Explore the Relationship Among Lung Cancer Stigma, Social Support, and Psychosocial Distress

Maggio, Lisa

01 January 2015

There is longstanding causal relationship between cigarette smoking and lung cancer. Smoke-free policies and anti-smoking campaigns have been linked to the decline in smoking acceptance and contribute to the unintended consequence of stigmatizing smokers. Lung cancer is viewed as a self-inflicted disease and patients’ feel judged in a manner different from other cancers affecting social interactions between family, friends, and healthcare professionals. Lung cancer stigma contributes to depression, anxiety, poor self-esteem, guilt, shame, blame, threatens a person’s social identity, and limits social support that deeply affects patients and their support persons. This dissertation contains a review of the literature related to smoking and stigma, an evaluation of the psychometric properties of an investigator-developed instrument, “Lung Cancer Stigma Scale” (LuCaSS) and the main findings from a cross-sectional observational study of 104 lung cancer patients assessing factors associated with lung cancer stigma. The Model of Stigma Induced Identity Threat provides the framework to examine stigma and the relationship between social constraints, self-esteem, and smoking and to test whether social support mediates the relationship between stigma, and depression/anxiety. The LuCaSS was a reliable and valid instrument measuring lung cancer stigma (alpha = 0.89). The principle components analysis determined three subscales measuring internalized stigma: social rejections/judgment, blame/guilt, and shame. Social constraints, self-esteem, smoking each significantly contributed to the prediction of stigma controlling for SES. Lung cancer patients with greater social constraints and lower self-esteem and who were smokers scored higher on stigma. Social support was a mediator for the relationship between stigma and depression but not for anxiety. The findings are consistent with Stigma Induced Identity Threat Model. A stigmatized identity can lead to stress-related health outcomes such as depression. A lung cancer diagnosis has numerous negative psychosocial effects on patients. Integrating stigma tools (i.e. LuCaSS) in practice settings may assist with determining potential stigma related distress among lung cancer patients. Emphasizing the need for social support and implementing more advocacy efforts may also help minimize the effects of stigma and depression. Future studies are necessary to further examine the role of social support in minimizing stigma and psychosocial distress.

Stigma

smoking

lung cancer

social constraints

self-esteem

social support

Nursing

Social Psychology

P53 suppresses expression of the 14-3-3gamma oncogene

Radhakrishnan, Vijayababu, Putnam, Charles, Qi, Wenqing, Martinez, Jesse

January 2011

BACKGROUND:14-3-3 proteins are a family of highly conserved proteins that are involved in a wide range of cellular processes. Recent evidence indicates that some of these proteins have oncogenic activity and that they may promote tumorigenesis. We previously showed that one of the 14-3-3 family members, 14-3-3gamma, is over expressed in human lung cancers and that it can induce transformation of rodent cells in vitro.METHODS:qRTPCR and Western blot analysis were performed to examine 14-3-3gamma expression in non-small cell lung cancers (NSCLC). Gene copy number was analyzed by qPCR. P53 mutations were detected by direct sequencing and also by western blot. CHIP and yeast one hybrid assays were used to detect p53 binding to 14-3-3gamma promoter.RESULTS:Quantitative rtPCR results showed that the expression level of 14-3-3gamma was elevated in the majority of NSCLC that we examined which was also consistent with protein expression. Further analysis of the expression pattern of 14-3-3gamma in lung tumors showed a correlation with p53 mutations suggesting that p53 might suppress 14-3-3 gamma expression. Analysis of the gamma promoter sequence revealed the presence of a p53 consensus binding motif and in vitro assays demonstrated that wild-type p53 bound to this motif when activated by ionizing radiation. Deletion of the p53 binding motif eliminated p53's ability to suppress 14-3-3gamma expression.CONCLUSION:Increased expression of 14-3-3gamma in lung cancer coincides with loss of functional p53. Hence, we propose that 14-3-3gamma's oncogenic activities cooperate with loss of p53 to promote lung tumorigenesis.

