Your search keyword '"Lilge, Lothar"' showing total 27 results

1. Modeling the efficiency of UV at 254 nm for disinfecting the different layers within N95 respirators

Author

Abdalrhman, Abdallatif Satti, Wang, Chengjin, Manalac, Angelica, Weersink, Madrigal, Yassine, Abdul‐Amir, Betz, Vaughn, Barbeau, Benoit, Lilge, Lothar, Hofmann, Ron, Abdalrhman, Abdallatif Satti, Wang, Chengjin, Manalac, Angelica, Weersink, Madrigal, Yassine, Abdul‐Amir, Betz, Vaughn, Barbeau, Benoit, Lilge, Lothar, and Hofmann, Ron

Abstract

The study presented a Monte Carlo simulation of light transport in eight commonly used filtered facepiece respirators (FFRs) to assess the efficacy of UV at 254 nm for the inactivation of SARS-CoV-2. The results showed different fluence rates across the thickness of the eight different FFRs, implying that some FFR models may be more treatable than others, with the following order being (from most to least treatable): models 1512, 9105s, 1805, 9210, 1870+, 8210, 8110s and 1860, for single side illumination. The model predictions did not coincide well with some previously reported experimental data on virus inactivation when applied to FFR surfaces. The simulations predicted that FFRs should experience higher log reductions (>>6-log) than those observed experimentally (often limited to ~5-log). Possible explanations are virus shielding by aggregation or soiling, and a lack of the Monte Carlo simulations considering near-field scattering effects that can create small, localized regions of low UV photon probability on the surface of the fiber material. If the latter is the main cause in limiting practical UV viral decontamination, improvement might be achieved by exposing the FFR to UV isotropically from all directions, such as by varying the UV source to the FFR surface angle during treatment.

Published

2021

2. Wearable sensor system for multipoint measurements of blood perfusion: pilot studies in patients with diabetes mellitus

Author

Lilge, Lothar D., Philipp, Carsten M., Zherebtsov, Evgeny A., Zharkikh, Elena V., Kozlov, Igor O., Loktionova, Yulia I., Zherebtsova, Angelina I., Rafailov, Ilya E., Sokolovski, Sergei G., Sidorov, Victor V., Dunaev, Andrey V., Rafailov, Edik U., Lilge, Lothar D., Philipp, Carsten M., Zherebtsov, Evgeny A., Zharkikh, Elena V., Kozlov, Igor O., Loktionova, Yulia I., Zherebtsova, Angelina I., Rafailov, Ilya E., Sokolovski, Sergei G., Sidorov, Victor V., Dunaev, Andrey V., and Rafailov, Edik U.

Abstract

The growing interest in the development of new wearable electronic devices for mobile healthcare provides great opportunities for the development of methods for assessing blood perfusion in this direction. Laser Doppler flowmetry (LDF) is one of the promising methods. A fine analysis of capillary blood ow structure and rhythm in the time and frequency domains, coupled with a new possibility of round-the-clock monitoring can provide valuable diagnostic information about the state of microvascular blood ow. In this study, wearable implementation of laser Doppler flowmetry was utilised for microcirculatory function assessment in patients with diabetes and healthy controls of two distinct age groups. Four wearable laser Doppler flowmetry monitors were used for the analysis of blood microcirculation. Thirty-seven healthy volunteers and 18 patients with type 2 diabetes mellitus participated in the study. The results of the studies have shown that the average perfusion differs between healthy volunteers of distinct age groups and between healthy volunteers of the younger age group and patients with diabetes mellitus. It was noted that the average level of perfusion measured on the wrist in the two groups of healthy volunteers has no statistically significant differences found in similar measurements on the fingertips. The wearable implementation of LDF can become a truly new diagnostic interface to monitor cardiovascular parameters, which could be of interest for diagnostics of conditions associated with microvascular disorders.

