Change Descriptors for Determining Nodule Malignancy in Lung CT Screening Images

Geiger, Benjamin

07 December 2018

Computed tomography (CT) imagery is an important weapon in the fight against lung cancer; various forms of lung cancer are routinely diagnosed from CT imagery. The growth of the suspect nodule is known to be a prognostic factor in the diagnosis of pulmonary cancer, but the change in other aspects of the nodule, such as its aspect ratio, density, spiculation, or other features usable for machine learning, may also provide prognostic information. We hypothesized that adding combined feature information from multiple CT image sets separated in time could provide a more accurate determination of nodule malignancy. To this end, we combined data from multiple CT images for individual patients taken from the National Lung Screening Trial. The resulting dataset was compared to equivalent datasets featuring single CT images for each patient. Feature reduction and normalization was performed as is standard. The highest accuracy achieved was 83.71% on a subset of features chosen by a combination of manual feature stability testing and the Correlation-based Feature Selection algorithm and classified by the Random Forests algorithm. The highest accuracy achieved with individual CT images was 81.00%, on a feature set consisting solely of the volume of the nodule in cubic centimeters.

Classification

Computer-Aided Diagnosis

Lung Cancer

Prognosis

Radiomics

Computer Sciences

Radiotherapy x-ray dosage distribution in lung and air cavities

Wong, Tony Po Yin, University of Western Sydney, Nepean, Faculty of Science and Technology

January 1993

The effect of lateral electron disequilibrium on patient dose has been investigated. This has been achieved by dosimetry in lung and air cavity phantoms at megavoltage x-ray energies. The scatter function photon beam models for tissue inhomogeneity, such as the ETAR correction algorithm, currently implemented in commercial treatment planning systems do not predict the dose distribution accurately in many situations where lateral electron equilibrium does not exist. The lung phantom is made up of solid water slabs and lung analogue slabs. Using a thimble ionization chamber, a Markus ionization chamber and TLDs the problems of central axis dose reduction and penumbral flaring in lung for x-rays have been investigated. It is found that the ETAR correction predicts the dose at mid lung with varying degrees of accuracy depending on the field size. It was found that internal body cavities, depending on their size, experience underdose or overdose in the distal surfaces of the cavities when compared with the results predicted by an ETAR correction algorithm. Therefore, this energy is not recommended for use in situations where cavities arise / Master of Science (Hons)

radiation dosimetry

radiation doses

effect of radiation on lungs

lung cancer

Breath biomarkers associated with lung cancer

Tran , Vanessa Hoang, Medical Sciences, Faculty of Medicine, UNSW

January 2009

Lung cancer (LC) is often diagnosed at advanced stage and as a result, survival rates are low. Recent studies describe exhaled breath and exhaled breath condensate (EBC) as a potential non-invasive method of sampling the airways for assessing inflammation of the respiratory system, and possibly for the early detection of LC. It was hypothesised that higher concentrations of markers and protein will be present in the EBC of LC patients compared to those of normal controls and healthy smokers, and may aid in assessing lung status. Methods: The gaseous phase of breath was investigated for volatile organic compound (VOC) patterns using an electronic nose (eNose) system, in addition to off-line measurements of carbon monoxide (CO) and nitric oxide (NO) levels. The aqueous phase, EBC, was collected during tidal breathing through a glass collection device cooled to 4??C by ice. Nitrite/nitrate (NOx) and pH levels were determined by a fluorescent modification of the Griess method, and silicon chip sensor pH meter, respectively. Protein levels in EBC were examined with a bicinchoninic acid (BCA) assay, silver staining and PAGE techniques, while the levels of tumour markers, CYFRA 21-1 and CEA, were quantified by enzyme-linked immunosorbent assays (ELISA). Results: The eNose machine was not able to produce characteristic VOC profiles from exhaled breath unique to each study group, while no significant difference was observed for mean NOx concentrations in the LC group when compared to other subjects (p=0.8824). Higher protein levels were found in the EBC of LC patient compared to normal controls (p=0.0204), with subsequent measurements of elevated CEA levels observed in the LC group when compared to non-smokers and smokers (p=0.023). Conclusion: This study showed that protein can be detected in the exhaled breath condensate of patients, with a significantly elevated amount in the samples from newly diagnosed LC patients. The mechanism for these differences remains to be determined but may be related to inflammatory changes within the airway, such as vascular protein leakage and release of mediators. Future work may aim to identify the upregulated proteins, and focus on proteomics and tissue microarrays to explore candidate proteins.