Lung cancer

14-3-3

p53 mutations

Gene Copy

Transcription Regulation

Quartz in Swedish iron foundries : exposure and cancer risk

Andersson, Lena

January 2012

The aims of the studies underlying this thesis were to assess the exposure to quartz in Swedish iron foundries and to determine the cancer morbidity for Swedish foundry workers. A cohort of 3,045 foundry workers and a final measurement database of 2,333 number of samples was established. The exposure measurements showed high levels of respirable quartz, in particular for fettlers and furnace and ladle repair workers with individual 8 hr TWA (GM=0.041 and 0.052 mg/m3; range 0.004-2.1 and 0.0098-0.83 mg/m3). In our database, the quartz concentrations as 8hr TWAs of current and historical data varied between 0.0018 and 4.9 mg/m3, averaging 0.083 mg/m3, with the highest exposures for fettlers (0.087 mg/m3) and furnace and ladle repair workers (0.42 mg/m3). The exposure for workers using respirators assuming full effect when used were assessed quantitatively, revealing workers with actual exposure exceeding the occupational exposure limits. Overall cancer morbidity was not increased, but the incidence of lung cancer was significantly elevated (SIR 1.61; 95 % CI 1.20-2.12). In the cohort study, significant associations between lung cancer and cumulative quartz exposure were detected for quartz doses of 1-2 mg/m3 * year (SIR 2.88; 95 % CI 1.44-5.16) and >2 mg/m3 * year (SIR 1.68; 95 % CI 1.07- 2.52). These findings were not confirmed in the case-control analysis. The agreement between the estimated exposure in our early historical model and the development model showed a regression coefficient of 2.42, implying an underestimation of the historical exposure when using the development model data. The corresponding comparison between the development and the validation model based on our survey data showed a B of 0.31, implying an overestimation of present exposures when using data from the validation model. The main conclusions of the thesis are that certain foundry workers are still exposed to high levels of quartz, and the overall excess lung cancer could not be confirmed in the exposure-response analysis.

Case-control study

crystalline silica

exposure assessment

iron foundry

lung cancer

morbidity

occupational hygiene

respirable quartz

Cellular innate immune responses to lung resection via video-assisted thoracoscopic surgery (VATS) and thoracotomy : predictors of post-operative pneumonia

