Objective To explore the value of placental alpha-microglobulin-1 in vagina liquid to diagnose premature rupture of membranes. Methods A prospective observational study to initial evaluation included both the standard clinical evaluation for rupture of membranes and placental alpha-microglobulin-1 immunoassay. Rupture of membranes was diagnosed if fluid was seen leaking from the cervical os or if two of the following three conditions were present: pooling of fluid, positive nitrazine test, or feming. Rupture of membranes was diagnosed definitively on review of the medical records after delivery. Results Placental alpha-microglobulin-1 immunoassay confirmed rupture of membranes at initial presentation with a sensitivity of 100% (89/89), specificity of 91% (10/11), positive predictive value of 99% (89/90), and negative predictive value of 100% (10/10),false positive rate of 9% (1/11). Placental alpha-nricroglobulin-1 immunoassay was better than the conventional clinical assessment in confirming the diagnosis of rupture ofmembranes (P<0.01). Conclusion Measurement of placental alpha-microglobulin-1 in cervicovaginal secretions is superior to conventional clinical assessment in the diagnosis of rupture of membranes.

Objective To determine whether pyloric measurements with ultrasound, that muscle thickness and channel of pyloric, correlated with weight and age in patients with hypertrophic pyloric stenosis (HPS). Methods A retrospective analysis was conducted on 111 cases diagnosed with HPS by operation from 2008 to 2012. Pearson correlation and linear regression analyses were used to determine if there were sta?tistically signiifcant associations between these combinations of factors:age and pyloric muscle thickness, weight and pyloric muscle thickness, age and pyloric length, and weight and pyloric length. Results Patients’mean age was 39.1 d (8-92 days). Their mean weight was 4.3 kg (2.2-7.9 kg). Mean pyloric muscle thickness was 4.8 mm (2-4.6 mm), and mean pyloric length was 17.5 mm (12-23.5 mm). Pearson correlation coefifcient analysis showed a signiifcant correlation between age and muscle thickness (r=0.6, P<0.001) as well as weight and muscle thickness (r=0.486, P<0.001). No signiifcant correlation was found be?tween pyloric length and age or weight. Linear regression analysis demonstrated similar results. Conclusions In patients with HPS, pyloric muscle thickness was directly related to age and weight. Smaller and younger infants with suspected diagnosis of HPS should be followed up even though the minimum diagnostic criterion for muscle thickness or length was not found on ultrasound.