OBJECTIVE: To investigate the relationship between obstructive sleep apnea hypopnea syndrome (OSAHS) and adenoid size as well as tonsil size in Children. METHOD: A total of 545 patients, 338 OSAHS patients (treated group) diagnosed by PSG and 207 patients with vocal cord nodules but symptoms of upper airway obstruction (control group), were enrolled from inpatient and outpatient between June, 2008 and October, 2010. The oropharynx and electron-nasopharyngolaryngoscopy examination records of the two groups were retrospectively analyzed. The patients in the treated group were also divided into mild group, moderate group and severe group according to obstructive apnea index (OAI) or AHI. SPSS 17.0 was used for statistical analysis. RESULT: In the treated group, 89.7% had grade III-V adenoid and 68.4% had grade III-IV tonsil, compared with 30.9% (adenoid) and 13.5% (tonsil) in the control group. The significant differences were found (all P < 0.01). The comparison between patients with different grades of adenoidal size and tonsil size in the treated group had indicated that patients with grade IV adenoid or grade IV tonsil have a higher risk of OSAHS than patients with grade III adenoid or grade III tonsil. In the treated group, the ratio of patients with different severity of adenoid or tonsil had increased with the severity of OSAHS (P < 0.01). This retrospective study had also found that most of the grading results from Electron-nasopharyngolaryngoscopy examination were consistent with that from oropharynx examination. 13 (37.1%) of 35 patients with grade I or II tonsil diagnosed by Oropharynx examination were considered as grade III by Electron-nasopharyngolaryngoscopy examination. CONCLUSION Adenoidal hypertrophy and tonsil hypertrophy are the risk factors for OSAHS in children. The risk of OSAHS and the severity of OSAHS are positively associated with the severity of adenoid and tonsil. The electron-nasopharyngolaryngoscopy examination is an important examination method for diagnosing OSAHS in children, as well as determination of tonsil size.
Adenoids ; pathology ; Adolescent ; Child ; Endoscopy ; methods ; Female ; Humans ; Hypertrophy ; complications ; pathology ; Laryngoscopy ; methods ; Male ; Organ Size ; Palatine Tonsil ; pathology ; Retrospective Studies ; Risk Factors ; Sleep Apnea, Obstructive ; classification ; etiology

Malaria is a serio us and life-threatening infectious disease that has a profound impact on human life. Artemisinin is still the first-line drug for clinical antimalarial treatment recommended by the World Health Organization. The antimalarial activity of artemisinin is mainly reflected in the peroxide bridge structure. Artemisinin-based combination therapy （ACT）is the first-line treatment for malaria in many countries. ACT mainly include artemether-lumefantrine ，artesunate-amodiaquine and dihydroartemisinin- piperaquine，etc. Compared with artemisinin monotherapy ，ACT has the advantages of shortening the length of hospital stay ， speeding up parasite clearance ，and saving economic costs ，etc. However ，there are still problems such as drug resistance. This article reviews the application status ，advantages and disadvantages of ACT at home and abroad in recent years ，in order to provide ideas for the subsequent screening of long-acting adjuvant antimalarial drugs in ACT and to solve the problem of drug resistance.

Objective:To analyze the clinical data of laryngeal airway diseases in infants and provide reference for the standardized diagnosis and treatment of the disease. Methods:From June 2022 to August 2023, analyze the clinical data of 4 cases of children with laryngeal airway diseases recently admitted to Department of Otolaryngology, Fuzhou Children's Hospital of Fujian Province, and summarize the experience and lessons of diagnosis and treatment by consulting relevant literature. Results:Three cases had symptoms such as laryngeal wheezing, dyspnea, backward growth and development, etc. After electronic laryngoscopy, the first case was diagnosed with laryngeal softening （severe, type Ⅱ）, and the angular incision was performed. While cases 2, 3 diagnosed with case 2 and 3 were diagnosed with laryngeal cyst and underwent laryngeal cyst resection. All three cases underwent low-temperature plasma surgery under visual laryngoscope, and the symptoms were relieved after operation. Case 4 was laryngeal wheezing and dyspnea after extubation under general anesthesia. The electronic laryngoscopy showeded early stage of globetic stenosis, and endoscopic pseudomembrane clamping was performed, and the postoperative symptoms were relieved. Conclusion:Infants and young children with laryngeal airway diseases should pay attention to the early symptoms and be diagnosed by electronic laryngoscopy as soon as possible. With good curative effect and few complications, low-temperature plasma surgery under visual laryngoscope is recommended. The formation of pseudomembrane under the gluteal caused by tracheal intubation causes rapid onset and rapid development. The pseudomembrane extraction by clamping is convenient and fast, with good curative effect.
Infant ; Child ; Humans ; Child, Preschool ; Respiratory Sounds/etiology* ; Larynx ; Laryngeal Diseases/surgery* ; Laryngoscopy ; Intubation, Intratracheal/adverse effects* ; Dyspnea/surgery* ; Cysts/surgery*