Jones, Richard Oliver

January 2013

Background and Objectives: The pathophysiology of post-operative pneumonia following lung resection is poorly understood despite it being the most common complication which may lead to death. The role of the acute inflammatory response following lung resection, in particular innate immune cells, was investigated and used to identify biomarkers for post-operative pneumonia. Comparison of inflammatory responses to resection undertaken by video-assisted thorascopic surgery (VATS) and thoracotomy was also evaluated. Methods: Patients undergoing lung resection for suspected bronchogenic carcinoma were recruited. Objective pre-defined criteria were used to diagnose pneumonia. Bronchoalveolar lavage (BAL) was conducted in the contra-lateral lung pre- and postoperatively to measure cellular composition and cytokines. Blood was sampled preoperatively and 6-, 24- and 48-hours post-operatively primarily to assess neutrophil phagocytic capacity, monocyte subsets, monocyte cytokine responses to lipopolysaccharide (LPS) stimulation and serum cytokine responses. Exhaled nitric oxide (eNO) was also measured at these time points. Patient groups were compared using paired or student t-tests together with ANOVA/ANCOVA modelling. The predictive strength of the biomarkers identified was tested. Results: 40 patients were recruited. 26 patients (65%) underwent major lung resection using VATS and 14 (35%) thoracotomy. There was a post-operative blood monocytosis (p<0.0005) with an absolute expansion of classical and intermediate monocytes (p=0.001) and a relative fall in non-classical monocytes (p<0.005). Post-operatively blood monocytes became more pro-inflammatory with an overall significant increase in IL-8 (p=0.034) and TNF-α (p=0.028) together with an increase in IL-6 (p=0.028) and IL-10 by 48 hours (p=0.010). VATS was associated with a smaller release of IL-10 only (p=0.011). There was a general trend towards post-operative reduction in neutrophil phagocytosis of zymosan (in suspension) on ANOVA modelling (p=0.047). Lung resection led to an increase in serum cytokines IL-6, IL-8 and IL-10 which peaked at 24hrs before falling (p<0.0005). ANOVA modelling confirmed significantly lower levels of serum cytokines in VATS patients compared with thoracotomy (p=0.026 for IL-6, p=0.018 for IL-8 p=0.047 for IL-10). No significant post-operative change was found for IL-1β, TNF-α and IL-12p70 (p>0.05). Bronchoalveolar lavage fluid (BALF) and blood samples demonstrated a relative post-operative leucocytosis due principally to neutrophilia. A relative blood lymphopenia and thrombocytopenia developed postoperatively (p<0.0005). VATS was associated with a lower fall in serum albumin (p=0.001). BALF from the non-operated lung became more pro-inflammatory immediately post-operatively with an increase in IL-6 (p<0.0005), IL-8 (p=0.017), IL- 10 (p=0.018) and IL-1β (p=0.002). eNO tended to fall post-operatively which reached significance at 48 hrs (p=0.029). 14 patients developed pneumonia. Pre-operatively, a blood neutrophil count above 5.04x109/L had a relative risk (RR) for pneumonia of 3.3 (95% confidence interval (CI95) 1.1-10.1), and a BAL cell count of greater than 1.04x105/ml had a RR of 3.4 (CI95 1.3-9.0), whilst LPS-stimulated monocyte secretion of IL-12 of less than 0.15 pg/ml/μg protein had a RR of 3.0 (CI95 1.2-7.3). At 24 hours post-operatively, LPS-stimulated release from monocytes of IL-10 greater than 1.99 pg/ml/μg protein (RR 4.1, CI95 1.3- 12.3) and IL-6 greater than 414 pg/ml/μg protein (RR 3.1, CI95 1.2-8.1) were predictive of pneumonia. Conclusion: Lung resection is associated with significant early pro- and antiinflammatory responses. VATS resection invoked significantly lower levels of serum cytokines and albumin changes compared with thoracotomy suggesting VATS lobectomy should be the surgical treatment strategy of choice for early stage lung cancer. No difference in neutrophil function or monocyte function was however observed between the surgical groups. Clinical benefits of this reduced inflammation need to be evaluated in a larger cohort of patients. Relative pre-operative leucocytosis in blood and BAL together with monocyte hyper-responsiveness in the early postoperative period is associated with the development of pneumonia. These findings warrant further investigation for their predictive power in accurately identifying postoperative pneumonia. Ultimately, they may be incorporated into a risk stratification model enabling targeted prophylactic or earlier therapeutic intervention.

617.5

An integrative strategy for targeted evaluation of biomarker expression in non-small cell lung cancer

Mattsson, Johanna

January 2016

Despite improvements in therapy, the prognosis for non-small cell lung cancer (NSCLC) patients remains poor, and cure is only possible in localized tumors after surgical resection. A new generation of targeted cancer drugs has led to the expectation that lung cancer therapy can be significantly improved, but these drugs are today only an option in a small subset of NSCLC patients, and their effect is temporary. Therefore, the aim of this thesis was to characterize NSCLC in order to find new treatment targets and to evaluate biomarkers that further optimize therapy selection. In Paper I, the expression of the potential treatment targets claudin 6 and claudin 18.2 were evaluated based on immunohistochemical- and gene expression analysis. High ectopic protein and gene expression were demonstrated for both claudins in small subgroups of NSCLC. Clinical trials using humanized monoclonal antibodies against both proteins are ongoing in other cancer forms and may be extended to NSCLC. In Paper II, the prognostic impact of the inflammatory mediator cyclooxygenase 2 (COX-2) was evaluated. No prognostic significance was found in a meta-analysis incorporating gene expression data of 1337 NSCLC patients. Likewise, COX-2 protein expression in tumor cells was not associated with survival in two independent NSCLC cohorts. However, in one of the analyzed cohorts, higher COX-2 expression in the tumor stroma was associated with longer survival and may therefore be a subject for further investigation. In Paper III, tumor and stromal COX-2 protein expression was examined in patients treated with the COX-2 inhibitor celecoxib in order to evaluate if COX-2 expression is a predictive biomarker for benefit of celecoxib therapy. Celecoxib did not prolong overall survival neither in the whole cohort nor in patients stratified according to COX-2 expression in tumor or stromal cells. Noteworthy, a tendency towards longer survival was again demonstrated in patients with high COX-2 stromal expression. In Paper IV, the diagnostic methods for identification of ALK rearrangements were assessed in a large representative Swedish NSCLC population. Fluorescence in situ hybridization (FISH), as the diagnostic standard, was compared to two immunohistochemical assays. ALK gene expression levels were incorporated to supplement the molecular data. The frequency of ALK rearrangements was lower than previously reported. The different methods to detect the ALK fusion demonstrated overlapping results. However, the overlap was poor, so the methods cannot be regarded as interchangeable and should thereby be interpreted with caution when used in clinical diagnostics. In summary, this thesis applied an integrative translational approach to characterize potential new treatment targets and to evaluate the detection of existing predictive biomarkers in NSCLC.