Published

2019

3. Wearable sensor system for multipoint measurements of blood perfusion: pilot studies in patients with diabetes mellitus

Author

Lilge, Lothar D., Philipp, Carsten M., Zherebtsov, Evgeny A., Zharkikh, Elena V., Kozlov, Igor O., Loktionova, Yulia I., Zherebtsova, Angelina I., Rafailov, Ilya E., Sokolovski, Sergei G., Sidorov, Victor V., Dunaev, Andrey V., Rafailov, Edik U., Lilge, Lothar D., Philipp, Carsten M., Zherebtsov, Evgeny A., Zharkikh, Elena V., Kozlov, Igor O., Loktionova, Yulia I., Zherebtsova, Angelina I., Rafailov, Ilya E., Sokolovski, Sergei G., Sidorov, Victor V., Dunaev, Andrey V., and Rafailov, Edik U.

Abstract

The growing interest in the development of new wearable electronic devices for mobile healthcare provides great opportunities for the development of methods for assessing blood perfusion in this direction. Laser Doppler flowmetry (LDF) is one of the promising methods. A fine analysis of capillary blood ow structure and rhythm in the time and frequency domains, coupled with a new possibility of round-the-clock monitoring can provide valuable diagnostic information about the state of microvascular blood ow. In this study, wearable implementation of laser Doppler flowmetry was utilised for microcirculatory function assessment in patients with diabetes and healthy controls of two distinct age groups. Four wearable laser Doppler flowmetry monitors were used for the analysis of blood microcirculation. Thirty-seven healthy volunteers and 18 patients with type 2 diabetes mellitus participated in the study. The results of the studies have shown that the average perfusion differs between healthy volunteers of distinct age groups and between healthy volunteers of the younger age group and patients with diabetes mellitus. It was noted that the average level of perfusion measured on the wrist in the two groups of healthy volunteers has no statistically significant differences found in similar measurements on the fingertips. The wearable implementation of LDF can become a truly new diagnostic interface to monitor cardiovascular parameters, which could be of interest for diagnostics of conditions associated with microvascular disorders.

Published

2019

4. Wearable sensor system for multipoint measurements of blood perfusion: pilot studies in patients with diabetes mellitus

Author

Lilge, Lothar D., Philipp, Carsten M., Zherebtsov, Evgeny A., Zharkikh, Elena V., Kozlov, Igor O., Loktionova, Yulia I., Zherebtsova, Angelina I., Rafailov, Ilya E., Sokolovski, Sergei G., Sidorov, Victor V., Dunaev, Andrey V., Rafailov, Edik U., Lilge, Lothar D., Philipp, Carsten M., Zherebtsov, Evgeny A., Zharkikh, Elena V., Kozlov, Igor O., Loktionova, Yulia I., Zherebtsova, Angelina I., Rafailov, Ilya E., Sokolovski, Sergei G., Sidorov, Victor V., Dunaev, Andrey V., and Rafailov, Edik U.

Abstract

The growing interest in the development of new wearable electronic devices for mobile healthcare provides great opportunities for the development of methods for assessing blood perfusion in this direction. Laser Doppler flowmetry (LDF) is one of the promising methods. A fine analysis of capillary blood ow structure and rhythm in the time and frequency domains, coupled with a new possibility of round-the-clock monitoring can provide valuable diagnostic information about the state of microvascular blood ow. In this study, wearable implementation of laser Doppler flowmetry was utilised for microcirculatory function assessment in patients with diabetes and healthy controls of two distinct age groups. Four wearable laser Doppler flowmetry monitors were used for the analysis of blood microcirculation. Thirty-seven healthy volunteers and 18 patients with type 2 diabetes mellitus participated in the study. The results of the studies have shown that the average perfusion differs between healthy volunteers of distinct age groups and between healthy volunteers of the younger age group and patients with diabetes mellitus. It was noted that the average level of perfusion measured on the wrist in the two groups of healthy volunteers has no statistically significant differences found in similar measurements on the fingertips. The wearable implementation of LDF can become a truly new diagnostic interface to monitor cardiovascular parameters, which could be of interest for diagnostics of conditions associated with microvascular disorders.