Electronic nose.

Lung cancer.

Exhaled breath condensate

Protein.

Regrowth resistance in platinum-drug resistant small cell lung cancer cells

Stordal, Britta Kristina

January 2007

Doctor of Philosophy (PhD) / The H69CIS200 cisplatin-resistant and H69OX400 oxaliplatin-resistant cell lines developed as part of this study, are novel models of low-level platinum resistance. These resistant cell lines do not have common mechanisms of platinum resistance such as increased expression of glutathione or decreased platinum accumulation. Rather, these cell lines have alterations in their cell cycle allowing them to proliferate rapidly post drug treatment in a process known as ‘regrowth resistance’. This alteration in cell cycle control has come at the expense of DNA repair capacity. The resistant cell lines show a decrease in nucleotide excision repair and homologous recombination repair, the reverse of what is normally associated with platinum resistance. The alterations in these DNA repair pathways help signal the G1/S checkpoint to allow the cell cycle to progress despite the presence of DNA damage. The decrease in DNA repair capacity has also contributed to the development of chromosomal alterations in the resistant cell lines. Similarities in chromosomal change between the two platinum resistant cell lines have been attributed to inherent vulnerabilities in the parental H69 cells rather than part of the mechanism of resistance. The H69CIS200 and H69OX400 resistant cells are cross-resistant to both cisplatin and oxaliplatin. This demonstrates that oxaliplatin does not have increased activity in low-level cisplatin-resistant cancer. Oxaliplatin resistance also developed more rapidly than cisplatin resistance suggesting that oxaliplatin may be less effective than cisplatin in the treatment of SCLC. The resistant cell lines have also become hypersensitive to taxol but show no alterations in the expression, polymerisation or morphology of tubulin. Rather, the PI3K/Akt/mTOR pathway is involved in both platinum resistance and taxol sensitivity as both are reversed with rapamycin treatment. mTOR is also phosphorylated in the resistant cell lines indicating that platinum resistance is associated with an increase in activity of this pathway. The mechanism of regrowth resistance in the platinum-resistant H69CIS200 and H69OX400 cells is a combination of activation of PI3K/Akt/mTOR signalling and alterations in control of the G1/S cell cycle checkpoint. However, more work remains to determine which factors in these pathways are governing this novel mechanism of platinum resistance.

Cisplatin

Oxaliplatin

Drug Resistance

Small Cell Lung Cancer

Recovery following pneumonectomy: patients initial 2 year experience

McLean, Jocelyn Margaret

January 2003

Little is known about the recovery of patients after pneumonectomy and the impact of the surgery on the lifestyle of young, employed, ex-smokers and their families. This study was conducted to address this knowledge deficit, and gather information that would help health professionals to be able to assist people facing pneumonectomy. A qualitative study using van Manens methodological approach to interpretive phenomenology was chosen, in order to capture a full and rich understanding and meaning of the phenomenon that patients live. The names, age, operation, histological cell type, stage of disease, and disease free status of potential participants were obtained from a Lung Cancer Surgical Database after obtaining ethical approval for the study. Nine participants (three females and six males) met the inclusion criteria and gave informed consent for the study. Data collection comprised of open-ended interviews that were audiotaped, then transcribed verbatim into hard data. Data interpretation was based on the selective reading approach of van Manen from which six thematic statements arose. These are living the discomforts of treatment and recovery, discovering new limitations on myself; functional and emotional, my reliance on support, my financial security is threatened, my survival is at threat, and I wish I had known more. The study found that each participant had a unique experience of recovery and consequently the degree of recovery attained varied between participants. They all had a very strong desire to survive lung cancer and considered the risks of major surgery and loosing a lung to be insignificant compared to the certainty of loosing their life if they did not undergo surgery. This study provided a glimpse of what it was like for a group of patients to live the experience of life after a pneumonectomy and it provides a basis from which nurses can explore further the experiences of patients who are subjected to lung cancer surgery.