non-small cell lung cancer

prognostic biomarkers

predictive biomarkers

immunohistochemistry

gene expression

COX-2

claudin

ALK

Physiotherapy interventions and outcomes following lung cancer surgery

Brocki, Barbara C

January 2015

The aim of this thesis was to evaluate the effect of exercise training and inspiratory muscle training and to describe pulmonary function, respiratory muscle strength, physical performance and health-related quality of life (HRQoL) following lung cancer surgery. Study I was a randomised controlled trial including 78 patients radically operated for lung cancer. The intervention group received 10 sessions of supervised exercise training in addition to home-based exercise; the control group was instructed on home-exercise alone. Supervised compared to non-supervised exercise training did not result in differences between groups in HRQoL, except for the SF-36 bodily pain domain four months after the surgery. No effects of supervised training were found for any outcome after one year. Study II was descriptive and was based on the study I sample. We evaluated the course of recovery of HRQoL and physical performance up to one year following surgery. All patients improved HRQoL and physical performance one year after the surgery, reaching values comparable to a reference healthy population. The walked distance was positively associated with the SF-36 domain for physical functioning. Study III was descriptive, included 81 patients and evaluated the influence of surgery on respiratory muscle strength, lung function and physical performance two weeks and six months after surgery. We found that respiratory muscle strength was not affected after the second postoperative week and that muscle-sparring thoracotomy did not deteriorate respiratory muscle strength, compared to video-assisted thoracic surgery. Compared to preoperative values, physical performance was recovered, whereas lung function remained reduced six months postoperatively. Study IV was a randomised controlled trial including 68 patients at high risk of developing postoperative pulmonary complications (PPC). This study evaluated the effects of two weeks of postoperative inspiratory muscle training in addition to breathing exercises and early mobilisation on respiratory muscle strength and the incidence of PPC. Additional inspiratory muscle training did not increase respiratory muscle strength, but improved postoperative oxygenation. Respiratory muscle strength was recovered in both groups two weeks postoperatively.

