Comparison between patient specific instrumentation and traditional technique in patients with total knee arthroplasty: An observational perspective study.

BACKGROUND: Total knee arthroplasty surgery (TKA) using prenavigated Patient Specific Instruments (PSI) technique represents one of the most recent technological evolutions in development of prosthetic surgery. The aim of this study was to evaluate kinematic and functional recovery of patients operated with prenavigated PSI technique compared to those operated with traditional technique. METHODS: A cohort of 20 patients is divided in two groups; some are operated with traditional technique (with NexGen Knee system) and others with prenavigated PSI technique (with eMP Knee system) at Asiago Hospital. Limb circumferences are measured for edema evaluation and different evaluation forms are provided to patients: SF-36, KSS pre-surgery (T0), KSS 15 (T1) and 45 days after surgery (T2). Gait Analysis is performed 60 days post-surgery, after leaving crutches. RESULTS: The analysis of KSS and SF-36 evaluation forms shows a greater improvement in PSI Evolution group in terms of articulation (comparison between T0 and T1), knee function and early return to physical and social activities. Pain is lesser in NexGen group, in an earlier phase, but 45 days after surgery (T2) there are no significant differences between two groups. Perception of general state of health improves more and earlier in NexGen. In NexGen group edema evaluation had significant differences at the level of prosthetic leg, but not in knee and thigh. Overall: the walking pattern is more physiological in PSI Evolution group. CONCLUSIONS: The present study highlighted the superiority of prenavigated PSI technique over traditional technique in recovering functionality of prosthetic knee and in restoring a more physiological path pattern.

Colorectal cancer metastatic to the breast: A case report.

BACKGROUND: Breast metastases from colorectal cancer (CRC) are very uncommon. There is no unanimous consensus regarding the best treatment for this rare condition, and management is, especially in elderly patients, limited to diagnosis and palliative care. Capecitabine, an oral fluoropyrimidine derivative, might be helpful in controlling the disease and may be a treatment option for patients unable to receive more aggressive chemotherapy. CASE SUMMARY: We report a case of synchronous massive breast metastasis from CRC in an 85 year old patient who came to the hospital presenting a huge mass originating from the axillary extension of the right breast. A whole body computed tomography also showed a mass in the right colon. The patient underwent a simple right mastectomy along with right hemicolectomy. The resected breast showed massive metastasis from CRC with intense and homogeneous nuclear CDX2 staining, while the colon specimen revealed poorly differentiated adenocarcinoma stage pT4a pN0 pM1 (breast) (Tumor Node Metastasis 2017). Three months later she developed a subcutaneous mass at the site of the previous mastectomy. An ultrasound guided biopsy was carried out again and revealed a metastasis from CRC. The patient then started treatment with capecitabine plus bevacizumab, obtaining stable disease (RECIST criteria) and a clinical benefit after 3 mo of therapy. CONCLUSION: In our experience, capecitabine and bevacizumab may be a useful treatment option for breast metastases from primary CRC in elderly patients.

Reduction in respiratory exacerbation rate in patients with severe bilateral cerebral palsy following daily PEP-mask therapy: a retrospective study.

BACKGROUND: Respiratory complications caused by the inability to protect the upper airways and ineffective cough represent a major cause of morbidity and mortality in patients with cerebral palsy (CP). Even though the application of positive end-expiratory pressure (PEP) through a face mask has gained large popularity as a technique to prevent bronchial mucous encumbrance, its long-term effects on clinical course and respiratory function in individuals with CP have not been investigated. AIM: The aim of this study is to investigate whether regular application of PEP through a face mask can improve clinical status and respiratory function in patients with severe CP. DESIGN: Observational, retrospective cohort study. SETTING: The outpatient rehabilitation unit of the IRCCS E. Medea Rehabilitation Hospital in Conegliano, Italy. POPULATION: CP outpatients admitted to the unit between January 1st, 2006 and December 31st, 2018. METHODS: All the medical records of the enrolled patients were collected and reviewed. All patients underwent multidisciplinary respiratory evaluation at T0 (immediately before the beginning of PEP-use) and T1 (12 months after). The evaluation assessed respiratory infections history (number of exacerbations per year), blood gas analysis, measurement of airway resistance through the interrupter technique. RESULTS: Twenty-one patients affected with CP (mean age 9.19±5.56 years, range 3-23 years, 8 females) were included. All patients had more than 3 infections per year (mean 4.81±1.17) in the year prior to treatment (T0). At T1 mean number of infections was 1.57±0.81); 17 patients (80%) reported less than three infections; two patients (10%) reported zero infections, two patients (10%) reported three infections. Blood gas analysis and airway resistance values did not show a significant difference at T0 and T1. CONCLUSIONS: Daily PEP-mask therapy reduces frequency of respiratory exacerbations in patients with severe bilateral CP. CLINICAL REHABILITATION IMPACT: PEP-mask is a valuable rehabilitative tool in severe CP patients with frequent respiratory exacerbations.