The Relevance of mTOR and Hypoxia Inducible Factor to 2-Deoxy-D-Glucose Toxicity in Lung Cancer Cell Lines Under Hypoxia

Wangpaichitr, Medhi

23 September 2008

Hypoxic regions found in most solid tumors often contain cells which are resistant to various cancer therapies. However, hypoxia also forces cells to rely solely on the catabolism of glucose through glycolysis for ATP production and survival, thereby creating a therapeutic window that can be exploited by glycolytic inhibitors, such as 2-deoxy-D-glucose (2-DG). Previous studies in our lab demonstrated that activation of Hypoxia Inducible Factor (HIF-1) in hypoxic tumor cells confers resistance to glycolytic inhibition by 2-DG. In surveying a number of tumor types for differences in intrinsic levels of HIF-1 alpha under hypoxia, we found that pathways upstream of HIF -- i.e. AKT and mammalian target of rapamycin (mTOR) -- have significantly reduced activity in 2 human non-small lung cancer cell lines (NSCLC) as compared to 4 small cell lung cancer cell (SCLC) lines. This reduced activity of AKT and mTOR correlated with increased sensitivity to 2-DG under hypoxia. Since HIF-1 alpha translation is regulated by the mammalian target of rapamycin (mTOR), we examined the effects of blocking mTOR with an analog of rapamycin (CCI-779) in SCLC cells which express high levels of mTOR activity. Under hypoxia, treatment with CCI-779 resulted in HIF-1 alpha down-regulation. Furthermore, CCI-779 potentiated the cytotoxic effects of 2-DG in hypoxic SCLC cells. Conversely, CCI-779 did not increase 2-DG toxicity in NSCLC lines that do not express HIF, SCLC lines treated with siRNA against HIF-1 alpha, or HIF-deficient mutants. These latter results support the hypothesis that, although mTOR modulates numerous downstream pathways, mTOR inhibition by CCI-779 increases the toxicity of 2-DG in hypoxic cells through down-regulation of HIF-1 alpha. Overall, our findings show that CCI-779 hyper-sensitizes HIF-expressing hypoxic tumor cells to 2-DG. Additionally, our results suggest that the intrinsic expression of AKT, mTOR, and HIF in many tumor types may be important predictors of clinical responsiveness to 2-DG and could be used to guide future treatment decisions on whether to use 2-DG alone or in combination with an mTOR inhibitor.

The expression and molecular functions of LRIG proteins in cancer and psoriasis / Uttryck och molekylära funktioner av LRIG proteiner i cancer och psoriasis

