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1.
Int J Radiat Oncol Biol Phys ; 74(3): 920-7, 2009 Jul 01.
Article in English | MEDLINE | ID: mdl-19394767

ABSTRACT

PURPOSE: Intrafraction organ motion can produce dosimetric errors in radiotherapy. Commonly, the linear accelerator is gated using real-time breathing phase obtained by way of external sensors. However, the external anatomy does not always correlate well with the internal position. We examined a beam gating technique using signals from implanted wireless transponders that provided real-time feedback on the tumor location without an imaging dose to the patient. METHODS AND MATERIALS: An interface was developed between Calypso Medical's four-dimensional electromagnetic tracking system and a Varian Trilogy linear accelerator. A film phantom was mounted on a motion platform programmed with lung motion trajectories. Deliveries were performed when the beam was gated according to the signal from the wireless transponders. The dosimetric advantages of beam gating and the system latencies were quantified. RESULTS: Beam gating using on internal position monitoring provided up to a twofold increase in the dose gradients. The percentage of points failing to be within +/-10 cGy of the planned dose (maximal dose, approximately 200 cGy) was 3.4% for gating and 32.1% for no intervention in the presence of motion. The mean latencies between the transponder position and linear accelerator modulation were 75.0 +/-12.7 ms for beam on and 65.1 +/- 12.9 ms for beam off. CONCLUSION: We have presented the results from a novel method for gating the linear accelerator using trackable wireless internal fiducial markers without the use of ionizing radiation for imaging. The latencies observed were suitable for gating using electromagnetic fiducial markers, which results in dosimetric improvements for irradiation in the presence of motion.


Subject(s)
Electromagnetic Fields , Lung Neoplasms/radiotherapy , Movement , Particle Accelerators/instrumentation , Respiration , Computer Systems , Evaluation Studies as Topic , Feasibility Studies , Humans , Prostheses and Implants , Tumor Burden
2.
Anim Genet ; 37(4): 309-15, 2006 Aug.
Article in English | MEDLINE | ID: mdl-16879338

ABSTRACT

Hair length in dogs has been known for many years to be primarily controlled by a limited number of genes, but none of the genes have been identified. One of these genes produces a recessively inherited long-haired phenotype that has been thought to explain the bulk of hair-length variation among many breeds. Sequence analysis of the FGF5 gene in short and long-haired corgis resulted in the identification of two coding region differences: a duplication in a relatively non-conserved region of the gene and a missense mutation, resulting in the substitution of Phe for Cys, in a highly conserved region. Genotyping of 218 dogs from three breeds fixed for long hair, eight breeds fixed for short hair and five breeds in which long hair is segregating provided evidence that the missense mutation is associated with the hair-length differences among these breeds.


Subject(s)
Dogs/genetics , Fibroblast Growth Factor 5/genetics , Hair/anatomy & histology , Amino Acid Sequence , Animals , DNA Mutational Analysis , Dogs/anatomy & histology , Dogs/classification , Fibroblast Growth Factor 5/chemistry , Fibroblast Growth Factor 5/physiology , Gene Duplication , Genotype , Molecular Sequence Data , Mutation, Missense , Polymorphism, Genetic , Sequence Alignment
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