Circulating mir-320a promotes immunosuppressive macrophages M2 phenotype associated with lung cancer risk.

miRNAs play a central role in the complex signaling network of cancer cells with the tumor microenvironment. Little is known on the origin of circulating miRNAs and their relationship with the tumor microenvironment in lung cancer. Here, we focused on the cellular source and relative contribution of different cell types to circulating miRNAs composing our risk classifier of lung cancer using in vitro/in vivo models and clinical samples. A cell-type specific expression pattern and topography of several miRNAs such as mir-145 in fibroblasts, mir-126 in endothelial cells, mir-133a in skeletal muscle cells was observed in normal and lung cancer tissues. Granulocytes and platelets are the major contributors of miRNAs release in blood. miRNAs modulation observed in plasma of lung cancer subjects was consistent with de-regulation of the same miRNAs observed during immunosuppressive conversion of immune cells. In particular, activated neutrophils showed a miRNA profile mirroring that observed in plasma of lung cancer subjects. Interestingly mir-320a secreted by neutrophils of high-risk heavy-smokers promoted an M2-like protumorigenic phenotype through downregulation of STAT4 when shuttled into macrophages. These findings suggest a multifactorial and nonepithelial cell-autonomous origin of circulating miRNAs associated with risk of lung cancer and that circulating miRNAs may act in paracrine signaling with causative role in lung carcinogenesis and immunosuppression.

MicroRNA Based Liquid Biopsy: The Experience of the Plasma miRNA Signature Classifier (MSC) for Lung Cancer Screening.

The development of a minimally invasive test, such as liquid biopsy, for early lung cancer detection in its preclinical phase is crucial to improve the outcome of this deadly disease. MicroRNAs (miRNAs) are tissue specific, small, non-coding RNAs regulating gene expression, which may act as extracellular messengers of biological signals derived from the cross-talk between the tumor and its surrounding microenvironment. They could thus represent ideal candidates for early detection of lung cancer. In this work, a methodological workflow for the prospective validation of a circulating miRNA test using custom made microfluidic cards and quantitative Real-Time PCR in plasma samples of volunteers enrolled in a lung cancer screening trial is proposed. In addition, since the release of hemolysis-related miRNAs and more general technical issues may affect the analysis, the quality control steps included in the standard operating procedures are also presented. The protocol is reproducible and gives reliable quantitative results; however, when using large clinical series, both pre-analytical and analytical features should be cautiously evaluated.

Detection of microRNAs Using Chip-Based QuantStudio 3D Digital PCR.

Digital PCR (dPCR) is an innovative approach for detection and quantification of nucleic acid that offers an alternative method to conventional real-time quantitative PCR for absolute quantification. dPCR is a highly precise and sensitive technique that does not require a standard reference, making it a suitable method for the detection of microRNAs. The potential of these small noncoding RNA as biomarkers is on the rise, especially due to their presence in body fluids, making them easily accessible. Nevertheless, the problem of lack of consensus regarding an optimal method for miRNAs normalization compromises their use. Here, we describe an innovative method for the absolute quantification of miRNAs across different types of biological samples using a chip-based platform, the QuantStudio 3D digital PCR.

Synergistic Activation upon MET and ALK Coamplification Sustains Targeted Therapy in Sarcomatoid Carcinoma, a Deadly Subtype of Lung Cancer.