Congenital laryngomalacia is the most common disease causing laryngeal stridor in infants. The pathogenesis has not yet been clearly concluded. It may be related to abnormal development of laryngeal cartilage anatomical structure, neuromuscular dysfunction, gastroesophageal and laryngeal reflux disease, etc. The typical manifestations of the disease are inspiratory laryngeal stridor and feeding difficulties, which can be divided into mild, moderate and severe according to the severity of symptoms. The diagnosis is mainly based on clinical symptoms, signs and endoscopy, among which endoscopy is an important diagnostic basis. The treatment of laryngomalacia depends on the severity of symptoms. Mild and some moderate congenital laryngomalacia children can be relieved by conservative treatment, and severe and some moderate congenital laryngomalacia children should be treated by surgery. Supraglottic plasty is the main surgical method, which can effectively improve the symptoms of laryngeal stridor, dyspnea, feeding difficulties and growth retardation in most children, and the surgical effect is good.
Infant ; Child ; Humans ; Laryngomalacia/therapy* ; Respiratory Sounds/etiology* ; Larynx/surgery* ; Laryngeal Diseases/surgery* ; Endoscopy/adverse effects* ; Laryngismus

Objective To explore the possible mechanism of Xiebaisan in protecting against allergic asthma in rats from the perspective of host intestinal flora metabolism.Methods SPF SD rats were divided into normal group(NC group),model group(M group),and Xiebaisan group.The allergic asthma rat model was established by ovalbumin.Changes in lung histopathology were observed by HE staining.Colon contents were harvested for 16S rDNA high-throughput sequencing to assess changes in the intestinal flora structure and function.Serum and lung tissue samples were collected for non-targeted metabolomics by Ultra-high performance liquid-time-of-flight mass spectrometer.Results HE staining showed some improvement of lung histomorphology in asthmatic rats in the Xiebaisan group compared with that in the M group.16S rDNA high-throughput sequencing showed that the diversity of intestinal flora was decreased in the M group and increased in the Xiebaisan group compared with the M group,the microecosystem of intestinal was improved.Non-targeted metabolomics of serum showed regulation of amino acid metabolism and the mTOR pathway in the Xiebaisan group,and partially reversed differential metabolite expression in the M group.Non-targeted metabonomics of lung tissue samples showed regulation of carbon metabolism,vascular smooth muscle and cAMP signaling pathways in the Xiebaisan group,and partially reversed differential metabolite expression in the M group.Conclusions The protective effects of Xiebaisan on allergic asthma in rats may be related to improvement of the morphological structure of lung tissue,the diversity of intestinal flora,and regulation of mTOR,vascular smooth muscle contraction,and cAMP pathways,which affect amino acid and carbon metabolism.