Karlsson, Terese

January 2013

The leucine-rich repeats and immunoglobulin-like domains (LRIG) family consists of three integral membrane proteins that are important in human cancer. LRIG1 is a negative regulator of growth factor signaling. Its expression is associated with longer survival in several cancer types, and the gene has been shown to function as a tumor suppressor. The roles of LRIG2 and LRIG3 are less well known. The aim of this thesis was to improve our understanding of the expression and function of the LRIG protein family in psoriasis and cancer. To investigate their expression in psoriasis, the mRNA levels and subcellular localization of the LRIG proteins were analyzed and compared between normal and psoriatic human skin. There were no differences in the LRIG mRNA levels between psoriatic and normal skin samples. However, the subcellular localization of all three LRIG proteins differed between psoriatic and normal skin. To study the physiological and molecular functions of Lrig2, we generated Lrig2E12-/- mice. These mice were viable and born at a Mendelian rate, but Lrig2E12-/- mice had an increased rate of spontaneous mortality and a transient reduction in growth rate compared to Lrig2 wild-type (wt) mice. In an orthotopic platelet-derived growth factor (PDGF)B-driven brain tumor mouse model, we studied the effect of Lrig2 on gliomagenesis. All Lrig2 wt mice developed tumors; 82% developed grade II/III tumors, and 18% developed grade IV tumors. Only 77% of the Lrig2E12-/- mice developed tumors, and they were all grade II/III tumors. Thus, Lrig2 increased the incidence and malignancy rates of PDGFB-driven gliomas. We then analyzed the effect of Lrig2 on Pdgf receptor (Pdgfr) signaling. Lrig2 had no effect on Pdgfr steady-state levels, the starvation-induced up-regulation of Pdgfrs, the phosphorylation of Pdgfrs, primary cilium formation or the PDGFBB-induced phosphorylation of Akt or Erk1/2. However, the kinetics of induction of the immediate-early genes Fos and Egr2 were altered, resulting in a more rapid induction in Lrig2E12-/- cells. We then analyzed the clinical and biological importance of LRIG1 in lung cancer. In a human lung cancer tissue micro-array (TMA), LRIG1 expression was found to be an independent positive prognostic factor for adenocarcinoma. To study the importance of Lrig1 regarding lung cancer development in vivo, we used an inducible EGFRL858R-driven mouse lung cancer model. The mice developed diffuse lung adenocarcinoma, and the tumor burden was greater in Lrig1-/- mice than in Lrig1+/+ mice (p = 0.025) at 60 days. The human lung cancer cell line H1975, with either normal or Tet-induced expression of LRIG1, was injected into the flanks of Balb/cA nude mice. Tumors formed by LRIG1-overexpressing cells were smaller than those formed by parental cells, further indicating that LRIG1 is important during lung tumor formation or growth. In vitro, LRIG1 suppressed the proliferation of H1975 cells and down-regulated the phosphorylation of MET and RET. To investigate the molecular functions of LRIG proteins further, we performed a yeast two-hybrid (YTH) screen using a peptide from the cytosolic tail of LRIG3 as bait. This screen identified LMO7 and LIMCH1 as prominent interaction partners for LRIG3. Proximity ligation assays showed that LMO7 interacted with all of the LRIG proteins at endogenous expression levels. LMO7 and LIMCH1 were expressed in all human tissues analyzed. Their expression was dramatically decreased in lung cancer compared to normal lung tissue. The expression of LMO7 was analyzed in a human lung cancer TMA. LMO7 was expressed in respiratory epithelial cells in normal lungs. However, LMO7 was only expressed in a quarter of the lung tumors. LMO7 expression was found to be an independent negative prognostic factor for lung cancer. In summary, we found that the LRIG proteins were redistributed in psoriatic skin. In a mouse glioma model, Lrig2 promoted oligodendroglioma genesis. LRIG1 was an independent positive prognostic factor in human lung cancer. Lrig1 ablation increased the tumor size in an EGFRL858R-driven lung cancer mouse model. LRIG1 expression decreased the tumor growth of human lung cancer cells in a xenograft mouse model. LMO7 interacted with all three LRIG proteins and was an independent negative prognostic factor in human lung cancer. These data demonstrate the importance of LRIG proteins in human disease.

LRIG1

LRIG2

LRIG3

LMO7 lung cancer

glioma

psoriasis

Molecular Characterisation and Prognostic Biomarker Discovery in Human Non-Small Cell Lung Cancer