INTRODUCTION: Genetic alterations suitable for targeted therapy are poorly known issues in pulmonary sarcomatoid carcinoma (PSC), an uncommon and life-threatening family of non-small cell lung cancers. METHODS: Ninety-eight PSCs were assessed for MNNG HOS Transforming gene (MET) and anaplastic lymphoma receptor tyrosine kinase gene (ALK) status by fluorescence in situ hybridization (FISH) and for relevant protein expression by immunohistochemical analysis, also taking advantage of phosphorylated (p-) antibodies. Moreover, levels of ALK and MET mRNA were also determined by real-time polymerase chain reaction and Western blot analysis for downstream activation pathways involving p-MET, p-protein kinase B, p-mitogen-activated protein kinase, p-SRC proto-oncogene tyrosine-protein kinase, and p-focal adhesion kinase (p-FAK). RESULTS: MET amplification was detected by FISH in 25 of 98 PSCs (25.6%) and ALK amplification (but not the relevant rearrangement) was found in 16 of 98 (16.3%), with all ALK-amplified tumors also showing MET amplification (p < 0.0001). Nine PSCs, however, showed MET amplification without any ALK gene alteration. ALK protein expression was always lacking, whereas MET and p-MET were confined to the relevant amplified tumors only. Increased levels of ALK and MET mRNA were detectable in tumors with no direct relationship between mRNA content, protein expression, or alterations detected by FISH. Western blot assays showed complete activation of downstream signal pathways up to p-SRC proto-oncogene tyrosine-protein kinase, and p-focal adhesion kinase recruitment in MET and ALK-coamplified tumors only, whereas isolated MET amplification, MET and ALK borderline amplification (5%-10% of tumor cells with ≥15 copies of the relevant gene), or negative tumors showing eusomy or chromosome polysomy were confined to p-mitogen-activated protein kinase, p-protein kinase B, and/or p-MET activation. Multivariate survival analysis pushed a higher percentage of MET altered cells or a higher value of MET copy gain per cell to marginally emerge for overall survival (p = 0.140) and disease-free survival (p = 0.060), respectively. CONCLUSIONS: ALK and MET seemed to act as synergistic, nonrandom coactivators of downstream signal when coamplified in a subset of patients with PSC, thus likely suggesting a combined mechanism of oncogene addiction. These alterations could be a suitable target for therapy based on specific inhibitors.

Novel method to detect microRNAs using chip-based QuantStudio 3D digital PCR.

BACKGROUND: Research efforts for the management of cancer, in particular for lung cancer, are directed to identify new strategies for its early detection. MicroRNAs (miRNAs) are a new promising class of circulating biomarkers for cancer detection, but lack of consensus on data normalization methods has affected the diagnostic potential of circulating miRNAs. There is a growing interest in techniques that allow an absolute quantification of miRNAs which could be useful for early diagnosis. Recently, digital PCR, mainly based on droplets generation, emerged as an affordable technology for precise and absolute quantification of nucleic acids. RESULTS: In this work, we described a new interesting approach for profiling circulating miRNAs in plasma samples using a chip-based platform, the QuantStudio 3D digital PCR. The proposed method was validated using synthethic oligonucleotide at serial dilutions in plasma samples of lung cancer patients and in lung tissues and cell lines. CONCLUSION: Given its reproducibility and reliability, our approach could be potentially applied for the identification and quantification of miRNAs in other biological samples such as circulating exosomes or protein complexes. As chip-digital PCR becomes more established, it would be a robust tool for quantitative assessment of miRNA copy number for diagnosis of lung cancer and other diseases.

Metastatic uterine leiomyosarcoma in the upper buccal gingiva misdiagnosed as an epulis.

Uterine leiomyosarcoma (LMS) is a rare tumor constituting 1% of all uterine malignancies. This sarcoma demonstrates an aggressive growth pattern with an high rate of recurrence with hematologic dissemination; the most common sites are lung, liver, and peritoneal cavity, head and neck district being rarely interested. Only other four cases of metastasis in the oral cavity have been previously described. The treatment of choice is surgery and the use of adjuvant chemotherapy and radiation has limited impact on clinical outcome. In case of metastases, surgical excision can be performed considering extent of disease, number and type of distant lesions, disease free interval from the initial diagnosis to the time of metastases, and expected life span. We illustrate a case of uterine LMS metastasis in the upper buccal gingiva that occurred during chemotherapy in a 63-year-old woman that underwent a total abdominal hysterectomy with bilateral salpingo-oophorectomy for a diagnosis of LMS staged as pT2bN0 and that developed lung metastases eight months after primary treatment. Surgical excision of the oral mass (previously misdiagnosed as epulis at a dental center) and contemporary reconstruction with pedicled temporalis muscle flap was performed in order to improve quality of life. Even if resection was achieved in free margins, "local" relapse was observed 5 months after surgery.

Assessment of circulating microRNAs in plasma of lung cancer patients.

