Footprint mismatch of cervical disc prostheses with Chinese cervical anatomic dimensions.

BACKGROUND: The footprint of most prostheses is designed according to Caucasian data. Total disc replacement (TDR) has been performed widely for cervical degenerative diseases in China. It is essential to analyze the match sizes of prostheses footprints and Chinese cervical anatomic dimensions in our study. METHODS: The anatomic dimensions of the C4-C7 segments of 138 patients (age range 16-77 years) in a Chinese population were measured by computed tomography scans. We compared the footprints of the most commonly used cervical disc prostheses (Bryan: Medtronic, Minneapolis, MN, USA; Prestige LP: Medtronic, Fridley, Minnesota, USA; Discover: DePuy, Raynham, MA, USA; Prodisc-C: Synthes, West Chester, PA, USA) in China with Chinese cervical anatomic dimensions and assessed the match of their size. RESULTS: The mismatch of available dimensions of prostheses and anatomic data of cervical endplates ranged from 17.03% (C4/C5, Prestige LP, Prodisc-C) to 57.61% (C6/C7, Discover) in the anterior-posterior (AP) diameter, and 35.51% (C4/C5, Prodisc-C, Prestige LP) to 94.93% (C6/C7, Bryan) in the center mediolateral (CML) diameter. About 21.01% of endplates were larger than the largest prostheses in the AP diameter and 57.25% in the CML diameter. All available footprints of prostheses expect the Bryan with an unfixed height, can accommodate the disc height (DH), however, 36.23% of the middle DH was less than the smallest height of the prostheses. The average disc sagittal angles (DSAs) of C4-C7 junctions were 5.04°, 5.15°, and 4.13° respectively. Only the Discover brand had a built-in 7° lordotic angle, roughly matching with the DSA. CONCLUSIONS: There is a large discrepancy between footprints of prostheses and Chinese cervical anatomic data. In recent years, possible complications of TDR related with mismatch sizes are increasing, such as subsidence, displacement, and heterotopic ossification. Manufacturers of prostheses should introduce or produce additional footprints of prostheses for Chinese TDR.

An effective homologous cloning method for isolating novel miR172s from Phalaenopsis hybrida.

MiR172 is an important microRNA that regulates floral development in various plants and downregulates AP2 family members to relieve the stress on floral determinacy, leading to phase transition from vegetative to reproductive growth. In this work, PCR with primers designed based on the rice miR172 sequence was used to isolate two miR172-like transcripts from Phalaenopsis hybrida (PhmiR172-1 and PhmiR172-2) that were very similar to Oryza miR172d and Arabidopsis miR172b. RT-PCR indicated that the levels of these two transcripts were negatively correlated with the level of the Phalaenopsis AP2 (PhAP2) gene in stem, root, pedicel and sepal, and that both were co-expressed with PhAP2 in young buds. Overproduction of PhmiR172-2 in Arabidopsis led to early flowering. The homologous cloning method used to isolate the Phalaenopsis miR172-like transcripts can be used to isolate miRNAs from other species. These PhmiR172 transcripts may be used to accelerate the flowering of orchids.

Cloning and tissue expressions of seven chitinase family genes in Litopenaeus vannamei.

GH18 chitinase is a multi-gene family. The family plays important physiological roles in Crustacea, e.g. ecdysis and defense against pathogen. However, data about GH18 family are rather limited in Crustacea. In the study, different cloning strategies were adopted to clone chitinase genes of Litopenaeus vannamei, which is the most widely cultured shrimp. Seven chitinase family members were identified. Analysis of domain architectures showed the repeated CBM18 modules and catalytic domain of enzymatically inactive chitolectin in Crustacea for the first time. Comparing to the three known groups of crustacean chitinase, four of the seven members are located on new evolutionary clades thus enriched the chitinase family of Crustacea. Tissue expression profiles were investigated in eight tissues. Expression of CHT5 and CHID1 were both detected in the hemocyte by which the innate immunity activity was carried out. The domain architectures, evolutionary relationships and tissue expression patterns all provide reasonable explanation for the existence of multiple genes in crustacean chitinase family.