Objective: To observe the changes of retinal microstructure in lamellar macular hole (LMH) after vitrectomy. Methods: A retrospective clinical observational study. Forty patients (41 eyes) with LMH and received vitrectomy in Ophthalmology Department of Peking University People’s Hospital from January 2014 to September 2018 were included in this study. Among them, 14 patients (15 eyes) were males and 26 patients (26 eyes) were females, with an average age of 67.8±8.6 years. There were 37 eyes with a lens and 4 eyes with an IOL. There were 29 eyes with LMH of tractional type, 7 eyes of degenerative type, and 5 eyes of mixed type. All patients underwent BCVA and OCT examinations. The BCVA examination was performed using the international standard visual acuity chart, which was converted into logMAR visual acuity. The average logMAR BCVA was 0.57±0.27; the mean macular retinal thickness (CRT) was 192.3±108.9 μm, the mean macular thickness (MRT) was 427.5±110.2 μm. Among the 29 eyes of tractional type, there were 17 eyes with retinal cavity, 8 eyes with macular retinoschisis, and 3 eyes with incomplete ellipsoid zone. Among the 7 eyes of degenerative type, there were 5 eyes with lamellar hole-associated epiretinal proliferation (LHEP), 5 eyes with retinal cavity, and 5 eyes with incomplete ellipsoid zone. Among the 5 eyes of mixed type, 2 eyes with LHEP, 1 eye with macular epiretinal membrane, and 4 eyes with incomplete ellipsoid zone. The average follow-up time after surgery was 12.8±5.2 months. Among them, 10 eyes were followed up for equal or greater than 24 months. After the surgery, the same equipment and method before the surgery were used for relevant examination. The changes of BCVA, CRT, and MRT before and after surgery were observed. Continuous variables were compared by t test. Results: At the last follow-up, the mean logMAR BCVA was 0.37±0.26. Compared with before surgery, the difference was statistically significant (t=5.98, P<0.01). The mean CRT and MRT were (245.2±90.8) and (347.0±46.7) μm, respectively. Compared with before surgery, the differences were statistically significant (t=-2.49, -5.24; P<0.05, <0.01). CRT and MRT changed greatly within 6 months after surgery, and then tended to be gentle. Among the 3 eyes with incomplete ellipsoid zone of tractional type before surgery, ellipsoid zone recovered in 2 eyes and partially recovered in 1 eye. Among the 17 eyes with retinal cavity and 8 eyes with macular retinoschisis before surgery, there were still 4 eyes with retinal cavity, but all the retinoschisis were disappeared. Among the 5 eyes with retinal cavity of degenerative type before surgery, there were still 2 eyes with retinal cavity and all the eyes with incomplete ellipsoid zone. Among 10 eyes with a follow-up time of equal or greater than 24 months, the macular ganglion cell complex partially atrophied in 6 eyes, and the nerve fiber layer separated in 2 eyes. There was no full-thickness macular hole after surgery. Conclusion For most LMH patients, vitrectomy can effectively improve the visual acuity and promote the recovery of retinal microstructure.

Objective:To explore the influence of the contours of different parts of the human body on the setup errors of Catalyst HD optical surface imaging (OSI) system-guided radiotherapy.Methods:Using the 3D printing technology, arc- and oval arc-shaped phantoms with base angles of 5°-45° (step length: 5°) were designed to simulate the contours of different body parts of patients. A Catalyst HD system was employed for monitoring, during which the gains and integration time of the system were adjusted. The treatment couches were manually moved (range: -5 mm to 5 mm, with a step length of 2 mm). The ratios of transverse to longitudinal dimensions of all phantoms were recorded. The recorded items also included couch value errors in the anterior-posterior (AP), inferior-superior (SI), and left-right (LR) directions for transversely and longitudinally placed phantoms, as well as the setup errors monitored using the Catalyst HD system. Then, this study presented an analysis of the correlation between phantoms for different body contours and the gains and integration time of the Catalyst HD system. The purpose was to compare the setup errors under the two different placement conditions of phantoms and to analyze the correlation between the monitored values of the Catalyst HD system and couch values.Results:There was a significant linear negative correlation between the gain and the logarithm of integration time required for monitoring using the Catalyst HD system, with a slope of -0.001. There was a certain functional relationship between the intercept and the ratio of the transverse to longitudinal dimensions of the phantoms. Under the same gain, the integration time decreased with an increase in the base angles of phantoms. The Catalyst HD system showed different monitoring accuracy under different placement conditions of the phantoms ( Z = -8.59 to -0.02, P < 0.05), with the monitoring accuracy in the LR and AP directions higher in the transverse position. The correlation between the monitored values of the Catalyst HD system and the actual couch values increased in the LR and SI directions with an increase in the base angle of the phantoms, showing a strong correlation in the case of base angles of ≥ 25°. Furthermore, the correlation was always significant in the AP direction ( R > 0.9). Conclusions:When the best surface images are obtained using the Catalyst HD system, the gains and integration time of the system are correlated with body surface contours. The Catalyst HD system shows high monitoring accuracy in the AP direction. This system shows high accuracy in all directions when the ratios of transverse to longitudinal dimensions are ≤ 2 or the base angles ≥ 25°.

