BACKGROUND: Rapid-cycling, real-time PCR instruments bring the opportunity for improved intraoperative detection of metastasis to sentinel lymph nodes. Rapid, standardized, and internally controlled assays need to be developed that are sensitive and accurate. METHODS: We describe rapid, multiplexed, internally controlled, quantitative reverse transcription-PCR (QRT-PCR) assays for tyrosinase and carcinoembryonic antigen mRNAs on the SmartCycler (Cepheid). We used a temperature-controlled primer-limiting approach to eliminate amplification of the endogenous control gene as soon as its signal had reached threshold. Positive-control oligonucleotide mimics were incorporated into all reactions to differentiate failed reactions from true negative samples. RESULTS: The optimized assays for rapid QRT-PCR yielded results with threshold cycle values that were only 1-2 cycles higher than slower, more conventional protocols. In rapid PCR, the temperature-controlled multiplex assay was quantitative over a dynamic range of at least 15 cycles, compared with only 6 cycles for conventional multiplexing methods. All histologically positive lymph nodes examined were also QRT-PCR positive for the appropriate marker, and the exogenous, internal positive-control mimics produced signals in all negative samples. CONCLUSION: Internally controlled, rapid QRT-PCR assays can be performed in an intraoperative time frame and with sufficient sensitivity to detect histologically identified metastases to lymph nodes.
BACKGROUND: Rapid-cycling, real-time PCR instruments bring the opportunity for improved intraoperative detection of metastasis to sentinel lymph nodes. Rapid, standardized, and internally controlled assays need to be developed that are sensitive and accurate. METHODS: We describe rapid, multiplexed, internally controlled, quantitative reverse transcription-PCR (QRT-PCR) assays for tyrosinase and carcinoembryonic antigen mRNAs on the SmartCycler (Cepheid). We used a temperature-controlled primer-limiting approach to eliminate amplification of the endogenous control gene as soon as its signal had reached threshold. Positive-control oligonucleotide mimics were incorporated into all reactions to differentiate failed reactions from true negative samples. RESULTS: The optimized assays for rapid QRT-PCR yielded results with threshold cycle values that were only 1-2 cycles higher than slower, more conventional protocols. In rapid PCR, the temperature-controlled multiplex assay was quantitative over a dynamic range of at least 15 cycles, compared with only 6 cycles for conventional multiplexing methods. All histologically positive lymph nodes examined were also QRT-PCR positive for the appropriate marker, and the exogenous, internal positive-control mimics produced signals in all negative samples. CONCLUSION: Internally controlled, rapid QRT-PCR assays can be performed in an intraoperative time frame and with sufficient sensitivity to detect histologically identified metastases to lymph nodes.
Authors: Steven J Hughes; Liqiang Xi; Siva Raja; William Gooding; David J Cole; William E Gillanders; Keidi Mikhitarian; Kenneth McCarty; Susan Silver; Jesus Ching; William McMillan; James D Luketich; Tony E Godfrey Journal: Ann Surg Date: 2006-03 Impact factor: 12.969
Authors: Steven J Hughes; Liqiang Xi; William E Gooding; David J Cole; Michael Mitas; John Metcalf; Rohit Bhargava; David Dabbs; Jesus Ching; Lynn Kozma; William McMillan; Tony E Godfrey Journal: J Mol Diagn Date: 2009-10-01 Impact factor: 5.568
Authors: Robert L Ferris; Liqiang Xi; Raja R Seethala; Jon Chan; Shaun Desai; Benjamin Hoch; William Gooding; Tony E Godfrey Journal: Clin Cancer Res Date: 2011-02-25 Impact factor: 12.531
Authors: J Solassol; V Burcia; V Costes; J Lacombe; A Mange; E Barbotte; D de Verbizier; C Cartier; M Makeieff; L Crampette; N Boulle; T Maudelonde; B Guerrier; R Garrel Journal: Br J Cancer Date: 2009-12-08 Impact factor: 7.640