OBJECTIVE To study the absorbed components of Xiebai powder in blood. METHODS UPLC-Q-TOF-MS/MS method was adopted. SD rats were randomly divided into blank group and administration group ，with 10 rats in each group. Blank group was given water intragastrically ，and administration groups were given 2 g/mL（by the amount of crude drug ）Xiebai powder solution intragastrically. Administration volume was 11.3 mL/kg，twice a day for 3 days. One point five hours after last administration，blood was taken from the abdominal aorta of each rat ，the serum was processed to obtain the supernatant for analysis；the relevant data in positive and negative ion mode were collected ，and the absorbed components of Xiebai powder in blood were analyzed and identified by using self-built secondary mass spectrometry database and consulting the relevant literature. RESULTS Totally 17 components from Xiebai powder were identified ，among which 6 components came from sovereign Moru salba，7 from minister Cortex Lycii ，12 from assistant Glycyrrhiza uralensis ，i.e. kukoamine A ，chlorogenic acid ，tachiogroside B，astringin，neoglycyrrhizin，glycyrrhizin，azelaic acid ，isoglycyrrhizin，glycyroside，anthocyanin，sebacic acid ，parthenolide， anthocyanin，18β-glycyrrhetinic acid ，6-gingerol，palmitoamide，erucamide. These compounds were mainly flavonoids ，alkaloids and organic acids. CONCLUSIONS In this study ，17 absorbed components of Xiebai powder in blood are preliminarily determined，which are consistent with the effect of Xiebai powder. They may be the pharmacodynamic substances of Xiebai powder.

OBJECTIVETo explore the treatment methods of pediatric obstructive sleep apnea hypopnea syndrome (OSAHS).

METHODSA total of 386 children with OSAHS were enrolled from June 2008 to April 2011.Ninety children with adenoid and tonsil ≤ degree III (group A) were randomly divided into A1 subgroup and A2 subgroup, while 22 of 296 (group B) children aged less than 3 years old with degree IV adenoid and(or) tonsil were divided into B1 subgroup, and the other 274 of 296 children with degree IV adenoid and (or) tonsil were divided into B1 subgroup, B2 subgroup and B3 subgroup. The adenoid, tonsil size examination and nasal endoscopic examination scores were performed before treatment, 3 months and 6 months after treatment. Drug therapy included oral antibiotics, mometasone furoate as a nasal spray, leukotriene receptor antagonist (LTRAs), mucoactive medications. Conservative treatment meant drug therapy plus negative pressure of sputum aspiration.Surgical treatment meant coblation adenotonsillectomy. A1 subgroup received drug therapy for 3 months; A2 and B1 subgroup received conservative treatment for 3 months; B2 subgroup received coblation adenotonsillectomy after 3 days conservative treatment and postoperative drug therapy for 2 weeks; B3 subgroup received coblation adenotonsillectomy after 2 weeks conservative treatment and postoperative drug therapy for 3 months.

RESULTSThe adenoid and tonsil size of A2 subgroup decreased at 3 months after treatment (Wald χ² were 10.584 and 8.366, respectively, P < 0.05), no significant re-increase was found at 6 months, and no decrease was found in the A1 subgroup (P > 0.05). The nasal endoscopic examination scores decreased in both A1 and A2 subgroup at 3 months after the treatment (F = 403.420, P < 0.05), but it was found re-increase in A1 subgroup at the 6 months (P < 0.05), no significant re-increase was found in the A2 subgroup. The polysomnography (PSG) monitor of A2 subgroup was 100.0% normal at 3 months after treatment, while the A1 subgroup was only 43.2% (χ² = 36.189, P < 0.05). B2 and B3 subgroups cured after coblation adenotonsillectomy, but no decrease of the adenoid and tonsil size was found in B1 subgroup (P > 0.05). The nasal endoscopic examination scores of B1, B2 and B3 subgroups showed significant decrease after the treatment, but re-increase was found in both B1 and B2 subgroups at the 6 months (F = 1 614.244, P < 0.05), no significant re-increase was found in the B3 subgroup. The PSG monitor of B3 subgroup was 100.0% normal at 3 months after treatment, B2 subgroup 73.4%, and B1 subgroup only 57.4% (χ² = 90.846, P < 0.05).

CONCLUSIONSThe treatment method of children with OSAHS should be selected according to the age, condition of disease, and size of the adenoid and tonsil. Adenoid and tonsil ≤ degree III should select conservative treatment; while for degree IV adenoid and (or) tonsil, surgical treatment should be primary choice. Conservative treatment can reduce the risk of perioperative and adequate postoperative drug therapy can help prevent recurrence after surgery.

Adenoidectomy ; Adenoids ; Child ; Humans ; Mometasone Furoate ; Palatine Tonsil ; Polysomnography ; Pregnadienediols ; Recurrence ; Sleep Apnea, Obstructive ; therapy ; Tonsillectomy