Published

2019

5. Wearable sensor system for multipoint measurements of blood perfusion: pilot studies in patients with diabetes mellitus

Author

Lilge, Lothar D., Philipp, Carsten M., Zherebtsov, Evgeny A., Zharkikh, Elena V., Kozlov, Igor O., Loktionova, Yulia I., Zherebtsova, Angelina I., Rafailov, Ilya E., Sokolovski, Sergei G., Sidorov, Victor V., Dunaev, Andrey V., Rafailov, Edik U., Lilge, Lothar D., Philipp, Carsten M., Zherebtsov, Evgeny A., Zharkikh, Elena V., Kozlov, Igor O., Loktionova, Yulia I., Zherebtsova, Angelina I., Rafailov, Ilya E., Sokolovski, Sergei G., Sidorov, Victor V., Dunaev, Andrey V., and Rafailov, Edik U.

Abstract

The growing interest in the development of new wearable electronic devices for mobile healthcare provides great opportunities for the development of methods for assessing blood perfusion in this direction. Laser Doppler flowmetry (LDF) is one of the promising methods. A fine analysis of capillary blood ow structure and rhythm in the time and frequency domains, coupled with a new possibility of round-the-clock monitoring can provide valuable diagnostic information about the state of microvascular blood ow. In this study, wearable implementation of laser Doppler flowmetry was utilised for microcirculatory function assessment in patients with diabetes and healthy controls of two distinct age groups. Four wearable laser Doppler flowmetry monitors were used for the analysis of blood microcirculation. Thirty-seven healthy volunteers and 18 patients with type 2 diabetes mellitus participated in the study. The results of the studies have shown that the average perfusion differs between healthy volunteers of distinct age groups and between healthy volunteers of the younger age group and patients with diabetes mellitus. It was noted that the average level of perfusion measured on the wrist in the two groups of healthy volunteers has no statistically significant differences found in similar measurements on the fingertips. The wearable implementation of LDF can become a truly new diagnostic interface to monitor cardiovascular parameters, which could be of interest for diagnostics of conditions associated with microvascular disorders.

Published

2019

6. Gold nanoparticle-mediated laser stimulation causes a complex stress signal in neuronal cells

Author

Lilge, Lothar D., Sroka, Ronald, Johannsmeier, Sonja, Heeger, Patrick, Terakawa, Mitsuhiro, Kalies, Stefan, Heisterkamp, Alexander, Ripken, Tammo, Heinemann, Dag, Lilge, Lothar D., Sroka, Ronald, Johannsmeier, Sonja, Heeger, Patrick, Terakawa, Mitsuhiro, Kalies, Stefan, Heisterkamp, Alexander, Ripken, Tammo, and Heinemann, Dag

Abstract

Gold nanoparticle mediated laser stimulation of neuronal cells allows for cell activation on a single-cell level. It could therefore be considered an alternative to classical electric neurostimulation. The physiological impact of this new approach has not been intensively studied so far. Here, we investigate the targeted cell's reaction to a laser stimulus based on its calcium response. A complex cellular reaction involving multiple sources has been revealed. © 2017 SPIE-OSA.

Published

2017

7. Gold nanoparticle-mediated laser stimulation causes a complex stress signal in neuronal cells

Author

Lilge, Lothar D., Sroka, Ronald, Johannsmeier, Sonja, Heeger, Patrick, Terakawa, Mitsuhiro, Kalies, Stefan, Heisterkamp, Alexander, Ripken, Tammo, Heinemann, Dag, Lilge, Lothar D., Sroka, Ronald, Johannsmeier, Sonja, Heeger, Patrick, Terakawa, Mitsuhiro, Kalies, Stefan, Heisterkamp, Alexander, Ripken, Tammo, and Heinemann, Dag

Abstract

Gold nanoparticle mediated laser stimulation of neuronal cells allows for cell activation on a single-cell level. It could therefore be considered an alternative to classical electric neurostimulation. The physiological impact of this new approach has not been intensively studied so far. Here, we investigate the targeted cell's reaction to a laser stimulus based on its calcium response. A complex cellular reaction involving multiple sources has been revealed. © 2017 SPIE-OSA.