Lung cancer is the most common cause of cancer deaths worldwide and numerous ongoing research efforts are directed to identify new strategies for its early detection. The development of non-invasive blood-based biomarkers for cancer detection in its preclinical phases is crucial to improve the outcome of this deadly disease. MicroRNAs (miRNAs) are a new promising class of circulating biomarkers for cancer detection and prognosis definition, but lack of consensus on data normalization methods for circulating miRNAs and the critical issue of haemolysis, has affected the identification of circulating miRNAs with diagnostic potential. We describe here an interesting approach for profiling circulating miRNAs in plasma samples based on the evaluation of reciprocal miRNA levels measured by quantitative Real-Time PCR. By monitoring changes of plasma miRNA-ratios, it is possible to assess the deregulation of tumor-related miRNAs and identify signatures with diagnostic and prognostic value. In addition, to avoid bias due to the release of miRNAs from blood cells, a miRNA-ratios signature distinguishing haemolyzed samples was identified. The method described was validated in plasma samples of lung cancer patients, but given its reproducibility and reliability, could be potentially applied for the identification of diagnostic circulating miRNAs in other diseases.

Clinical utility of a plasma-based miRNA signature classifier within computed tomography lung cancer screening: a correlative MILD trial study.

PURPOSE: Recent screening trial results indicate that low-dose computed tomography (LDCT) reduces lung cancer mortality in high-risk patients. However, high false-positive rates, costs, and potential harms highlight the need for complementary biomarkers. The diagnostic performance of a noninvasive plasma microRNA signature classifier (MSC) was retrospectively evaluated in samples prospectively collected from smokers within the randomized Multicenter Italian Lung Detection (MILD) trial. PATIENTS AND METHODS: Plasma samples from 939 participants, including 69 patients with lung cancer and 870 disease-free individuals (n = 652, LDCT arm; n = 287, observation arm) were analyzed by using a quantitative reverse transcriptase polymerase chain reaction-based assay for MSC. Diagnostic performance of MSC was evaluated in a blinded validation study that used prespecified risk groups. RESULTS: The diagnostic performance of MSC for lung cancer detection was 87% for sensitivity and 81% for specificity across both arms, and 88% and 80%, respectively, in the LDCT arm. For all patients, MSC had a negative predictive value of 99% and 99.86% for detection and death as a result of disease, respectively. LDCT had sensitivity of 79% and specificity of 81% with a false-positive rate of 19.4%. Diagnostic performance of MSC was confirmed by time dependency analysis. Combination of both MSC and LDCT resulted in a five-fold reduction of LDCT false-positive rate to 3.7%. MSC risk groups were significantly associated with survival (χ1(2) = 49.53; P < .001). CONCLUSION: This large validation study indicates that MSC has predictive, diagnostic, and prognostic value and could reduce the false-positive rate of LDCT, thus improving the efficacy of lung cancer screening.

The impact of chemotherapy on the lymphatic system in thoracic oncology.

Non-small-cell lung cancer remains the leading cause of cancer-related mortality in the United States and Europe. Most patients are diagnosed with metastatic disease for which chemotherapy remains the cornerstone of treatment. In non-metastatic disease, surgery is the most potentially curative therapeutic option, but its outcome is still poor, in particular for patients with lymph node involvement. Therefore, several randomized adjuvant/neoadjuvant trials using chemotherapy and/or radiotherapy investigated the possibility of increasing the overall survival of patients with surgically treated lung cancer. The findings are reviewed in this article.

Inactivation of both FHIT and p53 cooperate in deregulating proliferation-related pathways in lung cancer.

INTRODUCTION: FHIT and p53 are the two most commonly altered tumor suppressor genes in lung cancer, and their molecular status regulates sensitivity to anticancer drugs. Although their functions are independent, there is evidence that their pathways might be interconnected, but little is known at the molecular level. METHODS: Microarray profiling of FHIT-transduced lung cancer cells and modulation of FHIT levels by RNA interference in human bronchial cells were used to generate a signature of FHIT-regulated transcripts. Expression of these genes was evaluated by real-time polymerase chain reaction in 55 primary lung cancer samples characterized for FHIT and p53 expression by immunehistochemistry. RESULTS: A signature of FHIT-transcripts, particularly enriched in genes involved in cell cycle control, was identified. This signature showed overlap with p53-regulated genes, indicating possible crosstalk between these proteins. Consistently, transcriptional deregulation after FHIT modulation was higher in p53-negative cells. In primary lung cancers, inactivation of either gene was detected in 48 of 55 cases (87%) and both genes in 23 of 55 (42%) cases, confirming the central role of these pathways. Primary tumors with inactivation of both FHIT and p53 displayed the strongest deregulation of growth-related pathways with high levels of expression of CCNB1, BUB1, CDC6, TOP2A, MCM6, and CENPF. CONCLUSIONS: FHIT and p53 seem to rely on common mediators, and inactivation of both genes results in prominent deregulation of growth-related pathways in lung cancer cell lines and primary tumors. This reveals crosstalk between these proteins and suggests a possible distinctive phenotype for tumors with inactivation of both genes.