lung cancer

surgery

quality of life

exercise

inspiratory muscle training

physical performance

pulmonary complications

Liquid biopsies of solid tumors: non-small-cell lung and pancreatic cancer

Kalubowilage, Madumali

January 1900

Doctor of Philosophy / Department of Chemistry / Stefan H. Bossmann / Cancer is a group of diseases that are characterized by uncontrolled growth and spread of cells. In order to treat cancer successfully, it is important to diagnose cancers in their early stages, because survival often depends on the stage of cancer detection. For that purpose, highly sensitive and selective methods must be developed, taking advantage of suitable biomarkers. The expression levels of proteases differ from one cancer type to the other, because different cancers arise from different cell types. According to the literature, there are significant differences between the protease expression levels of cancer patients and healthy people, because solid tumors rely on proteases for survival, angiogenesis and metastasis. Development of fluorescence-based nanobiosensors for the early detection of pancreatic cancer and non-small-cell lung cancer is discussed in this thesis. The nanobiosensors are capable of detecting protease/arginase activities in serum samples over a broad range. The functionality of the nanobiosensor is based on Förster resonance energy transfer and surface energy transfer mechanisms. The nanobiosensors for protease detection feature dopamine-coated Fe/Fe₃O₄ nanoparticles, consensus (cleavage) peptide sequences, meso-tetra(4-carboxyphenyl)porphine (TCPP), and cyanine 5.5. The consensus peptide sequences were synthesized by solid-supported peptide synthesis. In this thesis, improved consensus sequences were used, which permit faster synthesis and higher signal intensities. TCPP, which is the fluorophore of the nanoplatform, was connected to the N-terminal end of the oligopeptides while it was still on the resin. After the addition of TCPP, the TCPP-oligopeptide was cleaved off the resin and linked to the primary amine groups of Fe/Fe₃O₄-bound via a stable amide bond. In the presence of a particular protease, the consensus sequences attached to the nanoparticle can be cleaved and release TCPP to the aqueous medium. Upon releasing the dye, the emission intensity increases significantly and can be detected by fluorescence spectroscopy or, similarly, by using a fluorescence plate reader. In sensing of arginase, posttranslational modification of the peptide sequence will occur, transforming arginine to ornithine. This changes the conformational dynamics of the oligopeptide tether, leading to the increase of the TCPP signal. This is a highly selective technology, which has a very low limit of detection (LOD) of 1 x 10⁻¹⁶ molL⁻¹ for proteases and arginase. The potential of this nanobiosensor technology to detect early pancreatic and lung cancer was demonstrated by using serum samples, which were collected from patients who have been diagnosed with pancreatic cancer and non-small cell lung cancer at the South Eastern Nebraska Cancer Center (lung cancer) and the University of Kansas Cancer Center (pancreatic cancer). As controls, serum samples collected from healthy volunteers were analyzed. In pancreatic cancer detection, the protease/arginase signature for the detection of pancreatic adenocarcinomas in serum was identified. It comprises arginase, MMPs -1, - 3, and -9, cathepsins -B and -E, urokinase plasminogen activator, and neutrophil elastase. For lung cancer detection, the specificity and sensitivity of the nanobiosensors permit the accurate measurements of the activities of nine signature proteases in serum samples. Cathepsin -L and MMPs-1, -3, and -7 permit detecting non-small-cell lung-cancer at stage 1.

liquid biopsy

pancreatic cancer

non small cell lung cancer

fluorescence detection

nanobiosensor

cancer detection

Angiogenesis in human lung tumours

Ferguson, Mary L.

January 2008

Angiogenesis, the growth of new blood vessels, is vital to tumour growth. Prevailing dogma has been that tumours cannot grow without angiogenesis. Based on this premise, anti-angiogenic drugs are used clinically. However, the principle of angiogenesis as an absolute requirement for tumour growth has been challenged with reports that many tumours are entirely or partially non-angiogenic. This study describes and quantifies characteristics of non-angiogenic non-small cell lung tumours, demonstrates non-angiogenic growth in small-cell/neuroendocrine lung tumours and investigates the underlying pathogenetic processes by comparison with angiogenic lung tumours. Hypoxia is an important stimulus for angiogenesis. Differences in response to hypoxia may determine whether a tumour produces new vessels. In order to test this, levels of. necrosis, often considered a surrogate marker of hypoxic stress, were quantified but no difference in quantity of necrosis was found Moreover, immunohistochemical investigation of hypoxia and angiogenesis factors provided no unambiguous explanation for the differences in angiogenesis. Significant differences were seen, however, in fibrosis and inflammation, which were both greater in angiogenic tumours. Differences were greater for lymphocytes rather than cells of the ‘innate’ immune system. This provided an alternative hypothesis: angiogenesis occurs during wound healing and in the growth of granulation tissue, so it is possible that tumour angiogenesis is a response to factors produced by immune cells rather than the tumour itself. A tumour’s angiogenic status may, therefore, be determined by the response it provokes from the immune system. Further work to test this theory would compare levels of immunogenic factors such as Tumour Necrosis Factor and tumour cell surface antigens such as the HLA class I molecules. The study concludes with an investigation into the molecular basis of non-angiogenic growth using the technique of comparative genomic hybridisation (CGH) which allows amplifications and deletions of areas of DNA to be calculated. High-resolution array CGH was evaluated against conventional CGH, and the results compared with previous RNA studies from our laboratory. These revealed a set of genes with consistent changes in both RNA and DNA, several of which form part of known angiogenic and inflammatory pathways.