Published

2017

8. The LEGACY Girls Study: Growth and Development in the Context of Breast Cancer Family History.

Author

John, Esther M, John, Esther M, Terry, Mary Beth, Keegan, Theresa HM, Bradbury, Angela R, Knight, Julia A, Chung, Wendy K, Frost, Caren J, Lilge, Lothar, Patrick-Miller, Linda, Schwartz, Lisa A, Whittemore, Alice S, Buys, Saundra S, Daly, Mary B, Andrulis, Irene L, John, Esther M, John, Esther M, Terry, Mary Beth, Keegan, Theresa HM, Bradbury, Angela R, Knight, Julia A, Chung, Wendy K, Frost, Caren J, Lilge, Lothar, Patrick-Miller, Linda, Schwartz, Lisa A, Whittemore, Alice S, Buys, Saundra S, Daly, Mary B, and Andrulis, Irene L

Abstract

BackgroundAlthough the timing of pubertal milestones has been associated with breast cancer risk, few studies of girls' development include girls at increased breast cancer risk due to their family history.MethodsThe Lessons in Epidemiology and Genetics of Adult Cancer from Youth (LEGACY) Girls Study was initiated in 2011 in the USA and Canada to assess the relation between early life exposures and intermediate markers of breast cancer risk (e.g., pubertal development, breast tissue characteristics) and to investigate psychosocial well being and health behaviors in the context of family history. We describe the methods used to establish and follow a cohort of 1,040 girls ages 6-13 years at baseline, half with a breast cancer family history, and the collection of questionnaire data (family history, early life exposures, growth and development, psychosocial and behavioral), anthropometry, biospecimens, and breast tissue characteristics using optical spectroscopy.ResultsDuring this initial 5-year phase of the study, follow-up visits are conducted every 6 months for repeated data and biospecimen collection. Participation in baseline components was high (98% for urine, 97.5% for blood or saliva, and 98% for anthropometry). At enrollment, 77% of girls were premenarcheal and 49% were at breast Tanner stage T1.ConclusionsThis study design allows thorough examination of events affecting girls' growth and development and how they differ across the spectrum of breast cancer risk. A better understanding of early life breast cancer risk factors will be essential to enhance prevention across the lifespan for those with and without a family history of the disease.

Published

2016

9. The LEGACY Girls Study: Growth and Development in the Context of Breast Cancer Family History.

Author

John, Esther M, John, Esther M, Terry, Mary Beth, Keegan, Theresa HM, Bradbury, Angela R, Knight, Julia A, Chung, Wendy K, Frost, Caren J, Lilge, Lothar, Patrick-Miller, Linda, Schwartz, Lisa A, Whittemore, Alice S, Buys, Saundra S, Daly, Mary B, Andrulis, Irene L, John, Esther M, John, Esther M, Terry, Mary Beth, Keegan, Theresa HM, Bradbury, Angela R, Knight, Julia A, Chung, Wendy K, Frost, Caren J, Lilge, Lothar, Patrick-Miller, Linda, Schwartz, Lisa A, Whittemore, Alice S, Buys, Saundra S, Daly, Mary B, and Andrulis, Irene L

Abstract

BackgroundAlthough the timing of pubertal milestones has been associated with breast cancer risk, few studies of girls' development include girls at increased breast cancer risk due to their family history.MethodsThe Lessons in Epidemiology and Genetics of Adult Cancer from Youth (LEGACY) Girls Study was initiated in 2011 in the USA and Canada to assess the relation between early life exposures and intermediate markers of breast cancer risk (e.g., pubertal development, breast tissue characteristics) and to investigate psychosocial well being and health behaviors in the context of family history. We describe the methods used to establish and follow a cohort of 1,040 girls ages 6-13 years at baseline, half with a breast cancer family history, and the collection of questionnaire data (family history, early life exposures, growth and development, psychosocial and behavioral), anthropometry, biospecimens, and breast tissue characteristics using optical spectroscopy.ResultsDuring this initial 5-year phase of the study, follow-up visits are conducted every 6 months for repeated data and biospecimen collection. Participation in baseline components was high (98% for urine, 97.5% for blood or saliva, and 98% for anthropometry). At enrollment, 77% of girls were premenarcheal and 49% were at breast Tanner stage T1.ConclusionsThis study design allows thorough examination of events affecting girls' growth and development and how they differ across the spectrum of breast cancer risk. A better understanding of early life breast cancer risk factors will be essential to enhance prevention across the lifespan for those with and without a family history of the disease.