The modulation of myogenic cells differentiation using a semiconductor-muscle junction.

The present study is aimed to design a prototype of hybrid silicon-muscle cell junction, analog to an artificial neuromuscular junction prototype and relevant to the development of advanced neuro-prostheses and bionic systems. The device achieves focal Electric Capacitive Stimulation (ECS) by coupling of single cells and semiconductors, without electrochemical reaction with the substrate. A voltage change applied to a stimulation spot beneath an electrogenic cell leads to a capacitive current (charge accumulation) that opens voltage-gated ion channels in the membrane and generates an action potential. The myo-electronic junction was employed to chronically stimulate muscle cells via ECS and to induce cytosolic calcium transients in myotubes, fibers isolated from mouse FDB (fast [Ca(2+)](i) transients) and surprisingly also in undifferentiated myoblasts (slow [Ca(2+)](i) waves). The hybrid junction elicited, via chronic ECS, a differential reprogramming of single muscle cells by inducing early muscle contraction maturation and plasticity effects, such as NFAT-C3 nuclear translocation. In addition, in the presence of agrin, chronic ECS induced a modulation of AchR clustering which simulates in vitro synaptogenesis. This methodology can coordinate the myogenic differentiation, thus offering direct but non-invasive single cell/wiring, providing a platform for regenerative medicine strategies.

MicroRNA signatures in tissues and plasma predict development and prognosis of computed tomography detected lung cancer.

The efficacy of computed tomography (CT) screening for early lung cancer detection in heavy smokers is currently being tested by a number of randomized trials. Critical issues remain the frequency of unnecessary treatments and impact on mortality, indicating the need for biomarkers of aggressive disease. We explored microRNA (miRNA) expression profiles of lung tumors, normal lung tissues and plasma samples from cases with variable prognosis identified in a completed spiral-CT screening trial with extensive follow-up. miRNA expression patterns significantly distinguished: (i) tumors from normal lung tissues, (ii) tumor histology and growth rate, (iii) clinical outcome, and (iv) year of lung cancer CT detection. Interestingly, miRNA profiles in normal lung tissues also displayed remarkable associations with clinical features, suggesting the influence of a permissive microenvironment for tumor development. miRNA expression analyses in plasma samples collected 1-2 y before the onset of disease, at the time of CT detection and in disease-free smokers enrolled in the screening trial, resulted in the generation of miRNA signatures with strong predictive, diagnostic, and prognostic potential (area under the ROC curve ≥ 0.85). These signatures were validated in an independent cohort from a second randomized spiral-CT trial. These results indicate a role for miRNAs in lung tissues and plasma as molecular predictors of lung cancer development and aggressiveness and have theoretical and clinical implication for lung cancer management.

Dermatomyositis as first clinical appearance for a thymic epidermoid cell carcinoma.

Primary thymic carcinoma is a rare and heterogeneous group of tumours of the anterior mediastinum that includes different histological types. Frequently, it first comes to clinical attention through paraneoplastic syndromes such as dermatomyositis. We report the case of a 54-year-old woman with several episodes of fever and chest pain in the previous 5 months. The patient was admitted to the Rheumatology Department with a peri-ungual erythema and papular lesions on both sides of each hand and alteration at biochemistry tests. A left deltoid muscle biopsy specimen showed a histological pattern compatible with the diagnosis of dermatomyositis. A computed tomography of the chest, abdomen and pelvis, showed a solid mass in the upper anterior mediastinal area and a mediastinoscopy with mass-biopsy was performed. Only the immunohistochemical staining technique allowed a definitive histological diagnosis. We report the diagnostic challenge and the therapeutic approach of thymic neoplasia.

The EML4-ALK transcript but not the fusion protein can be expressed in reactive and neoplastic lymphoid tissues.