Edlund, Karolina

January 2012

Non-small cell lung cancer (NSCLC) constitutes a clinically, histologically, and genetically heterogeneous disease entity that represents a major cause of cancer-related death. Early-stage patients, who undergo surgery with curative intent, experience high recurrence rates and the effect of adjuvant treatment is modest. Prognostic biomarkers would be of particular relevance to guide intensified treatment depending on expected outcome and moreover often infer a biological role in tumourigenesis. This thesis presents a translational study approach to establish a well-characterised NSCLC frozen-tissue cohort and to obtain a profile of each specimen with regard to genome-wide copy number alterations, global gene expression levels and somatic mutations in selected cancer-related genes. Furthermore, the generation of a formalin-fixed, paraffin-embedded tissue microarray enabled validation of findings on the protein level using immunohistochemistry. The comprehensive molecular characterisation, combined with data on clinical parameters, enabled the analysis of biomarkers linked to disease outcome. In Paper I, single nucleotide polymorphism arrays were applied to assess copy number alterations in NSCLC and associations with overall survival in adenocarcinoma and squamous cell carcinoma were described. In Paper II, we evaluated expression levels of selected stromal proteins in NSCLC using immunohistochemistry and the adhesion molecule CD99 was identified as an outcome-related biomarker in two independent cohorts. Paper III presents a strategy for prognostic biomarker discovery based on gene expression profiling, meta-analysis, and validation of protein expression on tissue microarrays, and suggests the putative tumour suppressor CADM1 as a candidate biomarker. In Paper IV, we propose a prognostic role for tumour-infiltrating IGKC-expressing plasma cells in the local tumour microenvironment, indicating an involvement of the humoral immune response in anti-tumor activity. In Paper V, we combined next-generation deep sequencing with statistical analysis of the TP53 database to define novel parameters for database curation. In summary, this thesis exemplifies the benefits of a translational study approach, based on a comprehensive tumour characterisation, and describes molecular markers associated with clinical outcome in NSCLC.

non-small cell lung cancer

biomarker

prognosis

microarray

copy number aberration

Environmental Risk Factors for Lung Cancer Mortality in the Cancer Prevention Study-II

Turner, Michelle C

10 January 2012

This thesis examined associations between ecological indicators of residential radon and fine particulate matter air pollution (PM2.5) and lung cancer mortality using data from the American Cancer Society Cancer Prevention Study-II (CPS-II) prospective cohort. Nearly 1.2 million CPS-II participants were recruited in 1982. Mean county-level residential radon concentrations were linked to study participants according to ZIP code information at enrollment (mean (SD) = 53.5 (38.0) Bq/m3). Cox proportional hazards regression models were used to obtain adjusted hazard ratios (HRs) and 95% confidence intervals (CI) for lung cancer mortality associated with radon. After necessary exclusions, a total of 811,961 participants in 2,754 counties were retained for analysis. A significant positive linear trend was observed between categories of radon concentrations and lung cancer mortality (p = 0.02). A 15% (95% CI 1 - 31%) increase in the risk of lung cancer mortality was observed per each 100 Bq/m3 radon. Radon was also positively associated with chronic obstructive pulmonary disease mortality (HR per each 100 Bq/m3 = 1.13, 95% CI 1.05 - 1.21). No clear associations were observed between radon and non-respiratory mortality. In lifelong never smokers (n = 188,699), each 10 µg/m3 increase in mean metropolitan statistical area PM2.5 concentrations was associated with a 15-27% increase in the risk of lung cancer death which strengthened among individuals with a history of asthma or any prevalent chronic lung disease at enrollment (p for interaction < 0.05). There was no association between PM2.5 and mortality from non-malignant respiratory disease. In conclusion, this thesis observed significant positive associations between ecological indicators of residential radon and PM2.5 concentrations and lung cancer mortality. These findings further support efforts to reduce radon concentrations in homes to the lowest possible level and strengthens the evidence that ambient concentrations of PM2.5 measured in recent decades are associated with small but measurable increases in lung cancer mortality. Further research is needed to better understand possible complex inter-relationships between environmental risk factors, chronic lung disease, and lung cancer.

radon

air pollution

lung cancer

COPD

cohort studies

Considerations for Standard Chest Radiography: the Long Film-Focus Distance Technique

SAKUMA, SADAYUKI, ISHIGAKI, TAKEO, ITO, KENGO, IKEDA, MITSURU, HIROSE, MITSUHIKO

03 1900

No description available.

Screening for lung cancer

Long film-focus distance

Radiography

Chest