Published

2016

10. Fast and automatic depth control of iterative bone ablation based on optical coherence tomography data

Author

Lilge, Lothar D., Sroka, Ronald, Fuchs, Alexander, Pengel, Steffen, Bergmeier, Jan, Kahrs, Lüder Alexander, Ortmaier, Tobias, Lilge, Lothar D., Sroka, Ronald, Fuchs, Alexander, Pengel, Steffen, Bergmeier, Jan, Kahrs, Lüder Alexander, and Ortmaier, Tobias

Abstract

Laser surgery is an established clinical procedure in dental applications, soft tissue ablation, and ophthalmology. The presented experimental set-up for closed-loop control of laser bone ablation addresses a feedback system and enables safe ablation towards anatomical structures that usually would have high risk of damage. This study is based on combined working volumes of optical coherence tomography (OCT) and Er:YAG cutting laser. High level of automation in fast image data processing and tissue treatment enables reproducible results and shortens the time in the operating room. For registration of the two coordinate systems a cross-like incision is ablated with the Er:YAG laser and segmented with OCT in three distances. The resulting Er:YAG coordinate system is reconstructed. A parameter list defines multiple sets of laser parameters including discrete and specific ablation rates as ablation model. The control algorithm uses this model to plan corrective laser paths for each set of laser parameters and dynamically adapts the distance of the laser focus. With this iterative control cycle consisting of image processing, path planning, ablation, and moistening of tissue the target geometry and desired depth are approximated until no further corrective laser paths can be set. The achieved depth stays within the tolerances of the parameter set with the smallest ablation rate. Specimen trials with fresh porcine bone have been conducted to prove the functionality of the developed concept. Flat bottom surfaces and sharp edges of the outline without visual signs of thermal damage verify the feasibility of automated, OCT controlled laser bone ablation with minimal process time. © SPIE-OSA.

Published

2015

11. Fast and automatic depth control of iterative bone ablation based on optical coherence tomography data

Author

Lilge, Lothar D., Sroka, Ronald, Fuchs, Alexander, Pengel, Steffen, Bergmeier, Jan, Kahrs, Lüder Alexander, Ortmaier, Tobias, Lilge, Lothar D., Sroka, Ronald, Fuchs, Alexander, Pengel, Steffen, Bergmeier, Jan, Kahrs, Lüder Alexander, and Ortmaier, Tobias

Abstract

Laser surgery is an established clinical procedure in dental applications, soft tissue ablation, and ophthalmology. The presented experimental set-up for closed-loop control of laser bone ablation addresses a feedback system and enables safe ablation towards anatomical structures that usually would have high risk of damage. This study is based on combined working volumes of optical coherence tomography (OCT) and Er:YAG cutting laser. High level of automation in fast image data processing and tissue treatment enables reproducible results and shortens the time in the operating room. For registration of the two coordinate systems a cross-like incision is ablated with the Er:YAG laser and segmented with OCT in three distances. The resulting Er:YAG coordinate system is reconstructed. A parameter list defines multiple sets of laser parameters including discrete and specific ablation rates as ablation model. The control algorithm uses this model to plan corrective laser paths for each set of laser parameters and dynamically adapts the distance of the laser focus. With this iterative control cycle consisting of image processing, path planning, ablation, and moistening of tissue the target geometry and desired depth are approximated until no further corrective laser paths can be set. The achieved depth stays within the tolerances of the parameter set with the smallest ablation rate. Specimen trials with fresh porcine bone have been conducted to prove the functionality of the developed concept. Flat bottom surfaces and sharp edges of the outline without visual signs of thermal damage verify the feasibility of automated, OCT controlled laser bone ablation with minimal process time. © SPIE-OSA.