Rearrangements involving the ALK gene define two distinct entities in the new 2008 WHO classification of lymphoid neoplasms, i.e. ALK+ anaplastic large cell lymphoma and a rare subset of ALK+ diffuse large B-cell lymphoma. Recently, rearrangements involving ALK and the echinoderm microtubule associated protein-like 4 (EML4) gene were described as a specific genetic alteration in about 6% of non-small cell lung cancer (NSCLC). We investigated the expression of EML4-ALK mRNA and protein in 51 reactive and 58 neoplastic lymphoid tissues. EML4-ALK transcripts were detected in 3/51 (5.9%) of reactive lymphoid tissues and 12/58 (20.7%) of lymphomas of different categories, including follicular lymphoma, diffuse large B-cell lymphoma and Hodgkin's disease. Notably, none of these cases expressed the EML4-ALK fusion protein at Western blotting samples and immunohistochemistry. These results indicate that EML4-ALK rearrangements are not specific of NSCLC and raise yet unsolved questions about their role in promoting human neoplasms.

EML4-ALK rearrangement in non-small cell lung cancer and non-tumor lung tissues.

A fusion gene, echinoderm microtubule associated protein like 4-anaplastic lymphoma kinase (EML4-ALK), with transforming activity has recently been identified in a subset of non-small cell lung cancer (NSCLC), but its pathogenetic, diagnostic, and therapeutic roles remain unclear. Both frequency and type of EML4-ALK transcripts were investigated by reverse transcription PCR in 120 frozen NSCLC specimens from Italy and Spain; non-neoplastic lung tissues taken far from the tumor were used as controls. In cases carrying the fusion transcript, we determined EML4-ALK gene and protein levels using fluorescence in situ hybridization, Western blotting, and immunoprecipitation. We also analyzed ALK protein levels in paraffin samples from 662 NSCLC specimens, including the 120 cases investigated in the molecular studies. EML4-ALK transcripts (variants 1 and 3) were detected in 9 of 120 NSCLC samples but were not specific for NSCLC since they were also found in non-cancerous lung tissues taken far from the tumor. Notably, no transcripts were detected in matching tumor samples from these patients. Fluorescence in situ hybridization analysis of cases expressing EML4-ALK transcripts showed that only a minority of cells harbored the EML4-ALK gene. None of these cases was found to express the EML4-ALK protein as examined by immunohistochemistry, Western blotting, and immunoprecipitation. The EML4-ALK transcript cannot be regarded as a specific diagnostic tool for NSCLC. Our results show therefore that the causal role and value of EML4-ALK as a therapeutic target remain to be defined.

Fragile histidine triad gene inactivation in lung cancer: the European Early Lung Cancer project.

RATIONALE: Fragile histidine triad (FHIT) is a tumor suppressor gene involved in the pathogenesis of lung cancer. OBJECTIVES: The purpose of this study was to investigate the different molecular alterations leading to the inactivation of FHIT gene function and to validate their use as biomarkers of risk for progression of the disease in patients belonging to the multicentric European study for the Early detection of Lung Cancer (EUELC) who were resected for early-stage lung tumors. METHODS: FHIT immunostaining was performed on 305 tumor samples. The methylation status of FHIT promoter was assessed by nested methylation-specific polymerase chain reaction (MSP-PCR) in 232 tumor and 225 normal lung samples of which a subset of 187 patients had available normal/tumor DNA pairs. Loss of heterozygosity (LOH) at the FHIT locus was analyzed in 202 informative cases by D3S1300 and D3S1234 microsatellite markers. MEASUREMENTS AND MAIN RESULTS: Lost or reduced FHIT expression was found in 36.7 and 75.7% of the tumor samples, respectively. Methylation of the FHIT promoter was found in 36.7% of tumor and 32.7% of normal lung samples, whereas LOH was detected in 61.9% of the tumors. A strong association with complete loss of FHIT expression was present when methylation and LOH were analyzed together (P = 0.0064). Loss of FHIT protein expression was significantly more frequent in squamous cell carcinoma histotype (P < 0.0001) and in smokers (P = 0.008). FHIT methylation in normal lung was associated with an increased risk of progressive disease (OR, 2.27; P = 0.0415). CONCLUSIONS: Our results indicate that different molecular mechanisms interplay to inactivate FHIT expression and support the proposition that FHIT methylation in normal lung tissue could represent a prognostic marker for progressive disease.