616.994

Heart disease and lung cancer risks after radiotherapy

Henson, Katherine Elizabeth

January 2014

Radiotherapy has been shown to increase the subsequent risk of heart disease among survivors of breast cancer, but little is known about factors, other than the dose of radiation delivered to the heart, which determine the magnitude of the risk. In addition, survivors of teenage and young adult cancer are internationally acknowledged as an understudied population, and limited information is available on their late health risks. This thesis sought to utilise the largest observational datasets available to date for these populations: the Collaborative Group on Observational Studies of Breast Cancer Survivors and the Teenage and Young Adult Cancer Survivor Study. These were used to firstly characterise the radiation-related risks of heart disease and lung cancer, and secondly to provide an overview of the long-term risk of heart disease for the entire spectrum of cancers diagnosed in teenagers and young adults aged 15 to 39. Initially, a methodology study and systematic review demonstrated that selection effects and other biases can be very problematic during analyses of observational cohorts, particularly when using a radiotherapy comparison. However, in the case of heart disease and lung cancer, one can take advantage of the breast being a paired organ and use a laterality comparison, particularly when laterality played little effect in treatment selection. This comparison was used throughout the analyses of breast cancer patients. This thesis demonstrated that adjuvant radiotherapy for breast cancer significantly increased the risk of heart disease among women with left-sided breast cancer and those patients with ipsilateral lung cancer. Interestingly, younger women were at the highest risk of heart disease, and a progressive proportional decrease in risk with increasing age at diagnosis was found, which has not been shown before. It also suggested that radiotherapy and chemotherapy combined may further increase the risk of heart disease among breast cancer patients. Survivors of teenage and young adult cancer, particularly Hodgkin lymphoma, were at a significantly raised cardiac mortality risk compared to the matched general population. The findings of this thesis provide evidence to support continued follow-up for cancer patients, as survivors were found to be at a substantial risk into the second or third decade after treatment. It has permitted the detection of groups of individuals at particularly increased risks, for example younger patients and survivors of Hodgkin lymphoma diagnosed in teenagers and young adults, for whom closer monitoring for late effects or measures to reduce the risk, such as adaptations to treatment, may be appropriate. Finally, evidence was also presented to support the development of clinical follow-up guidelines specifically for survivors of teenage and young adult cancer.

615.8

Optimization of Radiation Therapy in Time-Dependent Anatomy

Watkins, W. Tyler

08 April 2013

The objective of this dissertation is to develop treatment planning techniques that have the potential to improve radiation therapy of time-dependent (4D) anatomy. Specifically, this study examines dose estimation, dose evaluation, and decision making in the context of optimizing lung cancer radiation therapy. Two methods of dose estimation are compared in patients with locally advanced and early stage lung cancer: dose computed on a single image (3D-dose) and deformably registered, accumulated dose (or 4D-dose). The results indicate that differences between 3D- and 4D- dose are not significant in organs at risk (OARs), however, 4D-dose to a moving lung cancer target can deviate from 3D-dose. These differences imply that optimization of the 4D-dose through multiple-anatomy optimization (MAO) can improve radiation therapy in 4D-anatomy. MAO incorporates time-dependent target and OAR geometry while enabling a simple, clinically realizable delivery. MAO has the potential to enhance the therapeutic ratio in terms of target coverage and OAR sparing in 4D-anatomy. In dose evaluation within 4D-anatomy; dose-to-mass is a more intuitive and precise metric in estimating the effects of radiation in tissues. Assuming physical density is proportional to functional tissue density, dose-to-mass has a 1-1 correspondence with radiation damage. Dose-to-mass optimization boosts dose in massive regions of lung cancer targets and can reduce integral dose to lung by preferentially treating through regions of low-density lung tissue. Finally, multi-criteria optimization (MCO) is implemented in order to clarify decision making during plan design for lung cancer treatment. An MCO basis set establishes a patient-specific decision space which reveals trade-offs in OAR-dose at a fixed, constrained target dose. By interpolating the MCO basis set and evaluating the plan on 4D-anatomy, patient- and organ- specific conservatism in plan design can be expressed in real time. Through improved methods of dose estimation, dose evaluation, and decision making, this dissertation will positively impact radiation therapy of time-dependent anatomy.

Radiation Therapy

treatment planning

lung cancer

optimization

Health and Medical Physics

Medicine and Health Sciences

Public Health