Published

2015

12. Molecular Determinants of Radio Resistance in Prostate Cancer

Author

UNIVERSITY HEALTH NETWORK TORONTO (ONTARIO) GRANT AND CONTRACT SERVICES, Bristow, Robert G., Molosevic, Michael, Warde, Padraig, Lilge, Lothar, Squire, Jeremy, van Weerden, Wystke, UNIVERSITY HEALTH NETWORK TORONTO (ONTARIO) GRANT AND CONTRACT SERVICES, Bristow, Robert G., Molosevic, Michael, Warde, Padraig, Lilge, Lothar, Squire, Jeremy, and van Weerden, Wystke

Abstract

We are studying the radiation response of prostate tissues in relation to the sensing and repair of DNA breaks. Specific aims relate to determining the interaction of DNA repair proteins in vitro using immunoflorescent confocal microscopy and biochemical DNA rejoining assays under both hypoxic and oxic conditions (given in vivo tumour cell populations). An in vivo program of prostate xenograft radioresponse and patient biopsy studies will determine the level of DNA repair in situ using immunohistochemistry and immunoflorescent markers. Our studies show that DNA repair protein expression is abnormal in malignant versus normal prostate epithelial cultures, and that particularly the Rad51 protein is defective in localizing to the nucleus following DNA damage. We have accrued 13 patients onto a pre-operative radiotherapy trial and post-irradiation immunohistochemistry supports an induction of p53-pathway signaling following 25Gy in 5 fractions. Current experiments are designed to determine whether DNA protein focal interactions using 2-photon microscopy can predict the radioresponse of prostate xenografts and human tumors, in vivo. Our studies support the use of novel molecular based therapies that target DNA repair for prostate cancer therapy., The original document contains color images. All DTIC reproductions will be in black and white.

Published

2004

13. Optical Transillumination Spectroscopy of Breast Tissue to Determine the Cancer Risk in Pre and Post-Menopausal Women

Author

ONTARIO CANCER INST/PRINCESS MARGARET HOSPITAL TORONTO, Lilge, Lothar D., ONTARIO CANCER INST/PRINCESS MARGARET HOSPITAL TORONTO, and Lilge, Lothar D.

Abstract

Cancer risk assessment is becoming an important tool in determining an individual's screening and surveillance needs in order to maximize the probability of early cancer detection, or to initiate interventions. We investigated the use of optical transillumination spectroscopy as a physical measurement to quantify breast cancer risk, using breast tissue density resulting form standard mammography as comparator. By using only non-ionizing radiation, optical transillumination spectroscopy can be applied to women of all ages and frequently. Here, we established the sensitivity and specificity of identifying the parenchymal tissue density in women without radiological lesions, as an indirect measure of breast cancer risk. Parenchymal density pattern and optical transillumination spectroscopy quantifies physical parameters of the breast. Using visible/near infrared light the tissue chromophore compositions and morphology is interrogated. We measured spectra for 4 quadrants in each breast and using principle component analysis were able to achieve a sensitivity and specificity of > 0.97 each, demonstrating that optical transillumination will provide at least the same odds ratio for breast cancer risk as mammographic densities. Future work will focus on establishing a direct link with risk, so as to determine the true odds ration towards breast cancer, and on the feasibility to monitor risk changes in individuals undergoing intervention strategies.

Published

2003

14. Optical Transillumination Spectroscopy of Breast Tissue to Determine the Cancer Risk in Pre- and Post-Menopausal Women

Author

ONTARIO CANCER INST/PRINCESS MARGARET HOSPITAL TORONTO, Lilge, Lothar D., Wilson, Brian C., Jong, Roberta, Yaffe, Martin, Boyd, Norman, ONTARIO CANCER INST/PRINCESS MARGARET HOSPITAL TORONTO, Lilge, Lothar D., Wilson, Brian C., Jong, Roberta, Yaffe, Martin, and Boyd, Norman

Abstract

The objective of this study is to demonstrate a correlation between non-invasive optical transillumination spectroscopy and parenchymal density pattern, which are know to provide the highest odds ration for the risk of developing breast Cancer. The study includes pre- and post- menopausal women. Initial results indicate that optical transillumination spectroscopy can differentiate between high and low parenchymal density with sensitivity and specificity > 90 for the study group (n= 225), after the introduction of stratification for the position on the breast. Additional analysis models the percent dense tissue area from the measured transillumination spectrum. A separate study investigates the influence of the menstrual cycle upon the transillumination spectra and no significant effects are noted. ____, The original document contains color images. All DTIC reproductions will be in black and white.