Professor ZHANG Boli believed that the core pathogenesis of heart failure with preserved ejection fraction （HFpEF） is weak pulse at yang and wiry pulse at yin. By referring to the theory of “damp-turbidity and phlegm-rheum type of diseases”， he proposed that yin pathogens of damp-turbidity and phlegm-rheum may damage yang qi in each stage of HFpEF， thus aggravating the trend of weak pulse at yang and wiry pulse at yin， which played an important role in the deterioration of HFpEF. Therefore， Professor ZHANG Boli advocated that importance should be attached to the elimination of yin pathogen and the protection of yang qi during the various stages of HFpEF in order to delay the aggravation of weak pulse at yang and wiry pulse at yin； he put forward the idea of staged treatment that “yin pathogen should be dispelled and yang qi should be demonstrated”； and he formulated the treatment strategy of treating the disease as early as possible， eliminating pathogens and protecting yang， interrupting the disease trend， using warm-like medicinals， and activating blood circulation， to enrich the theoretical system of traditional Chinese medicine in the treatment of HFpEF.

This paper explores the interpretation of Jichuan Decoction （济川煎） by tracing its name's origin， exa-mining the original texts of herbs in the decoction within Jingyue's Complete Works（《景岳全书》）， exploring the debate on the sovereign drug of Danggui （Angelica sinensis ［Oliv.］ Diels） and Roucongrong （Cistanche deserticola Y.C. Ma）， and analyzing the historical discussions on the efficacy of the decoction. It is believed that the original meaning of the name Jichuan Decoction （济川煎） refers to its strategy for treating “deficiency constipation”， which can be described as “increasing water to navigating the boat”. Danggui （Angelica sinensis ［Oliv.］ Diels） is considered the sovereign herb for nourishing blood and moistening dryness， while Roucongrong （Cistanche deserticola Y.C. Ma） serves as the minister herb for moistening the intestines and promoting bowel movements. It is concluded by the author that Jichuan Decoction （济川煎） does not primarily focus on warming the kidneys and assisting yang， but rather emphasizes nourishing blood， moistening dryness， and promoting bowel movements. Its main indication is constipation due to deficiency of yin and blood， which is supported by evidence from antiquarian materials.

This article summarizes the experience of Professor ZHANG Boli in the staged treatment of very early onset inflammatory bowel disease （VEO-IBD）. Grounded in the theory of “similar diseases and syndromes of damp-turbidity-phlegm-rheum”， it is believed that dampness and turbidity are crucial pathogenic factors in VEO-IBD. During the acute phase， the core pathogenesis centers on the accumulation of turbid toxins in the intestines. The treatment focuses on dispelling dampness and clearing turbidity to eliminate turbid toxins， while also regulating the flow of qi and nourishing the spleen and kidney. During the remission phase， the core pathogenesis involves spleen and kidney deficiency， which is treated by invigorating the spleen and warming the kidney to strengthen the body resistance. Additionally， promoting blood circulation and eliminating stasis is integrated throughout the treatment process. Medications are chosen to be mild and gentle， emphasizing balance and harmony， and attention is given to the methods of administration and psychological well-being， ensuring comprehensive care for both body and mind.