implantation were performed due to insufficient bone height in the implant area 6-8 months after tooth extraction inthe control group.In the study group,13 cases of discontinuous maxillary sinus floor bone and residual alveolar bone height of the maxillary sinus floor less than 4 mm were addressed with lateral wall sinus elevation,and the other 32 cases were addressed with crest-approach sinus elevation.In the control group,8 cases of residual alveolar bone height less than 4 mm in the maxillary sinus floor were addressed with lateral wall sinus,and the other 40 cases were addressed with crest approach sinus elevation.Restora-tions were placed 6 to 8 months after surgery.The patients were followed up 21 days,3 months,and 8 months after im-plantation and every 6 months after the placement of the restorations.The sinus bone gain(SBG),apical bone height(ABL)and marginal bone loss(MBL)were statistically analyzed 24 months after the restoration.Results The average preoperative mucosal thickness in the 45 patients in the study group was(1.556±0.693)mm,which was significantly larger than that in the control group(1.229±0.425)mm(P＜0.001).There were no perforations in either group.Twenty-four months after restoration,there was no significant difference in the SBG,ABH or MBL between the two groups(P＞0.05).Conclusion After the extraction of teeth from patients with OMS,the inflammation of the maxillary sinus de-creased,and the bone height and density in the edentulous area were restored to a certain degree.The effects of sinus floor lifting surgery and implant restoration do not differ between patients with and without OMS.