Published

2003

15. Molecular Determinants of Radioresponse in Prostate Cancer

Author

UNIVERSITY HEALTH NETWORK TORONTO (ONTARIO) GRANT AND CONTRACT SERVICES, Bristow, Robert G, Milosevic, Michael, Warde, Padraig, Lilge, Lothar, Squire, Jeremy, van Weerden, Wystke, UNIVERSITY HEALTH NETWORK TORONTO (ONTARIO) GRANT AND CONTRACT SERVICES, Bristow, Robert G, Milosevic, Michael, Warde, Padraig, Lilge, Lothar, Squire, Jeremy, and van Weerden, Wystke

Abstract

The overall hypothesis of this project is that the radiation response of normal and cancerous prostate tissues can be correlated to the appropriate sensing and repair of DNA breaks by repair complexes following exposure to ionizing radiation. Specific aims relate to determining the interaction of DNA repair proteins in vitro using immunofluorescence confocal microscopy and biochemical DNA rejoining assays under both hypoxic and oxic conditions (given in vivo tumor cell populations). An in vivo program of prostate xenograft radioresponse is also being initiated to determine the level of DNA repair in situ using immunohistochemistry and immunofluorescence markers. Our studies show that terminal growth arrest rather than apoptosis is the major death pathway for irradiated prostate cancer cells and that prostate cancer cells have a DNA repair defect when compared to normal prostate epithelial cells. This appears to be related to the expression and intracellular function of the rad51 protein., Personally Identifiable Information (PII) was redacted.

Published

2002

16. Endoscope shape-tracker based on embedded fluorescent dyes in an optical fiber

Author

Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, Cao, Caroline G.L., Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, and Cao, Caroline G.L.

17. Design of a navigational aid for colonoscopy

Author

Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, Cao, Caroline G.L., Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, and Cao, Caroline G.L.

18. Design of an endoscope shape tracker to guide navigation in colonoscopy

Author

Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, Cao, Caroline G.L., Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, and Cao, Caroline G.L.

19. Localized active-cladding optical fiber bend sensor

Author

Gavalis, Robb M., Wong, Peter Y., Eisenstein, Jessica A., Lilge, Lothar D., Cao, Caroline G.L., Gavalis, Robb M., Wong, Peter Y., Eisenstein, Jessica A., Lilge, Lothar D., and Cao, Caroline G.L.

20. A totally implantable hearing device for restoration of hearing

Author

Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, Cao, Caroline G.L., Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, and Cao, Caroline G.L.

21. Advanced shape tracking to improve flexible endoscopic diagnostics

Author

Cao, Caroline G.L., Wong, Peter Y., Lilge, Lothar, Gavalis, Robb M., Xing, Hua, Zamarripa, Nate, Cao, Caroline G.L., Wong, Peter Y., Lilge, Lothar, Gavalis, Robb M., Xing, Hua, and Zamarripa, Nate

22. A totally implantable hearing device for restoration of hearing

Author

Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, Cao, Caroline G.L., Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, and Cao, Caroline G.L.

23. Localized active-cladding optical fiber bend sensor

Author

Gavalis, Robb M., Wong, Peter Y., Eisenstein, Jessica A., Lilge, Lothar D., Cao, Caroline G.L., Gavalis, Robb M., Wong, Peter Y., Eisenstein, Jessica A., Lilge, Lothar D., and Cao, Caroline G.L.

24. Endoscope shape-tracker based on embedded fluorescent dyes in an optical fiber

Author

Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, Cao, Caroline G.L., Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, and Cao, Caroline G.L.

25. Design of an endoscope shape tracker to guide navigation in colonoscopy

Author

Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, Cao, Caroline G.L., Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, and Cao, Caroline G.L.

26. Design of a navigational aid for colonoscopy

Author

Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, Cao, Caroline G.L., Gavalis, Robb M., Xing, Hua, Wong, Peter Y., Lilge, Lothar, and Cao, Caroline G.L.

27. Advanced shape tracking to improve flexible endoscopic diagnostics

Author

Cao, Caroline G.L., Wong, Peter Y., Lilge, Lothar, Gavalis, Robb M., Xing, Hua, Zamarripa, Nate, Cao, Caroline G.L., Wong, Peter Y., Lilge, Lothar, Gavalis, Robb M., Xing, Hua, and Zamarripa, Nate